/****************************************************************************
*
* Copyright(c) 2002-2012, John Forkosh Associates, Inc. All rights reserved.
* http://www.forkosh.com mailto: john@forkosh.com
* --------------------------------------------------------------------------
* This file is part of mimeTeX, which is free software. You may redistribute
* and/or modify it under the terms of the GNU General Public License,
* version 3 or later, as published by the Free Software Foundation.
* MimeTeX is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY, not even the implied warranty of MERCHANTABILITY.
* See the GNU General Public License for specific details.
* By using mimeTeX, you warrant that you have read, understood and
* agreed to these terms and conditions, and that you possess the legal
* right and ability to enter into this agreement and to use mimeTeX
* in accordance with it.
* Your mimetex.zip distribution file should contain the file COPYING,
* an ascii text copy of the GNU General Public License, version 3.
* If not, point your browser to http://www.gnu.org/licenses/
* or write to the Free Software Foundation, Inc.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
* --------------------------------------------------------------------------
*
* Purpose: o MimeTeX, licensed under the gpl, lets you easily embed
* LaTeX math in your html pages. It parses a LaTeX math
* expression and immediately emits the corresponding gif
* image, rather than the usual TeX dvi. And mimeTeX is an
* entirely separate little program that doesn't use TeX or
* its fonts in any way. It's just one cgi that you put in
* your site's cgi-bin/ directory, with no other dependencies.
* So mimeTeX is very easy to install. And it's equally
* easy to use. Just place an html tag in your document
* wherever you want to see the corresponding LaTeX expression.
* For example,
*
* immediately generates the corresponding gif image on-the-fly,
* displaying the rendered expression wherever you put that
* tag.
* MimeTeX doesn't need intermediate dvi-to-gif conversion,
* and it doesn't clutter up your filesystem with separate
* little gif files for each converted expression.
* But image caching is available by using mimeTeX's
* -DCACHEPATH=\"path/\" compile option (see below).
* There's also no inherent need to repeatedly write the
* cumbersome tag illustrated above. You can write
* your own custom tags, or write a wrapper script around
* mimeTeX to simplify the notation.
* Further discussion about mimeTeX's features and
* usage is available on its homepage,
* http://www.forkosh.com/mimetex.html
* and similarly in mimetex.html included with your mimetex.zip
* distribution file. (Note: http://www.forkosh.com/mimetex.html
* is a "quickstart" version of the the full mimetex.html manual
* included in your mimetex.zip distribution file.)
*
* Functions: The following "table of contents" lists each function
* comprising mimeTeX in the order it appears in this file.
* See individual function entry points for specific comments
* about its purpose, calling sequence, side effects, etc.
* (All these functions eventually belong in several
* different modules, possibly along the lines suggested
* by the divisions below. But until the best decomposition
* becomes clear, it seems better to keep mimetex.c
* neatly together, avoiding a bad decomposition that
* becomes permanent by default.)
* ===================== Raster Functions ======================
* PART2 --- raster constructor functions ---
* new_raster(width,height,pixsz) allocation (and constructor)
* new_subraster(width,height,pixsz)allocation (and constructor)
* new_chardef() allocate chardef struct
* delete_raster(rp) deallocate raster (rp = raster ptr)
* delete_subraster(sp) deallocate subraster (sp=subraster ptr)
* delete_chardef(cp) deallocate chardef (cp = chardef ptr)
* --- primitive (sub)raster functions ---
* rastcpy(rp) allocate new copy of rp
* subrastcpy(sp) allocate new copy of sp
* rastrot(rp) new raster rotated right 90 degrees to rp
* rastmag(rp,magstep) new raster magnified by "magstep" to rp
* bytemapmag(bytemap,width,height,magstep) magnify bytemap
* rastref(rp,axis) new raster reflected (axis 1=horz,2=vert)
* rastput(target,source,top,left,isopaque) overlay src on trgt
* rastcompose(sp1,sp2,offset2,isalign,isfree) sp2 on top of sp1
* rastcat(sp1,sp2,isfree) concatanate sp1||sp2
* rastack(sp1,sp2,base,space,iscenter,isfree)stack sp2 atop sp1
* rastile(tiles,ntiles) create composite raster from tiles
* rastsmash(sp1,sp2,xmin,ymin) calc #smash pixels sp1||sp2
* rastsmashcheck(term) check if term is "safe" to smash
* --- raster "drawing" functions ---
* accent_subraster(accent,width,height,direction,pixsz)\hat\vec
* arrow_subraster(width,height,drctn,isBig) left/right arrow
* uparrow_subraster(width,height,drctn,isBig) up/down arrow
* rule_raster(rp,top,left,width,height,type) draw rule in rp
* line_raster(rp,row0,col0,row1,col1,thickness) draw line in rp
* line_recurse(rp,row0,col0,row1,col1,thickness) recurse line
* circle_raster(rp,row0,col0,row1,col1,thickness,quads) ellipse
* circle_recurse(rp,row0,col0,row1,col1,thickness,theta0,theta1)
* bezier_raster(rp,r0,c0,r1,c1,rt,ct) draw bezier recursively
* border_raster(rp,ntop,nbot,isline,isfree)put border around rp
* backspace_raster(rp,nback,pback,minspace,isfree) neg space
* --- raster (and chardef) output functions ---
* type_raster(rp,fp) emit ascii dump of rp on file ptr fp
* type_bytemap(bp,grayscale,width,height,fp) dump bytemap on fp
* xbitmap_raster(rp,fp) emit mime xbitmap of rp on fp
* type_pbmpgm(rp,ptype,file) pbm or pgm image of rp to file
* cstruct_chardef(cp,fp,col1) emit C struct of cp on fp
* cstruct_raster(rp,fp,col1) emit C struct of rp on fp
* hex_bitmap(rp,fp,col1,isstr)emit hex dump of rp->pixmap on fp
* --- ancillary output functions ---
* emit_string(fp,col1,string,comment) emit string and C comment
* gftobitmap(rp) convert .gf-like pixmap to bitmap image
* ====================== Font Functions =======================
* --- font lookup functions ---
* get_symdef(symbol) return mathchardef for symbol
* get_ligature(expr,family) return symtable index for ligature
* get_chardef(symdef,size) return chardef for symdef,size
* get_charsubraster(symdef,size) wrap subraster around chardef
* get_symsubraster(symbol,size) returns subraster for symbol
* --- ancillary font functions ---
* get_baseline(gfdata) determine baseline (in our coords)
* get_delim(symbol,height,family) delim just larger than height
* make_delim(symbol,height) construct delim exactly height size
* ================= Tokenize/Parse Functions ==================
* texchar(expression,chartoken) retruns next char or \sequence
* texsubexpr(expr,subexpr,maxsubsz,left,right,isescape,isdelim)
* texleft(expr,subexpr,maxsubsz,ldelim,rdelim) \left...\right
* texscripts(expression,subscript,superscript,which)get scripts
* --- ancillary parse functions ---
* isbrace(expression,braces,isescape) check for leading brace
* preamble(expression,size,subexpr) parse preamble
* mimeprep(expression) preprocessor converts \left( to \(, etc.
* strchange(nfirst,from,to) change nfirst chars of from to to
* strreplace(string,from,to,nreplace) change from to to in str
* strwstr(string,substr,white,sublen) find substr in string
* strdetex(s,mode) replace math chars like \^_{} for display
* strtexchr(string,texchr) find texchr in string
* findbraces(expression,command) find opening { or closing }
* strpspn(s,reject,segment) non-() chars of s not in reject
* isstrstr(string,snippets,iscase) are any snippets in string?
* isnumeric(s) determine if s is an integer
* evalterm(store,term) evaluate numeric value of expression
* getstore(store,identifier)return value corresponding to ident
* unescape_url(url,isescape), x2c(what) xlate %xx url-encoded
* PART3 =========== Rasterize an Expression (recursively) ===========
* --- here's the primary entry point for all of mimeTeX ---
* rasterize(expression,size) parse and rasterize expression
* --- explicitly called handlers that rasterize... ---
* rastparen(subexpr,size,basesp) parenthesized subexpr
* rastlimits(expression,size,basesp) dispatch super/sub call
* rastscripts(expression,size,basesp) super/subscripted exprssn
* rastdispmath(expression,size,sp) scripts for displaymath
* --- table-driven handlers that rasterize... ---
* rastleft(expression,size,basesp,ildelim,arg2,arg3)\left\right
* rastright(expression,size,basesp,ildelim,arg2,arg3) ...\right
* rastmiddle(expression,size,basesp,arg1,arg2,arg3) \middle
* rastflags(expression,size,basesp,flag,value,arg3) set flag
* rastspace(expression,size,basesp,width,isfill,isheight)\,\:\;
* rastnewline(expression,size,basesp,arg1,arg2,arg3) \\
* rastarrow(expression,size,basesp,width,height,drctn) \longarr
* rastuparrow(expression,size,basesp,width,height,drctn)up/down
* rastoverlay(expression,size,basesp,overlay,arg2,arg3) \not
* rastfrac(expression,size,basesp,isfrac,arg2,arg3) \frac \atop
* rastackrel(expression,size,basesp,base,arg2,arg3) \stackrel
* rastmathfunc(expression,size,basesp,base,arg2,arg3) \lim,\etc
* rastsqrt(expression,size,basesp,arg1,arg2,arg3) \sqrt
* rastaccent(expression,size,basesp,accent,isabove,isscript)
* rastfont(expression,size,basesp,font,arg2,arg3) \cal{},\scr{}
* rastbegin(expression,size,basesp,arg1,arg2,arg3) \begin{}
* rastarray(expression,size,basesp,arg1,arg2,arg3) \array
* rastpicture(expression,size,basesp,arg1,arg2,arg3) \picture
* rastline(expression,size,basesp,arg1,arg2,arg3) \line
* rastrule(expression,size,basesp,arg1,arg2,arg3) \rule
* rastcircle(expression,size,basesp,arg1,arg2,arg3) \circle
* rastbezier(expression,size,basesp,arg1,arg2,arg3) \bezier
* rastraise(expression,size,basesp,arg1,arg2,arg3) \raisebox
* rastrotate(expression,size,basesp,arg1,arg2,arg3) \rotatebox
* rastmagnify(expression,size,basesp,arg1,arg2,arg3) \magnify
* rastreflect(expression,size,basesp,arg1,arg2,arg3)\reflectbox
* rastfbox(expression,size,basesp,arg1,arg2,arg3) \fbox
* rastinput(expression,size,basesp,arg1,arg2,arg3) \input
* rastcounter(expression,size,basesp,arg1,arg2,arg3) \counter
* rasteval(expression,size,basesp,arg1,arg2,arg3) \eval
* rasttoday(expression,size,basesp,arg1,arg2,arg3) \today
* rastcalendar(expression,size,basesp,arg1,arg2,arg3) \calendar
* rastenviron(expression,size,basesp,arg1,arg2,arg3) \environ
* rastmessage(expression,size,basesp,arg1,arg2,arg3) \message
* rastnoop(expression,size,basesp,arg1,arg2,arg3) flush \escape
* --- helper functions for handlers ---
* rastopenfile(filename,mode) opens filename[.tex] in mode
* rasteditfilename(filename) edit filename (for security)
* rastreadfile(filename,islock,tag,value) read ...
* rastwritefile(filename,tag,value,isstrict)write...
* calendar(year,month,day) formats one-month calendar string
* timestamp(tzdelta,ifmt) formats timestamp string
* tzadjust(tzdelta,year,month,day,hour) adjust date/time
* daynumber(year,month,day) #days since Monday, Jan 1, 1973
* strwrap(s,linelen,tablen)insert \n's and spaces to wrap lines
* strnlower(s,n) lowercase the first n chars of string s
* urlprune(url,n) http://abc.def.ghi.com/etc-->abc.def.ghi.com
* urlncmp(url1,url2,n) compares topmost n levels of two url's
* dbltoa(d,npts) double to comma-separated ascii
* === Anti-alias completed raster (lowpass) or symbols (ss) ===
* aalowpass(rp,bytemap,grayscale) lowpass grayscale bytemap
* aapnm(rp,bytemap,grayscale) lowpass based on pnmalias.c
* aapnmlookup(rp,bytemap,grayscale) aapnm based on aagridnum()
* aapatterns(rp,irow,icol,gridnum,patternum,grayscale) call 19,
* aapattern1124(rp,irow,icol,gridnum,grayscale)antialias pattrn
* aapattern19(rp,irow,icol,gridnum,grayscale) antialias pattern
* aapattern20(rp,irow,icol,gridnum,grayscale) antialias pattern
* aapattern39(rp,irow,icol,gridnum,grayscale) antialias pattern
* aafollowline(rp,irow,icol,direction) looks for a "turn"
* aagridnum(rp,irow,icol) calculates gridnum, 0-511
* aapatternnum(gridnum) looks up pattern#, 1-51, for gridnum
* aalookup(gridnum) table lookup for all possible 3x3 grids
* aalowpasslookup(rp,bytemap,grayscale) driver for aalookup()
* aasupsamp(rp,aa,sf,grayscale) or by supersampling
* aacolormap(bytemap,nbytes,colors,colormap)make colors,colormap
* aaweights(width,height) builds "canonical" weight matrix
* aawtpixel(image,ipixel,weights,rotate) weight image at ipixel
* === miscellaneous ===
* mimetexsetmsg(newmsglevel,newmsgfp) set msglevel and msgfp
* PART1 ========================== Driver ===========================
* main(argc,argv) parses math expression and emits mime xbitmap
* CreateGifFromEq(expression,gifFileName) entry pt for win dll
* ismonth(month) is month current month ("jan"-"dec")?
* logger(fp,msglevel,logvars) logs environment variables
* emitcache(cachefile,maxage,valign,isbuffer) emit cachefile
* readcachefile(cachefile,buffer) read cachefile into buffer
* advertisement(expression,mode) wrap expression in ad message
* crc16(s) 16-bit crc of string s
* md5str(instr) md5 hash library functions
* GetPixel(x,y) callback function for gifsave library
*
* Source: mimetex.c (needs mimetex.h and texfonts.h to compile,
* and also needs gifsave.c when compiled with -DAA or -DGIF)
*
* --------------------------------------------------------------------------
* Notes o See individual function entry points for specific comments
* about the purpose, calling sequence, side effects, etc
* of each mimeTeX function listed above.
* o See bottom of file for main() driver (and "friends"),
* and compile as
* cc -DAA mimetex.c gifsave.c -lm -o mimetex.cgi
* to produce an executable that emits gif images with
* anti-aliasing (see Notes below). You may also compile
* cc -DGIF mimetex.c gifsave.c -lm -o mimetex.cgi
* to produce an executable that emits gif images without
* anti-aliasing. Alternatively, compile mimeTeX as
* cc -DXBITMAP mimetex.c -lm -o mimetex.cgi
* to produce an executable that just emits mime xbitmaps.
* In either case you'll need mimetex.h and texfonts.h,
* and with -DAA or -DGIF you'll also need gifsave.c
* o The font information in texfonts.h was produced by multiple
* runs of gfuntype, one run per struct (i.e., one run per font
* family at a particular size). Compile gfuntype as
* cc gfuntype.c mimetex.c -lm -o gfuntype
* See gfuntype.c, and also mimetex.html#fonts, for details.
* o For gif images, the gifsave.c library by Sverre H. Huseby
* slightly modified by me to allow
* (a)sending output to stdout or returning it in memory,
* and (b)specifying a transparent background color index,
* is included with mimeTeX, and it's documented in
* mimetex.html#gifsave
* o MimeTeX's principal reusable function is rasterize(),
* which takes a string like "f(x)=\int_{-\infty}^xe^{-t^2}dt"
* and returns a (sub)raster representing it as a bit or bytemap.
* Your application can do anything it likes with this pixel map.
* MimeTeX just outputs it, either as a mime xbitmap or as a gif.
* See mimetex.html#makeraster for further discussion
* and examples.
* o File mimetex.c also contains library functions implementing
* a raster datatype, functions to manipulate rasterized .mf
* fonts (see gfuntype.c which rasterizes .mf fonts), functions
* to parse LaTeX expressions, etc. As already mentioned,
* a complete list of mimetex.c functions is above. See their
* individual entry points below for further comments.
* As also mentioned, these functions eventually belong in
* several different modules, possibly along the lines suggested
* by the divisions above. But until the best decomposition
* becomes clear, it seems better to keep mimetex.c
* neatly together, avoiding a bad decomposition that
* becomes permanent by default.
* o Optional compile-line -D defined symbols are documented
* in mimetex.html#options . They include (additional -D
* switches are discussed at mimetex.html#options)...
* -DAA
* Turns on gif anti-aliasing with default values
* (CENTERWT=32, ADJACENTWT=3, CORNERWT=1)
* for the following anti-aliasing parameters...
* -DCENTERWT=n
* -DADJACENTWT=j
* -DCORNERWT=k
* *** Note: Ignore these three switches because
* *** mimeTeX's current anti-aliasing algorithm
* *** no longer uses them (as of version 1.60).
* MimeTeX currently provides a lowpass filtering
* algorithm for anti-aliasing, which is applied to the
* existing set of bitmap fonts. This lowpass filter
* applies default weights
* 1 2 1
* 2 8 2
* 1 2 1
* to neighboring pixels. The defaults weights are
* CENTERWT=8, ADJACENTWT=2 and CORNERWT=1,
* which you can adjust to control anti-aliasing.
* Lower CENTERWT values will blur/spread out lines
* while higher values will tend to sharpen lines.
* Experimentation is recommended to determine
* what value works best for you.
* -DCACHEPATH=\"path/\"
* This option saves each rendered image to a file
* in directory path/ which mimeTeX reads rather than
* re-rendering the same image every time it's given
* the same LaTeX expression. Sometimes mimeTeX disables
* caching, e.g., expressions containing \input{ } are
* re-rendered since the contents of the inputted file
* may have changed. If compiled without -DCACHEPATH
* mimeTeX always re-renders expressions. This usually
* isn't too cpu intensive, but if you have unusually
* high hit rates then image caching may be helpful.
* The path/ is relative to mimetex.cgi, and must
* be writable by it. Files created under path/ are
* named filename.gif, where filename is the 32-character
* MD5 hash of the LaTeX expression.
* -DDEFAULTSIZE=n
* MimeTeX currently has eight font sizes numbered 0-7,
* and always starts in DEFAULTSIZE whose default value
* is 3 (corresponding to \large). Specify -DDEFAULTSIZE=4
* on the compile line if you prefer mimeTeX to start in
* larger default size 4 (corresponding to \Large), etc.
* -DDISPLAYSIZE=n
* By default, operator limits like \int_a^b are rendered
* \textstyle at font sizes \normalsize and smaller,
* and rendered \displaystyle at font sizes \large and
* larger. This default corresponds to -DDISPLAYSIZE=3,
* which you can adjust; e.g., -DDISPLAYSIZE=0 always
* defaults to \displaystyle, and 99 (or any large number)
* always defaults to \textstyle. Note that explicit
* \textstyle, \displaystyle, \limits or \nolimits
* directives in an expression always override
* the DISPLAYSIZE default.
* -DERRORSTATUS=n
* The default, 0, means mimeTeX always exits with status 0,
* regardless of whether or not it detects error(s) while
* trying to render your expression. Specify any non-zero
* value (typically -1) if you write a script/plugin for
* mimeTeX that traps non-zero exit statuses. MimeTeX then
* exits with its own non-zero status when it detects an
* error it can identify, or with your ERRORSTATUS value
* for errors it can't specifically identify.
* -DREFERER=\"domain\" -or-
* -DREFERER=\"domain1,domain2,etc\"
* Blocks mimeTeX requests from unauthorized domains that
* may be using your server's mimetex.cgi without permission.
* If REFERER is defined, mimeTeX checks for the environment
* variable HTTP_REFERER and, if it exists, performs a
* case-insensitive test to make sure it contains 'domain'
* as a substring. If given several 'domain's (second form)
* then HTTP_REFERER must contain either 'domain1' or
* 'domain2', etc, as a (case-insensitive) substring.
* If HTTP_REFERER fails to contain a substring matching
* any of these domain(s), mimeTeX emits an error message
* image corresponding to the expression specified by
* the invalid_referer_msg string defined in main().
* Note: if HTTP_REFERER is not an environment variable,
* mimeTeX correctly generates the requested expression
* (i.e., no referer error).
* -DWARNINGS=n -or-
* -DNOWARNINGS
* If an expression submitted to mimeTeX contains an
* unrecognzied escape sequence, e.g., "y=x+\abc+1", then
* mimeTeX generates a gif image containing an embedded
* warning in the form "y=x+[\abc?]+1". If you want these
* warnings suppressed, -DWARNINGS=0 or -DNOWARNINGS tells
* mimeTeX to ignore unrecognized symbols, and the rendered
* image is "y=x++1" instead.
* -DWHITE
* MimeTeX usually renders black symbols on a white
* background. This option renders white symbols on
* a black background instead.
* --------------------------------------------------------------------------
* Revision History:
* 09/18/02 J.Forkosh Installation.
* 12/11/02 J.Forkosh Version 1.00 released.
* 07/04/03 J.Forkosh Version 1.01 released.
* 10/17/03 J.Forkosh Version 1.20 released.
* 12/21/03 J.Forkosh Version 1.30 released.
* 02/01/04 J.Forkosh Version 1.40 released.
* 10/02/04 J.Forkosh Version 1.50 released.
* 11/30/04 J.Forkosh Version 1.60 released.
* 10/11/05 J.Forkosh Version 1.64 released.
* 11/30/06 J.Forkosh Version 1.65 released.
* 09/06/08 J.Forkosh Version 1.70 released.
* 03/23/09 J.Forkosh Version 1.71 released.
* 11/18/09 J.Forkosh Version 1.72 released.
* 11/15/11 J.Forkosh Version 1.73 released.
* 02/15/12 J.Forkosh Version 1.74 released.
* 09/26/12 J.Forkosh Most recent revision (also see REVISIONDATE)
* See http://www.forkosh.com/mimetexchangelog.html for further details.
*
****************************************************************************/
/* -------------------------------------------------------------------------
Program id
-------------------------------------------------------------------------- */
#define VERSION "1.74" /* mimeTeX version number */
#define REVISIONDATE "26 Sept 2012" /* date of most recent revision */
#define COPYRIGHTTEXT "Copyright(c) 2002-2012, John Forkosh Associates, Inc"
/* -------------------------------------------------------------------------
header files and macros
-------------------------------------------------------------------------- */
/* --- standard headers --- */
#include
#include
/*#include */
#include
#include
#include
#include
extern char **environ; /* for \environment directive */
/* -------------------------------------------------------------------------
messages (used mostly by main() and also by rastmessage())
-------------------------------------------------------------------------- */
static char *copyright1 = /* copyright, gnu/gpl notice */
"+-----------------------------------------------------------------------+\n"
"|mimeTeX vers " VERSION ", " COPYRIGHTTEXT "|\n"
"+-----------------------------------------------------------------------+\n"
"| mimeTeX is free software, licensed to you under terms of the GNU/GPL, |\n"
"| and comes with absolutely no warranty whatsoever. |",
*copyright2 =
"| See http://www.forkosh.com/mimetex.html for details. |\n"
"+-----------------------------------------------------------------------+";
static int maxmsgnum = 3, /* maximum msgtable[] index */
/* --- keep these message numbers updated if table changes --- */
invmsgnum = 0, /* general invalid message */
refmsgnum = 3; /* urlncmp() failed to validate */
static char *msgtable[] = { /* messages referenced by [index] */
"\\red\\small\\rm\\fbox{\\array{" /* [0] is invalid_referer_msg */
"Please~read~www.forkosh.com/mimetex.html\\\\and~install~mimetex.cgi~"
"on~your~own~server.\\\\Thank~you,~John~Forkosh}}",
"\\red\\small\\rm\\fbox{\\array{" /* [1] */
"Please~provide~your~{\\tiny~HTTP-REFERER}~to~access~the~public\\\\"
"mimetex~server.~~Or~please~read~~www.forkosh.com/mimetex.html\\\\"
"and~install~mimetex.cgi~on~your~own~server.~~Thank~you,~John~Forkosh}}",
"\\red\\small\\rm\\fbox{\\array{" /* [2] */
"The~public~mimetex~server~is~for~testing.~~For~production,\\\\"
"please~read~~www.forkosh.com/mimetex.html~~and~install\\\\"
"mimetex.cgi~on~your~own~server.~~Thank~you,~John~Forkosh}}",
"\\red\\small\\rm\\fbox{\\array{" /* [3] */
"Only~SERVER_NAME~may~use~mimetex~on~this~server.\\\\"
"Please~read~~www.forkosh.com/mimetex.html~~and~install\\\\"
"mimetex.cgi~on~your~own~server.~~Thank~you,~John~Forkosh}}",
NULL } ; /* trailer */
/* -------------------------------------------------------------------------
additional symbols
-------------------------------------------------------------------------- */
/* ---
* windows-specific header info
* ---------------------------- */
#ifndef WINDOWS /* -DWINDOWS not supplied by user */
#if defined(_WINDOWS) || defined(_WIN32) || defined(WIN32) \
|| defined(DJGPP) /* try to recognize windows compilers */ \
|| defined(_USRDLL) /* must be WINDOWS if compiling for DLL */
#define WINDOWS /* signal windows */
#endif
#endif
#ifdef WINDOWS /* Windows opens stdout in char mode, and */
#include /* precedes every 0x0A with spurious 0x0D.*/
#include /* So emitcache() issues a Win _setmode() */
/* call to put stdout in binary mode. */
#if defined(_O_BINARY) && !defined(O_BINARY) /* only have _O_BINARY */
#define O_BINARY _O_BINARY /* make O_BINARY available, etc... */
#define setmode _setmode
#define fileno _fileno
#endif
#if defined(_O_BINARY) || defined(O_BINARY) /* setmode() now available */
#define HAVE_SETMODE /* so we'll use setmode() */
#endif
#if defined(_MSC_VER) && defined(_DEBUG) /* MS VC++ in debug mode */
/* to show source file and line numbers where memory leaks occur... */
#define _CRTDBG_MAP_ALLOC /* ...include this debug macro */
#include /* and this debug library */
#endif
#define ISWINDOWS 1
#else
#define ISWINDOWS 0
#endif
/* ---
* check for supersampling or low-pass anti-aliasing
* ------------------------------------------------- */
#ifdef SS
#define ISSUPERSAMPLING 1
#ifndef AAALGORITHM
#define AAALGORITHM 1 /* default supersampling algorithm */
#endif
#ifndef AA /* anti-aliasing not explicitly set */
#define AA /* so define it ourselves */
#endif
#ifndef SSFONTS /* need supersampling fonts */
#define SSFONTS
#endif
#else
#define ISSUPERSAMPLING 0
#ifndef AAALGORITHM
#define AAALGORITHM 3 /*2*/ /* default lowpass algorithm */
#endif
#endif
#ifndef MAXFOLLOW
#define MAXFOLLOW 8 /* aafollowline() maxturn default */
#endif
/* ---
* set aa (and default gif) if any anti-aliasing options specified
* --------------------------------------------------------------- */
#if defined(AA) || defined(GIF) || defined(PNG) \
|| defined(CENTERWT) || defined(ADJACENTWT) || defined(CORNERWT) \
|| defined(MINADJACENT) || defined(MAXADJACENT)
#if !defined(GIF) && !defined(AA) /* aa not explicitly specified */
#define AA /* so define it ourselves */
#endif
#if !defined(GIF) && !defined(PNG) /* neither gif nor png specified */
#define GIF /* so default to gif */
#endif
#endif
/* --- resolve output option inconsistencies --- */
#if defined(XBITMAP) /* xbitmap supercedes gif and png */
#ifdef AA
#undef AA
#endif
#ifdef GIF
#undef GIF
#endif
#ifdef PNG
#undef PNG
#endif
#endif
/* ---
* decide whether or not to compile main()
* --------------------------------------- */
#if defined(XBITMAP) || defined(GIF) || defined(PNG)
/* --- yes, compile main() --- */
#define DRIVER /* main() driver will be compiled */
#else /* --- main() won't be compiled (e.g., for gfuntype.c) --- */
#ifndef TEXFONTS
#define NOTEXFONTS /* texfonts not required */
#endif
#endif
/* ---
* application headers
* ------------------- */
#if !defined(NOTEXFONTS) && !defined(TEXFONTS)
#define TEXFONTS /* to include texfonts.h */
#endif
#include "mimetex.h"
/* ---
* info needed when gif image returned in memory buffer
* ---------------------------------------------------- */
#ifdef GIF /* compiling along with gifsave.c */
extern int gifSize;
extern int maxgifSize;
#else /* or just set dummy values */
static int gifSize=0, maxgifSize=0;
#endif
/* --- gamma correction --- */
#ifndef GAMMA
#define GAMMA 1.25 /*1.75*/ /*2.2*/
#endif
#ifndef REVERSEGAMMA
#define REVERSEGAMMA 0.5 /* for \reverse white-on-black */
#endif
/* --- opaque background (default to transparent) --- */
#ifndef OPAQUE
#define ISTRANSPARENT 1
#else
#define ISTRANSPARENT 0
#endif
/* ---
* internal buffer sizes
* --------------------- */
#if !defined(MAXEXPRSZ)
#define MAXEXPRSZ (32768-1) /*max #bytes in input tex expression*/
#endif
#if !defined(MAXSUBXSZ)
#define MAXSUBXSZ (((MAXEXPRSZ+1)/2)-1)/*max #bytes in input subexpression*/
#endif
#if !defined(MAXTOKNSZ)
#define MAXTOKNSZ (((MAXSUBXSZ+1)/4)-1) /* max #bytes in input token */
#endif
#if !defined(MAXFILESZ)
#define MAXFILESZ (65536-1) /*max #bytes in input (output) file*/
#endif
#if !defined(MAXLINESZ)
#define MAXLINESZ (4096-1) /* max #chars in line from file */
#endif
#if !defined(MAXGIFSZ)
#define MAXGIFSZ 131072 /* max #bytes in output GIF image */
#endif
/* -------------------------------------------------------------------------
adjustable default values
-------------------------------------------------------------------------- */
/* ---
* anti-aliasing parameters
* ------------------------ */
#ifndef CENTERWT
/*#define CENTERWT 32*/ /* anti-aliasing centerwt default */
/*#define CENTERWT 10*/ /* anti-aliasing centerwt default */
#define CENTERWT 8 /* anti-aliasing centerwt default */
#endif
#ifndef ADJACENTWT
/*#define ADJACENTWT 3*/ /* anti-aliasing adjacentwt default*/
#define ADJACENTWT 2 /* anti-aliasing adjacentwt default*/
#endif
#ifndef CORNERWT
#define CORNERWT 1 /* anti-aliasing cornerwt default*/
#endif
#ifndef MINADJACENT
#define MINADJACENT 6 /*anti-aliasing minadjacent default*/
#endif
#ifndef MAXADJACENT
#define MAXADJACENT 8 /*anti-aliasing maxadjacent default*/
#endif
/* --- variables for anti-aliasing parameters --- */
GLOBAL(int,centerwt,CENTERWT); /*lowpass matrix center pixel wt */
GLOBAL(int,adjacentwt,ADJACENTWT); /*lowpass matrix adjacent pixel wt*/
GLOBAL(int,cornerwt,CORNERWT); /*lowpass matrix corner pixel wt */
GLOBAL(int,minadjacent,MINADJACENT); /* darken if>=adjacent pts black*/
GLOBAL(int,maxadjacent,MAXADJACENT); /* darken if<=adjacent pts black */
GLOBAL(int,weightnum,1); /* font wt, */
GLOBAL(int,maxaaparams,4); /* #entries in table */
/* --- anti-aliasing parameter values by font weight --- */
#define aaparameters struct aaparameters_struct /* typedef */
aaparameters
{ int centerwt; /* lowpass matrix center pixel wt*/
int adjacentwt; /* lowpass matrix adjacent pixel wt*/
int cornerwt; /* lowpass matrix corner pixel wt*/
int minadjacent; /* darken if >= adjacent pts black */
int maxadjacent; /* darken if <= adjacent pts black */
int fgalias,fgonly,bgalias,bgonly; } ; /* aapnm() params */
STATIC aaparameters aaparams[] /* set params by weight */
#ifdef INITVALS
=
{ /* ----------------------------------------------------
centerwt adj corner minadj max fgalias,only,bgalias,only
------------------------------------------------------- */
{ 64, 1, 1, 6, 8, 1,0,0,0 }, /* 0 = light */
{ CENTERWT,ADJACENTWT,CORNERWT,MINADJACENT,MAXADJACENT,1,0,0,0 },
{ 8, 1, 1, 5, 8, 1,0,0,0 }, /* 2 = semibold */
{ 8, 2, 1, 4, 9, 1,0,0,0 } /* 3 = bold */
} /* --- end-of-aaparams[] --- */
#endif
;
/* --- anti-aliasing diagnostics (to help improve algorithm) --- */
STATIC int patternnumcount0[99], patternnumcount1[99], /*aalookup() counts*/
ispatternnumcount = 1; /* true to accumulate counts */
/* -------------------------------------------------------------------------
other variables
-------------------------------------------------------------------------- */
/* --- black on white background (default), or white on black --- */
#ifdef WHITE
#define ISBLACKONWHITE 0 /* white on black background */
#else
#define ISBLACKONWHITE 1 /* black on white background */
#endif
/* --- colors --- */
#define BGRED (ISBLACKONWHITE?255:0)
#define BGGREEN (ISBLACKONWHITE?255:0)
#define BGBLUE (ISBLACKONWHITE?255:0)
#ifndef FGRED
#define FGRED (ISBLACKONWHITE?0:255)
#endif
#ifndef FGGREEN
#define FGGREEN (ISBLACKONWHITE?0:255)
#endif
#ifndef FGBLUE
#define FGBLUE (ISBLACKONWHITE?0:255)
#endif
/* --- advertisement
one image in every ADFREQUENCY is wrapped in "advertisement" --- */
#if !defined(ADFREQUENCY)
#define ADFREQUENCY 0 /* never show advertisement if 0 */
#endif
#ifndef HOST_SHOWAD
#define HOST_SHOWAD "\000" /* show ads on all hosts */
#endif
/* --- "smash" margin (0 means no smashing) --- */
#ifndef SMASHMARGIN
#ifdef NOSMASH
#define SMASHMARGIN 0
#else
#define SMASHMARGIN 3
#endif
#endif
#ifndef SMASHCHECK
#define SMASHCHECK 0
#endif
/* --- textwidth --- */
#ifndef TEXTWIDTH
#define TEXTWIDTH (400)
#endif
/* --- font "combinations" --- */
#define CMSYEX (109) /*select CMSY10, CMEX10 or STMARY10*/
/* --- prefix prepended to all expressions --- */
#ifndef PREFIX
#define PREFIX "\000" /* default no prepended prefix */
#endif
/* --- skip argv[]'s preceding ARGSIGNAL when parsing command-line args --- */
#ifdef NOARGSIGNAL
#define ARGSIGNAL NULL
#endif
#ifndef ARGSIGNAL
#define ARGSIGNAL "++"
#endif
/* --- security and logging (inhibit message logging, etc) --- */
#ifndef SECURITY
#define SECURITY 999 /* default highest security level */
#endif
#ifndef LOGFILE
#define LOGFILE "mimetex.log" /* default log file */
#endif
#ifndef CACHELOG
#define CACHELOG "mimetex.log" /* default caching log file */
#endif
#if !defined(NODUMPENVP) && !defined(DUMPENVP)
#define DUMPENVP /* assume char *envp[] available */
#endif
/* --- max query_string length if no http_referer supplied --- */
#ifndef NOREFMAXLEN
#define NOREFMAXLEN 9999 /* default to any length query */
#endif
#ifndef NOREFSAFELEN
#define NOREFSAFELEN 24 /* too small for hack exploit */
#endif
/* --- check whether or not to perform http_referer check --- */
#ifdef REFERER /* only specified referers allowed */
#undef NOREFMAXLEN
#define NOREFMAXLEN NOREFSAFELEN
#else /* all http_referer's allowed */
#define REFERER NULL
#endif
/* --- check top levels of http_referer against server_name --- */
#ifdef REFLEVELS /* #topmost levels to check */
#undef NOREFMAXLEN
#define NOREFMAXLEN NOREFSAFELEN
#else
#ifdef NOREFCHECK
#define REFLEVELS 0 /* don't match host and referer */
#else
#define REFLEVELS 3 /* default matches abc.def.com */
#endif
#endif
/* --- check whether or not \input, \counter, \environment permitted --- */
#ifdef DEFAULTSECURITY /* default security specified */
#define EXPLICITDEFSECURITY /* don't override explicit default */
#else /* defualt security not specified */
#define DEFAULTSECURITY (8) /* so set default security level */
#endif
#ifdef INPUTREFERER /*http_referer's permitted to \input*/
#ifndef INPUTSECURITY /* so we need to permit \input{} */
#define INPUTSECURITY (99999) /* make sure SECURITY=DBGLEVEL */
#define LOGLEVEL 3 /* logging if msglevel>=LOGLEVEL */
#ifndef FORMLEVEL
#define FORMLEVEL LOGLEVEL /*msglevel if called from html form*/
#endif
#ifndef ERRORSTATUS /* exit(ERRORSTATUS) for any error */
#define ERRORSTATUS 0 /* default doesn't signal errors */
#endif
GLOBAL(int,seclevel,SECURITY); /* security level */
GLOBAL(int,inputseclevel,INPUTSECURITY); /* \input{} security level */
GLOBAL(int,counterseclevel,COUNTERSECURITY); /* \counter{} security level */
GLOBAL(int,environseclevel,ENVIRONSECURITY); /* \environ{} security level */
GLOBAL(int,msglevel,MSGLEVEL); /* message level for verbose/debug */
GLOBAL(int,errorstatus,ERRORSTATUS); /* exit status if error encountered*/
GLOBAL(int,exitstatus,0); /* exit status (0=success) */
STATIC FILE *msgfp; /* output in command-line mode */
/* --- embed warnings in rendered expressions, [\xxx?] if \xxx unknown --- */
#ifdef WARNINGS
#define WARNINGLEVEL WARNINGS
#else
#ifdef NOWARNINGS
#define WARNINGLEVEL 0
#else
#define WARNINGLEVEL 1
#endif
#endif
GLOBAL(int,warninglevel,WARNINGLEVEL); /* warning level */
/* -------------------------------------------------------------------------
control flags and values
-------------------------------------------------------------------------- */
GLOBAL(int,isquery,0); /* true=cgi?query; false=commandline*/
GLOBAL(int,daemonlevel,0); /* incremented in main() */
GLOBAL(int,recurlevel,0); /* inc/decremented in rasterize() */
GLOBAL(int,scriptlevel,0); /* inc/decremented in rastlimits() */
GLOBAL(int,isstring,0); /*pixmap is ascii string, not raster*/
GLOBAL(int,isligature,0); /* true if ligature found */
GLOBAL(char,*subexprptr,(char *)NULL); /* ptr within expression to subexpr*/
/*SHARED(int,imageformat,1);*/ /* image is 1=bitmap, 2=.gf-like */
GLOBAL(int,isdisplaystyle,1); /* displaystyle mode (forced if 2) */
GLOBAL(int,ispreambledollars,0); /* displaystyle mode set by $$...$$ */
GLOBAL(int,ninputcmds,0); /* # of \input commands processed */
GLOBAL(int,fontnum,0); /* cal=1,scr=2,rm=3,it=4,bb=5,bf=6 */
GLOBAL(int,fontsize,NORMALSIZE); /* current size */
GLOBAL(int,magstep,1); /* magstep (1=no change) */
GLOBAL(int,displaysize,DISPLAYSIZE); /* use \displaystyle when fontsize>=*/
GLOBAL(int,shrinkfactor,3); /* shrinkfactors[fontsize] */
GLOBAL(int,rastlift,0); /* rastraise() lift parameter */
GLOBAL(int,rastlift1,0); /* rastraise() lift for base exprssn*/
GLOBAL(double,unitlength,1.0); /* #pixels per unit (may be <1.0) */
GLOBAL(int,iunitlength,1); /* #pixels per unit as int for store*/
/*GLOBAL(int,textwidth,TEXTWIDTH);*/ /* #pixels across line */
GLOBAL(int,adfrequency,ADFREQUENCY); /* advertisement frequency */
GLOBAL(int,isnocatspace,0); /* >0 to not add space in rastcat()*/
GLOBAL(int,smashmargin,SMASHMARGIN); /* minimum "smash" margin */
GLOBAL(int,mathsmashmargin,SMASHMARGIN); /* needed for \text{if $n-m$ even}*/
GLOBAL(int,issmashdelta,1); /* true if smashmargin is a delta */
GLOBAL(int,isexplicitsmash,0); /* true if \smash explicitly given */
GLOBAL(int,smashcheck,SMASHCHECK); /* check if terms safe to smash */
GLOBAL(int,isnomath,0); /* true to inhibit math mode */
GLOBAL(int,isscripted,0); /* is (lefthand) term text-scripted*/
GLOBAL(int,isdelimscript,0); /* is \right delim text-scripted */
GLOBAL(int,issmashokay,0); /*is leading char okay for smashing*/
#define BLANKSIGNAL (-991234) /*rastsmash signal right-hand blank*/
GLOBAL(int,blanksignal,BLANKSIGNAL); /*rastsmash signal right-hand blank*/
GLOBAL(int,blanksymspace,0); /* extra (or too much) space wanted*/
GLOBAL(int,istransparent,ISTRANSPARENT);/* true sets background transparent*/
GLOBAL(int,fgred,FGRED);
GLOBAL(int,fggreen,FGGREEN);
GLOBAL(int,fgblue,FGBLUE); /* fg r,g,b */
GLOBAL(int,bgred,BGRED);
GLOBAL(int,bggreen,BGGREEN);
GLOBAL(int,bgblue,BGBLUE); /* bg r,g,b */
GLOBAL(double,gammacorrection,GAMMA); /* gamma correction */
GLOBAL(int,isplusblank,ISPLUSBLANK); /*interpret +'s in query as blanks?*/
GLOBAL(int,isblackonwhite,ISBLACKONWHITE); /*1=black on white,0=reverse*/
GLOBAL(char,exprprefix[256],PREFIX); /* prefix prepended to expressions */
GLOBAL(int,aaalgorithm,AAALGORITHM); /* for lp, 1=aalowpass, 2 =aapnm */
GLOBAL(int,maxfollow,MAXFOLLOW); /* aafollowline() maxturn parameter*/
GLOBAL(int,fgalias,1);
GLOBAL(int,fgonly,0);
GLOBAL(int,bgalias,0);
GLOBAL(int,bgonly,0); /* aapnm() params */
GLOBAL(int,issupersampling,ISSUPERSAMPLING); /*1=supersampling 0=lowpass*/
GLOBAL(int,isss,ISSUPERSAMPLING); /* supersampling flag for main() */
GLOBAL(int,ispbmpgm,0); /* true for pbm/pgm instead of gif */
GLOBAL(int,pbmpgmtype,0); /* 1=pbm / 2=pgm (else error) */
GLOBAL(int,*workingparam,(int *)NULL); /* working parameter */
GLOBAL(subraster,*workingbox,(subraster *)NULL); /*working subraster box*/
GLOBAL(int,isreplaceleft,0); /* true to replace leftexpression */
GLOBAL(subraster,*leftexpression,(subraster *)NULL); /*rasterized so far*/
GLOBAL(mathchardef,*leftsymdef,NULL); /* mathchardef for preceding symbol*/
GLOBAL(int,fraccenterline,NOVALUE); /* baseline for punct. after \frac */
/*GLOBAL(int,currentcharclass,NOVALUE);*/ /*primarily to check for PUNCTION*/
GLOBAL(int,iscaching,ISCACHING); /* true if caching images */
GLOBAL(char,cachepath[256],CACHEPATH); /* relative path to cached files */
GLOBAL(int,isemitcontenttype,1); /* true to emit mime content-type */
int iscachecontenttype = 0; /* true to cache mime content-type */
char contenttype[2048] = "\000"; /* content-type:, etc buffer */
GLOBAL(char,pathprefix[256],PATHPREFIX); /*prefix for \input,\counter paths*/
/*GLOBAL(int,iswindows,ISWINDOWS);*/ /* true if compiled for ms windows */
/* -------------------------------------------------------------------------
store for evalterm() [n.b., these are stripped-down funcs from nutshell]
-------------------------------------------------------------------------- */
#define STORE struct store_struct /* "typedef" for store struct */
#define MAXSTORE 100 /* max 100 identifiers */
STORE {
char *identifier; /* identifier */
int *value; /* address of corresponding value */
} ; /* --- end-of-store_struct --- */
static STORE mimestore[MAXSTORE] = {
{ "fontsize", &fontsize }, { "fs", &fontsize }, /* font size */
{ "fontnum", &fontnum }, { "fn", &fontnum }, /* font number */
{ "unitlength", &iunitlength }, /* unitlength */
/*{ "mytestvar", &mytestvar },*/
{ NULL, NULL } /* end-of-store */
} ; /* --- end-of-mimestore[] --- */
/* -------------------------------------------------------------------------
miscellaneous macros
-------------------------------------------------------------------------- */
#if 0 /* --- these are now #define'd in mimetex.h --- */
#define max2(x,y) ((x)>(y)? (x):(y)) /* larger of 2 arguments */
#define min2(x,y) ((x)<(y)? (x):(y)) /* smaller of 2 arguments */
#define max3(x,y,z) max2(max2(x,y),(z)) /* largest of 3 arguments */
#define min3(x,y,z) min2(min2(x,y),(z)) /* smallest of 3 arguments */
#define absval(x) ((x)>=0?(x):(-(x))) /* absolute value */
#define iround(x) ((int)((x)>=0?(x)+0.5:(x)-0.5)) /* round double to int */
#define dmod(x,y) ((x)-((y)*((double)((int)((x)/(y)))))) /*x%y for doubles*/
#endif
#define compress(s,c) if((s)!=NULL) /* remove embedded c's from s */ \
{ char *p; while((p=strchr((s),(c)))!=NULL) {strsqueeze(p,1);} } else
#define slower(s) if ((s)!=NULL) /* lowercase all chars in s */ \
{ char *p=(s); while(*p!='\000'){*p=tolower(*p); p++;} } else
/*subraster *subrastcpy();*/ /* need global module declaration */
/*#define spnosmash(sp) if (sp->type==CHARASTER) sp=subrastcpy(sp); \ */
/* sp->type=blanksignal */
/* ---evaluate \directive[arg] or \directive{arg} scaled by unitlength--- */
#define eround(arg) (iround(unitlength*((double)evalterm(mimestore,(arg)))))
/* --- check if a string is empty --- */
#define isempty(s) ((s)==NULL?1:(*(s)=='\000'?1:0))
/* --- last char of a string --- */
#define lastchar(s) (isempty(s)?'\000':*((s)+(strlen(s)-1)))
/* --- lowercase a string --- */
#define strlower(s) strnlower((s),0) /* lowercase an entire string */
/* --- strip leading and trailing whitespace (including ~) --- */
#define trimwhite(thisstr) if ( (thisstr) != NULL ) { \
int thislen = strlen(thisstr); \
while ( --thislen >= 0 ) \
if ( isthischar((thisstr)[thislen]," \t\n\r\f\v") ) \
(thisstr)[thislen] = '\000'; \
else break; \
if ( (thislen = strspn((thisstr)," \t\n\r\f\v")) > 0 ) \
{strsqueeze((thisstr),thislen);} } else
/* --- strncpy() n bytes and make sure it's null-terminated --- */
#define strninit(target,source,n) if( (target)!=NULL && (n)>=0 ) { \
char *thissource = (source); \
(target)[0] = '\000'; \
if ( (n)>0 && thissource!=NULL ) { \
strncpy((target),thissource,(n)); \
(target)[(n)] = '\000'; } }
/* --- strcpy(s,s+n) using memmove() (also works for negative n) --- */
#define strsqueeze(s,n) if((n)!=0) { if(!isempty((s))) { \
int thislen3=strlen(s); \
if ((n) >= thislen3) *(s) = '\000'; \
else memmove(s,s+(n),1+thislen3-(n)); }} else/*user supplies final;*/
/* --- strsqueeze(s,t) with two pointers --- */
#define strsqueezep(s,t) if(!isempty((s))&&!isempty((t))) { \
int sqlen=strlen((s))-strlen((t)); \
if (sqlen>0 && sqlen<=999) {strsqueeze((s),sqlen);} } else
/* ---
* PART2
* ------ */
#if !defined(PARTS) || defined(PART2)
/* ==========================================================================
* Function: new_raster ( width, height, pixsz )
* Purpose: Allocation and constructor for raster.
* mallocs and initializes memory for width*height pixels,
* and returns raster struct ptr to caller.
* --------------------------------------------------------------------------
* Arguments: width (I) int containing width, in bits,
* of raster pixmap to be allocated
* height (I) int containing height, in bits/scans,
* of raster pixmap to be allocated
* pixsz (I) int containing #bits per pixel, 1 or 8
* --------------------------------------------------------------------------
* Returns: ( raster * ) ptr to allocated and initialized
* raster struct, or NULL for any error.
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
raster *new_raster ( int width, int height, int pixsz )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
raster *rp = (raster *)NULL; /* raster ptr returned to caller */
pixbyte *pixmap = NULL; /* raster pixel map to be malloced */
int nbytes = pixsz*bitmapsz(width,height); /* #bytes needed for pixmap */
int filler = (isstring?' ':0); /* pixmap filler */
int delete_raster(); /* in case pixmap malloc() fails */
int npadding = (0&&issupersampling?8+256:0); /* padding bytes */
/* -------------------------------------------------------------------------
allocate and initialize raster struct and embedded bitmap
-------------------------------------------------------------------------- */
if ( msgfp!=NULL && msglevel>=9999 )
{ fprintf(msgfp,"new_raster(%d,%d,%d)> entry point\n",
width,height,pixsz); fflush(msgfp); }
/* --- allocate and initialize raster struct --- */
rp = (raster *)malloc(sizeof(raster)); /* malloc raster struct */
if ( msgfp!=NULL && msglevel>=9999 )
{ fprintf(msgfp,"new_raster> rp=malloc(%d) returned (%s)\n",
sizeof(raster),(rp==NULL?"null ptr":"success")); fflush(msgfp); }
if ( rp == (raster *)NULL ) /* malloc failed */
goto end_of_job; /* return error to caller */
rp->width = width; /* store width in raster struct */
rp->height = height; /* and store height */
rp->format = 1; /* initialize as bitmap format */
rp->pixsz = pixsz; /* store #bits per pixel */
rp->pixmap = (pixbyte *)NULL; /* init bitmap as null ptr */
/* --- allocate and initialize bitmap array --- */
if ( msgfp!=NULL && msglevel>=9999 )
{ fprintf(msgfp,"new_raster> calling pixmap=malloc(%d)\n",
nbytes); fflush(msgfp); }
if ( nbytes>0 && nbytes<=pixsz*maxraster ) /* fail if width*height too big*/
pixmap = (pixbyte *)malloc(nbytes+npadding); /*bytes for width*height bits*/
if ( msgfp!=NULL && msglevel>=9999 )
{ fprintf(msgfp,"new_raster> pixmap=malloc(%d) returned (%s)\n",
nbytes,(pixmap==NULL?"null ptr":"success")); fflush(msgfp); }
if ( pixmap == (pixbyte *)NULL ) /* malloc failed */
{ delete_raster(rp); /* so free everything */
rp = (raster *)NULL; /* reset pointer */
goto end_of_job; } /* and return error to caller */
memset((void *)pixmap,filler,nbytes); /* init bytes to binary 0's or ' 's*/
*pixmap = (pixbyte)0; /* and first byte alwasy 0 */
rp->pixmap = pixmap; /* store ptr to malloced memory */
/* -------------------------------------------------------------------------
Back to caller with address of raster struct, or NULL ptr for any error.
-------------------------------------------------------------------------- */
end_of_job:
if ( msgfp!=NULL && msglevel>=9999 )
{ fprintf(msgfp,"new_raster(%d,%d,%d)> returning (%s)\n",
width,height,pixsz,(rp==NULL?"null ptr":"success")); fflush(msgfp); }
return ( rp ); /* back to caller with raster */
} /* --- end-of-function new_raster() --- */
/* ==========================================================================
* Function: new_subraster ( width, height, pixsz )
* Purpose: Allocate a new subraster along with
* an embedded raster of width x height.
* --------------------------------------------------------------------------
* Arguments: width (I) int containing width of embedded raster
* height (I) int containing height of embedded raster
* pixsz (I) int containing #bits per pixel, 1 or 8
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to newly-allocated subraster,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o if width or height <=0, embedded raster not allocated
* ======================================================================= */
/* --- entry point --- */
subraster *new_subraster ( int width, int height, int pixsz )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *sp=NULL; /* subraster returned to caller */
raster *new_raster(), *rp=NULL; /* image raster embedded in sp */
int delete_subraster(); /* in case new_raster() fails */
int size = NORMALSIZE, /* default size */
baseline = height-1; /* and baseline */
/* -------------------------------------------------------------------------
allocate and initialize subraster struct
-------------------------------------------------------------------------- */
if ( msgfp!=NULL && msglevel>=9999 )
{ fprintf(msgfp,"new_subraster(%d,%d,%d)> entry point\n",
width,height,pixsz); fflush(msgfp); }
/* --- allocate subraster struct --- */
sp = (subraster *)malloc(sizeof(subraster)); /* malloc subraster struct */
if ( sp == (subraster *)NULL ) /* malloc failed */
goto end_of_job; /* return error to caller */
/* --- initialize subraster struct --- */
sp->type = NOVALUE; /* character or image raster */
sp->symdef = (mathchardef *)NULL; /* mathchardef identifying image */
sp->baseline = baseline; /*0 if image is entirely descending*/
sp->size = size; /* font size 0-4 */
sp->toprow = sp->leftcol = (-1); /* upper-left corner of subraster */
sp->image = (raster *)NULL; /*ptr to bitmap image of subraster*/
/* -------------------------------------------------------------------------
allocate raster and embed it in subraster, and return to caller
-------------------------------------------------------------------------- */
/* --- allocate raster struct if desired --- */
if ( width>0 && height>0 && pixsz>0 ) /* caller wants raster */
{ if ( (rp=new_raster(width,height,pixsz)) /* allocate embedded raster */
!= NULL ) /* if allocate succeeded */
sp->image = rp; /* embed raster in subraster */
else /* or if allocate failed */
{ delete_subraster(sp); /* free non-unneeded subraster */
sp = NULL; } } /* signal error */
/* --- back to caller with new subraster or NULL --- */
end_of_job:
if ( msgfp!=NULL && msglevel>=9999 )
{ fprintf(msgfp,"new_subraster(%d,%d,%d)> returning (%s)\n",
width,height,pixsz,(sp==NULL?"null ptr":"success")); fflush(msgfp); }
return ( sp );
} /* --- end-of-function new_subraster() --- */
/* ==========================================================================
* Function: new_chardef ( )
* Purpose: Allocates and initializes a chardef struct,
* but _not_ the embedded raster struct.
* --------------------------------------------------------------------------
* Arguments: none
* --------------------------------------------------------------------------
* Returns: ( chardef * ) ptr to allocated and initialized
* chardef struct, or NULL for any error.
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
chardef *new_chardef ( )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
chardef *cp = (chardef *)NULL; /* chardef ptr returned to caller */
/* -------------------------------------------------------------------------
allocate and initialize chardef struct
-------------------------------------------------------------------------- */
cp = (chardef *)malloc(sizeof(chardef)); /* malloc chardef struct */
if ( cp == (chardef *)NULL ) /* malloc failed */
goto end_of_job; /* return error to caller */
cp->charnum = cp->location = 0; /* init character description */
cp->toprow = cp->topleftcol = 0; /* init upper-left corner */
cp->botrow = cp->botleftcol = 0; /* init lower-left corner */
cp->image.width = cp->image.height = 0; /* init raster dimensions */
cp->image.format = 0; /* init raster format */
cp->image.pixsz = 0; /* and #bits per pixel */
cp->image.pixmap = NULL; /* init raster pixmap as null */
/* -------------------------------------------------------------------------
Back to caller with address of chardef struct, or NULL ptr for any error.
-------------------------------------------------------------------------- */
end_of_job:
return ( cp );
} /* --- end-of-function new_chardef() --- */
/* ==========================================================================
* Function: delete_raster ( rp )
* Purpose: Destructor for raster.
* Frees memory for raster bitmap and struct.
* --------------------------------------------------------------------------
* Arguments: rp (I) ptr to raster struct to be deleted.
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if completed successfully,
* or 0 otherwise (for any error).
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
int delete_raster ( raster *rp )
{
/* -------------------------------------------------------------------------
free raster bitmap and struct
-------------------------------------------------------------------------- */
if ( rp != (raster *)NULL ) /* can't free null ptr */
{
if ( rp->pixmap != (pixbyte *)NULL ) /* can't free null ptr */
free((void *)rp->pixmap); /* free pixmap within raster */
free((void *)rp); /* lastly, free raster struct */
} /* --- end-of-if(rp!=NULL) --- */
return ( 1 ); /* back to caller, 1=okay 0=failed */
} /* --- end-of-function delete_raster() --- */
/* ==========================================================================
* Function: delete_subraster ( sp )
* Purpose: Deallocates a subraster (and embedded raster)
* --------------------------------------------------------------------------
* Arguments: sp (I) ptr to subraster struct to be deleted.
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if completed successfully,
* or 0 otherwise (for any error).
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
int delete_subraster ( subraster *sp )
{
/* -------------------------------------------------------------------------
free subraster struct
-------------------------------------------------------------------------- */
int delete_raster(); /* to delete embedded raster */
if ( sp != (subraster *)NULL ) /* can't free null ptr */
{
if ( sp->type != CHARASTER ) /* not static character data */
if ( sp->image != NULL ) /*raster allocated within subraster*/
delete_raster(sp->image); /* so free embedded raster */
free((void *)sp); /* and free subraster struct itself*/
} /* --- end-of-if(sp!=NULL) --- */
return ( 1 ); /* back to caller, 1=okay 0=failed */
} /* --- end-of-function delete_subraster() --- */
/* ==========================================================================
* Function: delete_chardef ( cp )
* Purpose: Deallocates a chardef (and bitmap of embedded raster)
* --------------------------------------------------------------------------
* Arguments: cp (I) ptr to chardef struct to be deleted.
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if completed successfully,
* or 0 otherwise (for any error).
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
int delete_chardef ( chardef *cp )
{
/* -------------------------------------------------------------------------
free chardef struct
-------------------------------------------------------------------------- */
if ( cp != (chardef *)NULL ) /* can't free null ptr */
{
if ( cp->image.pixmap != NULL ) /* pixmap allocated within raster */
free((void *)cp->image.pixmap); /* so free embedded pixmap */
free((void *)cp); /* and free chardef struct itself */
} /* --- end-of-if(cp!=NULL) --- */
/* -------------------------------------------------------------------------
Back to caller with 1=okay, 0=failed.
-------------------------------------------------------------------------- */
return ( 1 );
} /* --- end-of-function delete_chardef() --- */
/* ==========================================================================
* Function: rastcpy ( rp )
* Purpose: makes duplicate copy of rp
* --------------------------------------------------------------------------
* Arguments: rp (I) ptr to raster struct to be copied
* --------------------------------------------------------------------------
* Returns: ( raster * ) ptr to new copy rp,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
raster *rastcpy ( raster *rp )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
raster *new_raster(), *newrp=NULL; /*copied raster returned to caller*/
int height= (rp==NULL?0:rp->height), /* original and copied height */
width = (rp==NULL?0:rp->width), /* original and copied width */
pixsz = (rp==NULL?0:rp->pixsz), /* #bits per pixel */
nbytes= (rp==NULL?0:(pixmapsz(rp))); /* #bytes in rp's pixmap */
/* -------------------------------------------------------------------------
allocate rotated raster and fill it
-------------------------------------------------------------------------- */
/* --- allocate copied raster with same width,height, and copy bitmap --- */
if ( rp != NULL ) /* nothing to copy if ptr null */
if ( (newrp = new_raster(width,height,pixsz)) /*same width,height in copy*/
!= NULL ) /* check that allocate succeeded */
memcpy(newrp->pixmap,rp->pixmap,nbytes); /* fill copied raster pixmap */
return ( newrp ); /* return copied raster to caller */
} /* --- end-of-function rastcpy() --- */
/* ==========================================================================
* Function: subrastcpy ( sp )
* Purpose: makes duplicate copy of sp
* --------------------------------------------------------------------------
* Arguments: sp (I) ptr to subraster struct to be copied
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to new copy sp,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *subrastcpy ( subraster *sp )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *new_subraster(), *newsp=NULL; /* allocate new subraster */
raster *rastcpy(), *newrp=NULL; /* and new raster image within it */
int delete_subraster(); /* dealloc newsp if rastcpy() fails*/
/* -------------------------------------------------------------------------
make copy, and return it to caller
-------------------------------------------------------------------------- */
if ( sp == NULL ) goto end_of_job; /* nothing to copy */
/* --- allocate new subraster "envelope" for copy --- */
if ( (newsp=new_subraster(0,0,0)) /* allocate subraster "envelope" */
== NULL ) goto end_of_job; /* and quit if we fail to allocate */
/* --- transparently copy original envelope to new one --- */
memcpy((void *)newsp,(void *)sp,sizeof(subraster)); /* copy envelope */
/* --- make a copy of the rasterized image itself, if there is one --- */
if ( sp->image != NULL ) /* there's an image embedded in sp */
if ( (newrp = rastcpy(sp->image)) /* so copy rasterized image in sp */
== NULL ) /* failed to copy successfully */
{ delete_subraster(newsp); /* won't need newsp any more */
newsp = NULL; /* because we're returning error */
goto end_of_job; } /* back to caller with error signal*/
/* --- set new params in new envelope --- */
newsp->image = newrp; /* new raster image we just copied */
switch ( sp->type ) /* set new raster image type */
{ case STRINGRASTER: case CHARASTER: newsp->type = STRINGRASTER; break;
case ASCIISTRING: newsp->type = ASCIISTRING; break;
case FRACRASTER: newsp->type = FRACRASTER; break;
case BLANKSIGNAL: newsp->type = blanksignal; break;
case IMAGERASTER: default: newsp->type = IMAGERASTER; break; }
/* --- return copy of sp to caller --- */
end_of_job:
return ( newsp ); /* copy back to caller */
} /* --- end-of-function subrastcpy() --- */
/* ==========================================================================
* Function: rastrot ( rp )
* Purpose: rotates rp image 90 degrees right/clockwise
* --------------------------------------------------------------------------
* Arguments: rp (I) ptr to raster struct to be rotated
* --------------------------------------------------------------------------
* Returns: ( raster * ) ptr to new raster rotated relative to rp,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o An underbrace is } rotated 90 degrees clockwise,
* a hat is <, etc.
* ======================================================================= */
/* --- entry point --- */
raster *rastrot ( raster *rp )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
raster *new_raster(), *rotated=NULL; /*rotated raster returned to caller*/
int height = rp->height, irow, /* original height, row index */
width = rp->width, icol, /* original width, column index */
pixsz = rp->pixsz; /* #bits per pixel */
/* -------------------------------------------------------------------------
allocate rotated raster and fill it
-------------------------------------------------------------------------- */
/* --- allocate rotated raster with flipped width<-->height --- */
if ( (rotated = new_raster(height,width,pixsz)) /* flip width,height */
!= NULL ) /* check that allocation succeeded */
/* --- fill rotated raster --- */
for ( irow=0; irowheight, irow, /* height, row index */
width = rp->width, icol, /* width, column index */
mrow = 0, mcol = 0, /* dup pixels magstep*magstep times*/
pixsz = rp->pixsz; /* #bits per pixel */
/* -------------------------------------------------------------------------
check args
-------------------------------------------------------------------------- */
if ( rp == NULL ) goto end_of_job; /* no input raster supplied */
if ( magstep<1 || magstep>10 ) goto end_of_job; /* sanity check */
/* -------------------------------------------------------------------------
allocate magnified raster and fill it
-------------------------------------------------------------------------- */
/* --- allocate magnified raster with magstep*width, magstep*height --- */
if ( (magnified = new_raster(magstep*width,magstep*height,pixsz))/*allocate*/
!= NULL ) /* check that allocation succeeded */
/* --- fill reflected raster --- */
for ( irow=0; irow100000 ) goto end_of_job; /* sanity check */
if ( magstep<1 || magstep>10 ) goto end_of_job; /* sanity check */
/* -------------------------------------------------------------------------
allocate magnified bytemap and fill it
-------------------------------------------------------------------------- */
/* --- allocate bytemap for magstep*width, magstep*height --- */
if ( (magnified = (intbyte *)(malloc(magstep*width*magstep*height)))/*alloc*/
!= NULL ) /* check that allocation succeeded */
/* --- fill reflected raster --- */
for ( irow=0; irow0?(int)(bytemap[imap-1]):byteval), /*left of center*/
icell[6]= (icol0?(int)(bytemap[imap-width]):byteval),/*above center*/
icell[8]= (irow0&&icol>0?(int)(bytemap[imap-width-1]):byteval),
icell[3]= (irow>0&&icol0?(int)(bytemap[imap+width-1]):byteval),
icell[9]=(irowheight, irow, /* height, row index */
width = rp->width, icol, /* width, column index */
pixsz = rp->pixsz; /* #bits per pixel */
/* -------------------------------------------------------------------------
allocate reflected raster and fill it
-------------------------------------------------------------------------- */
/* --- allocate reflected raster with same width, height --- */
if ( axis==1 || axis==2 ) /* first validate axis arg */
if ( (reflected = new_raster(width,height,pixsz)) /* same width, height */
!= NULL ) /* check that allocation succeeded */
/* --- fill reflected raster --- */
for ( irow=0; irowheight - 1
* left (I) int containing 0 ... target->width - 1
* isopaque (I) int containing false (zero) to allow
* original 1-bits of target to "show through"
* 0-bits of source.
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if completed successfully,
* or 0 otherwise (for any error).
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
int rastput ( raster *target, raster *source,
int top, int left, int isopaque )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int irow, icol, /* indexes over source raster */
twidth=target->width, theight=target->height, /*target width,height*/
tpix, ntpix = twidth*theight; /* #pixels in target */
int isfatal = 0, /* true to abend on out-of-bounds error */
isstrict = 0/*1*/, /* true for strict bounds check - no "wrap"*/
isokay = 1; /* true if no pixels out-of-bounds */
/* -------------------------------------------------------------------------
superimpose source onto target, one bit at a time
-------------------------------------------------------------------------- */
if ( isstrict && (top<0 || left<0) ) /* args fail strict test */
isokay = 0; /* so just return error */
else
for ( irow=0; irowheight; irow++ ) /* for each scan line */
{
tpix = (top+irow)*target->width + left - 1; /*first target pixel (-1)*/
for ( icol=0; icolwidth; icol++ ) /* each pixel in scan line */
{
int svalue = getpixel(source,irow,icol); /* source pixel value */
++tpix; /* bump target pixel */
if ( msgfp!=NULL && msglevel>=9999 ) /* debugging output */
{ fprintf(msgfp,"rastput> tpix,ntpix=%d,%d top,irow,theight=%d,%d,%d "
"left,icol,twidth=%d,%d,%d\n", tpix,ntpix, top,irow,theight,
left,icol,twidth); fflush(msgfp); }
if ( tpix >= ntpix /* bounds check failed */
|| (isstrict && (irow+top>=theight || icol+left>=twidth)) )
{ isokay = 0; /* reset okay flag */
if ( isfatal ) goto end_of_job; /* abort if error is fatal */
else break; } /*or just go on to next row*/
if ( tpix >= 0 ) /* bounds check okay */
if ( svalue!=0 || isopaque ) { /*got dark or opaque source*/
setpixel(target,irow+top,icol+left,svalue); }/*overlay source on targ*/
} /* --- end-of-for(icol) --- */
} /* --- end-of-for(irow) --- */
/* -------------------------------------------------------------------------
Back to caller with 1=okay, 0=failed.
-------------------------------------------------------------------------- */
end_of_job:
return ( isokay /*isfatal? (tpix=h or b<0, for
* an image additionally lifted (b>=h) or lowered (b<0)
* with respect to the surrounding expression.
* o Note that b=h-1 means no descenders and the bottom
* of the symbol rests exactly on the baseline,
* whereas b=0 means the top pixel of the symbol rests
* on the baseline, and all other pixels are descenders.
* o The composite raster is constructed as follows...
* The base image is labelled height h1 and baseline b1,
* the overlay h2 and b2, and the composite H and B.
* base overlay
* --- +------------------------+ --- For the overlay to be
* ^ | ^ +----------+| ^ vertically centered with
* | | | | || | respect to the base,
* | | |B-b1 | || | B - b1 = H-B -(h1-b1), so
* | | v | || | 2*B = H-h1 + 2*b1
* | |+----------+| || | B = b1 + (H-h1)/2
* B || ^ ^ || || | And when the base image is
* | || | | || || | bigger, H=h1 and B=b1 is
* | || b1 | || || | the obvious correct answer.
* | || | h1 || || H=h2
* v || v | || || |
* ----------||-------|--|| ||--|--------
* baseline || h1-b1 v || overlay || |
* for base |+----------+| baseline || |
* and com- | ^ | ignored || |
* posite | |H-B- |----------|| |
* | | (h1-b1)| || |
* | v +----------+| v
* +------------------------+ ---
* ======================================================================= */
/* --- entry point --- */
subraster *rastcompose ( subraster *sp1, subraster *sp2, int offset2,
int isalign, int isfree )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *new_subraster(), *sp=(subraster *)NULL; /* returned subraster */
raster *rp=(raster *)NULL; /* new composite raster in sp */
int delete_subraster(); /* in case isfree non-zero */
int rastput(); /*place sp1,sp2 in composite raster*/
int base1 = sp1->baseline, /*baseline for underlying subraster*/
height1 = (sp1->image)->height, /* height for underlying subraster */
width1 = (sp1->image)->width, /* width for underlying subraster */
pixsz1 = (sp1->image)->pixsz, /* pixsz for underlying subraster */
base2 = sp2->baseline, /*baseline for overlaid subraster */
height2 = (sp2->image)->height, /* height for overlaid subraster */
width2 = (sp2->image)->width, /* width for overlaid subraster */
pixsz2 = (sp2->image)->pixsz; /* pixsz for overlaid subraster */
int height = max2(height1,height2), /*composite height if sp2 centered*/
base = base1 + (height-height1)/2, /* and composite baseline */
tlc2 = (height-height2)/2, /* top-left corner for overlay */
width=0, pixsz=0; /* other params for composite */
int lift1 = rastlift1, /* vertical \raisebox lift for sp1 */
lift2 = rastlift; /* vertical \raisebox lift for sp2 */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- determine height, width and baseline of composite raster --- */
switch ( isalign ) {
default:
case 0: /* centered, baselines not aligned */
height = max2(height1,height2); /* max height */
base = base1 + (height-height1)/2; /* baseline for sp1 */
break;
case 1: /* baselines of sp1,sp2 aligned */
height = max2(base1+1,base2+1) /* max height above baseline */
+ max2(height1-base1-1,height2-base2-1); /*+max descending below*/
base = max2(base1,base2); /* max space above baseline */
break;
case 2: /* centered +/- \raisebox lifts */
base1 -= lift1; base2 -= lift2; /* reset to unlifted images */
/* --- start with default for centered, unlifted images --- */
height2 += 2*absval(lift2); /* "virtual" height of overlay */
height = max2(height1,height2); /* max height */
base = base1 + (height-height1)/2; /* baseline for sp1 */
tlc2 = (height-height2)/2 /* top-left corner for overlay */
+ (lift2>=0?0:2*absval(lift2)); /* "reflect" overlay below base */
break;
} /* --- end-of-switch(isalign) --- */
width = max2(width1,width2+abs(offset2)); /* max width */
pixsz = max2(pixsz1,pixsz2); /* bitmap,bytemap becomes bytemap */
/* -------------------------------------------------------------------------
allocate concatted composite subraster
-------------------------------------------------------------------------- */
/* --- allocate returned subraster (and then initialize it) --- */
if ( (sp=new_subraster(width,height,pixsz)) /* allocate new subraster */
== (subraster *)NULL ) goto end_of_job; /* failed, so quit */
/* --- initialize subraster parameters --- */
sp->type = IMAGERASTER; /* image */
sp->baseline = base; /* composite baseline */
sp->size = sp1->size; /* underlying char is sp1 */
if ( isalign == 2 ) sp->baseline += lift1; /* adjust baseline */
/* --- extract raster from subraster --- */
rp = sp->image; /* raster allocated in subraster */
/* -------------------------------------------------------------------------
overlay sp1 and sp2 in new composite raster
-------------------------------------------------------------------------- */
switch ( isalign ) {
default:
case 0: /* centered, baselines not aligned */
rastput (rp, sp1->image, base-base1, (width-width1)/2, 1); /*underlying*/
rastput (rp, sp2->image, (height-height2)/2, /*overlaid*/
(width-width2)/2+offset2, 0);
break;
case 1: /* baselines of sp1,sp2 aligned */
rastput (rp, sp1->image, base-base1, (width-width1)/2, 1); /*underlying*/
rastput (rp, sp2->image, base-base2, /*overlaid*/
(width-width2)/2+offset2, 0);
break;
case 2: if(1){ /* centered +/- \raisebox lifts */
rastput (rp, sp1->image, base-base1, (width-width1)/2, 1);
rastput (rp, sp2->image, tlc2, (width-width2)/2+offset2, 0); }
break;
} /* --- end-of-switch(isalign) --- */
/* -------------------------------------------------------------------------
free input if requested
-------------------------------------------------------------------------- */
if ( isfree > 0 ) /* caller wants input freed */
{ if ( isfree==1 || isfree>2 ) delete_subraster(sp1); /* free sp1 */
if ( isfree >= 2 ) delete_subraster(sp2); } /* and/or sp2 */
/* -------------------------------------------------------------------------
Back to caller with pointer to concatted subraster or with null for error
-------------------------------------------------------------------------- */
end_of_job:
return ( sp ); /* back with subraster or null ptr */
} /* --- end-of-function rastcompose() --- */
/* ==========================================================================
* Function: rastcat ( sp1, sp2, isfree )
* Purpose: "Concatanates" subrasters sp1||sp2, leaving both unchanged
* and returning a newly-allocated subraster.
* Frees/deletes input sp1 and/or sp2 depending on value
* of isfree (0=none, 1=sp1, 2=sp2, 3=both).
* --------------------------------------------------------------------------
* Arguments: sp1 (I) subraster * to left-hand subraster
* sp2 (I) subraster * to right-hand subraster
* isfree (I) int containing 1=free sp1 before return,
* 2=free sp2, 3=free both, 0=free none.
* --------------------------------------------------------------------------
* Returns: ( subraster * ) pointer to constructed subraster sp1||sp2
* or NULL for any error
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
subraster *rastcat ( subraster *sp1, subraster *sp2, int isfree )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *new_subraster(), *sp=(subraster *)NULL; /* returned subraster */
raster *rp=(raster *)NULL; /* new concatted raster */
int delete_subraster(); /* in case isfree non-zero */
int rastput(); /*place sp1,sp2 in concatted raster*/
int type_raster(); /* debugging display */
int base1 = sp1->baseline, /*baseline for left-hand subraster*/
height1 = (sp1->image)->height, /* height for left-hand subraster */
width1 = (sp1->image)->width, /* width for left-hand subraster */
pixsz1 = (sp1->image)->pixsz, /* pixsz for left-hand subraster */
type1 = sp1->type, /* image type for left-hand */
base2 = sp2->baseline, /*baseline for right-hand subraster*/
height2 = (sp2->image)->height, /* height for right-hand subraster */
width2 = (sp2->image)->width, /* width for right-hand subraster */
pixsz2 = (sp2->image)->pixsz, /* pixsz for right-hand subraster */
type2 = sp2->type; /* image type for right-hand */
int height=0, width=0, pixsz=0, base=0; /*concatted sp1||sp2 composite*/
int issmash = (smashmargin!=0?1:0), /* true to "squash" sp1||sp2 */
isopaque = (issmash?0:1), /* not oppaque if smashing */
rastsmash(), isblank=0, nsmash=0, /* #cols to smash */
oldsmashmargin = smashmargin, /* save original smashmargin */
oldblanksymspace = blanksymspace, /* save original blanksymspace */
oldnocatspace = isnocatspace; /* save original isnocatspace */
mathchardef *symdef1 = sp1->symdef, /*mathchardef of last left-hand char*/
*symdef2 = sp2->symdef; /* mathchardef of right-hand char */
int class1 = (symdef1==NULL?ORDINARY:symdef1->class), /* symdef->class */
class2 = (symdef2==NULL?ORDINARY:symdef2->class), /* or default */
smash1 = (symdef1!=NULL)&&(class1==ORDINARY||class1==VARIABLE||
class1==OPENING||class1==CLOSING||class1==PUNCTION),
smash2 = (symdef2!=NULL)&&(class2==ORDINARY||class2==VARIABLE||
class2==OPENING||class2==CLOSING||class2==PUNCTION),
space = fontsize/2+1; /* #cols between sp1 and sp2 */
int isfrac = (type1 == FRACRASTER /* sp1 is a \frac */
&& class2 == PUNCTION); /* and sp2 is punctuation */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- determine inter-character space from character class --- */
if ( !isstring )
space = max2(2,(symspace[class1][class2] + fontsize-3)); /* space */
else space = 1; /* space for ascii string */
if ( isnocatspace > 0 ) { /* spacing explicitly turned off */
space = 0; /* reset space */
isnocatspace--; } /* and decrement isnocatspace flag */
if ( 0 && sp1->type == BLANKSIGNAL ) space=0; /*implicitly turn off spacing*/
if ( sp1->type==BLANKSIGNAL && sp2->type==BLANKSIGNAL ) /* both blank */
space = 0; /* no extra space between spaces */
if ( sp2->type != BLANKSIGNAL ) /* not a blank space signal */
if ( blanksymspace != 0 ) { /* and we have a space adjustment */
space = max2(0,space+blanksymspace); /* adjust as much as possible */
blanksymspace = 0; } /* and reset adjustment */
if ( msgfp!=NULL && msglevel>=999 ) /* display space results */
{ fprintf(msgfp,"rastcat> space=%d, blanksymspace=%d, isnocatspace=%d\n",
space,oldblanksymspace,oldnocatspace); fflush(msgfp); }
/* --- determine smash --- */
if ( !isstring && !isfrac ) /* don't smash strings or \frac's */
if ( issmash ) { /* raster smash wanted */
int maxsmash = rastsmash(sp1,sp2), /* calculate max smash space */
margin = smashmargin; /* init margin without delta */
if ( (1 && smash1 && smash2) /* concatanating two chars */
|| (1 && type1!=IMAGERASTER && type2!=IMAGERASTER
&& type1!=FRACRASTER && type2!=FRACRASTER ) )
/*maxsmash = 0;*/ /* turn off smash */
margin = max2(space-1,0); /* force small smashmargin */
else /* adjust for delta if images */
if ( issmashdelta ) /* smashmargin is a delta value */
margin += fontsize; /* add displaystyle base to margin */
if ( maxsmash == blanksignal ) /* sp2 is intentional blank */
isblank = 1; /* set blank flag signal */
else /* see how much extra space we have*/
if ( maxsmash > margin ) /* enough space for adjustment */
nsmash = maxsmash-margin; /* make adjustment */
if ( msgfp!=NULL && msglevel>=99 ) /* display smash results */
{ fprintf(msgfp,"rastcat> maxsmash=%d, margin=%d, nsmash=%d\n",
maxsmash,margin,nsmash);
fprintf(msgfp,"rastcat> type1=%d,2=%d, class1=%d,2=%d\n", type1,type2,
(symdef1==NULL?-999:class1),(symdef2==NULL?-999:class2));
fflush(msgfp); }
} /* --- end-of-if(issmash) --- */
/* --- determine height, width and baseline of composite raster --- */
if ( !isstring )
{ height = max2(base1+1,base2+1) /* max height above baseline */
+ max2(height1-base1-1,height2-base2-1); /*+ max descending below*/
width = width1+width2 + space-nsmash; /*add widths and space-smash*/
width = max3(width,width1,width2); } /* don't "over-smash" composite */
else /* ascii string */
{ height = 1; /* default */
width = width1 + width2 + space - 1; } /* no need for two nulls */
pixsz = max2(pixsz1,pixsz2); /* bitmap||bytemap becomes bytemap */
base = max2(base1,base2); /* max space above baseline */
if ( msgfp!=NULL && msglevel>=9999 ) /* display components */
{ fprintf(msgfp,"rastcat> Left-hand ht,width,pixsz,base = %d,%d,%d,%d\n",
height1,width1,pixsz1,base1);
type_raster(sp1->image,msgfp); /* display left-hand raster */
fprintf(msgfp,"rastcat> Right-hand ht,width,pixsz,base = %d,%d,%d,%d\n",
height2,width2,pixsz2,base2);
type_raster(sp2->image,msgfp); /* display right-hand raster */
fprintf(msgfp,
"rastcat> Composite ht,width,smash,pixsz,base = %d,%d,%d,%d,%d\n",
height,width,nsmash,pixsz,base);
fflush(msgfp); } /* flush msgfp buffer */
/* -------------------------------------------------------------------------
allocate concatted composite subraster
-------------------------------------------------------------------------- */
/* --- allocate returned subraster (and then initialize it) --- */
if ( msgfp!=NULL && msglevel>=9999 )
{ fprintf(msgfp,"rastcat> calling new_subraster(%d,%d,%d)\n",
width,height,pixsz); fflush(msgfp); }
if ( (sp=new_subraster(width,height,pixsz)) /* allocate new subraster */
== (subraster *)NULL ) /* failed */
{ if ( msgfp!=NULL && msglevel>=1 ) /* report failure */
{ fprintf(msgfp,"rastcat> new_subraster(%d,%d,%d) failed\n",
width,height,pixsz); fflush(msgfp); }
goto end_of_job; } /* failed, so quit */
/* --- initialize subraster parameters --- */
/* sp->type = (!isstring?STRINGRASTER:ASCIISTRING); */ /*concatted string*/
if ( !isstring )
sp->type = /*type2;*//*(type1==type2?type2:IMAGERASTER);*/
(type2!=CHARASTER? type2 :
(type1!=CHARASTER&&type1!=BLANKSIGNAL
&&type1!=FRACRASTER?type1:IMAGERASTER));
else
sp->type = ASCIISTRING; /* concatted ascii string */
sp->symdef = symdef2; /* rightmost char is sp2 */
sp->baseline = base; /* composite baseline */
sp->size = sp2->size; /* rightmost char is sp2 */
if ( isblank ) /* need to propagate blanksignal */
sp->type = blanksignal; /* may not be completely safe??? */
/* --- extract raster from subraster --- */
rp = sp->image; /* raster allocated in subraster */
/* -------------------------------------------------------------------------
overlay sp1 and sp2 in new composite raster
-------------------------------------------------------------------------- */
if ( msgfp!=NULL && msglevel>=9999 )
{ fprintf(msgfp,"rastcat> calling rastput() to concatanate left||right\n");
fflush(msgfp); } /* flush msgfp buffer */
if ( !isstring )
rastput (rp, sp1->image, base-base1, /* overlay left-hand */
max2(0,nsmash-width1), 1); /* plus any residual smash space */
else
memcpy(rp->pixmap,(sp1->image)->pixmap,width1-1); /*init left string*/
if ( msgfp!=NULL && msglevel>=9999 )
{ type_raster(sp->image,msgfp); /* display composite raster */
fflush(msgfp); } /* flush msgfp buffer */
if ( !isstring )
{ int fracbase = ( isfrac? /* baseline for punc after \frac */
max2(fraccenterline,base2):base ); /*adjust baseline or use original*/
rastput (rp, sp2->image, fracbase-base2, /* overlay right-hand */
max2(0,width1+space-nsmash), isopaque); /* minus any smashed space */
if ( 1 && type1 == FRACRASTER /* we're done with \frac image */
&& type2 != FRACRASTER ) /* unless we have \frac\frac */
fraccenterline = NOVALUE; /* so reset centerline signal */
if ( fraccenterline != NOVALUE ) /* sp2 is a fraction */
fraccenterline += (base-base2); } /* so adjust its centerline */
else
{ strcpy((char *)(rp->pixmap)+width1-1+space,(char *)((sp2->image)->pixmap));
((char *)(rp->pixmap))[width1+width2+space-2] = '\000'; } /*null-term*/
if ( msgfp!=NULL && msglevel>=9999 )
{ type_raster(sp->image,msgfp); /* display composite raster */
fflush(msgfp); } /* flush msgfp buffer */
/* -------------------------------------------------------------------------
free input if requested
-------------------------------------------------------------------------- */
if ( isfree > 0 ) /* caller wants input freed */
{ if ( isfree==1 || isfree>2 ) delete_subraster(sp1); /* free sp1 */
if ( isfree >= 2 ) delete_subraster(sp2); } /* and/or sp2 */
/* -------------------------------------------------------------------------
Back to caller with pointer to concatted subraster or with null for error
-------------------------------------------------------------------------- */
end_of_job:
smashmargin = oldsmashmargin; /* reset original smashmargin */
return ( sp ); /* back with subraster or null ptr */
} /* --- end-of-function rastcat() --- */
/* ==========================================================================
* Function: rastack ( sp1, sp2, base, space, iscenter, isfree )
* Purpose: Stack subrasters sp2 atop sp1, leaving both unchanged
* and returning a newly-allocated subraster,
* whose baseline is sp1's if base=1, or sp2's if base=2.
* Frees/deletes input sp1 and/or sp2 depending on value
* of isfree (0=none, 1=sp1, 2=sp2, 3=both).
* --------------------------------------------------------------------------
* Arguments: sp1 (I) subraster * to lower subraster
* sp2 (I) subraster * to upper subraster
* base (I) int containing 1 if sp1 is baseline,
* or 2 if sp2 is baseline.
* space (I) int containing #rows blank space inserted
* between sp1's image and sp2's image.
* iscenter (I) int containing 1 to center both sp1 and sp2
* in stacked array, 0 to left-justify both
* isfree (I) int containing 1=free sp1 before return,
* 2=free sp2, 3=free both, 0=free none.
* --------------------------------------------------------------------------
* Returns: ( subraster * ) pointer to constructed subraster sp2 atop sp1
* or NULL for any error
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
subraster *rastack ( subraster *sp1, subraster *sp2,
int base, int space, int iscenter, int isfree )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *new_subraster(), *sp=(subraster *)NULL; /* returned subraster */
raster *rp=(raster *)NULL; /* new stacked raster in sp */
int delete_subraster(); /* in case isfree non-zero */
int rastput(); /* place sp1,sp2 in stacked raster */
int base1 = sp1->baseline, /* baseline for lower subraster */
height1 = (sp1->image)->height, /* height for lower subraster */
width1 = (sp1->image)->width, /* width for lower subraster */
pixsz1 = (sp1->image)->pixsz, /* pixsz for lower subraster */
base2 = sp2->baseline, /* baseline for upper subraster */
height2 = (sp2->image)->height, /* height for upper subraster */
width2 = (sp2->image)->width, /* width for upper subraster */
pixsz2 = (sp2->image)->pixsz; /* pixsz for upper subraster */
int height=0, width=0, pixsz=0, baseline=0; /*for stacked sp2 atop sp1*/
mathchardef *symdef1 = sp1->symdef, /* mathchardef of right lower char */
*symdef2 = sp2->symdef; /* mathchardef of right upper char */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- determine height, width and baseline of composite raster --- */
height = height1 + space + height2; /* sum of heights plus space */
width = max2(width1,width2); /* max width is overall width */
pixsz = max2(pixsz1,pixsz2); /* bitmap||bytemap becomes bytemap */
baseline = (base==1? height2+space+base1 : (base==2? base2 : 0));
/* -------------------------------------------------------------------------
allocate stacked composite subraster (with embedded raster)
-------------------------------------------------------------------------- */
/* --- allocate returned subraster (and then initialize it) --- */
if ( (sp=new_subraster(width,height,pixsz)) /* allocate new subraster */
== (subraster *)NULL ) goto end_of_job; /* failed, so quit */
/* --- initialize subraster parameters --- */
sp->type = IMAGERASTER; /* stacked rasters */
sp->symdef = (base==1? symdef1 : (base==2? symdef2 : NULL)); /* symdef */
sp->baseline = baseline; /* composite baseline */
sp->size = (base==1? sp1->size : (base==2? sp2->size : NORMALSIZE)); /*size*/
/* --- extract raster from subraster --- */
rp = sp->image; /* raster embedded in subraster */
/* -------------------------------------------------------------------------
overlay sp1 and sp2 in new composite raster
-------------------------------------------------------------------------- */
if ( iscenter == 1 ) /* center both sp1 and sp2 */
{ rastput (rp, sp2->image, 0, (width-width2)/2, 1); /* overlay upper */
rastput (rp, sp1->image, height2+space, (width-width1)/2, 1); } /*lower*/
else /* left-justify both sp1 and sp2 */
{ rastput (rp, sp2->image, 0, 0, 1); /* overlay upper */
rastput (rp, sp1->image, height2+space, 0, 1); } /*lower*/
/* -------------------------------------------------------------------------
free input if requested
-------------------------------------------------------------------------- */
if ( isfree > 0 ) /* caller wants input freed */
{ if ( isfree==1 || isfree>2 ) delete_subraster(sp1); /* free sp1 */
if ( isfree>=2 ) delete_subraster(sp2); } /* and/or sp2 */
/* -------------------------------------------------------------------------
Back to caller with pointer to stacked subraster or with null for error
-------------------------------------------------------------------------- */
end_of_job:
return ( sp ); /* back with subraster or null ptr */
} /* --- end-of-function rastack() --- */
/* ==========================================================================
* Function: rastile ( tiles, ntiles )
* Purpose: Allocate and build up a composite raster
* from the ntiles components/characters supplied in tiles.
* --------------------------------------------------------------------------
* Arguments: tiles (I) subraster * to array of subraster structs
* describing the components and their locations
* ntiles (I) int containing number of subrasters in tiles[]
* --------------------------------------------------------------------------
* Returns: ( raster * ) ptr to composite raster,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o The top,left corner of a raster is row=0,col=0
* with row# increasing as you move down,
* and col# increasing as you move right.
* Metafont numbers rows with the baseline=0,
* so the top row is a positive number that
* decreases as you move down.
* o rastile() is no longer used.
* It was used by an earlier rasterize() algorithm,
* and I've left it in place should it be needed again.
* But recent changes haven't been tested/exercised.
* ======================================================================= */
/* --- entry point --- */
raster *rastile ( subraster *tiles, int ntiles )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
raster *new_raster(), *composite=(raster *)NULL; /*raster back to caller*/
int width=0, height=0, pixsz=0, /*width,height,pixsz of composite raster*/
toprow=9999, rightcol=-999, /* extreme upper-right corner of tiles */
botrow=-999, leftcol=9999; /* extreme lower-left corner of tiles */
int itile; /* tiles[] index */
int rastput(); /* overlay each tile in composite raster */
/* -------------------------------------------------------------------------
run through tiles[] to determine dimensions for composite raster
-------------------------------------------------------------------------- */
/* --- determine row and column bounds of composite raster --- */
for ( itile=0; itiletoprow);
leftcol = min2(leftcol, tile->leftcol);
/* --- lower-right corner of composite --- */
botrow = max2(botrow, tile->toprow + (tile->image)->height - 1);
rightcol = max2(rightcol, tile->leftcol + (tile->image)->width - 1);
/* --- pixsz of composite --- */
pixsz = max2(pixsz,(tile->image)->pixsz);
} /* --- end-of-for(itile) --- */
/* --- calculate width and height from bounds --- */
width = rightcol - leftcol + 1;
height = botrow - toprow + 1;
/* --- sanity check (quit if bad dimensions) --- */
if ( width<1 || height<1 ) goto end_of_job;
/* -------------------------------------------------------------------------
allocate composite raster, and embed tiles[] within it
-------------------------------------------------------------------------- */
/* --- allocate composite raster --- */
if ( (composite=new_raster(width,height,pixsz)) /*allocate composite raster*/
== (raster *)NULL ) goto end_of_job; /* and quit if failed */
/* --- embed tiles[] in composite --- */
for ( itile=0; itileimage, /* overlay tile image at...*/
tile->toprow-toprow, tile->leftcol-leftcol, 1); } /*upper-left corner*/
/* -------------------------------------------------------------------------
Back to caller with composite raster (or null for any error)
-------------------------------------------------------------------------- */
end_of_job:
return ( composite ); /* back with composite or null ptr */
} /* --- end-of-function rastile() --- */
/* ==========================================================================
* Function: rastsmash ( sp1, sp2 )
* Purpose: When concatanating sp1||sp2, calculate #pixels
* we can "smash sp2 left"
* --------------------------------------------------------------------------
* Arguments: sp1 (I) subraster * to left-hand raster
* sp2 (I) subraster * to right-hand raster
* --------------------------------------------------------------------------
* Returns: ( int ) max #pixels we can smash sp1||sp2,
* or "blanksignal" if sp2 intentionally blank,
* or 0 for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int rastsmash ( subraster *sp1, subraster *sp2 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int nsmash = 0; /* #pixels to smash sp1||sp2 */
int base1 = sp1->baseline, /*baseline for left-hand subraster*/
height1 = (sp1->image)->height, /* height for left-hand subraster */
width1 = (sp1->image)->width, /* width for left-hand subraster */
base2 = sp2->baseline, /*baseline for right-hand subraster*/
height2 = (sp2->image)->height, /* height for right-hand subraster */
width2 = (sp2->image)->width; /* width for right-hand subraster */
int base = max2(base1,base2), /* max ascenders - 1 above baseline*/
top1=base-base1, top2=base-base2, /* top irow indexes for sp1, sp2 */
bot1=top1+height1-1, bot2=top2+height2-1, /* bot irow indexes */
height = max2(bot1,bot2)+1; /* total height */
int irow1=0,irow2=0, icol=0; /* row,col indexes */
int firstcol1[1025], nfirst1=0, /* 1st sp1 col containing set pixel*/
firstcol2[1025], nfirst2=0; /* 1st sp2 col containing set pixel*/
int smin=9999, xmin=9999,ymin=9999; /* min separation (s=x+y) */
int type_raster(); /* display debugging output */
/* -------------------------------------------------------------------------
find right edge of sp1 and left edge of sp2 (these will be abutting edges)
-------------------------------------------------------------------------- */
/* --- check args --- */
if ( isstring ) goto end_of_job; /* ignore string rasters */
if ( 0 && istextmode ) goto end_of_job; /* don't smash in text mode */
if ( height > 1023 ) goto end_of_job; /* don't try to smash huge image */
if ( sp2->type == blanksignal ) /*blanksignal was propagated to us*/
goto end_of_job; /* don't smash intentional blank */
/* --- init firstcol1[], firstcol2[] --- */
for ( irow1=0; irow1image,irow2-top2,icol) != 0 ) /* found a set pixel */
{ firstcol2[irow2] = icol; /* icol is #cols from left edge */
nfirst2++; /* bump #rows containing set pixels*/
break; } /* and go on to next row */
if ( nfirst2 < 1 ) /*right-hand sp2 is completely blank*/
{ nsmash = blanksignal; /* signal intentional blanks */
goto end_of_job; } /* don't smash intentional blanks */
/* --- now check if preceding image in sp1 was an intentional blank --- */
if ( sp1->type == blanksignal ) /*blanksignal was propagated to us*/
goto end_of_job; /* don't smash intentional blank */
/* --- set firstcol1[] indicating right edge of sp1 --- */
for ( irow1=top1; irow1<=bot1; irow1++ ) /* for each row inside sp1 */
for ( icol=width1-1; icol>=0; icol-- ) /* find last non-empty col in row */
if ( getpixel(sp1->image,irow1-top1,icol) != 0 ) /* found a set pixel */
{ firstcol1[irow1] = (width1-1)-icol; /* save #cols from right edge */
nfirst1++; /* bump #rows containing set pixels*/
break; } /* and go on to next row */
if ( nfirst1 < 1 ) /*left-hand sp1 is completely blank*/
goto end_of_job; /* don't smash intentional blanks */
/* -------------------------------------------------------------------------
find minimum separation
-------------------------------------------------------------------------- */
for ( irow2=top2; irow2<=bot2; irow2++ ) { /* check each row inside sp2 */
int margin1, margin2=firstcol2[irow2]; /* #cols to first set pixel */
if ( margin2 != blanksignal ) { /* irow2 not an empty/blank row */
for ( irow1=max2(irow2-smin,top1); ; irow1++ )
if ( irow1 > min2(irow2+smin,bot1) ) break; /* upper bound check */
else
if ( (margin1=firstcol1[irow1]) != blanksignal ) { /*have non-blank row*/
int dx=(margin1+margin2), dy=absval(irow2-irow1), ds=dx+dy; /* deltas */
if ( ds >= smin ) continue; /* min unchanged */
if ( dy>smashmargin && dx= 99 ) /* display for debugging */
{ fprintf(msgfp,"rastsmash> nsmash=%d, smashmargin=%d\n",
nsmash,smashmargin);
if ( msglevel >= 999 ) /* also display rasters */
{ fprintf(msgfp,"rastsmash>left-hand image...\n");
if(sp1!=NULL) type_raster(sp1->image,msgfp); /* left image */
fprintf(msgfp,"rastsmash>right-hand image...\n");
if(sp2!=NULL) type_raster(sp2->image,msgfp); } /* right image */
fflush(msgfp); }
return ( nsmash ); /* back with #smash pixels */
} /* --- end-of-function rastsmash() --- */
/* ==========================================================================
* Function: rastsmashcheck ( term )
* Purpose: Check an exponent term to see if its leading symbol
* would make smashing dangerous
* --------------------------------------------------------------------------
* Arguments: term (I) char * to null-terminated string
* containing right-hand exponent term about to
* be smashed against existing left-hand.
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if it's okay to smash term, or
* 0 if smash is dangerous.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int rastsmashcheck ( char *term )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int isokay = 0; /* 1 to signal okay to caller */
static char nosmashchars[64] = "-.,="; /* don't smash these leading chars */
static char *nosmashstrs[64] = { "\\frac", NULL }; /* or leading strings */
static char *grayspace[64] = { "\\tiny", "\\small", "\\normalsize",
"\\large", "\\Large", "\\LARGE", "\\huge", "\\Huge", NULL };
char *expression = term; /* local ptr to beginning of expression */
char *token = NULL; int i; /* token = nosmashstrs[i] or grayspace[i] */
/* -------------------------------------------------------------------------
see if smash check enabled
-------------------------------------------------------------------------- */
if ( smashcheck < 1 ) { /* no smash checking wanted */
if ( smashcheck >= 0 ) /* -1 means check should always fail */
isokay = 1; /* otherwise (if 0), signal okay to smash */
goto end_of_job; } /* return to caller */
/* -------------------------------------------------------------------------
skip leading white and gray space
-------------------------------------------------------------------------- */
/* --- first check input --- */
if ( isempty(term) ) goto end_of_job; /* no input so return 0 to caller */
/* --- skip leading white space --- */
skipwhite(term); /* skip leading white space */
if ( *term == '\000' ) goto end_of_job; /* nothing but white space */
/* --- skip leading gray space --- */
skipgray:
for ( i=0; (token=grayspace[i]) != NULL; i++ ) /* check each grayspace */
if ( strncmp(term,token,strlen(token)) == 0 ) { /* found grayspace */
term += strlen(token); /* skip past this grayspace token */
skipwhite(term); /* and skip any subsequent white space */
if ( *term == '\000' ) { /* nothing left so quit */
if ( msgfp!=NULL && msglevel >= 99 ) /* display for debugging */
fprintf(msgfp,"rastsmashcheck> only grayspace in %.32s\n",expression);
goto end_of_job; }
goto skipgray; } /* restart grayspace check from beginning */
/* -------------------------------------------------------------------------
check for leading no-smash single char
-------------------------------------------------------------------------- */
/* --- don't smash if term begins with a "nosmash" char --- */
if ( (token=strchr(nosmashchars,*term)) != NULL ) {
if ( msgfp!=NULL && msglevel >= 99 ) /* display for debugging */
fprintf(msgfp,"rastsmashcheck> char %.1s found in %.32s\n",token,term);
goto end_of_job; }
/* -------------------------------------------------------------------------
check for leading no-smash token
-------------------------------------------------------------------------- */
for ( i=0; (token=nosmashstrs[i]) != NULL; i++ ) /* check each nosmashstr */
if ( strncmp(term,token,strlen(token)) == 0 ) { /* found a nosmashstr */
if ( msgfp!=NULL && msglevel >= 99 ) /* display for debugging */
fprintf(msgfp,"rastsmashcheck> token %s found in %.32s\n",token,term);
goto end_of_job; } /* so don't smash term */
/* -------------------------------------------------------------------------
back to caller
-------------------------------------------------------------------------- */
isokay = 1; /* no problem, so signal okay to smash */
end_of_job:
if ( msgfp!=NULL && msglevel >= 999 ) /* display for debugging */
fprintf(msgfp,"rastsmashcheck> returning isokay=%d for \"%.32s\"\n",
isokay,(expression==NULL?"":expression));
return ( isokay ); /* back to caller with 1 if okay to smash */
} /* --- end-of-function rastsmashcheck() --- */
/* ==========================================================================
* Function: accent_subraster ( accent, width, height, direction, pixsz )
* Purpose: Allocate a new subraster of width x height
* (or maybe different dimensions, depending on accent),
* and draw an accent (\hat or \vec or \etc) that fills it
* --------------------------------------------------------------------------
* Arguments: accent (I) int containing either HATACCENT or VECACCENT,
* etc, indicating the type of accent desired
* width (I) int containing desired width of accent (#cols)
* height (I) int containing desired height of accent(#rows)
* direction (I) int containing desired direction of accent,
* +1=right, -1=left, 0=left/right
* pixsz (I) int containing 1 for bitmap, 8 for bytemap
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to newly-allocated subraster with accent,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o Some accents have internally-determined dimensions,
* and caller should check dimensions in returned subraster
* ======================================================================= */
/* --- entry point --- */
subraster *accent_subraster ( int accent, int width, int height,
int direction, int pixsz )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
/* --- general info --- */
raster *new_raster(), *rp=NULL; /*raster containing desired accent*/
subraster *new_subraster(), *sp=NULL; /* subraster returning accent */
int delete_raster(), delete_subraster(); /*free allocated raster on err*/
int line_raster(), /* draws lines */
rule_raster(), /* draw solid boxes */
thickness = 1; /* line thickness */
/*int pixval = (pixsz==1? 1 : (pixsz==8?255:(-1)));*/ /*black pixel value*/
/* --- other working info --- */
int col0, col1, /* cols for line */
row0, row1; /* rows for line */
subraster *get_delim(), *accsp=NULL; /*find suitable cmex10 symbol/accent*/
/* --- info for under/overbraces, tildes, etc --- */
char brace[16]; /*"{" for over, "}" for under, etc*/
raster *rastrot(), /* rotate { for overbrace, etc */
*rastcpy(); /* may need copy of original */
subraster *arrow_subraster(); /* rightarrow for vec */
subraster *rastack(); /* stack accent atop extra space */
int iswidthneg = 0; /* set true if width<0 arg passed */
int serifwidth=0; /* serif for surd */
int isBig=0; /* true for ==>arrow, false for -->*/
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
if ( width < 0 ) { width=(-width); iswidthneg=1; } /* set neg width flag */
/* -------------------------------------------------------------------------
outer switch() traps accents that may change caller's height,width
-------------------------------------------------------------------------- */
switch ( accent )
{
default:
/* -----------------------------------------------------------------------
inner switch() first allocates fixed-size raster for accents that don't
------------------------------------------------------------------------ */
if ( (rp = new_raster(width,height,pixsz)) /* allocate fixed-size raster */
!= NULL ) /* and if we succeeded... */
switch ( accent ) /* ...draw requested accent in it */
{
/* --- unrecognized request --- */
default: delete_raster(rp); /* unrecognized accent requested */
rp = NULL; break; /* so free raster and signal error */
/* --- bar request --- */
case UNDERBARACCENT:
case BARACCENT:
thickness = 1; /*height-1;*/ /* adjust thickness */
if ( accent == BARACCENT ) /* bar is above expression */
{ row0 = row1 = max2(height-3,0); /* row numbers for overbar */
line_raster(rp,row0,0,row1,width-1,thickness); } /*blanks at bot*/
else /* underbar is below expression */
{ row0 = row1 = min2(2,height-1); /* row numbers for underbar */
line_raster(rp,row0,0,row1,width-1,thickness); } /*blanks at top*/
break;
/* --- dot request --- */
case DOTACCENT:
thickness = height-1; /* adjust thickness */
/*line_raster(rp,0,width/2,1,(width/2)+1,thickness);*//*centered dot*/
rule_raster(rp,0,(width+1-thickness)/2,thickness,thickness,3); /*box*/
break;
/* --- ddot request --- */
case DDOTACCENT:
thickness = height-1; /* adjust thickness */
col0 = max2((width+1)/3-(thickness/2)-1,0); /* one-third of width */
col1 = min2((2*width+1)/3-(thickness/2)+1,width-thickness); /*2/3rds*/
if ( col0+thickness >= col1 ) /* dots overlap */
{ col0 = max2(col0-1,0); /* try moving left dot more left */
col1 = min2(col1+1,width-thickness); } /* and right dot right */
if ( col0+thickness >= col1 ) /* dots _still_ overlap */
thickness = max2(thickness-1,1); /* so try reducing thickness */
/*line_raster(rp,0,col0,1,col0+1,thickness);*//*set dot at 1st third*/
/*line_raster(rp,0,col1,1,col1+1,thickness);*//*and another at 2nd*/
rule_raster(rp,0,col0,thickness,thickness,3); /*box at 1st third*/
rule_raster(rp,0,col1,thickness,thickness,3); /*box at 2nd third*/
break;
/* --- hat request --- */
case HATACCENT:
thickness = 1; /*(width<=12? 2 : 3);*/ /* adjust thickness */
line_raster(rp,height-1,0,0,width/2,thickness); /* / part of hat*/
line_raster(rp,0,(width-1)/2,height-1,width-1,thickness); /* \ part*/
break;
/* --- sqrt request --- */
case SQRTACCENT:
serifwidth = SURDSERIFWIDTH(height); /* leading serif on surd */
col1 = SQRTWIDTH(height,(iswidthneg?1:2)) - 1; /*right col of sqrt*/
/*col0 = (col1-serifwidth+2)/3;*/ /* midpoint col of sqrt */
col0 = (col1-serifwidth+1)/2; /* midpoint col of sqrt */
row0 = max2(1,((height+1)/2)-2); /* midpoint row of sqrt */
row1 = height-1; /* bottom row of sqrt */
/*line_raster(rp,row0,0,row1,col0,thickness);*/ /*descending portion*/
line_raster(rp,row0+serifwidth,0,row0,serifwidth,thickness);
line_raster(rp,row0,serifwidth,row1,col0,thickness); /* descending */
line_raster(rp,row1,col0,0,col1,thickness); /* ascending portion */
line_raster(rp,0,col1,0,width-1,thickness); /*overbar of thickness 1*/
break;
} /* --- end-of-inner-switch(accent) --- */
break; /* break from outer accent switch */
/* --- underbrace, overbrace request --- */
case UNDERBRACE:
case OVERBRACE:
if ( accent == UNDERBRACE ) strcpy(brace,"}"); /* start with } brace */
if ( accent == OVERBRACE ) strcpy(brace,"{"); /* start with { brace */
if ( (accsp=get_delim(brace,width,CMEX10)) /* use width for height */
!= NULL ) /* found desired brace */
{ rp = rastrot(accsp->image); /* rotate 90 degrees clockwise */
delete_subraster(accsp); } /* and free subraster "envelope" */
break;
/* --- hat request --- */
case HATACCENT:
if ( accent == HATACCENT ) strcpy(brace,"<"); /* start with < */
if ( (accsp=get_delim(brace,width,CMEX10)) /* use width for height */
!= NULL ) /* found desired brace */
{ rp = rastrot(accsp->image); /* rotate 90 degrees clockwise */
delete_subraster(accsp); } /* and free subraster "envelope" */
break;
/* --- vec request --- */
case VECACCENT:
height = 2*(height/2) + 1; /* force height odd */
if ( absval(direction) >= 9 ) { /* want ==> arrow rather than --> */
isBig = 1; /* signal "Big" arrow */
direction -= 10; } /* reset direction = +1, -1, or 0 */
if ((accsp=arrow_subraster(width,height,pixsz,direction,isBig)) /*arrow*/
!= NULL ) /* succeeded */
{ rp = accsp->image; /* "extract" raster with bitmap */
free((void *)accsp); } /* and free subraster "envelope" */
break;
/* --- tilde request --- */
case TILDEACCENT:
accsp=(width<25? get_delim("\\sim",-width,CMSY10) :
get_delim("~",-width,CMEX10)); /*width search for tilde*/
if ( accsp != NULL ) /* found desired tilde */
if ( (sp=rastack(new_subraster(1,1,pixsz),accsp,1,0,1,3))/*space below*/
!= NULL ) /* have tilde with space below it */
{ rp = sp->image; /* "extract" raster with bitmap */
free((void *)sp); /* and free subraster "envelope" */
leftsymdef = NULL; } /* so \tilde{x}^2 works properly */
break;
} /* --- end-of-outer-switch(accent) --- */
/* -------------------------------------------------------------------------
if we constructed accent raster okay, embed it in a subraster and return it
-------------------------------------------------------------------------- */
/* --- if all okay, allocate subraster to contain constructed raster --- */
if ( rp != NULL ) { /* accent raster constructed okay */
if ( (sp=new_subraster(0,0,0)) /* allocate subraster "envelope" */
== NULL ) /* and if we fail to allocate */
delete_raster(rp); /* free now-unneeded raster */
else /* subraster allocated okay */
{ /* --- init subraster parameters, embedding raster in it --- */
sp->type = IMAGERASTER; /* constructed image */
sp->image = rp; /* raster we just constructed */
sp->size = (-1); /* can't set font size here */
sp->baseline = 0; } /* can't set baseline here */
} /* --- end-of-if(rp!=NULL) --- */
/* --- return subraster containing desired accent to caller --- */
return ( sp ); /* return accent or NULL to caller */
} /* --- end-of-function accent_subraster() --- */
/* ==========================================================================
* Function: arrow_subraster ( width, height, pixsz, drctn, isBig )
* Purpose: Allocate a raster/subraster and draw left/right arrow in it
* --------------------------------------------------------------------------
* Arguments: width (I) int containing number of cols for arrow
* height (I) int containing number of rows for arrow
* pixsz (I) int containing 1 for bitmap, 8 for bytemap
* drctn (I) int containing +1 for right arrow,
* or -1 for left, 0 for leftright
* isBig (I) int containing 1/true for \Long arrows,
* or false for \long arrows, i.e.,
* true for ===> or false for --->.
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to constructed left/right arrow
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *arrow_subraster ( int width, int height, int pixsz,
int drctn, int isBig )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *new_subraster(), *arrowsp=NULL; /* allocate arrow subraster */
int rule_raster(); /* draw arrow line */
int irow, midrow=height/2; /* index, midrow is arrowhead apex */
int icol, thickness=(height>15?2:2); /* arrowhead thickness and index */
int pixval = (pixsz==1? 1 : (pixsz==8?255:(-1))); /* black pixel value */
int ipix, /* raster pixmap[] index */
npix = width*height; /* #pixels malloced in pixmap[] */
/* -------------------------------------------------------------------------
allocate raster/subraster and draw arrow line
-------------------------------------------------------------------------- */
if ( height < 3 ) { height=3; midrow=1; } /* set minimum height */
if ( (arrowsp=new_subraster(width,height,pixsz)) /* allocate empty raster */
== NULL ) goto end_of_job; /* and quit if failed */
if ( !isBig ) /* single line */
rule_raster(arrowsp->image,midrow,0,width,1,0); /*draw line across midrow*/
else
{ int delta = (width>6? (height>15? 3: (height>7? 2 : 1)) : 1);
rule_raster(arrowsp->image,midrow-delta,delta,width-2*delta,1,0);
rule_raster(arrowsp->image,midrow+delta,delta,width-2*delta,1,0); }
/* -------------------------------------------------------------------------
construct arrowhead(s)
-------------------------------------------------------------------------- */
for ( irow=0; irow= 0 ) /* right arrowhead wanted */
for ( icol=0; icol= 0 ) { /* bounds check */
if ( pixsz == 1 ) /* have a bitmap */
setlongbit((arrowsp->image)->pixmap,ipix);/*turn on arrowhead bit*/
else /* should have a bytemap */
if ( pixsz == 8 ) /* check pixsz for bytemap */
((arrowsp->image)->pixmap)[ipix] = pixval; } }/*set arrowhead byte*/
/* --- left arrowhead (same as right except for ipix calculation) --- */
if ( drctn <= 0 ) /* left arrowhead wanted */
for ( icol=0; icolimage)->pixmap,ipix);/*turn on arrowhead bit*/
else /* should have a bytemap */
if ( pixsz == 8 ) /* check pixsz for bytemap */
((arrowsp->image)->pixmap)[ipix] = pixval; } }/*set arrowhead byte*/
} /* --- end-of-for(irow) --- */
end_of_job:
return ( arrowsp ); /*back to caller with arrow or NULL*/
} /* --- end-of-function arrow_subraster() --- */
/* ==========================================================================
* Function: uparrow_subraster ( width, height, pixsz, drctn, isBig )
* Purpose: Allocate a raster/subraster and draw up/down arrow in it
* --------------------------------------------------------------------------
* Arguments: width (I) int containing number of cols for arrow
* height (I) int containing number of rows for arrow
* pixsz (I) int containing 1 for bitmap, 8 for bytemap
* drctn (I) int containing +1 for up arrow,
* or -1 for down, or 0 for updown
* isBig (I) int containing 1/true for \Long arrows,
* or false for \long arrows, i.e.,
* true for ===> or false for --->.
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to constructed up/down arrow
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *uparrow_subraster ( int width, int height, int pixsz,
int drctn, int isBig )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *new_subraster(), *arrowsp=NULL; /* allocate arrow subraster */
int rule_raster(); /* draw arrow line */
int icol, midcol=width/2; /* index, midcol is arrowhead apex */
int irow, thickness=(width>15?2:2); /* arrowhead thickness and index */
int pixval = (pixsz==1? 1 : (pixsz==8?255:(-1))); /* black pixel value */
int ipix, /* raster pixmap[] index */
npix = width*height; /* #pixels malloced in pixmap[] */
/* -------------------------------------------------------------------------
allocate raster/subraster and draw arrow line
-------------------------------------------------------------------------- */
if ( width < 3 ) { width=3; midcol=1; } /* set minimum width */
if ( (arrowsp=new_subraster(width,height,pixsz)) /* allocate empty raster */
== NULL ) goto end_of_job; /* and quit if failed */
if ( !isBig ) /* single line */
rule_raster(arrowsp->image,0,midcol,1,height,0); /*draw line down midcol*/
else
{ int delta = (height>6? (width>15? 3: (width>7? 2 : 1)) : 1);
rule_raster(arrowsp->image,delta,midcol-delta,1,height-2*delta,0);
rule_raster(arrowsp->image,delta,midcol+delta,1,height-2*delta,0); }
/* -------------------------------------------------------------------------
construct arrowhead(s)
-------------------------------------------------------------------------- */
for ( icol=0; icol= 0 ) /* up arrowhead wanted */
for ( irow=0; irowimage)->pixmap,ipix);/*turn on arrowhead bit*/
else /* should have a bytemap */
if ( pixsz == 8 ) /* check pixsz for bytemap */
((arrowsp->image)->pixmap)[ipix] = pixval; } }/*set arrowhead byte*/
/* --- down arrowhead (same as up except for ipix calculation) --- */
if ( drctn <= 0 ) /* down arrowhead wanted */
for ( irow=0; irow 0 ) { /* bounds check */
if ( pixsz == 1 ) /* have a bitmap */
setlongbit((arrowsp->image)->pixmap,ipix);/*turn on arrowhead bit*/
else /* should have a bytemap */
if ( pixsz == 8 ) /* check pixsz for bytemap */
((arrowsp->image)->pixmap)[ipix] = pixval; } }/*set arrowhead byte*/
} /* --- end-of-for(icol) --- */
end_of_job:
return ( arrowsp ); /*back to caller with arrow or NULL*/
} /* --- end-of-function uparrow_subraster() --- */
/* ==========================================================================
* Function: rule_raster ( rp, top, left, width, height, type )
* Purpose: Draw a solid or dashed line (or box) in existing raster rp,
* starting at top,left with dimensions width,height.
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster in which rule
* will be drawn
* top (I) int containing row at which top-left corner
* of rule starts (0 is topmost)
* left (I) int containing col at which top-left corner
* of rule starts (0 is leftmost)
* width (I) int containing number of cols for rule
* height (I) int containing number of rows for rule
* type (I) int containing 0 for solid rule,
* 1 for horizontal dashes, 2 for vertical
* 3 for solid rule with corners removed (bevel)
* 4 for strut (nothing drawn)
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if rule drawn okay,
* or 0 for any error.
* --------------------------------------------------------------------------
* Notes: o Rule line is implicitly "horizontal" or "vertical" depending
* on relative width,height dimensions. It's a box if they're
* more or less comparable.
* ======================================================================= */
/* --- entry point --- */
int rule_raster ( raster *rp, int top, int left,
int width, int height, int type )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int irow=0, icol=0; /* indexes over rp raster */
int ipix = 0, /* raster pixmap[] index */
npix = rp->width * rp->height; /* #pixels malloced in rp->pixmap[] */
int isfatal = 0; /* true to abend on out-of-bounds error */
int hdash=1, vdash=2, /* type for horizontal, vertical dashes */
bevel=99/*3*/, strut=4; /* type for bevel (turned off), strut */
int dashlen=3, spacelen=2, /* #pixels for dash followed by space */
isdraw=1; /* true when drawing dash (init for solid) */
/* -------------------------------------------------------------------------
Check args
-------------------------------------------------------------------------- */
if ( rp == (raster *)NULL ) { /* no raster arg supplied */
if ( workingbox != (subraster *)NULL ) /* see if we have a workingbox */
rp = workingbox->image; /* use workingbox if possible */
else return ( 0 ); } /* otherwise signal error to caller */
if ( type == bevel ) /* remove corners of solid box */
if ( width<3 || height<3 ) type=0; /* too small to remove corners */
/* -------------------------------------------------------------------------
Fill line/box
-------------------------------------------------------------------------- */
if ( width > 0 ) /* zero width implies strut*/
for ( irow=top; irowwidth + left - 1; /*first pixel preceding icol*/
for ( icol=left; icol=left+width-1) /* top-right corner */
|| (irow>=top+height-1 && icol==left) /* bottom-left corner */
|| (irow>=top+height-1 && icol>=left+width-1) ) /* bottom-right */
isdraw = 0; else isdraw = 1; } /*set isdraw to skip corner*/
if ( type == hdash ) /*set isdraw for horiz dash*/
isdraw = (((icol-left)%(dashlen+spacelen)) < dashlen);
if ( ++ipix >= npix ) /* bounds check failed */
if ( isfatal ) goto end_of_job; /* abort if error is fatal */
else break; /*or just go on to next row*/
else /*ibit is within rp bounds*/
if ( isdraw ) { /*and we're drawing this bit*/
if ( rp->pixsz == 1 ) /* have a bitmap */
setlongbit(rp->pixmap,ipix); /* so turn on bit in line */
else /* should have a bytemap */
if ( rp->pixsz == 8 ) /* check pixsz for bytemap */
((unsigned char *)(rp->pixmap))[ipix] = 255; } /* set black byte */
} /* --- end-of-for(icol) --- */
} /* --- end-of-for(irow) --- */
end_of_job:
return ( isfatal? (ipixheight-1 is bottom-most)
* col1 (I) int containing col at which
* line will end (rp->width-1 is rightmost)
* thickness (I) int containing number of pixels/bits
* thick the line will be
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if line drawn okay,
* or 0 for any error.
* --------------------------------------------------------------------------
* Notes: o if row0==row1, a horizontal line is drawn
* between col0 and col1, with row0(==row1) the top row
* and row0+(thickness-1) the bottom row
* o if col0==col1, a vertical bar is drawn
* between row0 and row1, with col0(==col1) the left col
* and col0+(thickness-1) the right col
* o if both the above, you get a square thickness x thickness
* whose top-left corner is row0,col0.
* ======================================================================= */
/* --- entry point --- */
int line_raster ( raster *rp, int row0, int col0,
int row1, int col1, int thickness )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int irow=0, icol=0, /* indexes over rp raster */
locol=col0, hicol=col1, /* col limits at irow */
lorow=row0, hirow=row1; /* row limits at icol */
int width=rp->width, height=rp->height; /* dimensions of input raster */
int ipix = 0, /* raster pixmap[] index */
npix = width*height; /* #pixels malloced in rp->pixmap[] */
int isfatal = 0; /* true to abend on out-of-bounds error */
int isline=(row1==row0), isbar=(col1==col0); /*true if slope a=0,\infty*/
double dy = row1-row0 /* + (row1>=row0? +1.0 : -1.0) */, /* delta-x */
dx = col1-col0 /* + (col1>=col0? +1.0 : -1.0) */, /* delta-y */
a= (isbar||isline? 0.0 : dy/dx), /* slope = tan(theta) = dy/dx */
xcol=0, xrow=0; /* calculated col at irow, or row at icol */
double ar = ASPECTRATIO, /* aspect ratio width/height of one pixel */
xwidth= (isline? 0.0 : /*#pixels per row to get sloped line thcknss*/
((double)thickness)*sqrt((dx*dx)+(dy*dy*ar*ar))/fabs(dy*ar)),
xheight = 1.0;
int line_recurse(), isrecurse=1; /* true to draw line recursively */
/* -------------------------------------------------------------------------
Check args
-------------------------------------------------------------------------- */
if ( rp == (raster *)NULL ) { /* no raster arg supplied */
if ( workingbox != (subraster *)NULL ) /* see if we have a workingbox */
rp = workingbox->image; /* use workingbox if possible */
else return ( 0 ); } /* otherwise signal error to caller */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
if ( msgfp!=NULL && msglevel>=29 ) { /* debugging */
fprintf(msgfp,"line_raster> row,col0=%d,%d row,col1=%d,%d, thickness=%d\n"
"\t dy,dx=%3.1f,%3.1f, a=%4.3f, xwidth=%4.3f\n",
row0,col0, row1,col1, thickness, dy,dx, a, xwidth); fflush(msgfp); }
/* --- check for recursive line drawing --- */
if ( isrecurse ) { /* drawing lines recursively */
for ( irow=0; irow(-0.001) && xcol0>(-0.001) /*check line inside raster*/
&& xrow1<((double)(height-1)+0.001) && xcol1<((double)(width-1)+0.001) )
line_recurse(rp,xrow0,xcol0,xrow1,xcol1,thickness); }
return ( 1 ); }
/* --- set params for horizontal line or vertical bar --- */
if ( isline ) /*interpret row as top row*/
row1 = row0 + (thickness-1); /* set bottom row for line */
if ( 0&&isbar ) /*interpret col as left col*/
hicol = col0 + (thickness-1); /* set right col for bar */
/* -------------------------------------------------------------------------
draw line one row at a time
-------------------------------------------------------------------------- */
for ( irow=min2(row0,row1); irow<=max2(row0,row1); irow++ ) /*each scan line*/
{
if ( !isbar && !isline ) /* neither vert nor horiz */
{ xcol = col0 + ((double)(irow-row0))/a; /* "middle" col in irow */
locol = max2((int)(xcol-0.5*(xwidth-1.0)),0); /* leftmost col */
hicol = min2((int)(xcol+0.5*(xwidth-0.0)),max2(col0,col1)); } /*right*/
if ( msgfp!=NULL && msglevel>=29 ) /* debugging */
fprintf(msgfp,"\t irow=%d, xcol=%4.2f, lo,hicol=%d,%d\n",
irow,xcol,locol,hicol);
ipix = irow*rp->width + min2(locol,hicol) - 1; /*first pix preceding icol*/
for ( icol=min2(locol,hicol); icol<=max2(locol,hicol); icol++ ) /*each pix*/
if ( ++ipix >= npix ) /* bounds check failed */
if ( isfatal ) goto end_of_job; /* abort if error is fatal */
else break; /*or just go on to next row*/
else /* turn on pixel in line */
if ( rp->pixsz == 1 ) /* have a pixel bitmap */
setlongbit(rp->pixmap,ipix); /* so turn on bit in line */
else /* should have a bytemap */
if ( rp->pixsz == 8 ) /* check pixsz for bytemap */
((unsigned char *)(rp->pixmap))[ipix] = 255; /* set black byte */
} /* --- end-of-for(irow) --- */
/* -------------------------------------------------------------------------
now _redraw_ line one col at a time to avoid "gaps"
-------------------------------------------------------------------------- */
if ( 1 )
for ( icol=min2(col0,col1); icol<=max2(col0,col1); icol++ )/*each scan line*/
{
if ( !isbar && !isline ) /* neither vert nor horiz */
{ xrow = row0 + ((double)(icol-col0))*a; /* "middle" row in icol */
lorow = max2((int)(xrow-0.5*(xheight-1.0)),0); /* topmost row */
hirow = min2((int)(xrow+0.5*(xheight-0.0)),max2(row0,row1)); } /*bot*/
if ( msgfp!=NULL && msglevel>=29 ) /* debugging */
fprintf(msgfp,"\t icol=%d, xrow=%4.2f, lo,hirow=%d,%d\n",
icol,xrow,lorow,hirow);
ipix = irow*rp->width + min2(locol,hicol) - 1; /*first pix preceding icol*/
for ( irow=min2(lorow,hirow); irow<=max2(lorow,hirow); irow++ ) /*each pix*/
if ( irow<0 || irow>=rp->height
|| icol<0 || icol>=rp->width ) /* bounds check */
if ( isfatal ) goto end_of_job; /* abort if error is fatal */
else continue; /*or just go on to next row*/
else
setpixel(rp,irow,icol,255); /* set pixel at irow,icol */
} /* --- end-of-for(irow) --- */
/* -------------------------------------------------------------------------
Back to caller with 1=okay, 0=failed.
-------------------------------------------------------------------------- */
end_of_job:
return ( isfatal? (ipixheight-1 is bottom-most)
* col1 (I) double containing col at which
* line will end (rp->width-1 is rightmost)
* thickness (I) int containing number of pixels/bits
* thick the line will be
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if line drawn okay,
* or 0 for any error.
* --------------------------------------------------------------------------
* Notes: o Recurses, drawing left- and right-halves of line
* until a horizontal or vertical segment is found
* ======================================================================= */
/* --- entry point --- */
int line_recurse ( raster *rp, double row0, double col0,
double row1, double col1, int thickness )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
double delrow = fabs(row1-row0), /* 0 if line horizontal */
delcol = fabs(col1-col0), /* 0 if line vertical */
tolerance = 0.5; /* draw line when it goes to point */
double midrow = 0.5*(row0+row1), /* midpoint row */
midcol = 0.5*(col0+col1); /* midpoint col */
/* -------------------------------------------------------------------------
recurse if either delta > tolerance
-------------------------------------------------------------------------- */
if ( delrow > tolerance /* row hasn't converged */
|| delcol > tolerance ) /* col hasn't converged */
{ line_recurse(rp,row0,col0,midrow,midcol,thickness); /* left half */
line_recurse(rp,midrow,midcol,row1,col1,thickness); /* right half */
return ( 1 ); }
/* -------------------------------------------------------------------------
draw converged point
-------------------------------------------------------------------------- */
setpixel(rp,iround(midrow),iround(midcol),255); /*set pixel at midrow,midcol*/
return ( 1 );
} /* --- end-of-function line_recurse() --- */
/* ==========================================================================
* Function: circle_raster ( rp, row0, col0, row1, col1,
* thickness, quads )
* Purpose: Draw quad(rant)s of an ellipse in box determined by
* diagonally opposite corner points (row0,col0) and
* (row1,col1), of thickness pixels in existing raster rp.
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster in which an ellipse
* will be drawn
* row0 (I) int containing 1st corner row bounding ellipse
* (0 is topmost)
* col0 (I) int containing 1st corner col bounding ellipse
* (0 is leftmost)
* row1 (I) int containing 2nd corner row bounding ellipse
* (rp->height-1 is bottom-most)
* col1 (I) int containing 2nd corner col bounding ellipse
* (rp->width-1 is rightmost)
* thickness (I) int containing number of pixels/bits
* thick the ellipse arc line will be
* quads (I) char * to null-terminated string containing
* any subset/combination of "1234" specifying
* which quadrant(s) of ellipse to draw.
* NULL ptr draws all four quadrants;
* otherwise 1=upper-right quadrant,
* 2=uper-left, 3=lower-left, 4=lower-right,
* i.e., counterclockwise from 1=positive quad.
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if ellipse drawn okay,
* or 0 for any error.
* --------------------------------------------------------------------------
* Notes: o row0==row1 or col0==col1 are errors
* o using ellipse equation x^2/a^2 + y^2/b^2 = 1
* ======================================================================= */
/* --- entry point --- */
int circle_raster ( raster *rp, int row0, int col0,
int row1, int col1, int thickness, char *quads )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
/* --- lower-left and upper-right bounding points (in our coords) --- */
int lorow = min2(row0,row1), /* lower bounding row (top of box) */
locol = min2(col0,col1), /* lower bounding col (left of box)*/
hirow = max2(row0,row1), /* upper bounding row (bot of box) */
hicol = max2(col0,col1); /* upper bounding col (right of box)*/
/* --- a and b ellipse params --- */
int width = hicol-locol+1, /* width of bounding box */
height= hirow-lorow+1, /* height of bounding box */
islandscape = (width>=height? 1:0); /*true if ellipse lying on side*/
double a = ((double)width)/2.0, /* x=a when y=0 */
b = ((double)height)/2.0, /* y=b when x=0 */
abmajor = (islandscape? a : b), /* max2(a,b) */
abminor = (islandscape? b : a), /* min2(a,b) */
abmajor2 = abmajor*abmajor, /* abmajor^2 */
abminor2 = abminor*abminor; /* abminor^2 */
/* --- other stuff --- */
int imajor=0, nmajor=max2(width,height), /*index, #pixels on major axis*/
iminor=0, nminor=min2(width,height); /* solved index on minor axis */
int irow, icol, /* raster indexes at circumference */
rsign=1, csign=1; /* row,col signs, both +1 in quad 1*/
double midrow= ((double)(row0+row1))/2.0, /* center row */
midcol= ((double)(col0+col1))/2.0; /* center col */
double xy, xy2, /* major axis ellipse coord */
yx2, yx; /* solved minor ellipse coord */
int isokay = 1; /* true if no pixels out-of-bounds */
char *qptr=NULL, *allquads="1234"; /* quadrants if input quads==NULL */
int circle_recurse(), isrecurse=1; /* true to draw ellipse recursively*/
/* -------------------------------------------------------------------------
pixel-by-pixel along positive major axis, quit when it goes negative
-------------------------------------------------------------------------- */
if ( quads == NULL ) quads = allquads; /* draw all quads, or only user's */
if ( msgfp!=NULL && msglevel>=39 ) /* debugging */
fprintf(msgfp,"circle_raster> width,height;quads=%d,%d,%s\n",
width,height,quads);
if ( nmajor < 1 ) isokay = 0; /* problem with input args */
else
{
if ( isrecurse ) /* use recursive algorithm */
{
for ( qptr=quads; *qptr!='\000'; qptr++ ) /* for each character in quads */
{
double theta0=0.0, theta1=0.0; /* set thetas based on quadrant */
switch ( *qptr ) /* check for quadrant 1,2,3,4 */
{ default: /* unrecognized, assume quadrant 1 */
case '1': theta0= 0.0; theta1= 90.0; break; /* first quadrant */
case '2': theta0= 90.0; theta1=180.0; break; /* second quadrant */
case '3': theta0=180.0; theta1=270.0; break; /* third quadrant */
case '4': theta0=270.0; theta1=360.0; break; } /* fourth quadrant */
circle_recurse(rp,row0,col0,row1,col1,thickness,theta0,theta1);
} /* --- end-of-for(qptr) --- */
return ( 1 );
} /* --- end-of-if(isrecurse) --- */
for ( imajor=(nmajor+1)/2; ; imajor-- )
{
/* --- xy is coord along major axis, yx is "solved" along minor axis --- */
xy = ((double)imajor); /* xy = abmajor ... 0 */
if ( xy < 0.0 ) break; /* negative side symmetrical */
yx2 = abminor2*(1.0 - xy*xy/abmajor2); /* "solve" ellipse equation */
yx = (yx2>0.0? sqrt(yx2) : 0.0); /* take sqrt if possible */
iminor = iround(yx); /* nearest integer */
/* --- set pixels for each requested quadrant --- */
for ( qptr=quads; *qptr!='\000'; qptr++ ) /* for each character in quads */
{
rsign = (-1); csign = 1; /* init row,col in user quadrant 1 */
switch ( *qptr ) /* check for quadrant 1,2,3,4 */
{ default: break; /* unrecognized, assume quadrant 1 */
case '4': rsign = 1; break; /* row,col both pos in quadrant 4 */
case '3': rsign = 1; /* row pos, col neg in quadrant 3 */
case '2': csign = (-1); break; } /* row,col both neg in quadrant 2 */
irow = iround(midrow + (double)rsign*(islandscape?yx:xy));
irow = min2(hirow,max2(lorow,irow)); /* keep irow in bounds */
icol = iround(midcol + (double)csign*(islandscape?xy:yx));
icol = min2(hicol,max2(locol,icol)); /* keep icol in bounds */
if ( msgfp!=NULL && msglevel>=49 ) /* debugging */
fprintf(msgfp,"\t...imajor=%d; iminor,quad,irow,icol=%d,%c,%d,%d\n",
imajor,iminor,*qptr,irow,icol);
if ( irow<0 || irow>=rp->height /* row outside raster */
|| icol<0 || icol>=rp->width ) /* col outside raster */
{ isokay = 0; /* signal out-of-bounds pixel */
continue; } /* but still try remaining points */
setpixel(rp,irow,icol,255); /* set pixel at irow,icol */
} /* --- end-of-for(qptr) --- */
} /* --- end-of-for(imajor) --- */
/* ------------------------------------------------------------------------
now do it _again_ along minor axis to avoid "gaps"
------------------------------------------------------------------------- */
if ( 1 && iminor>0 )
for ( iminor=(nminor+1)/2; ; iminor-- )
{
/* --- yx is coord along minor axis, xy is "solved" along major axis --- */
yx = ((double)iminor); /* yx = abminor ... 0 */
if ( yx < 0.0 ) break; /* negative side symmetrical */
xy2 = abmajor2*(1.0 - yx*yx/abminor2); /* "solve" ellipse equation */
xy = (xy2>0.0? sqrt(xy2) : 0.0); /* take sqrt if possible */
imajor = iround(xy); /* nearest integer */
/* --- set pixels for each requested quadrant --- */
for ( qptr=quads; *qptr!='\000'; qptr++ ) /* for each character in quads */
{
rsign = (-1); csign = 1; /* init row,col in user quadrant 1 */
switch ( *qptr ) /* check for quadrant 1,2,3,4 */
{ default: break; /* unrecognized, assume quadrant 1 */
case '4': rsign = 1; break; /* row,col both pos in quadrant 4 */
case '3': rsign = 1; /* row pos, col neg in quadrant 3 */
case '2': csign = (-1); break; } /* row,col both neg in quadrant 2 */
irow = iround(midrow + (double)rsign*(islandscape?yx:xy));
irow = min2(hirow,max2(lorow,irow)); /* keep irow in bounds */
icol = iround(midcol + (double)csign*(islandscape?xy:yx));
icol = min2(hicol,max2(locol,icol)); /* keep icol in bounds */
if ( msgfp!=NULL && msglevel>=49 ) /* debugging */
fprintf(msgfp,"\t...iminor=%d; imajor,quad,irow,icol=%d,%c,%d,%d\n",
iminor,imajor,*qptr,irow,icol);
if ( irow<0 || irow>=rp->height /* row outside raster */
|| icol<0 || icol>=rp->width ) /* col outside raster */
{ isokay = 0; /* signal out-of-bounds pixel */
continue; } /* but still try remaining points */
setpixel(rp,irow,icol,255); /* set pixel at irow,icol */
} /* --- end-of-for(qptr) --- */
} /* --- end-of-for(iminor) --- */
} /* --- end-of-if/else(nmajor<1) --- */
return ( isokay );
} /* --- end-of-function circle_raster() --- */
/* ==========================================================================
* Function: circle_recurse ( rp, row0, col0, row1, col1,
* thickness, theta0, theta1 )
* Purpose: Recursively draws arc theta0<=theta<=theta1 of the ellipse
* in box determined by diagonally opposite corner points
* (row0,col0) and (row1,col1), of thickness pixels in raster rp.
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster in which an ellipse
* will be drawn
* row0 (I) int containing 1st corner row bounding ellipse
* (0 is topmost)
* col0 (I) int containing 1st corner col bounding ellipse
* (0 is leftmost)
* row1 (I) int containing 2nd corner row bounding ellipse
* (rp->height-1 is bottom-most)
* col1 (I) int containing 2nd corner col bounding ellipse
* (rp->width-1 is rightmost)
* thickness (I) int containing number of pixels/bits
* thick the ellipse arc line will be
* theta0 (I) double containing first angle -360 -> +360
* theta1 (I) double containing second angle -360 -> +360
* 0=x-axis, positive moving counterclockwise
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if ellipse drawn okay,
* or 0 for any error.
* --------------------------------------------------------------------------
* Notes: o row0==row1 or col0==col1 are errors
* o using ellipse equation x^2/a^2 + y^2/b^2 = 1
* Then, with x=r*cos(theta), y=r*sin(theta), ellipse
* equation is r = ab/sqrt(a^2*sin^2(theta)+b^2*cos^2(theta))
* ======================================================================= */
/* --- entry point --- */
int circle_recurse ( raster *rp, int row0, int col0,
int row1, int col1, int thickness, double theta0, double theta1 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
/* --- lower-left and upper-right bounding points (in our coords) --- */
int lorow = min2(row0,row1), /* lower bounding row (top of box) */
locol = min2(col0,col1), /* lower bounding col (left of box)*/
hirow = max2(row0,row1), /* upper bounding row (bot of box) */
hicol = max2(col0,col1); /* upper bounding col (right of box)*/
/* --- a and b ellipse params --- */
int width = hicol-locol+1, /* width of bounding box */
height= hirow-lorow+1; /* height of bounding box */
double a = ((double)width)/2.0, /* col x=a when row y=0 */
b = ((double)height)/2.0, /* row y=b when col x=0 */
ab=a*b, a2=a*a, b2=b*b; /* product and squares */
/* --- arc parameters --- */
double rads = 0.017453292, /* radians per degree = 1/57.29578 */
lotheta = rads*dmod(min2(theta0,theta1),360), /* smaller angle */
hitheta = rads*dmod(max2(theta0,theta1),360), /* larger angle */
locos=cos(lotheta), losin=sin(lotheta), /* trigs for lotheta */
hicos=cos(hitheta), hisin=sin(hitheta), /* trigs for hitheta */
rlo = ab/sqrt(b2*locos*locos+a2*losin*losin), /* r for lotheta */
rhi = ab/sqrt(b2*hicos*hicos+a2*hisin*hisin), /* r for hitheta */
xlo=rlo*locos, ylo=rlo*losin, /*col,row pixel coords for lotheta*/
xhi=rhi*hicos, yhi=rhi*hisin, /*col,row pixel coords for hitheta*/
xdelta=fabs(xhi-xlo), ydelta=fabs(yhi-ylo), /* col,row deltas */
tolerance = 0.5; /* convergence tolerance */
/* -------------------------------------------------------------------------
recurse if either delta > tolerance
-------------------------------------------------------------------------- */
if ( ydelta > tolerance /* row hasn't converged */
|| xdelta > tolerance ) /* col hasn't converged */
{ double midtheta = 0.5*(theta0+theta1); /* mid angle for arc */
circle_recurse(rp,row0,col0,row1,col1,thickness,theta0,midtheta); /*lo*/
circle_recurse(rp,row0,col0,row1,col1,thickness,midtheta,theta1); }/*hi*/
/* -------------------------------------------------------------------------
draw converged point
-------------------------------------------------------------------------- */
else
{ double xcol=0.5*(xlo+xhi), yrow=0.5*(ylo+yhi), /* relative to center*/
centerrow = 0.5*((double)(lorow+hirow)), /* ellipse y-center */
centercol = 0.5*((double)(locol+hicol)), /* ellipse x-center */
midrow=centerrow-yrow, midcol=centercol+xcol; /* pixel coords */
setpixel(rp,iround(midrow),iround(midcol),255); } /* set midrow,midcol */
return ( 1 );
} /* --- end-of-function circle_recurse() --- */
/* ==========================================================================
* Function: bezier_raster ( rp, r0,c0, r1,c1, rt,ct )
* Purpose: Recursively draw bezier from r0,c0 to r1,c1
* (with tangent point rt,ct) in existing raster rp.
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster in which a line
* will be drawn
* r0 (I) double containing row at which
* bezier will start (0 is topmost)
* c0 (I) double containing col at which
* bezier will start (0 is leftmost)
* r1 (I) double containing row at which
* bezier will end (rp->height-1 is bottom-most)
* c1 (I) double containing col at which
* bezier will end (rp->width-1 is rightmost)
* rt (I) double containing row for tangent point
* ct (I) double containing col for tangent point
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if line drawn okay,
* or 0 for any error.
* --------------------------------------------------------------------------
* Notes: o Recurses, drawing left- and right-halves of bezier curve
* until a point is found
* ======================================================================= */
/* --- entry point --- */
int bezier_raster ( raster *rp, double r0, double c0,
double r1, double c1, double rt, double ct )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
double delrow = fabs(r1-r0), /* 0 if same row */
delcol = fabs(c1-c0), /* 0 if same col */
tolerance = 0.5; /* draw curve when it goes to point*/
double midrow = 0.5*(r0+r1), /* midpoint row */
midcol = 0.5*(c0+c1); /* midpoint col */
int irow=0, icol=0; /* point to be drawn */
int status = 1; /* return status */
/* -------------------------------------------------------------------------
recurse if either delta > tolerance
-------------------------------------------------------------------------- */
if ( delrow > tolerance /* row hasn't converged */
|| delcol > tolerance ) /* col hasn't converged */
{ bezier_raster(rp, r0,c0, /* left half */
0.5*(rt+midrow), 0.5*(ct+midcol),
0.5*(r0+rt), 0.5*(c0+ct) );
bezier_raster(rp, 0.5*(rt+midrow), 0.5*(ct+midcol), /* right half */
r1,c1,
0.5*(r1+rt), 0.5*(c1+ct) );
return ( 1 ); }
/* -------------------------------------------------------------------------
draw converged point
-------------------------------------------------------------------------- */
/* --- get integer point --- */
irow = iround(midrow); /* row pixel coord */
icol = iround(midcol); /* col pixel coord */
/* --- bounds check --- */
if ( irow>=0 && irowheight /* row in bounds */
&& icol>=0 && icolwidth ) /* col in bounds */
setpixel(rp,irow,icol,255); /* so set pixel at irow,icol*/
else status = 0; /* bad status if out-of-bounds */
return ( status );
} /* --- end-of-function bezier_raster() --- */
/* ==========================================================================
* Function: border_raster ( rp, ntop, nbot, isline, isfree )
* Purpose: Allocate a new raster containing a copy of input rp,
* along with ntop extra rows at top and nbot at bottom,
* and whose width is either adjusted correspondingly,
* or is automatically enlarged to a multiple of 8
* with original bitmap centered
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster on which a border
* is to be placed
* ntop (I) int containing number extra rows at top.
* if negative, abs(ntop) used, and same
* number of extra cols added at left.
* nbot (I) int containing number extra rows at bottom.
* if negative, abs(nbot) used, and same
* number of extra cols added at right.
* isline (I) int containing 0 to leave border pixels clear
* or >0 to draw a line around border of
* thickness isline pixels. See Notes below.
* isfree (I) int containing true to free rp before return
* --------------------------------------------------------------------------
* Returns: ( raster * ) ptr to bordered raster,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o The isline arg also controls which sides border lines
* are drawn for. To do this, isline is interpreted as
* thickness + 100*sides so that, e.g., passing isline=601
* is interpreted as sides=6 and thickness=1. And
* sides is further interpreted as 1=left side, 2=top,
* 4=right and 8=bottom. For example, sides=6 where 6=2+4
* draws the top and right borders only. 15 draws all four
* sides. And 0 (no sides value embedded in isline)
* draws all four sides, too.
* ======================================================================= */
/* --- entry point --- */
raster *border_raster ( raster *rp, int ntop, int nbot,
int isline, int isfree )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
raster *new_raster(), *bp=(raster *)NULL; /*raster back to caller*/
int rastput(); /* overlay rp in new bordered raster */
int width = (rp==NULL?0:rp->width), /* width of raster */
height = (rp==NULL?0:rp->height), /* height of raster */
istopneg=0, isbotneg=0, /* true if ntop or nbot negative */
leftmargin = 0; /* adjust width to whole number of bytes */
int left=1, top=1, right=1, bot=1; /* frame sides to draw */
int delete_raster(); /* free input rp if isfree is true */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
if ( rp == NULL ) goto end_of_job; /* no input raster provided */
if ( isstring || (1 && rp->height==1) ) /* explicit string signal or infer */
{ bp=rp; goto end_of_job; } /* return ascii string unchanged */
/* --- check for negative args --- */
if ( ntop < 0 ) { ntop = -ntop; istopneg=1; } /*flip positive and set flag*/
if ( nbot < 0 ) { nbot = -nbot; isbotneg=1; } /*flip positive and set flag*/
/* --- adjust height for ntop and nbot margins --- */
height += (ntop+nbot); /* adjust height for margins */
/* --- adjust width for left and right margins --- */
if ( istopneg || isbotneg ) /*caller wants nleft=ntop and/or nright=nbot*/
{ /* --- adjust width (and leftmargin) as requested by caller -- */
if ( istopneg ) { width += ntop; leftmargin = ntop; }
if ( isbotneg ) width += nbot; }
else
{ /* --- or adjust width (and leftmargin) to whole number of bytes --- */
leftmargin = (width%8==0? 0 : 8-(width%8)); /*makes width multiple of 8*/
width += leftmargin; /* width now multiple of 8 */
leftmargin /= 2; } /* center original raster */
/* --- check which sides to draw --- */
if ( isline > 100 ) { /* sides arg embedded in isline */
int iside=0, sides=isline/100; /* index, sides=1-15 from 101-1599 */
isline -= 100*sides; /* and remove sides from isline */
for ( iside=1; iside<=4; iside++ ) { /* check left, top, right, bot */
int shift = sides/2; /* shift sides left one bit */
if ( sides == 2*shift ) /* low-order bit is >>not<< set */
switch ( iside ) { /* don't draw corresponding side */
default: break; /* internal error */
case 1: left = 0; break; /* 1 = left side */
case 2: top = 0; break; /* 2 = top side */
case 3: right= 0; break; /* 4 = tight side */
case 4: bot = 0; break; } /* 8 = bottom side */
sides = shift; /* ready for next side */
} /* --- end-of-for(iside) --- */
} /* --- end-of-if(isline>100) --- */
/* -------------------------------------------------------------------------
allocate bordered raster, and embed rp within it
-------------------------------------------------------------------------- */
/* --- allocate bordered raster --- */
if ( (bp=new_raster(width,height,rp->pixsz)) /*allocate bordered raster*/
== (raster *)NULL ) goto end_of_job; /* and quit if failed */
/* --- embed rp in it --- */
rastput(bp,rp,ntop,leftmargin,1); /* rp embedded in bp */
/* -------------------------------------------------------------------------
draw border if requested
-------------------------------------------------------------------------- */
if ( isline )
{ int irow, icol, nthick=isline; /*height,width index, line thickness*/
/* --- draw left- and right-borders --- */
for ( irow=0; irow=0 then (at least) that many columns
* of whitespace will be left in place, regardless of nback.
* If minspace<0 then existing black pixels will be deleted
* as required.
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster on which a border
* is to be placed
* nback (I) int containing number of columns to
* backspace (>=0)
* pback (O) ptr to int returning #pixels actually
* backspaced (or NULL to not use)
* minspace (I) int containing number of columns
* of whitespace to be left in place
* isfree (I) int containing true to free rp before return
* --------------------------------------------------------------------------
* Returns: ( raster * ) ptr to backspaced raster,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o For \! negative space, for \hspace{-10}, etc.
* ======================================================================= */
/* --- entry point --- */
raster *backspace_raster ( raster *rp, int nback, int *pback, int minspace,
int isfree )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
raster *new_raster(), *bp=(raster *)NULL; /* raster returned to caller */
int delete_raster(); /* free input rp if isfree is true */
int width = (rp==NULL?0:rp->width), /* original width of raster */
height = (rp==NULL?0:rp->height), /* height of raster */
mback = nback, /* nback adjusted for minspace */
newwidth = width, /* adjusted width after backspace */
icol=0, irow=0; /* col,row index */
if ( rp == NULL ) goto end_of_job; /* no input given */
/* -------------------------------------------------------------------------
locate rightmost column of rp containing ink, and determine backspaced width
-------------------------------------------------------------------------- */
/* --- locate rightmost column of rp containing ink --- */
if ( minspace >= 0 ) /* only needed if given minspace */
for ( icol=width-1; icol>=0; icol-- ) /* find first non-empty col in row */
for ( irow=0; irow width ) mback = width; /* can't backspace before beginning*/
newwidth = max2(1,width-mback); /* #cols in backspaced raster */
if ( pback != NULL ) *pback = width-newwidth; /* caller wants #pixels */
/* -------------------------------------------------------------------------
allocate new raster and fill it with leftmost cols of rp
-------------------------------------------------------------------------- */
/* --- allocate backspaced raster --- */
if ( (bp=new_raster(newwidth,height,rp->pixsz)) /*allocate backspaced raster*/
== (raster *)NULL ) goto end_of_job; /* and quit if failed */
/* --- fill new raster --- */
if ( 1 || width-nback > 0 ) /* don't fill 1-pixel wide empty bp*/
for ( icol=0; icol=999 ) { fprintf(msgfp, /* diagnostics */
"backspace_raster> nback=%d,minspace=%d,mback=%d, width:old=%d,new=%d\n",
nback,minspace,mback,width,newwidth); fflush(msgfp); }
if ( isfree && bp!=NULL ) delete_raster(rp); /* free original raster */
return ( bp ); /* back with backspaced or null ptr*/
} /* --- end-of-function backspace_raster() --- */
/* ==========================================================================
* Function: type_raster ( rp, fp )
* Purpose: Emit an ascii dump representing rp, on fp.
* --------------------------------------------------------------------------
* Arguments: rp (I) ptr to raster struct for which an
* ascii dump is to be constructed.
* fp (I) File ptr to output device (defaults to
* stdout if passed as NULL).
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if completed successfully,
* or 0 otherwise (for any error).
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
int type_raster ( raster *rp, FILE *fp )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
static int display_width = 72; /* max columns for display */
static char display_chars[16] = /* display chars for bytemap */
{ ' ','1','2','3','4','5','6','7','8','9','A','B','C','D','E','*' };
char scanline[133]; /* ascii image for one scan line */
int scan_width; /* #chars in scan (<=display_width)*/
int irow, locol,hicol=(-1); /* height index, width indexes */
raster *gftobitmap(), *bitmaprp=rp; /* convert .gf to bitmap if needed */
int delete_raster(); /*free bitmap converted for display*/
/* --------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- redirect null fp --- */
if ( fp == (FILE *)NULL ) fp = stdout; /* default fp to stdout if null */
if ( msglevel >= 999 ) { fprintf(fp, /* debugging diagnostics */
"type_raster> width=%d height=%d ...\n",
rp->width,rp->height); fflush(fp); }
/* --- check for ascii string --- */
if ( isstring /* pixmap has string, not raster */
|| (0 && rp->height==1) ) /* infer input rp is a string */
{
char *string = (char *)(rp->pixmap); /*interpret pixmap as ascii string*/
int width = strlen(string); /* #chars in ascii string */
while ( width > display_width-2 ) /* too big for one line */
{ fprintf(fp,"\"%.*s\"\n",display_width-2,string); /*display leading chars*/
string += (display_width-2); /* bump string past displayed chars*/
width -= (display_width-2); } /* decrement remaining width */
fprintf(fp,"\"%.*s\"\n",width,string); /* display trailing chars */
return ( 1 );
} /* --- end-of-if(isstring) --- */
/* --------------------------------------------------------------------------
display ascii dump of bitmap image (in segments if display_width < rp->width)
-------------------------------------------------------------------------- */
if ( rp->format == 2 /* input is .gf-formatted */
|| rp->format == 3 )
bitmaprp = gftobitmap(rp); /* so convert it for display */
if ( bitmaprp != NULL ) /* if we have image for display */
while ( (locol=hicol+1) < rp->width ) /*start where prev segment left off*/
{
/* --- set hicol for this pass (locol set above) --- */
hicol += display_width; /* show as much as display allows */
if (hicol >= rp->width) hicol = rp->width - 1; /*but not more than raster*/
scan_width = hicol-locol+1; /* #chars in this scan */
if ( locol > 0 ) fprintf(fp,"----------\n"); /*separator between segments*/
/* ------------------------------------------------------------------------
display all scan lines for this local...hicol segment range
------------------------------------------------------------------------ */
for ( irow=0; irowheight; irow++ ) /* all scan lines for col range */
{
/* --- allocations and declarations --- */
int ipix, /* pixmap[] index for this scan */
lopix = irow*rp->width + locol; /*first pixmap[] pixel in this scan*/
/* --- set chars in scanline[] based on pixels in rp->pixmap[] --- */
for ( ipix=0; ipixpixsz == 1 ) /*' '=0 or '*'=1 to display bitmap*/
scanline[ipix]=(getlongbit(bitmaprp->pixmap,lopix+ipix)==1? '*':'.');
else /* should have a bytemap */
if ( bitmaprp->pixsz == 8 ) /* double-check pixsz for bytemap */
{ int pixval = (int)((bitmaprp->pixmap)[lopix+ipix]), /*byte value*/
ichar = min2(15,pixval/16); /* index for ' ', '1'...'e', '*' */
scanline[ipix] = display_chars[ichar]; } /*set ' ' for 0-15, etc*/
/* --- display completed scan line --- */
fprintf(fp,"%.*s\n",scan_width,scanline);
} /* --- end-of-for(irow) --- */
} /* --- end-of-while(hicolwidth) --- */
/* -------------------------------------------------------------------------
Back to caller with 1=okay, 0=failed.
-------------------------------------------------------------------------- */
if ( rp->format == 2 /* input was .gf-format */
|| rp->format == 3 )
if ( bitmaprp != NULL ) /* and we converted it for display */
delete_raster(bitmaprp); /* no longer needed, so free it */
return ( 1 );
} /* --- end-of-function type_raster() --- */
/* ==========================================================================
* Function: type_bytemap ( bp, grayscale, width, height, fp )
* Purpose: Emit an ascii dump representing bp, on fp.
* --------------------------------------------------------------------------
* Arguments: bp (I) intbyte * to bytemap for which an
* ascii dump is to be constructed.
* grayscale (I) int containing #gray shades, 256 for 8-bit
* width (I) int containing #cols in bytemap
* height (I) int containing #rows in bytemap
* fp (I) File ptr to output device (defaults to
* stdout if passed as NULL).
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if completed successfully,
* or 0 otherwise (for any error).
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
int type_bytemap ( intbyte *bp, int grayscale,
int width, int height, FILE *fp )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
static int display_width = 72; /* max columns for display */
int byte_width = 3, /* cols to display byte (ff+space) */
maxbyte = 0; /* if maxbyte<16, set byte_width=2 */
int white_byte = 0, /* show dots for white_byte's */
black_byte = grayscale-1; /* show stars for black_byte's */
char scanline[133]; /* ascii image for one scan line */
int scan_width, /* #chars in scan (<=display_width)*/
scan_cols; /* #cols in scan (hicol-locol+1) */
int ibyte, /* bp[] index */
irow, locol,hicol=(-1); /* height index, width indexes */
/* --------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- redirect null fp --- */
if ( fp == (FILE *)NULL ) fp = stdout; /* default fp to stdout if null */
/* --- check for ascii string --- */
if ( isstring ) /* bp has ascii string, not raster */
{ width = strlen((char *)bp); /* #chars in ascii string */
height = 1; } /* default */
/* --- see if we can get away with byte_width=1 --- */
for ( ibyte=0; ibytewidth)
-------------------------------------------------------------------------- */
while ( (locol=hicol+1) < width ) /*start where prev segment left off*/
{
/* --- set hicol for this pass (locol set above) --- */
hicol += display_width/byte_width; /* show as much as display allows */
if (hicol >= width) hicol = width - 1; /* but not more than bytemap */
scan_cols = hicol-locol+1; /* #cols in this scan */
scan_width = byte_width*scan_cols; /* #chars in this scan */
if ( locol>0 && !isstring ) fprintf(fp,"----------\n"); /* separator */
/* ------------------------------------------------------------------------
display all scan lines for this local...hicol segment range
------------------------------------------------------------------------ */
for ( irow=0; irow 1 ) /* don't blank out single char */
scanbyte[byte_width-1] = ' '; /* blank-fill rightmost character */
if ( byteval != white_byte /* format bytes that are non-white */
&& byteval != black_byte ) /* and that are non-black */
sprintf(scanbyte,"%*x ",max2(1,byte_width-1),byteval); /*hex-format*/
memcpy(scanline+ibyte*byte_width,scanbyte,byte_width); } /*in line*/
/* --- display completed scan line --- */
fprintf(fp,"%.*s\n",scan_width,scanline);
} /* --- end-of-for(irow) --- */
} /* --- end-of-while(hicolbitmap image
-------------------------------------------------------------------------- */
/* --- first redirect null fp --- */
if ( fp == (FILE *)NULL ) fp = stdout; /* default fp to stdout if null */
/* --- check for ascii string --- */
if ( isstring ) /* pixmap has string, not raster */
return ( 0 ); /* can't handle ascii string */
/* --- emit prologue strings and hex dump of bitmap for mime xbitmap --- */
fprintf( fp, "Content-type: image/x-xbitmap\n\n" );
fprintf( fp, "#define %s_width %d\n#define %s_height %d\n",
title,rp->width, title,rp->height );
fprintf( fp, "static char %s_bits[] = {\n", title );
hex_bitmap(rp,fp,0,0); /* emit hex dump of bitmap bytes */
fprintf (fp,"};\n"); /* ending with "};" for C array */
/* -------------------------------------------------------------------------
Back to caller with 1=okay, 0=failed.
-------------------------------------------------------------------------- */
return ( 1 );
} /* --- end-of-function xbitmap_raster() --- */
/* ==========================================================================
* Function: type_pbmpgm ( rp, ptype, file )
* Purpose: Write pbm or pgm image of rp to file
* --------------------------------------------------------------------------
* Arguments: rp (I) ptr to raster struct for which
* a pbm/pgm file is to be written.
* ptype (I) int containing 1 for pbm, 2 for pgm, or
* 0 to determine ptype from values in rp
* file (I) ptr to null-terminated char string
* containing name of fuke to be written
* (see notes below).
* --------------------------------------------------------------------------
* Returns: ( int ) total #bytes written,
* or 0 for any error.
* --------------------------------------------------------------------------
* Notes: o (a) If file==NULL, output is written to stdout;
* (b) if *file=='\000' then file is taken as the
* address of an output buffer to which output
* is written (and is followed by a terminating
* '\0' which is not counted in #bytes returned);
* (c) otherwise file is the filename (opened and
* closed internally) to which output is written,
* except that any final .ext extension is replaced
* by .pbm or .pgm depending on ptype.
* ======================================================================= */
/* --- entry point --- */
int type_pbmpgm ( raster *rp, int ptype, char *file )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int isokay=0, nbytes=0; /* completion flag, total #bytes written */
int irow=0, jcol=0; /*height(row), width(col) indexes in raster*/
int pixmin=9999, pixmax=(-9999), /* min, max pixel value in raster */
ngray = 0; /* #gray scale values */
FILE /* *fopen(), */ *fp=NULL; /* pointer to output file (or NULL) */
char outline[1024], outfield[256], /* output line, field */
cr[16] = "\n\000"; /* cr at end-of-line */
int maxlinelen = 70; /* maximum allowed line length */
int pixfrac=6; /* use (pixmax-pixmin)/pixfrac as step */
static char
*suffix[] = { NULL, ".pbm", ".pgm" }, /* file.suffix[ptype] */
*magic[] = { NULL, "P1", "P2" }, /*identifying "magic number"*/
*mode[] = { NULL, "w", "w" }; /* fopen() mode[ptype] */
/* -------------------------------------------------------------------------
check input, determine grayscale, and set up output file if necessary
-------------------------------------------------------------------------- */
/* --- check input args --- */
if ( rp == NULL ) goto end_of_job; /* no input raster provided */
if ( ptype != 0 ) /* we'll determine ptype below */
if ( ptype<1 || ptype>2 ) goto end_of_job; /*invalid output graphic format*/
/* --- determine largest (and smallest) value in pixmap --- */
for ( irow=0; irowheight; irow++ ) /* for each row, top-to-bottom */
for ( jcol=0; jcolwidth; jcol++ ) /* for each col, left-to-right */
{ int pixval = getpixel(rp,irow,jcol); /* value of pixel at irow,jcol */
pixmin = min2(pixmin,pixval); /* new minimum */
pixmax = max2(pixmax,pixval); } /* new maximum */
ngray = 1 + (pixmax-pixmin); /* should be 2 for b/w bitmap */
if ( ptype == 0 ) /* caller wants us to set ptype */
ptype = (ngray>=3?2:1); /* use grayscale if >2 shades */
/* --- open output file if necessary --- */
if ( file == NULL ) fp = stdout; /*null ptr signals output to stdout*/
else if ( *file != '\000' ) { /* explicit filename provided, so...*/
char fname[512], *pdot=NULL; /* file.ext, ptr to last . in fname*/
strncpy(fname,file,255); /* local copy of file name */
fname[255] = '\000'; /* make sure it's null terminated */
if ( (pdot=strrchr(fname,'.')) == NULL ) /*no extension on original name*/
strcat(fname,suffix[ptype]); /* so add extension */
else /* we already have an extension */
strcpy(pdot,suffix[ptype]); /* so replace original extension */
if ( (fp = fopen(fname,mode[ptype])) /* open output file */
== (FILE *)NULL ) goto end_of_job; /* quit if failed to open */
} /* --- ens-of-if(*file!='\0') --- */
/* -------------------------------------------------------------------------
emit http headers if running as cgi
-------------------------------------------------------------------------- */
/* --- emit mime content-type line --- */
if ( isquery && fp==stdout ) /* writing to http server */
{ fprintf( stdout, "Cache-Control: max-age=9999\n" );
fprintf( stdout, "Content-type: text/plain\n\n" ); }
/* -------------------------------------------------------------------------
format and write header
-------------------------------------------------------------------------- */
/* --- format header info --- */
*outline = '\000'; /* initialize line buffer */
strcat(outline,magic[ptype]); /* begin file with "magic number" */
strcat(outline,cr); /* followed by cr to end line */
sprintf(outfield,"%d %d",rp->width,rp->height); /* format width and height */
strcat(outline,outfield); /* add width and height to header */
strcat(outline,cr); /* followed by cr to end line */
if ( ptype == 2 ) /* need max grayscale value */
{ sprintf(outfield,"%d",pixmax); /* format maximum pixel value */
strcat(outline,outfield); /* add max value to header */
strcat(outline,cr); } /* followed by cr to end line */
/* --- write header to file or memory buffer --- */
if ( fp == NULL ) /* if we have no open file... */
strcat(file,outline); /* add header to caller's buffer */
else /* or if we have an open file... */
if ( fputs(outline,fp) /* try writing header to open file */
== EOF ) goto end_of_job; /* return with error if failed */
nbytes += strlen(outline); /* bump output byte count */
/* -------------------------------------------------------------------------
format and write pixels
-------------------------------------------------------------------------- */
*outline = '\000'; /* initialize line buffer */
for ( irow=0; irow<=rp->height; irow++ ) /* for each row, top-to-bottom */
for ( jcol=0; jcolwidth; jcol++ ) { /* for each col, left-to-right */
/* --- format value at irow,jcol--- */
*outfield = '\000'; /* init empty field */
if ( irow < rp->height ) { /* check row index */
int pixval = getpixel(rp,irow,jcol); /* value of pixel at irow,jcol */
if ( ptype == 1 ) /* pixval must be 1 or 0 */
pixval = (pixval>pixmin+((pixmax-pixmin)/pixfrac)?1:0);
sprintf(outfield,"%d ",pixval); } /* format pixel value */
/* --- write line if this value won't fit on it (or last line) --- */
if ( strlen(outline)+strlen(outfield)+strlen(cr) >= maxlinelen /*won't fit*/
|| irow >= rp->height ) { /* force writing last line */
strcat(outline,cr); /* add cr to end current line */
if ( fp == NULL ) /* if we have no open file... */
strcat(file,outline); /* add header to caller's buffer */
else /* or if we have an open file... */
if ( fputs(outline,fp) /* try writing header to open file */
== EOF ) goto end_of_job; /* return with error if failed */
nbytes += strlen(outline); /* bump output byte count */
*outline = '\000'; /* re-initialize line buffer */
} /* --- end-of-if(strlen>=maxlinelen) --- */
if ( irow >= rp->height ) break; /* done after writing last line */
/* --- concatanate value to line -- */
strcat(outline,outfield); /* concatanate value to line */
} /* --- end-of-for(jcol,irow) --- */
isokay = 1; /* signal successful completion */
/* -------------------------------------------------------------------------
Back to caller with total #bytes written, or 0=failed.
-------------------------------------------------------------------------- */
end_of_job:
if ( fp != NULL /* output written to an open file */
&& fp != stdout ) /* and it's not just stdout */
fclose(fp); /* so close file before returning */
return ( (isokay?nbytes:0) ); /*back to caller with #bytes written*/
} /* --- end-of-function type_pbmpgm() --- */
/* ==========================================================================
* Function: cstruct_chardef ( cp, fp, col1 )
* Purpose: Emit a C struct of cp on fp, starting in col1.
* --------------------------------------------------------------------------
* Arguments: cp (I) ptr to chardef struct for which
* a C struct is to be generated.
* fp (I) File ptr to output device (defaults to
* stdout if passed as NULL).
* col1 (I) int containing 0...65; output lines
* are preceded by col1 blanks.
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if completed successfully,
* or 0 otherwise (for any error).
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
int cstruct_chardef ( chardef *cp, FILE *fp, int col1 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char field[64]; /* field within output line */
int cstruct_raster(), /* emit a raster */
emit_string(); /* emit a string and comment */
/* -------------------------------------------------------------------------
emit charnum, location, name / hirow, hicol, lorow, locol
-------------------------------------------------------------------------- */
/* --- charnum, location, name --- */
sprintf(field,"{ %3d,%5d,\n", cp->charnum,cp->location); /*char#,location*/
emit_string ( fp, col1, field, "character number, location");
/* --- toprow, topleftcol, botrow, botleftcol --- */
sprintf(field," %3d,%2d, %3d,%2d,\n", /* format... */
cp->toprow,cp->topleftcol, /* toprow, topleftcol, */
cp->botrow,cp->botleftcol); /* and botrow, botleftcol */
emit_string ( fp, col1, field, "topleft row,col, and botleft row,col");
/* -------------------------------------------------------------------------
emit raster and chardef's closing brace, and then return to caller
-------------------------------------------------------------------------- */
cstruct_raster(&cp->image,fp,col1+4); /* emit raster */
emit_string ( fp, 0, " }", NULL); /* emit closing brace */
return ( 1 ); /* back to caller with 1=okay, 0=failed */
} /* --- end-of-function cstruct_chardef() --- */
/* ==========================================================================
* Function: cstruct_raster ( rp, fp, col1 )
* Purpose: Emit a C struct of rp on fp, starting in col1.
* --------------------------------------------------------------------------
* Arguments: rp (I) ptr to raster struct for which
* a C struct is to be generated.
* fp (I) File ptr to output device (defaults to
* stdout if passed as NULL).
* col1 (I) int containing 0...65; output lines
* are preceded by col1 blanks.
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if completed successfully,
* or 0 otherwise (for any error).
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
int cstruct_raster ( raster *rp, FILE *fp, int col1 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char field[64]; /* field within output line */
char typecast[64] = "(pixbyte *)"; /* type cast for pixmap string */
int hex_bitmap(); /* to emit raster bitmap */
int emit_string(); /* emit a string and comment */
/* -------------------------------------------------------------------------
emit width and height
-------------------------------------------------------------------------- */
sprintf(field,"{ %2d, %3d,%2d,%2d, %s\n", /* format width,height,pixsz */
rp->width,rp->height,rp->format,rp->pixsz,typecast);
emit_string ( fp, col1, field, "width,ht, fmt,pixsz,map...");
/* -------------------------------------------------------------------------
emit bitmap and closing brace, and return to caller
-------------------------------------------------------------------------- */
hex_bitmap(rp,fp,col1+2,1); /* emit bitmap */
emit_string ( fp, 0, " }", NULL); /* emit closing brace */
return ( 1 ); /* back to caller with 1=okay, 0=failed */
} /* --- end-of-function cstruct_raster() --- */
/* ==========================================================================
* Function: hex_bitmap ( rp, fp, col1, isstr )
* Purpose: Emit a hex dump of the bitmap of rp on fp, starting in col1.
* If isstr (is string) is true, the dump is of the form
* "\x01\x02\x03\x04\x05..."
* Otherwise, if isstr is false, the dump is of the form
* 0x01,0x02,0x03,0x04,0x05...
* --------------------------------------------------------------------------
* Arguments: rp (I) ptr to raster struct for which
* a hex dump is to be constructed.
* fp (I) File ptr to output device (defaults to
* stdout if passed as NULL).
* col1 (I) int containing 0...65; output lines
* are preceded by col1 blanks.
* isstr (I) int specifying dump format as described above
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if completed successfully,
* or 0 otherwise (for any error).
* --------------------------------------------------------------------------
* Notes:
* ======================================================================= */
/* --- entry point --- */
int hex_bitmap ( raster *rp, FILE *fp, int col1, int isstr )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int ibyte, /* pixmap[ibyte] index */
nbytes = pixbytes(rp); /*#bytes in bitmap or .gf-formatted*/
char stub[64]=" ";/* col1 leading blanks */
int linewidth = 64, /* (roughly) rightmost column */
colwidth = (isstr? 4:5); /* #cols required for each byte */
int ncols = (linewidth-col1)/colwidth; /* new line after ncols bytes */
/* --------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- redirect null fp --- */
if ( fp == (FILE *)NULL ) fp = stdout; /* default fp to stdout if null */
/* --- emit initial stub if wanted --- */
if ( col1 > 0 ) fprintf(fp,"%.*s",col1,stub); /* stub preceding 1st line */
/* --------------------------------------------------------------------------
emit hex dump of rp->bitmap image
-------------------------------------------------------------------------- */
if ( isstr ) fprintf(fp,"\""); /* opening " before first line */
for ( ibyte=0; ibytepixmap)[ibyte]); /*print byte as hex char*/
else /* comma-separated format wanted */
fprintf(fp,"0x%02x",(rp->pixmap)[ibyte]); /*print byte as hex number*/
/* --- add a separator and newline, etc, as necessary --- */
if ( ibyte < nbytes-1) /* not the last byte yet */
{
if ( !isstr ) fprintf(fp,","); /* follow hex number with comma */
if ( (ibyte+1)%ncols==0 ) { /* need new line after every ncols */
if ( !isstr ) /* for hex numbers format ... */
fprintf(fp,"\n%.*s",col1,stub); /* ...just need newline and stub */
else /* for string format... */
fprintf(fp,"\"\n%.*s\"",col1,stub); } /*...need closing, opening "s*/
} /* --- end-of-if(ibyte 6 ) /* can fit all or part of comment */
sprintf(line+linelen-fieldlen,"/%c %.*s %c/", /* so embed it in line */
'*', fieldlen-6,comment, '*');
col1 = linelen; } /* indicate line filled */
/* --- line completed --- */
line[col1] = '\000'; /* null-terminate completed line */
/* -------------------------------------------------------------------------
emit line, then back to caller with 1=okay, 0=failed.
-------------------------------------------------------------------------- */
/* --- first redirect null fp --- */
if ( fp == (FILE *)NULL ) fp = stdout; /* default fp to stdout if null */
/* --- emit line (and optional newline) --- */
fprintf(fp,"%.*s",linelen,line); /* no more than linelen chars */
if ( isnewline ) fprintf(fp,"\n"); /*caller wants terminating newline*/
return ( 1 );
} /* --- end-of-function emit_string() --- */
/* ==========================================================================
* Function: gftobitmap ( gf )
* Purpose: convert .gf-like pixmap to bitmap image
* --------------------------------------------------------------------------
* Arguments: gf (I) raster * to struct in .gf-format
* --------------------------------------------------------------------------
* Returns: ( raster * ) image-format raster * if successful,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
raster *gftobitmap ( raster *gf )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
raster *new_raster(), *rp=NULL; /* image raster retuned to caller */
int width=0, height=0, totbits=0; /* gf->width, gf->height, #bits */
int format=0, icount=0, ncounts=0, /*.gf format, count index, #counts*/
ibit=0, bitval=0; /* bitmap index, bit value */
int isrepeat = 1, /* true to process repeat counts */
repeatcmds[2] = {255,15}, /*opcode for repeat/duplicate count*/
nrepeats=0, irepeat=0, /* scan line repeat count,index */
wbits = 0; /* count bits to width of scan line*/
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- check args --- */
if ( gf == NULL ) goto end_of_job; /* input raster not provided */
format = gf->format; /* 2 or 3 */
if ( format!=2 && format!=3 ) goto end_of_job; /* invalid raster format */
ncounts = gf->pixsz; /*pixsz is really #counts in pixmap*/
/* --- allocate output raster with proper dimensions for bitmap --- */
width=gf->width; height=gf->height; /* dimensions of raster */
if ( (rp = new_raster(width,height,1)) /* allocate new raster and bitmap */
== NULL ) goto end_of_job; /* quit if failed to allocate */
totbits = width*height; /* total #bits in image */
/* -------------------------------------------------------------------------
fill bitmap
-------------------------------------------------------------------------- */
for ( icount=0,bitval=0; icountpixmap,icount)); /*#bits to set*/
if ( isrepeat /* we're proxessing repeat counts */
&& nbits == repeatcmds[format-2] ) { /* and repeat opcode found */
if ( nrepeats == 0 ) /* recursive repeat is error */
{ nrepeats = (int)(getbyfmt(format,gf->pixmap,icount+1));/*repeat count*/
nbits = (int)(getbyfmt(format,gf->pixmap,icount+2)); /*#bits to set*/
icount += 2; } /* bump byte/nibble count */
else /* some internal error occurred */
if ( msgfp!=NULL && msglevel>=1 ) /* report error */
fprintf(msgfp,"gftobitmap> found embedded repeat command\n"); }
if ( 0 )
fprintf(stdout,
"gftobitmap> icount=%d bitval=%d nbits=%d ibit=%d totbits=%d\n",
icount,bitval,nbits,ibit,totbits);
for ( ; nbits>0; nbits-- ) /* count down */
{ if ( ibit >= totbits ) goto end_of_job; /* overflow check */
for ( irepeat=0; irepeat<=nrepeats; irepeat++ )
if ( bitval == 1 ) /* set pixel */
{ setlongbit(rp->pixmap,(ibit+irepeat*width)); }
else /* clear pixel */
{ unsetlongbit(rp->pixmap,(ibit+irepeat*width)); }
if ( nrepeats > 0 ) wbits++; /* count another repeated bit */
ibit++; } /* bump bit index */
bitval = 1-bitval; /* flip bit value */
if ( wbits >= width ) { /* completed repeats */
ibit += nrepeats*width; /*bump bit count past repeated scans*/
if ( wbits > width ) /* out-of alignment error */
if ( msgfp!=NULL && msglevel>=1 ) /* report error */
fprintf(msgfp,"gftobitmap> width=%d wbits=%d\n",width,wbits);
wbits = nrepeats = 0; } /* reset repeat counts */
} /* --- end-of-for(icount) --- */
end_of_job:
return ( rp ); /* back to caller with image */
} /* --- end-of-function gftobitmap() --- */
/* ==========================================================================
* Function: get_symdef ( symbol )
* Purpose: returns mathchardef struct for symbol
* --------------------------------------------------------------------------
* Arguments: symbol (I) char * containing symbol
* whose corresponding mathchardef is wanted
* --------------------------------------------------------------------------
* Returns: ( mathchardef * ) pointer to struct defining symbol,
* or NULL for any error
* --------------------------------------------------------------------------
* Notes: o Input symbol need only contain a leading substring to match,
* e.g., \gam passed in symbol will match \gamma in the table.
* If the table contains two or more possible matches,
* the shortest is returned, e.g., input \e will return with
* data for \eta rather than \epsilon. To get \epsilon,
* you must pass a leading substring long enough to eliminate
* shorter table matches, i.e., in this case \ep
* ======================================================================= */
/* --- entry point --- */
mathchardef *get_symdef ( char *symbol )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
mathchardef *symdefs = symtable; /* table of mathchardefs */
int ligdef=0, get_ligature(); /* or we may have a ligature */
int idef = 0, /* symdefs[] index */
bestdef = (-9999); /*index of shortest matching symdef*/
int symlen = strlen(symbol), /* length of input symbol */
deflen, minlen=9999; /*length of shortest matching symdef*/
int /*alnumsym = (symlen==1 && isalnum(*symbol)),*/ /*alphanumeric sym*/
alphasym = (symlen==1 && isalpha(*symbol)), /* or alpha symbol */
slashsym = (*symbol=='\\'); /* or \backslashed symbol */
int family = fontinfo[fontnum].family; /* current font family */
static char *displaysyms[][2] = { /*xlate to Big sym for \displaystyle*/
/* --- see table on page 536 in TLC2 --- */
{"\\int", "\\Bigint"},
{"\\oint", "\\Bigoint"},
{"\\sum", "\\Bigsum"},
{"\\prod", "\\Bigprod"},
{"\\coprod", "\\Bigcoprod"},
/* --- must be 'big' when related to similar binary operators --- */
{"\\bigcup", "\\Bigcup"},
{"\\bigsqcup", "\\Bigsqcup"},
{"\\bigcap", "\\Bigcap"},
/*{"\\bigsqcap", "\\sqcap"},*/ /* don't have \Bigsqcap */
{"\\bigodot", "\\Bigodot"},
{"\\bigoplus", "\\Bigoplus"},
{"\\bigominus", "\\ominus"},
{"\\bigotimes", "\\Bigotimes"},
{"\\bigoslash", "\\oslash"},
{"\\biguplus", "\\Biguplus"},
{"\\bigwedge", "\\Bigwedge"},
{"\\bigvee", "\\Bigvee"},
{NULL, NULL} };
/* -------------------------------------------------------------------------
First check for ligature
-------------------------------------------------------------------------- */
isligature = 0; /* init signal for no ligature */
if ( family == CYR10 ) /*only check for cyrillic ligatures*/
if ( (ligdef=get_ligature(subexprptr,family)) /* check for ligature */
>= 0 ) /* found a ligature */
{ bestdef = ligdef; /* set bestdef for ligature */
isligature = 1; /* signal we found a ligature */
goto end_of_job; } /* so just give it to caller */
/* -------------------------------------------------------------------------
If in \displaystyle mode, first xlate int to Bigint, etc.
-------------------------------------------------------------------------- */
if ( isdisplaystyle > 1 ) /* we're in \displaystyle mode */
for ( idef=0; ; idef++ ) { /* lookup symbol in displaysyms */
char *fromsym = displaysyms[idef][0], /* look for this symbol */
*tosym = displaysyms[idef][1]; /* and xlate it to this symbol */
if ( fromsym == NULL ) break; /* end-of-table */
if ( !strcmp(symbol,fromsym) ) /* found a match */
{ if ( msglevel>=99 && msgfp!=NULL ) /* debugging output */
{ fprintf(msgfp,"get_symdef> isdisplaystyle=%d, xlated %s to %s\n",
isdisplaystyle,symbol,tosym); fflush(msgfp); }
symbol = tosym; /* so look up tosym instead */
symlen = strlen(symbol); /* reset symbol length */
break; } /* no need to search further */
} /* --- end-of-for(idef) --- */
/* -------------------------------------------------------------------------
search symdefs[] in order for first occurrence of symbol
-------------------------------------------------------------------------- */
for ( idef=0; ;idef++ ) /* until trailer record found */
if ( symdefs[idef].symbol == NULL ) break; /* reached end-of-table */
else /* check against caller's symbol */
if ( strncmp(symbol,symdefs[idef].symbol,symlen) == 0 ) /* found match */
if ( (fontnum==0||family==CYR10) /* mathmode, so check every match */
|| (1 && symdefs[idef].handler!=NULL) /* or check every directive */
|| (1 && istextmode && slashsym) /*text mode and \backslashed symbol*/
|| (0 && istextmode && (!alphasym /* text mode and not alpha symbol */
|| symdefs[idef].handler!=NULL)) /* or text mode and directive */
|| (symdefs[idef].family==family /* have correct family */
&& symdefs[idef].handler==NULL) ) /* and not a handler collision */
#if 0
|| (fontnum==1 && symdefs[idef].family==CMR10) /*textmode && rm text*/
|| (fontnum==2 && symdefs[idef].family==CMMI10) /*textmode && it text*/
|| (fontnum==3 && symdefs[idef].family==BBOLD10 /*textmode && bb text*/
&& symdefs[idef].handler==NULL)
|| (fontnum==4 && symdefs[idef].family==CMMIB10 /*textmode && bf text*/
&& symdefs[idef].handler==NULL) )
#endif
if ( (deflen=strlen(symdefs[idef].symbol)) < minlen ) /*new best match*/
{ bestdef = idef; /* save index of new best match */
if ( (minlen = deflen) /* and save its len for next test */
== symlen ) break; } /*perfect match, so return with it*/
if ( bestdef < 0 ) /* failed to look up symbol */
if ( fontnum != 0 ) /* we're in a restricted font mode */
{ int oldfontnum = fontnum; /* save current font family */
mathchardef *symdef = NULL; /* lookup result with fontnum=0 */
fontnum = 0; /*try to look up symbol in any font*/
symdef = get_symdef(symbol); /* repeat lookup with fontnum=0 */
fontnum = oldfontnum; /* reset font family */
return symdef; } /* caller gets fontnum=0 lookup */
end_of_job:
if ( msgfp!=NULL && msglevel>=999 ) /* debugging output */
{ fprintf(msgfp,
"get_symdef> symbol=%s matches symtable[%d]=%s (isligature=%d)\n",
symbol,bestdef,(bestdef<0?"NotFound":symdefs[bestdef].symbol),isligature);
fflush(msgfp); }
return ( (bestdef<0? NULL : &(symdefs[bestdef])) );/*NULL or best symdef[]*/
} /* --- end-of-function get_symdef() --- */
/* ==========================================================================
* Function: get_ligature ( expression, family )
* Purpose: returns symtable[] index for ligature
* --------------------------------------------------------------------------
* Arguments: expression (I) char * containing ligature
* whose corresponding mathchardef is wanted
* family (I) int containing NOVALUE for any family,
* or, e.g., CYR10 for cyrillic, etc.
* --------------------------------------------------------------------------
* Returns: ( int ) symtable[] index defining ligature,
* or -9999 if no ligature found or for any error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int get_ligature ( char *expression, int family )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
mathchardef *symdefs = symtable; /* table of mathchardefs */
char *ligature = expression /*- 1*/, /* expression ptr */
*symbol = NULL; /* symdefs[idef].symbol */
int liglen = strlen(ligature); /* #chars remaining in expression */
int iscyrfam = (family==CYR10); /* true for cyrillic families */
int idef = 0, /* symdefs[] index */
bestdef = (-9999), /*index of longest matching symdef*/
maxlen=(-9999); /*length of longest matching symdef*/
/* -------------------------------------------------------------------------
search symdefs[] in order for first occurrence of symbol
-------------------------------------------------------------------------- */
if ( !isstring ) { /* no ligatures in "string" mode */
for ( idef=0; ;idef++ ) /* until trailer record found */
if ( (symbol=symdefs[idef].symbol) == NULL ) break; /* end-of-table */
else { /* check against caller's ligature */
int symlen = strlen(symbol); /* #chars in symbol */
if ( ( symlen>1 || iscyrfam ) /*ligature >1 char long or cyrillic*/
&& symlen <= liglen /* and enough remaining chars */
&& ( *symbol!='\\' || iscyrfam ) /* not escaped or cyrillic */
&& symdefs[idef].handler == NULL ) /* and not a handler */
if ( strncmp(ligature,symbol,symlen) == 0 ) /* found match */
if ( family < 0 /* no family specifies */
|| symdefs[idef].family == family ) /* or have correct family */
if ( symlen > maxlen ) /* new longest ligature */
{ bestdef = idef; /* save index of new best match */
maxlen = symlen; } /* and save its len for next test */
} /* --- end-of-if/else(symbol==NULL) --- */
if ( msgfp!=NULL && msglevel>=999 ) /* debugging output */
{ fprintf(msgfp,"get_ligature> ligature=%.4s matches symtable[%d]=%s\n",
ligature,bestdef,(bestdef<0?"NotFound":symdefs[bestdef].symbol));
fflush(msgfp); }
} /* --- end-of-if(!isstring) --- */
return ( bestdef ); /* -9999 or index of best symdef[] */
} /* --- end-of-function get_ligature --- */
/* ==========================================================================
* Function: get_chardef ( symdef, size )
* Purpose: returns chardef ptr containing data for symdef at given size
* --------------------------------------------------------------------------
* Arguments: symdef (I) mathchardef * corresponding to symbol
* whose corresponding chardef is wanted
* size (I) int containing 0-5 for desired size
* --------------------------------------------------------------------------
* Returns: ( chardef * ) pointer to struct defining symbol at size,
* or NULL for any error
* --------------------------------------------------------------------------
* Notes: o if size unavailable, the next-closer-to-normalsize
* is returned instead.
* ======================================================================= */
/* --- entry point --- */
chardef *get_chardef ( mathchardef *symdef, int size )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
fontfamily *fonts = fonttable; /* table of font families */
chardef **fontdef, /*tables for desired font, by size*/
*gfdata = (chardef *)NULL; /* chardef for symdef,size */
int ifont; /* fonts[] index */
int family, charnum; /* indexes retrieved from symdef */
int sizeinc = 0, /*+1 or -1 to get closer to normal*/
normalsize = 2; /* this size always present */
int isBig = 0; /*true if symbol's 1st char is upper*/
char *symptr = NULL; /* look for 1st alpha of symbol */
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- check symdef --- */
if ( symdef == NULL ) goto end_of_job; /* get_symdef() probably failed */
/* --- get local copy of indexes from symdef --- */
family = symdef->family; /* font family containing symbol */
charnum = symdef->charnum; /* char# of symbol within font */
/* --- check for supersampling --- */
if ( issupersampling ) /* check for supersampling fonts */
if ( fonts != ssfonttable ) /* uh oh--probably internal error */
{ fonts = ssfonttable; } /* force it */
/* --- check requested size, and set size increment --- */
if ( 0 && issupersampling ) /* set size index for supersampling */
size = LARGESTSIZE+1; /* index 1 past largest size */
else /* low pass indexes 0...LARGESTSIZE */
{
if( size<0 ) size = 0; /* size was definitely too small */
if( size>LARGESTSIZE ) size = LARGESTSIZE; /* or definitely too large */
if( sizenormalsize ) sizeinc = (-1); /*or next smaller if size too large*/
}
/* --- check for really big symbol (1st char of symbol name uppercase) --- */
for ( symptr=symdef->symbol; *symptr!='\000'; symptr++ ) /*skip leading \'s*/
if ( isalpha(*symptr) ) /* found leading alpha char */
{ isBig = isupper(*symptr); /* is 1st char of name uppercase? */
if ( !isBig /* 1st char lowercase */
&& strlen(symptr) >= 4 ) /* but followed by at least 3 chars */
isBig = !memcmp(symptr,"big\\",4) /* isBig if name starts with big\ */
|| !memcmp(symptr,"bigg",4); /* or with bigg */
break; } /* don't check beyond 1st char */
/* -------------------------------------------------------------------------
find font family in table of fonts[]
-------------------------------------------------------------------------- */
/* --- look up font family --- */
for ( ifont=0; ;ifont++ ) /* until trailer record found */
if ( fonts[ifont].family < 0 ) { /* error, no such family */
if ( msgfp!=NULL && msglevel>=99 ) { /* emit error */
fprintf(msgfp,"get_chardef> failed to find font family %d\n",
family); fflush(msgfp); }
goto end_of_job; } /* quit if can't find font family*/
else if ( fonts[ifont].family == family ) break; /* found font family */
/* --- get local copy of table for this family by size --- */
fontdef = fonts[ifont].fontdef; /* font by size */
/* -------------------------------------------------------------------------
get font in desired size, or closest available size, and return symbol
-------------------------------------------------------------------------- */
/* --- get font in desired size --- */
while ( 1 ) /* find size or closest available */
if ( fontdef[size] != NULL ) break; /* found available size */
else /* adjust size closer to normal */
if ( size == NORMALSIZE /* already normal so no more sizes,*/
|| sizeinc == 0 ) { /* or must be supersampling */
if ( msgfp!=NULL && msglevel>=99 ) { /* emit error */
fprintf(msgfp,"get_chardef> failed to find font size %d\n",
size); fflush(msgfp); }
goto end_of_job; } /* quit if can't find desired size */
else /*bump size 1 closer to NORMALSIZE*/
size += sizeinc; /* see if adjusted size available */
/* --- ptr to chardef struct --- */
gfdata = &((fontdef[size])[charnum]); /*ptr to chardef for symbol in size*/
/* -------------------------------------------------------------------------
kludge to tweak CMEX10 (which appears to have incorrect descenders)
-------------------------------------------------------------------------- */
if ( family == CMEX10 ) /* cmex10 needs tweak */
{ int height = gfdata->toprow - gfdata->botrow + 1; /*total height of char*/
gfdata->botrow = (isBig? (-height/3) : (-height/4));
gfdata->toprow = gfdata->botrow + gfdata->image.height; }
/* -------------------------------------------------------------------------
return subraster containing chardef data for symbol in requested size
-------------------------------------------------------------------------- */
end_of_job:
if ( msgfp!=NULL && msglevel>=999 )
{ if (symdef == NULL) fprintf(msgfp,"get_chardef> input symdef==NULL\n");
else
fprintf(msgfp,"get_chardef> requested symbol=\"%s\" size=%d %s\n",
symdef->symbol,size,(gfdata==NULL?"FAILED":"Succeeded"));
fflush(msgfp); }
return ( gfdata ); /*ptr to chardef for symbol in size*/
} /* --- end-of-function get_chardef() --- */
/* ==========================================================================
* Function: get_charsubraster ( symdef, size )
* Purpose: returns new subraster ptr containing
* data for symdef at given size
* --------------------------------------------------------------------------
* Arguments: symdef (I) mathchardef * corresponding to symbol whose
* corresponding chardef subraster is wanted
* size (I) int containing 0-5 for desired size
* --------------------------------------------------------------------------
* Returns: ( subraster * ) pointer to struct defining symbol at size,
* or NULL for any error
* --------------------------------------------------------------------------
* Notes: o just wraps a subraster envelope around get_chardef()
* ======================================================================= */
/* --- entry point --- */
subraster *get_charsubraster ( mathchardef *symdef, int size )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
chardef *get_chardef(), *gfdata=NULL; /* chardef struct for symdef,size */
int get_baseline(); /* baseline of gfdata */
subraster *new_subraster(), *sp=NULL; /* subraster containing gfdata */
raster *bitmaprp=NULL, *gftobitmap(); /* convert .gf-format to bitmap */
int delete_subraster(); /* in case gftobitmap() fails */
int aasupsamp(), /*antialias char with supersampling*/
grayscale=256; /* aasupersamp() parameters */
/* -------------------------------------------------------------------------
look up chardef for symdef at size, and embed data (gfdata) in subraster
-------------------------------------------------------------------------- */
if ( (gfdata=get_chardef(symdef,size)) /* look up chardef for symdef,size */
!= NULL ) /* and check that we found it */
if ( (sp=new_subraster(0,0,0)) /* allocate subraster "envelope" */
!= NULL ) /* and check that we succeeded */
{
raster *image = &(gfdata->image); /* ptr to chardef's bitmap or .gf */
int format = image->format; /* 1=bitmap, else .gf */
sp->symdef = symdef; /* replace NULL with caller's arg */
sp->size = size; /*replace default with caller's size*/
sp->baseline = get_baseline(gfdata); /* get baseline of character */
if ( format == 1 ) /* already a bitmap */
{ sp->type = CHARASTER; /* static char raster */
sp->image = image; } /* store ptr to its bitmap */
else /* need to convert .gf-to-bitmap */
if ( (bitmaprp = gftobitmap(image)) /* convert */
!= (raster *)NULL ) /* successful */
{ sp->type = IMAGERASTER; /* allocated raster will be freed */
sp->image = bitmaprp; } /* store ptr to converted bitmap */
else /* conversion failed */
{ delete_subraster(sp); /* free unneeded subraster */
sp = (subraster *)NULL; /* signal error to caller */
goto end_of_job; } /* quit */
if ( issupersampling ) /* antialias character right here */
{
raster *aa = NULL; /* antialiased char raster */
int status = aasupsamp(sp->image,&aa,shrinkfactor,grayscale);
if ( status ) /* supersampled successfully */
{ int baseline = sp->baseline; /* baseline before supersampling */
int height = gfdata->image.height; /* #rows before supersampling */
sp->image = aa; /* replace chardef with ss image */
if ( baseline >= height-1 ) /* baseline at bottom of char */
sp->baseline = aa->height -1; /* so keep it at bottom */
else /* char has descenders */
sp->baseline /= shrinkfactor; /* rescale baseline */
sp->type = IMAGERASTER; } /* character is an image raster */
} /* --- end-of-if(issupersampling) --- */
} /* --- end-of-if(sp!=NULL) --- */
end_of_job:
if ( msgfp!=NULL && msglevel>=999 )
{ fprintf(msgfp,"get_charsubraster> requested symbol=\"%s\" baseline=%d"
" %s %s\n", symdef->symbol, (sp==NULL?0:sp->baseline),
(sp==NULL?"FAILED":"Succeeded"), (gfdata==NULL?"(gfdata=NULL)":" "));
fflush(msgfp); }
return ( sp ); /* back to caller */
} /* --- end-of-function get_charsubraster() --- */
/* ==========================================================================
* Function: get_symsubraster ( symbol, size )
* Purpose: returns new subraster ptr containing
* data for symbol at given size
* --------------------------------------------------------------------------
* Arguments: symbol (I) char * corresponding to symbol
* whose corresponding subraster is wanted
* size (I) int containing 0-5 for desired size
* --------------------------------------------------------------------------
* Returns: ( subraster * ) pointer to struct defining symbol at size,
* or NULL for any error
* --------------------------------------------------------------------------
* Notes: o just combines get_symdef() and get_charsubraster()
* ======================================================================= */
/* --- entry point --- */
subraster *get_symsubraster ( char *symbol, int size )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *sp=NULL, *get_charsubraster(); /* subraster containing gfdata */
mathchardef *symdef=NULL, *get_symdef(); /* mathchardef lookup for symbol */
/* -------------------------------------------------------------------------
look up mathchardef for symbol
-------------------------------------------------------------------------- */
if ( symbol != NULL ) /* user supplied input symbol */
symdef = get_symdef(symbol); /*look up corresponding mathchardef*/
/* -------------------------------------------------------------------------
look up chardef for mathchardef and wrap a subraster structure around data
-------------------------------------------------------------------------- */
if ( symdef != NULL ) /* lookup succeeded */
sp = get_charsubraster(symdef,size); /* so get symbol data in subraster */
return ( sp ); /* back to caller with sp or NULL */
} /* --- end-of-function get_symsubraster() --- */
/* ==========================================================================
* Function: get_baseline ( gfdata )
* Purpose: returns baseline for a chardef struct
* --------------------------------------------------------------------------
* Arguments: gfdata (I) chardef * containing chardef for symbol
* whose baseline is wanted
* --------------------------------------------------------------------------
* Returns: ( int ) baseline for symdef,
* or -1 for any error
* --------------------------------------------------------------------------
* Notes: o Unlike TeX, the top-left corners of our rasters are (0,0),
* with (row,col) increasing as you move down and right.
* Baselines are calculated with respect to this scheme,
* so 0 would mean the very top row is on the baseline
* and everything else descends below the baseline.
* ======================================================================= */
/* --- entry point --- */
int get_baseline ( chardef *gfdata )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int /*toprow = gfdata->toprow,*/ /*TeX top row from .gf file info*/
botrow = gfdata->botrow, /*TeX bottom row from .gf file info*/
height = gfdata->image.height; /* #rows comprising symbol */
/* -------------------------------------------------------------------------
give caller baseline
-------------------------------------------------------------------------- */
return ( (height-1) + botrow ); /* note: descenders have botrow<0 */
} /* --- end-of-function get_baseline() --- */
/* ==========================================================================
* Function: get_delim ( char *symbol, int height, int family )
* Purpose: returns subraster corresponding to the samllest
* character containing symbol, but at least as large as height,
* and in caller's family (if specified).
* If no symbol character as large as height is available,
* then the largest availabale character is returned instead.
* --------------------------------------------------------------------------
* Arguments: symbol (I) char * containing (substring of) desired
* symbol, e.g., if symbol="(", then any
* mathchardef like "(" or "\\(", etc, match.
* height (I) int containing minimum acceptable height
* for returned character
* family (I) int containing -1 to consider all families,
* or, e.g., CMEX10 for only that family
* --------------------------------------------------------------------------
* Returns: ( subraster * ) best matching character available,
* or NULL for any error
* --------------------------------------------------------------------------
* Notes: o If height is passed as negative, its absolute value is used
* but the best-fit width is searched for (rather than height)
* ======================================================================= */
/* --- entry point --- */
subraster *get_delim ( char *symbol, int height, int family )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
mathchardef *symdefs = symtable; /* table of mathchardefs */
subraster *get_charsubraster(), *sp=(subraster *)NULL; /* best match char */
subraster *make_delim(); /* construct delim if can't find it*/
chardef *get_chardef(), *gfdata=NULL; /* get chardef struct for a symdef */
char lcsymbol[256], *symptr, /* lowercase symbol for comparison */
*unescsymbol = symbol; /* unescaped symbol */
int symlen = (symbol==NULL?0:strlen(symbol)), /* #chars in caller's sym*/
deflen = 0; /* length of symdef (aka lcsymbol) */
int idef = 0, /* symdefs[] index */
bestdef = (-9999), /* index of best fit symdef */
bigdef = (-9999); /*index of biggest (in case no best)*/
int size = 0, /* size index 0...LARGESTSIZE */
bestsize = (-9999), /* index of best fit size */
bigsize = (-9999); /*index of biggest (in case no best)*/
int defheight, bestheight=9999, /* height of best fit symdef */
bigheight = (-9999); /*height of biggest(in case no best)*/
int iswidth = 0; /* true if best-fit width desired */
int isunesc = 0, /* true if leading escape removed */
issq=0, isoint=0; /* true for \sqcup,etc, \oint,etc */
int iscurly = 0; /* true for StMary's curly symbols */
char *bigint="bigint", *bigoint="bigoint"; /* substitutes for int, oint */
/* -------------------------------------------------------------------------
determine if searching height or width, and search symdefs[] for best-fit
-------------------------------------------------------------------------- */
/* --- arg checks --- */
if ( symlen < 1 ) return (sp); /* no input symbol suplied */
if ( strcmp(symbol,"e") == 0 ) return(sp); /* e causes segfault??? */
if ( strstr(symbol,"curly") != NULL ) iscurly=1; /* user wants curly delim */
/* --- ignore leading escapes for CMEX10 --- */
if ( 1 ) /* ignore leading escape */
if ( (family==CMEX10 || family==CMSYEX) ) { /* for CMEX10 or CMSYEX */
if ( strstr(symbol,"sq") != NULL ) /* \sq symbol requested */
issq = 1; /* seq \sq signal */
if ( strstr(symbol,"oint") != NULL ) /* \oint symbol requested */
isoint = 1; /* seq \oint signal */
if ( *symbol=='\\' ) /* have leading \ */
{ unescsymbol = symbol+1; /* push past leading \ */
if ( --symlen < 1 ) return(sp); /* one less char */
if ( strcmp(unescsymbol,"int") == 0 ) /* \int requested by caller */
unescsymbol = bigint; /* but big version looks better */
if ( strcmp(unescsymbol,"oint") == 0 ) /* \oint requested by caller */
unescsymbol = bigoint; /* but big version looks better */
symlen = strlen(unescsymbol); /* explicitly recalculate length */
isunesc = 1; } /* signal leading escape removed */
} /* --- end-of-if(family) --- */
/* --- determine whether searching for best-fit height or width --- */
if ( height < 0 ) /* negative signals width search */
{ height = (-height); /* flip "height" positive */
iswidth = 1; } /* set flag for width search */
/* --- search symdefs[] for best-fit height (or width) --- */
for ( idef=0; ;idef++ ) /* until trailer record found */
{
char *defsym = symdefs[idef].symbol; /* local copies */
int deffam = symdefs[idef].family;
if ( defsym == NULL ) break; /* reached end-of-table */
else /* check against caller's symbol */
if ( family<0 || deffam == family /* if explicitly in caller's family*/
|| (family==CMSYEX && (deffam==CMSY10||deffam==CMEX10||deffam==STMARY10)) )
{
strcpy(lcsymbol,defsym); /* local copy of symdefs[] symbol */
if ( isunesc && *lcsymbol=='\\' ) /* ignored leading \ in symbol */
{strsqueeze(lcsymbol,1);} /*so squeeze it out of lcsymbol too*/
if ( 0 ) /* don't ignore case */
for ( symptr=lcsymbol; *symptr!='\000'; symptr++ )/*for each symbol ch*/
if ( isalpha(*symptr) ) *symptr=tolower(*symptr);/*lowercase the char*/
deflen = strlen(lcsymbol); /* #chars in symbol we're checking */
if ((symptr=strstr(lcsymbol,unescsymbol)) != NULL) /*found caller's sym*/
if ( (isoint || strstr(lcsymbol,"oint")==NULL) /* skip unwanted "oint"*/
&& (issq || strstr(lcsymbol,"sq")==NULL) ) /* skip unwanted "sq" */
if ( ( deffam == CMSY10 ? /* CMSY10 or not CMSY10 */
symptr == lcsymbol /* caller's sym is a prefix */
&& deflen == symlen: /* and same length */
(iscurly || strstr(lcsymbol,"curly")==NULL) &&/*not unwanted curly*/
(symptr == lcsymbol /* caller's sym is a prefix */
|| symptr == lcsymbol+deflen-symlen) ) ) /* or a suffix */
for ( size=0; size<=LARGESTSIZE; size++ ) /* check all font sizes */
if ( (gfdata=get_chardef(&(symdefs[idef]),size)) != NULL ) /*got one*/
{ defheight = gfdata->image.height; /* height of this character */
if ( iswidth ) /* width search wanted instead... */
defheight = gfdata->image.width; /* ...so substitute width */
leftsymdef = &(symdefs[idef]); /* set symbol class, etc */
if ( defheight>=height && defheight= bigheight ) /* new biggest character */
{ bigdef=idef; bigsize=size; /* save indexes of biggest */
bigheight = defheight; } /* and save new big height */
} /* --- end-of-if(gfdata!=NULL) --- */
} /* --- end-of-if(family) --- */
} /* --- end-of-for(idef) --- */
/* -------------------------------------------------------------------------
construct subraster for best fit character, and return it to caller
-------------------------------------------------------------------------- */
if ( bestdef >= 0 ) /* found a best fit for caller */
sp = get_charsubraster(&(symdefs[bestdef]),bestsize); /* best subraster */
if ( (sp==NULL && height-bigheight>5) /* try to construct delim */
|| bigdef < 0 ) /* delim not in font tables */
sp = make_delim(symbol,(iswidth?-height:height)); /* try to build delim */
if ( sp==NULL && bigdef>=0 ) /* just give biggest to caller */
sp = get_charsubraster(&(symdefs[bigdef]),bigsize); /* biggest subraster */
if ( msgfp!=NULL && msglevel>=99 )
fprintf(msgfp,"get_delim> symbol=%.50s, height=%d family=%d isokay=%s\n",
(symbol==NULL?"null":symbol),height,family,(sp==NULL?"fail":"success"));
return ( sp );
} /* --- end-of-function get_delim() --- */
/* ==========================================================================
* Function: make_delim ( char *symbol, int height )
* Purpose: constructs subraster corresponding to symbol
* exactly as large as height,
* --------------------------------------------------------------------------
* Arguments: symbol (I) char * containing, e.g., if symbol="("
* for desired delimiter
* height (I) int containing height
* for returned character
* --------------------------------------------------------------------------
* Returns: ( subraster * ) constructed delimiter
* or NULL for any error
* --------------------------------------------------------------------------
* Notes: o If height is passed as negative, its absolute value is used
* and interpreted as width (rather than height)
* ======================================================================= */
/* --- entry point --- */
subraster *make_delim ( char *symbol, int height )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *sp = (subraster *)NULL, /* subraster returned to caller */
*new_subraster(); /* allocate subraster */
subraster *get_symsubraster(), /* look up delim pieces in cmex10 */
*symtop=NULL, *symbot=NULL, *symmid=NULL, *symbar=NULL, /* pieces */
*topsym=NULL, *botsym=NULL, *midsym=NULL, *barsym=NULL, /* +filler */
*rastack(), *rastcat(); /* stack pieces, concat filler */
int isdrawparen = 0; /*1=draw paren, 0=build from pieces*/
raster *rasp = (raster *)NULL; /* sp->image */
int isokay=0, delete_subraster(); /* set true if delimiter drawn ok */
int pixsz = 1, /* pixels are one bit each */
symsize = 0; /* size arg for get_symsubraster() */
int thickness = 1; /* drawn lines are one pixel thick */
int aspectratio = 8; /* default height/width for parens */
int iswidth = 0, /*true if width specified by height*/
width = height; /* #pixels width (e.g., of ellipse)*/
char *lp=NULL, *rp=NULL, /* check symbol for left or right */
*lp2=NULL, *rp2=NULL, /* synonym for lp,rp */
*lp3=NULL, *rp3=NULL, /* synonym for lp,rp */
*lp4=NULL, *rp4=NULL; /* synonym for lp,rp */
int circle_raster(), /* ellipse for ()'s in sp->image */
rule_rsater(), /* horizontal or vertical lines */
line_raster(); /* line between two points */
subraster *uparrow_subraster(); /* up/down arrows */
int isprealloc = 1; /*pre-alloc subraster, except arrow*/
int oldsmashmargin = smashmargin, /* save original smashmargin */
wasnocatspace = isnocatspace; /* save original isnocatspace */
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- determine whether constructing height or width --- */
if ( height < 0 ) /* negative "height" signals width */
{ width = height = (-height); /* flip height positive */
iswidth = 1; } /* set flag for width */
if ( height < 3 ) goto end_of_job; /* too small, must be error */
/* --- set default width (or height) accordingly --- */
if ( iswidth ) height = (width+(aspectratio+1)/2)/aspectratio;
else width = (height+(aspectratio+1)/2)/aspectratio;
if ( strchr(symbol,'=') != NULL /* left or right || bracket wanted */
|| strstr(symbol,"\\|") != NULL /* same || in standard tex notation*/
|| strstr(symbol,"dbl") != NULL ) /* semantic bracket with ||'s */
width = max2(width,6); /* need space between two |'s */
if ( width < 2 ) width=2; /* set min width */
if ( strchr(symbol,'(') != NULL /* if left ( */
|| strchr(symbol,')') != NULL ) /* or right ) paren wanted */
{ width = (3*width)/2; /* adjust width */
if ( !isdrawparen ) isprealloc=0; } /* don't prealloc if building */
if ( strchr(symbol,'/') != NULL /* left / */
|| strstr(symbol,"\\\\") != NULL /* or \\ for right \ */
|| strstr(symbol,"backsl") != NULL ) /* or \backslash for \ */
width = max2(height/3,5);
if ( strstr(symbol,"arrow") != NULL ) /* arrow wanted */
{ width = min2(height/3,20); /* adjust width */
isprealloc = 0; } /* don't preallocate subraster */
if ( strchr(symbol,'{') != NULL /* if left { */
|| strchr(symbol,'}') != NULL ) /* or right } brace wanted */
{ isprealloc = 0; } /* don't preallocate */
/* --- allocate and initialize subraster for constructed delimiter --- */
if ( isprealloc ) /* pre-allocation wanted */
{ if ( (sp=new_subraster(width,height,pixsz)) /* allocate new subraster */
== NULL ) goto end_of_job; /* quit if failed */
/* --- initialize delimiter subraster parameters --- */
sp->type = IMAGERASTER; /* image */
sp->symdef = NULL; /* not applicable for image */
sp->baseline = height/2 + 2; /* is a little above center good? */
sp->size = NORMALSIZE; /* size (probably unneeded) */
rasp = sp->image; } /* pointer to image in subraster */
/* -------------------------------------------------------------------------
( ) parens
-------------------------------------------------------------------------- */
if ( (lp=strchr(symbol,'(')) != NULL /* left ( paren wanted */
|| (rp=strchr(symbol,')')) != NULL ) /* right ) paren wanted */
{
if ( isdrawparen ) { /* draw the paren */
int mywidth = min2(width,20); /* max width for ()'s */
circle_raster ( rasp, /* embedded raster image */
0, 0, /* row0,col0 are upper-left corner */
height-1, mywidth-1, /* row1,col1 are lower-right */
thickness, /* line thickness is 1 pixel */
(rp==NULL?"23":"41") ); /* "1234" quadrants to be drawn */
isokay = 1; } /* set flag */
else {
int isleft = (lp!=NULL?1:0); /* true for left, false for right */
char *parentop = (isleft?"\\leftparentop":"\\rightparentop"),
*parenbot = (isleft?"\\leftparenbot":"\\rightparenbot"),
*parenbar = (isleft?"\\leftparenbar":"\\rightparenbar");
int baseht=0, barht=0, /* height of base=top+bot, bar */
ibar=0, nbars=0; /* bar index, #bars between top&bot*/
int largestsize = min2(2,LARGESTSIZE), /* largest size for parens */
topfill=(isleft?0:0), botfill=(isleft?0:0),
barfill=(isleft?0:7); /* alignment fillers */
/* --- get pieces at largest size smaller than total height --- */
for ( symsize=largestsize; symsize>=0; symsize-- ) /*largest to smallest*/
{
/* --- get pieces at current test size --- */
isokay = 1; /* check for all pieces */
if ( (symtop=get_symsubraster(parentop,symsize)) == NULL ) isokay=0;
if ( (symbot=get_symsubraster(parenbot,symsize)) == NULL ) isokay=0;
if ( (symbar=get_symsubraster(parenbar,symsize)) == NULL ) isokay=0;
/* --- check sum of pieces against total desired height --- */
if ( isokay ) { /* all pieces retrieved */
baseht = (symtop->image)->height + (symbot->image)->height; /*top+bot*/
barht = (symbar->image)->height; /* bar height */
if ( baseht < height+5 ) break; /* largest base that's not too big */
if ( symsize < 1 ) break; /* or smallest available base */
} /* --- end-of-if(isokay) --- */
/* --- free test pieces that were too big --- */
if ( symtop != NULL ) delete_subraster(symtop); /* free top */
if ( symbot != NULL ) delete_subraster(symbot); /* free bot */
if ( symbar != NULL ) delete_subraster(symbar); /* free bar */
isokay = 0; /* nothing available */
if ( symsize < 1 ) break; /* leave isokay=0 after smallest */
} /* --- end-of-for(symsize) --- */
/* --- construct brace from pieces --- */
if ( isokay ) { /* we have the pieces */
/* --- add alignment fillers --- */
smashmargin=0; isnocatspace=99; /*turn off rastcat smashing,space*/
topsym = (topfill>0?rastcat(new_subraster(topfill,1,1),symtop,3):symtop);
botsym = (botfill>0?rastcat(new_subraster(botfill,1,1),symbot,3):symbot);
barsym = (barfill>0?rastcat(new_subraster(barfill,1,1),symbar,3):symbar);
smashmargin = oldsmashmargin; /* reset smashmargin */
isnocatspace = wasnocatspace; /* reset isnocatspace */
/* --- #bars needed between top and bot --- */
nbars = (barht<1?0:max2(0,1+(height-baseht)/barht)); /* #bars needed */
/* --- stack pieces --- */
sp = topsym; /* start with top piece */
if ( nbars > 0 ) /* need nbars between top and bot */
for ( ibar=1; ibar<=nbars; ibar++ ) sp = rastack(barsym,sp,1,0,0,2);
sp = rastack(botsym,sp,1,0,0,3); /* bottom below bars or middle */
delete_subraster(barsym); /* barsym no longer needed */
} /* --- end-of-if(isokay) --- */
} /* --- end-of-if/else(isdrawparen) --- */
} /* --- end-of-if(left- or right-() paren wanted) --- */
/* -------------------------------------------------------------------------
{ } braces
-------------------------------------------------------------------------- */
else
if ( (lp=strchr(symbol,'{')) != NULL /* left { brace wanted */
|| (rp=strchr(symbol,'}')) != NULL ) /* right } brace wanted */
{
int isleft = (lp!=NULL?1:0); /* true for left, false for right */
char *bracetop = (isleft?"\\leftbracetop":"\\rightbracetop"),
*bracebot = (isleft?"\\leftbracebot":"\\rightbracebot"),
*bracemid = (isleft?"\\leftbracemid":"\\rightbracemid"),
*bracebar = (isleft?"\\leftbracebar":"\\rightbracebar");
int baseht=0, barht=0, /* height of base=top+bot+mid, bar */
ibar=0, nbars=0; /* bar index, #bars above,below mid*/
int largestsize = min2(2,LARGESTSIZE), /* largest size for braces */
topfill=(isleft?4:0), botfill=(isleft?4:0),
midfill=(isleft?0:4), barfill=(isleft?4:4); /* alignment fillers */
/* --- get pieces at largest size smaller than total height --- */
for ( symsize=largestsize; symsize>=0; symsize-- ) /*largest to smallest*/
{
/* --- get pieces at current test size --- */
isokay = 1; /* check for all pieces */
if ( (symtop=get_symsubraster(bracetop,symsize)) == NULL ) isokay=0;
if ( (symbot=get_symsubraster(bracebot,symsize)) == NULL ) isokay=0;
if ( (symmid=get_symsubraster(bracemid,symsize)) == NULL ) isokay=0;
if ( (symbar=get_symsubraster(bracebar,symsize)) == NULL ) isokay=0;
/* --- check sum of pieces against total desired height --- */
if ( isokay ) { /* all pieces retrieved */
baseht = (symtop->image)->height + (symbot->image)->height
+ (symmid->image)->height; /* top+bot+mid height */
barht = (symbar->image)->height; /* bar height */
if ( baseht < height+5 ) break; /* largest base that's not too big */
if ( symsize < 1 ) break; /* or smallest available base */
} /* --- end-of-if(isokay) --- */
/* --- free test pieces that were too big --- */
if ( symtop != NULL ) delete_subraster(symtop); /* free top */
if ( symbot != NULL ) delete_subraster(symbot); /* free bot */
if ( symmid != NULL ) delete_subraster(symmid); /* free mid */
if ( symbar != NULL ) delete_subraster(symbar); /* free bar */
isokay = 0; /* nothing available */
if ( symsize < 1 ) break; /* leave isokay=0 after smallest */
} /* --- end-of-for(symsize) --- */
/* --- construct brace from pieces --- */
if ( isokay ) { /* we have the pieces */
/* --- add alignment fillers --- */
smashmargin=0; isnocatspace=99; /*turn off rastcat smashing,space*/
topsym = (topfill>0?rastcat(new_subraster(topfill,1,1),symtop,3):symtop);
botsym = (botfill>0?rastcat(new_subraster(botfill,1,1),symbot,3):symbot);
midsym = (midfill>0?rastcat(new_subraster(midfill,1,1),symmid,3):symmid);
barsym = (barfill>0?rastcat(new_subraster(barfill,1,1),symbar,3):symbar);
smashmargin = oldsmashmargin; /* reset smashmargin */
isnocatspace = wasnocatspace; /* reset isnocatspace */
/* --- #bars needed on each side of mid piece --- */
nbars = (barht<1?0:max2(0,1+(height-baseht)/barht/2)); /*#bars per side*/
/* --- stack pieces --- */
sp = topsym; /* start with top piece */
if ( nbars > 0 ) /* need nbars above middle */
for ( ibar=1; ibar<=nbars; ibar++ ) sp = rastack(barsym,sp,1,0,0,2);
sp = rastack(midsym,sp,1,0,0,3); /*mid after top or bars*/
if ( nbars > 0 ) /* need nbars below middle */
for ( ibar=1; ibar<=nbars; ibar++ ) sp = rastack(barsym,sp,1,0,0,2);
sp = rastack(botsym,sp,1,0,0,3); /* bottom below bars or middle */
delete_subraster(barsym); /* barsym no longer needed */
} /* --- end-of-if(isokay) --- */
} /* --- end-of-if(left- or right-{} brace wanted) --- */
/* -------------------------------------------------------------------------
[ ] brackets
-------------------------------------------------------------------------- */
else
if ( (lp=strchr(symbol,'[')) != NULL /* left [ bracket wanted */
|| (rp=strchr(symbol,']')) != NULL /* right ] bracket wanted */
|| (lp2=strstr(symbol,"lceil")) != NULL /* left ceiling wanted */
|| (rp2=strstr(symbol,"rceil")) != NULL /* right ceiling wanted */
|| (lp3=strstr(symbol,"lfloor")) != NULL /* left floor wanted */
|| (rp3=strstr(symbol,"rfloor")) != NULL /* right floor wanted */
|| (lp4=strstr(symbol,"llbrack")) != NULL /* left semantic bracket */
|| (rp4=strstr(symbol,"rrbrack")) != NULL ) /* right semantic bracket */
{
/* --- use rule_raster ( rasp, top, left, width, height, type=0 ) --- */
int mywidth = min2(width,12), /* max width for horizontal bars */
wthick = 1; /* thickness of top.bottom bars */
thickness = (height<25?1:2); /* set lines 1 or 2 pixels thick */
if ( lp2!=NULL || rp2!=NULL || lp3!=NULL || rp3 !=NULL ) /*ceil or floor*/
wthick = thickness; /* same thickness for top/bot bar */
if ( lp3==NULL && rp3==NULL ) /* set top bar if floor not wanted */
rule_raster(rasp, 0,0, mywidth,wthick, 0); /* top horizontal bar */
if ( lp2==NULL && rp2==NULL ) /* set bot bar if ceil not wanted */
rule_raster(rasp, height-wthick,0, mywidth,thickness, 0); /* bottom */
if ( lp!=NULL || lp2!=NULL || lp3!=NULL || lp4!=NULL ) /* left bracket */
rule_raster(rasp, 0,0, thickness,height, 0); /* left vertical bar */
if ( lp4 != NULL ) /* 2nd left vertical bar needed */
rule_raster(rasp, 0,thickness+1, 1,height, 0); /* 2nd left vertical bar */
if ( rp!=NULL || rp2!=NULL || rp3!=NULL || rp4!=NULL ) /* right bracket */
rule_raster(rasp, 0,mywidth-thickness, thickness,height, 0); /* right */
if ( rp4 != NULL ) /* 2nd right vertical bar needed */
rule_raster(rasp, 0,mywidth-thickness-2, 1,height, 0); /*2nd right vert*/
isokay = 1; /* set flag */
} /* --- end-of-if(left- or right-[] bracket wanted) --- */
/* -------------------------------------------------------------------------
< > brackets
-------------------------------------------------------------------------- */
else
if ( (lp=strchr(symbol,'<')) != NULL /* left < bracket wanted */
|| (rp=strchr(symbol,'>')) != NULL ) /* right > bracket wanted */
{
/* --- use line_raster( rasp, row0, col0, row1, col1, thickness ) --- */
int mywidth = min2(width,12), /* max width for brackets */
mythick = 1; /* all lines one pixel thick */
thickness = (height<25?1:2); /* set line pixel thickness */
if ( lp != NULL ) /* left < bracket wanted */
{ line_raster(rasp,height/2,0,0,mywidth-1,mythick);
if ( thickness>1 )
line_raster(rasp,height/2,1,0,mywidth-1,mythick);
line_raster(rasp,height/2,0,height-1,mywidth-1,mythick);
if ( thickness>1 )
line_raster(rasp,height/2,1,height-1,mywidth-1,mythick); }
if ( rp != NULL ) /* right > bracket wanted */
{ line_raster(rasp,height/2,mywidth-1,0,0,mythick);
if ( thickness>1 )
line_raster(rasp,height/2,mywidth-2,0,0,mythick);
line_raster(rasp,height/2,mywidth-1,height-1,0,mythick);
if ( thickness>1 )
line_raster(rasp,height/2,mywidth-2,height-1,0,mythick); }
isokay = 1; /* set flag */
} /* --- end-of-if(left- or right-<> bracket wanted) --- */
/* -------------------------------------------------------------------------
/ \ delimiters
-------------------------------------------------------------------------- */
else
if ( (lp=strchr(symbol,'/')) != NULL /* left / wanted */
|| (rp=strstr(symbol,"\\\\")) != NULL /* right \ wanted */
|| (rp2=strstr(symbol,"backsl")) != NULL ) /* right \ wanted */
{
/* --- use line_raster( rasp, row0, col0, row1, col1, thickness ) --- */
int mywidth = width; /* max width for / \ */
thickness = 1; /* set line pixel thickness */
if ( lp != NULL ) /* left / wanted */
line_raster(rasp,0,mywidth-1,height-1,0,thickness);
if ( rp!=NULL || rp2!=NULL ) /* right \ wanted */
line_raster(rasp,0,0,height-1,mywidth-1,thickness);
isokay = 1; /* set flag */
} /* --- end-of-if(left- or right-/\ delimiter wanted) --- */
/* -------------------------------------------------------------------------
arrow delimiters
-------------------------------------------------------------------------- */
else
if ( strstr(symbol,"arrow") != NULL ) /* arrow delimiter wanted */
{
/* --- use uparrow_subraster(width,height,pixsz,drctn,isBig) --- */
int mywidth = width; /* max width for / \ */
int isBig = (strstr(symbol,"Up")!=NULL /* isBig if we have an Up */
|| strstr(symbol,"Down")!=NULL); /* or a Down */
int drctn = +1; /* init for uparrow */
if ( strstr(symbol,"down")!=NULL /* down if we have down */
|| strstr(symbol,"Down")!=NULL ) /* or Down */
{ drctn = (-1); /* reset direction to down */
if ( strstr(symbol,"up")!=NULL /* updown if we have up or Up */
|| strstr(symbol,"Up")!=NULL ) /* and down or Down */
drctn = 0; } /* reset direction to updown */
sp = uparrow_subraster(mywidth,height,pixsz,drctn,isBig);
if ( sp != NULL )
{ sp->type = IMAGERASTER; /* image */
sp->symdef = NULL; /* not applicable for image */
sp->baseline = height/2 + 2; /* is a little above center good? */
sp->size = NORMALSIZE; /* size (probably unneeded) */
isokay = 1; } /* set flag */
} /* --- end-of-if(arrow delimiter wanted) --- */
/* -------------------------------------------------------------------------
\- for | | brackets or \= for || || brackets
-------------------------------------------------------------------------- */
else
if ( (lp=strchr(symbol,'-')) != NULL /* left or right | bracket wanted */
|| (lp2=strchr(symbol,'|')) != NULL /* synonym for | bracket */
|| (rp=strchr(symbol,'=')) != NULL /* left or right || bracket wanted */
|| (rp2=strstr(symbol,"\\|"))!= NULL ) /* || in standard tex notation */
{
/* --- rule_raster ( rasp, top, left, width, height, type=0 ) --- */
int midcol = width/2; /* middle col, left of mid if even */
if ( rp != NULL /* left or right || bracket wanted */
|| rp2 != NULL ) /* or || in standard tex notation */
{ thickness = (height<75?1:2); /* each | of || 1 or 2 pixels thick*/
rule_raster(rasp, 0,max2(0,midcol-2), thickness,height, 0); /* left */
rule_raster(rasp, 0,min2(width,midcol+2), thickness,height, 0); }
else /*nb, lp2 spuriously set if rp2 set*/
if ( lp != NULL /* left or right | bracket wanted */
|| lp2 != NULL ) /* ditto for synomym */
{ thickness = (height<75?1:2); /* set | 1 or 2 pixels thick */
rule_raster(rasp, 0,midcol, thickness,height, 0); } /*mid vertical bar*/
isokay = 1; /* set flag */
} /* --- end-of-if(left- or right-[] bracket wanted) --- */
/* -------------------------------------------------------------------------
back to caller
-------------------------------------------------------------------------- */
end_of_job:
if ( msgfp!=NULL && msglevel>=99 )
fprintf(msgfp,"make_delim> symbol=%.50s, isokay=%d\n",
(symbol==NULL?"null":symbol),isokay);
if ( !isokay ) /* don't have requested delimiter */
{ if (sp!=NULL) delete_subraster(sp); /* so free unneeded structure */
sp = NULL; } /* and signal error to caller */
return ( sp ); /*back to caller with delim or NULL*/
} /* --- end-of-function make_delim() --- */
/* ==========================================================================
* Function: texchar ( expression, chartoken )
* Purpose: scans expression, returning either its first character,
* or the next \sequence if that first char is \,
* and a pointer to the first expression char past that.
* --------------------------------------------------------------------------
* Arguments: expression (I) char * to first char of null-terminated
* string containing valid LaTeX expression
* to be scanned
* chartoken (O) char * to null-terminated string returning
* either the first (non-whitespace) character
* of expression if that char isn't \, or else
* the \ and everything following it up to
* the next non-alphabetic character (but at
* least one char following the \ even if
* it's non-alpha)
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to the first char of expression
* past returned chartoken,
* or NULL for any parsing error.
* --------------------------------------------------------------------------
* Notes: o Does *not* skip leading whitespace, but simply
* returns any whitespace character as the next character.
* ======================================================================= */
/* --- entry point --- */
char *texchar ( char *expression, char *chartoken )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int esclen = 0, /*length of escape sequence*/
maxesclen = 128; /* max len of esc sequence */
char *ptoken = chartoken; /* ptr into chartoken */
int iprefix = 0; /* prefix index */
static char *prefixes[] = /*e.g., \big followed by ( */
{ /* "\\left", "\\right", */
"\\big", "\\Big", "\\bigg", "\\Bigg",
"\\bigl", "\\Bigl", "\\biggl", "\\Biggl",
"\\bigr", "\\Bigr", "\\biggr", "\\Biggr", NULL };
static char *starred[] = /* may be followed by * */
{ "\\hspace", "\\!", NULL };
/* -------------------------------------------------------------------------
just return the next char if it's not \
-------------------------------------------------------------------------- */
/* --- error check for end-of-string --- */
*ptoken = '\000'; /* init in case of error */
if ( expression == NULL ) return(NULL); /* nothing to scan */
if ( *expression == '\000' ) return(NULL); /* nothing to scan */
/* --- always returning first character (either \ or some other char) --- */
*ptoken++ = *expression++; /* here's first character */
/* --- if first char isn't \, then just return it to caller --- */
if ( !isthischar(*(expression-1),ESCAPE) ) /* not a \, so return char */
{ *ptoken = '\000'; /* add a null terminator */
goto end_of_job; } /* ptr past returned char */
if ( *expression == '\000' ) /* \ is very last char */
{ *chartoken = '\000'; /* flush bad trailing \ */
return(NULL); } /* and signal end-of-job */
/* -------------------------------------------------------------------------
we have an escape sequence, so return all alpha chars following \
-------------------------------------------------------------------------- */
/* --- accumulate chars until first non-alpha char found --- */
for ( ; isalpha(*expression); esclen++ ) /* till first non-alpha... */
{ if ( esclen < maxesclen-3 ) /* more room in chartoken */
*ptoken++ = *expression; /*copy alpha char, bump ptr*/
expression++; } /* bump expression ptr */
/* --- if we have a prefix, append next texchar, e.g., \big( --- */
*ptoken = '\000'; /* set null for compare */
for ( iprefix=0; prefixes[iprefix] != NULL; iprefix++ ) /* run thru list */
if ( strcmp(chartoken,prefixes[iprefix]) == 0 ) /* have an exact match */
{ char nextchar[256]; int nextlen=0; /* texchar after prefix */
skipwhite(expression); /* skip space after prefix*/
expression = texchar(expression,nextchar); /* get nextchar */
if ( (nextlen = strlen(nextchar)) > 0 ) /* #chars in nextchar */
{ strcpy(ptoken,nextchar); /* append nextchar */
ptoken += strlen(nextchar); /* point to null terminator*/
esclen += strlen(nextchar); } /* and bump escape length */
break; } /* stop checking prefixes */
/* --- every \ must be followed by at least one char, e.g., \[ --- */
if ( esclen < 1 ) /* \ followed by non-alpha */
*ptoken++ = *expression++; /*copy non-alpha, bump ptrs*/
*ptoken = '\000'; /* null-terminate token */
/* --- check for \hspace* or other starred commands --- */
for ( iprefix=0; starred[iprefix] != NULL; iprefix++ ) /* run thru list */
if ( strcmp(chartoken,starred[iprefix]) == 0 ) /* have an exact match */
if ( *expression == '*' ) /* follows by a * */
{ *ptoken++ = *expression++; /* copy * and bump ptr */
*ptoken = '\000'; /* null-terminate token */
break; } /* stop checking */
/* --- respect spaces in text mode, except first space after \escape --- */
if ( esclen >= 1 ) { /*only for alpha \sequences*/
if ( istextmode ) /* in \rm or \it text mode */
if ( isthischar(*expression,WHITEDELIM) ) /* delim follows \sequence */
expression++; } /* so flush delim */
/* --- back to caller --- */
end_of_job:
if ( msgfp!=NULL && msglevel>=999 )
{ fprintf(msgfp,"texchar> returning token = \"%s\"\n",chartoken);
fflush(msgfp); }
return ( expression ); /*ptr to 1st non-alpha char*/
} /* --- end-of-function texchar() --- */
/* ==========================================================================
* Function: texsubexpr (expression,subexpr,maxsubsz,
* left,right,isescape,isdelim)
* Purpose: scans expression, returning everything between a balanced
* left{...right} subexpression if the first non-whitespace
* char of expression is an (escaped or unescaped) left{,
* or just the next texchar() otherwise,
* and a pointer to the first expression char past that.
* --------------------------------------------------------------------------
* Arguments: expression (I) char * to first char of null-terminated
* string containing valid LaTeX expression
* to be scanned
* subexpr (O) char * to null-terminated string returning
* either everything between a balanced {...}
* subexpression if the first char is {,
* or the next texchar() otherwise.
* maxsubsz (I) int containing max #bytes returned
* in subexpr buffer (0 means unlimited)
* left (I) char * specifying allowable left delimiters
* that begin subexpression, e.g., "{[(<"
* right (I) char * specifying matching right delimiters
* in the same order as left, e.g., "}])>"
* isescape (I) int controlling whether escaped and/or
* unescaped left,right are matched;
* see isbrace() comments below for details.
* isdelim (I) int containing true (non-zero) to return
* the leading left and trailing right delims
* (if any were found) along with subexpr,
* or containing false=0 to return subexpr
* without its delimiters
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to the first char of expression
* past returned subexpr (see Notes),
* or NULL for any parsing error.
* --------------------------------------------------------------------------
* Notes: o If subexpr is of the form left{...right},
* the outer {}'s are returned as part of subexpr
* if isdelim is true; if isdelim is false the {}'s aren't
* returned. In either case the returned pointer is
* *always* bumped past the closing right}, even if
* that closing right} isn't returned in subexpr.
* o If subexpr is not of the form left{...right},
* the returned pointer is on the character immediately
* following the last character returned in subexpr
* o \. acts as LaTeX \right. and matches any \left(
* And it also acts as a LaTeX \left. and matches any \right)
* ======================================================================= */
/* --- entry point --- */
char *texsubexpr ( char *expression, char *subexpr, int maxsubsz,
char *left, char *right, int isescape, int isdelim )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texchar(); /*next char (or \sequence) from expression*/
char *leftptr, leftdelim[256] = "(\000", /* left( found in expression */
rightdelim[256] = ")\000"; /* and matching right) */
char *origexpression=expression, *origsubexpr=subexpr; /*original inputs*/
char *strtexchr(), *texleft(); /* check for \left, and get it */
int gotescape = 0, /* true if leading char of expression is \ */
prevescape = 0; /* while parsing, true if preceding char \ */
int isbrace(); /* check for left,right braces */
int isanyright = 1; /* true matches any right with left, (...] */
int isleftdot = 0; /* true if left brace is a \. */
int nestlevel = 1; /* current # of nested braces */
int subsz=0 /*,maxsubsz=MAXSUBXSZ*/; /*#chars in returned subexpr buffer*/
/* -------------------------------------------------------------------------
skip leading whitespace and just return the next char if it's not {
-------------------------------------------------------------------------- */
/* --- skip leading whitespace and error check for end-of-string --- */
*subexpr = '\000'; /* init in case of error */
if ( expression == NULL ) return(NULL); /*can't dereference null ptr*/
skipwhite(expression); /* leading whitespace gone */
if ( *expression == '\000' ) return(NULL); /* nothing left to scan */
/* --- set maxsubsz --- */
if ( maxsubsz < 1 ) maxsubsz = MAXSUBXSZ-2; /* input 0 means unlimited */
/* --- check for escape --- */
if ( isthischar(*expression,ESCAPE) ) /* expression is escaped */
gotescape = 1; /* so set flag accordingly */
/* --- check for \left...\right --- */
if ( gotescape ) /* begins with \ */
if ( memcmp(expression+1,"left",4) ) /* and followed by left */
if ( strchr(left,'l') != NULL ) /* caller wants \left's */
if ( strtexchr(expression,"\\left") == expression ) /*expression=\left...*/
{ char *pright = texleft(expression,subexpr,maxsubsz, /* find ...\right*/
(isdelim?NULL:leftdelim),rightdelim);
if ( isdelim ) strcat(subexpr,rightdelim); /* caller wants delims */
return ( pright ); /*back to caller past \right*/
} /* --- end-of-if(expression=="\\left") --- */
/* --- if first char isn't left{ or script, just return it to caller --- */
if ( !isbrace(expression,left,isescape) ) { /* not a left{ */
if ( !isthischar(*expression,SCRIPTS) ) /* and not a script */
return ( texchar(expression,subexpr) ); /* next char to caller */
else /* --- kludge for super/subscripts to accommodate texscripts() --- */
{ *subexpr++ = *expression; /* signal script */
*subexpr = '\000'; /* null-terminate subexpr */
return ( expression ); } } /* leave script in stream */
/* --- extract left and find matching right delimiter --- */
*leftdelim = *(expression+gotescape); /* the left( in expression */
if ( (gotescape && *leftdelim == '.') /* we have a left \. */
|| (gotescape && isanyright) ) /*or are matching any right*/
{ isleftdot = 1; /* so just set flag */
*leftdelim = '\000'; } /* and reset leftdelim */
else /* find matching \right */
if ( (leftptr=strchr(left,*leftdelim)) != NULL ) /* ptr to that left( */
*rightdelim = right[(int)(leftptr-left)]; /* get the matching right) */
else /* can't happen -- pgm bug */
return ( NULL ); /*just signal eoj to caller*/
/* -------------------------------------------------------------------------
accumulate chars between balanced {}'s, i.e., till nestlevel returns to 0
-------------------------------------------------------------------------- */
/* --- first initialize by bumping past left{ or \{ --- */
if ( isdelim ) *subexpr++ = *expression++; /*caller wants { in subexpr*/
else expression++; /* always bump past left{ */
if ( gotescape ) { /*need to bump another char*/
if ( isdelim ) *subexpr++ = *expression++; /* caller wants char, too */
else expression++; } /* else just bump past it */
/* --- set maximum size for numerical arguments --- */
if ( 0 ) /* check turned on or off? */
if ( !isescape && !isdelim ) /*looking for numerical arg*/
maxsubsz = 96; /* set max arg size */
/* --- search for matching right} --- */
while ( 1 ) /*until balanced right} */
{
/* --- error check for end-of-string --- */
if ( *expression == '\000' ) /* premature end-of-string */
{ if ( 0 && (!isescape && !isdelim) ) /*looking for numerical arg,*/
{ expression = origexpression; /* so end-of-string is error*/
subexpr = origsubexpr; } /* so reset all ptrs */
if ( isdelim ) { /* generate fake right */
if ( gotescape ) /* need escaped right */
{ *subexpr++ = '\\'; /* set escape char */
*subexpr++ = '.'; } /* and fake \right. */
else /* escape not wanted */
*subexpr++ = *rightdelim; } /* so fake actual right */
*subexpr = '\000'; /* null-terminate subexpr */
return ( expression ); } /* back with final token */
/* --- check preceding char for escape --- */
if ( isthischar(*(expression-1),ESCAPE) ) /* previous char was \ */
prevescape = 1-prevescape; /* so flip escape flag */
else prevescape = 0; /* or turn flag off */
/* --- check for { and } (un/escaped as per leading left) --- */
if ( gotescape == prevescape ) /* escaped iff leading is */
{ /* --- check for (closing) right delim and see if we're done --- */
if ( isthischar(*expression,rightdelim) /* found a right} */
|| (isleftdot && isthischar(*expression,right)) /*\left. matches all*/
|| (prevescape && isthischar(*expression,".")) ) /*or found \right. */
if ( --nestlevel < 1 ) /*\right balances 1st \left*/
{ if ( isdelim ) /*caller wants } in subexpr*/
*subexpr++ = *expression; /* so end subexpr with } */
else /*check for \ before right}*/
if ( prevescape ) /* have unwanted \ */
*(subexpr-1) = '\000'; /* so replace it with null */
*subexpr = '\000'; /* null-terminate subexpr */
return ( expression+1 ); } /* back with char after } */
/* --- check for (another) left{ --- */
if ( isthischar(*expression,leftdelim) /* found another left{ */
|| (isleftdot && isthischar(*expression,left)) ) /* any left{ */
nestlevel++;
} /* --- end-of-if(gotescape==prevescape) --- */
/* --- not done, so copy char to subexpr and continue with next char --- */
if ( ++subsz < maxsubsz-5 ) /* more room in subexpr */
*subexpr++ = *expression; /* so copy char and bump ptr*/
expression++; /* bump expression ptr */
} /* --- end-of-while(1) --- */
} /* --- end-of-function texsubexpr() --- */
/* ==========================================================================
* Function: texleft (expression,subexpr,maxsubsz,ldelim,rdelim)
* Purpose: scans expression, starting after opening \left,
* and returning ptr after matching closing \right.
* Everything between is returned in subexpr, if given.
* Likewise, if given, ldelim returns delimiter after \left
* and rdelim returns delimiter after \right.
* If ldelim is given, the returned subexpr doesn't include it.
* If rdelim is given, the returned pointer is after that delim.
* --------------------------------------------------------------------------
* Arguments: expression (I) char * to first char of null-terminated
* string immediately following opening \left
* subexpr (O) char * to null-terminated string returning
* either everything between balanced
* \left ... \right. If leftdelim given,
* subexpr does _not_ contain that delimiter.
* maxsubsz (I) int containing max #bytes returned
* in subexpr buffer (0 means unlimited)
* ldelim (O) char * returning delimiter following
* opening \left
* rdelim (O) char * returning delimiter following
* closing \right
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to the first char of expression
* past closing \right, or past closing
* right delimiter if rdelim!=NULL,
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
char *texleft ( char *expression, char *subexpr, int maxsubsz,
char *ldelim, char *rdelim )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texchar(), /* get delims after \left,\right */
*strtexchr(), *pright=expression; /* locate matching \right */
static char left[16]="\\left", right[16]="\\right"; /* tex delimiters */
int sublen = 0; /* #chars between \left...\right */
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- init output --- */
if ( subexpr != NULL ) *subexpr = '\000'; /* init subexpr, if given */
if ( ldelim != NULL ) *ldelim = '\000'; /* init ldelim, if given */
if ( rdelim != NULL ) *rdelim = '\000'; /* init rdelim, if given */
/* --- check args --- */
if ( expression == NULL ) goto end_of_job; /* no input supplied */
if ( *expression == '\000' ) goto end_of_job; /* nothing after \left */
/* --- determine left delimiter --- */
if ( ldelim != NULL ) /* caller wants left delim */
{ skipwhite(expression); /* interpret \left ( as \left( */
expression = texchar(expression,ldelim); } /*delim from expression*/
/* -------------------------------------------------------------------------
locate \right balancing opening \left
-------------------------------------------------------------------------- */
/* --- first \right following \left --- */
if ( (pright=strtexchr(expression,right)) /* look for \right after \left */
!= NULL ) { /* found it */
/* --- find matching \right by pushing past any nested \left's --- */
char *pleft = expression; /* start after first \left( */
while ( 1 ) { /*break when matching \right found*/
/* -- locate next nested \left if there is one --- */
if ( (pleft=strtexchr(pleft,left)) /* find next \left */
== NULL ) break; /*no more, so matching \right found*/
pleft += strlen(left); /* push ptr past \left token */
if ( pleft >= pright ) break; /* not nested if \left after \right*/
/* --- have nested \left, so push forward to next \right --- */
if ( (pright=strtexchr(pright+strlen(right),right)) /* find next \right */
== NULL ) break; /* ran out of \right's */
} /* --- end-of-while(1) --- */
} /* --- end-of-if(pright!=NULL) --- */
/* --- set subexpression length, push pright past \right --- */
if ( pright != (char *)NULL ) /* found matching \right */
{ sublen = (int)(pright-expression); /* #chars between \left...\right */
pright += strlen(right); } /* so push pright past \right */
/* -------------------------------------------------------------------------
get rightdelim and subexpr between \left...\right
-------------------------------------------------------------------------- */
/* --- get delimiter following \right --- */
if ( rdelim != NULL ) { /* caller wants right delim */
if ( pright == (char *)NULL ) /* assume \right. at end of exprssn*/
{ strcpy(rdelim,"."); /* set default \right. */
sublen = strlen(expression); /* use entire remaining expression */
pright = expression + sublen; } /* and push pright to end-of-string*/
else /* have explicit matching \right */
{ skipwhite(pright); /* interpret \right ) as \right) */
pright = texchar(pright,rdelim); /* pull delim from expression */
if ( *rdelim == '\000' ) strcpy(rdelim,"."); } } /* or set \right. */
/* --- get subexpression between \left...\right --- */
if ( sublen > 0 ) /* have subexpr */
if ( subexpr != NULL ) { /* and caller wants it */
if ( maxsubsz > 0 ) sublen = min2(sublen,maxsubsz-1); /* max buffer size */
memcpy(subexpr,expression,sublen); /* stuff between \left...\right */
subexpr[sublen] = '\000'; } /* null-terminate subexpr */
end_of_job:
if ( msglevel>=99 && msgfp!=NULL )
{ fprintf(msgfp,"texleft> ldelim=%s, rdelim=%s, subexpr=%.128s\n",
(ldelim==NULL?"none":ldelim),(rdelim==NULL?"none":rdelim),
(subexpr==NULL?"none":subexpr)); fflush(msgfp); }
return ( pright );
} /* --- end-of-function texleft --- */
/* ==========================================================================
* Function: texscripts ( expression, subscript, superscript, which )
* Purpose: scans expression, returning subscript and/or superscript
* if expression is of the form _x^y or ^{x}_{y},
* or any (valid LaTeX) permutation of the above,
* and a pointer to the first expression char past "scripts"
* --------------------------------------------------------------------------
* Arguments: expression (I) char * to first char of null-terminated
* string containing valid LaTeX expression
* to be scanned
* subscript (O) char * to null-terminated string returning
* subscript (without _), if found, or "\000"
* superscript (O) char * to null-terminated string returning
* superscript (without ^), if found, or "\000"
* which (I) int containing 1 for subscript only,
* 2 for superscript only, >=3 for either/both
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to the first char of expression
* past returned "scripts" (unchanged
* except for skipped whitespace if
* neither subscript nor superscript found),
* or NULL for any parsing error.
* --------------------------------------------------------------------------
* Notes: o an input expression like ^a^b_c will return superscript="b",
* i.e., totally ignoring all but the last "script" encountered
* ======================================================================= */
/* --- entry point --- */
char *texscripts ( char *expression, char *subscript,
char *superscript, int which )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(); /* next subexpression from expression */
int gotsub=0, gotsup=0; /* check that we don't eat, e.g., x_1_2 */
/* -------------------------------------------------------------------------
init "scripts"
-------------------------------------------------------------------------- */
if ( subscript != NULL ) *subscript = '\000'; /*init in case no subscript*/
if ( superscript!=NULL ) *superscript = '\000'; /*init in case no super*/
/* -------------------------------------------------------------------------
get subscript and/or superscript from expression
-------------------------------------------------------------------------- */
while ( expression != NULL ) {
skipwhite(expression); /* leading whitespace gone */
if ( *expression == '\000' ) return(expression); /* nothing left to scan */
if ( isthischar(*expression,SUBSCRIPT) /* found _ */
&& (which==1 || which>2 ) ) /* and caller wants it */
{ if ( gotsub /* found 2nd subscript */
|| subscript == NULL ) break; /* or no subscript buffer */
gotsub = 1; /* set subscript flag */
expression = texsubexpr(expression+1,subscript,0,"{","}",0,0); }
else /* no _, check for ^ */
if ( isthischar(*expression,SUPERSCRIPT) /* found ^ */
&& which>=2 ) /* and caller wants it */
{ if ( gotsup /* found 2nd superscript */
|| superscript == NULL ) break; /* or no superscript buffer*/
gotsup = 1; /* set superscript flag */
expression = texsubexpr(expression+1,superscript,0,"{","}",0,0); }
else /* neither _ nor ^ */
return ( expression ); /*return ptr past "scripts"*/
} /* --- end-of-while(expression!=NULL) --- */
return ( expression );
} /* --- end-of-function texscripts() --- */
/* ==========================================================================
* Function: isbrace ( expression, braces, isescape )
* Purpose: checks leading char(s) of expression for a brace,
* either escaped or unescaped depending on isescape,
* except that { and } are always matched, if they're
* in braces, regardless of isescape.
* --------------------------------------------------------------------------
* Arguments: expression (I) char * to first char of null-terminated
* string containing a valid LaTeX expression
* whose leading char(s) are checked for braces
* that begin subexpression, e.g., "{[(<"
* braces (I) char * specifying matching brace delimiters
* to be checked for, e.g., "{[(<" or "}])>"
* isescape (I) int containing 0 to match only unescaped
* braces, e.g., (...) or {...}, etc,
* or containing 1 to match only escaped
* braces, e.g., \(...\) or \[...\], etc,
* or containing 2 to match either.
* But note: if {,} are in braces
* then they're *always* matched whether
* escaped or not, regardless of isescape.
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if the leading char(s) of expression
* is a brace, or 0 if not.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int isbrace ( char *expression, char *braces, int isescape )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int gotescape = 0, /* true if leading char is an escape */
gotbrace = 0; /*true if first non-escape char is a brace*/
/* -------------------------------------------------------------------------
check for brace
-------------------------------------------------------------------------- */
/* --- first check for end-of-string or \= ligature --- */
if ( *expression == '\000' /* nothing to check */
|| isligature ) goto end_of_job; /* have a \= ligature */
/* --- check leading char for escape --- */
if ( isthischar(*expression,ESCAPE) ) /* expression is escaped */
{ gotescape = 1; /* so set flag accordingly */
expression++; } /* and bump past escape */
/* --- check (maybe next char) for brace --- */
if ( isthischar(*expression,braces) ) /* expression is braced */
gotbrace = 1; /* so set flag accordingly */
if ( gotescape && *expression == '.' ) /* \. matches any brace */
gotbrace = 1; /* set flag */
/* --- check for TeX brace { or } --- */
if ( gotbrace && isthischar(*expression,"{}") ) /*expression has TeX brace*/
if ( isescape ) isescape = 2; /* reset escape flag */
/* -------------------------------------------------------------------------
back to caller
-------------------------------------------------------------------------- */
end_of_job:
if ( msglevel>=999 && msgfp!=NULL )
{ fprintf(msgfp,"isbrace> expression=%.8s, gotbrace=%d (isligature=%d)\n",
expression,gotbrace,isligature); fflush(msgfp); }
if ( gotbrace && /* found a brace */
( isescape==2 || /* escape irrelevant */
gotescape==isescape ) /* un/escaped as requested */
) return ( 1 ); return ( 0 ); /* return 1,0 accordingly */
} /* --- end-of-function isbrace() --- */
/* ==========================================================================
* Function: preamble ( expression, size, subexpr )
* Purpose: parses $-terminated preamble, if present, at beginning
* of expression, re-setting size if necessary, and
* returning any other parameters besides size in subexpr.
* --------------------------------------------------------------------------
* Arguments: expression (I) char * to first char of null-terminated
* string containing LaTeX expression possibly
* preceded by $-terminated preamble
* size (I/O) int * containing 0-4 default font size,
* and returning size modified by first
* preamble parameter (or unchanged)
* subexpr(O) char * returning any remaining preamble
* parameters past size
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to first char past preamble in expression
* or NULL for any parsing error.
* --------------------------------------------------------------------------
* Notes: o size can be any number >=0. If preceded by + or -, it's
* interpreted as an increment to input size; otherwise
* it's interpreted as the size.
* o if subexpr is passed as NULL ptr, then returned expression
* ptr will have "flushed" and preamble parameters after size
* ======================================================================= */
/* --- entry point --- */
char *preamble ( char *expression, int *size, char *subexpr )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char pretext[512], *prep=expression, /*pream from expression, ptr into it*/
*dollar, *comma; /* preamble delimiters */
int prelen = 0, /* preamble length */
sizevalue = 0, /* value of size parameter */
isfontsize = 0, /*true if leading fontsize present*/
isdelta = 0; /*true to increment passed size arg*/
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
if ( subexpr != NULL ) /* caller passed us an address */
*subexpr = '\000'; /* so init assuming no preamble */
if ( expression == NULL ) goto end_of_job; /* no input */
if ( *expression == '\000' ) goto end_of_job; /* input is an empty string */
/* -------------------------------------------------------------------------
process preamble if present
-------------------------------------------------------------------------- */
/*process_preamble:*/
if ( (dollar=strchr(expression,'$')) /* $ signals preceding preamble */
!= NULL ) { /* found embedded $ */
if ( (prelen = (int)(dollar-expression)) /*#chars in expression preceding $*/
> 0 ) { /* must have preamble preceding $ */
if ( prelen < 65 ) { /* too long for a prefix */
memcpy(pretext,expression,prelen); /* local copy of preamble */
pretext[prelen] = '\000'; /* null-terminated */
if ( strchr(pretext,*(ESCAPE))==NULL /*shouldn't be an escape in preamble*/
&& strchr(pretext,'{') == NULL ) { /*shouldn't be a left{ in preamble*/
/* --- skip any leading whitespace --- */
prep = pretext; /* start at beginning of preamble */
skipwhite(prep); /* skip any leading white space */
/* --- check for embedded , or leading +/- (either signalling size) --- */
if ( isthischar(*prep,"+-") ) /* have leading + or - */
isdelta = 1; /* so use size value as increment */
comma = strchr(pretext,','); /* , signals leading size param */
/* --- process leading size parameter if present --- */
if ( comma != NULL /* size param explicitly signalled */
|| isdelta || isdigit(*prep) ) { /* or inferred implicitly */
/* --- parse size parameter and reset size accordingly --- */
if( comma != NULL ) *comma = '\000';/*, becomes null, terminating size*/
sizevalue = atoi(prep); /* convert size string to integer */
if ( size != NULL ) /* caller passed address for size */
*size = (isdelta? *size+sizevalue : sizevalue); /* so reset size */
/* --- finally, set flag and shift size parameter out of preamble --- */
isfontsize = 1; /*set flag showing font size present*/
if ( comma != NULL ) /*2/15/12-isn't this superfluous???*/
{strsqueezep(pretext,comma+1);} /* squeeze out leading size param */
} /* --- end-of-if(comma!=NULL||etc) --- */
/* --- copy any preamble params following size to caller's subexpr --- */
if ( comma != NULL || !isfontsize ) /*preamb contains params past size*/
if ( subexpr != NULL ) /* caller passed us an address */
strcpy(subexpr,pretext); /*so return extra params to caller*/
/* --- finally, set prep to shift preamble out of expression --- */
prep = expression + prelen+1; /* set prep past $ in expression */
} /* --- end-of-if(strchr(pretext,*ESCAPE)==NULL) --- */
} /* --- end-of-if(prelen<65) --- */
} /* --- end-of-if(prelen>0) --- */
else { /* $ is first char of expression */
int ndollars = 0; /* number of $...$ pairs removed */
prep = expression; /* start at beginning of expression*/
while ( *prep == '$' ) { /* remove all matching $...$'s */
int explen = strlen(prep)-1; /* index of last char in expression*/
if ( explen < 2 ) break; /* no $...$'s left to remove */
if ( prep[explen] != '$' ) break; /* unmatched $ */
prep[explen] = '\000'; /* remove trailing $ */
prep++; /* and remove matching leading $ */
ndollars++; /* count another pair removed */
} /* --- end-of-while(*prep=='$') --- */
ispreambledollars = ndollars; /* set flag to fix \displaystyle */
if ( ndollars == 1 ) /* user submitted $...$ expression */
isdisplaystyle = 0; /* so set \textstyle */
if ( ndollars > 1 ) /* user submitted $$...$$ */
isdisplaystyle = 2; /* so set \displaystyle */
/*goto process_preamble;*/ /*check for preamble after leading $*/
} /* --- end-of-if/else(prelen>0) --- */
} /* --- end-of-if(dollar!=NULL) --- */
/* -------------------------------------------------------------------------
back to caller
-------------------------------------------------------------------------- */
end_of_job:
return ( prep ); /*expression, or ptr past preamble*/
} /* --- end-of-function preamble() --- */
/* ==========================================================================
* Function: mimeprep ( expression )
* Purpose: preprocessor for mimeTeX input, e.g.,
* (a) removes comments,
* (b) converts \left( to \( and \right) to \),
* (c) xlates &html; special chars to equivalent latex
* Should only be called once (after unescape_url())
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char * to first char of null-terminated
* string containing mimeTeX/LaTeX expression,
* and returning preprocessed string
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to input expression,
* or NULL for any parsing error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
char *mimeprep ( char *expression )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *expptr=expression, /* ptr within expression */
*tokptr=NULL, /*ptr to token found in expression*/
*texsubexpr(), argval[8192]; /*parse for macro args after token*/
char *strchange(); /* change leading chars of string */
int strreplace(); /* replace nnn with actual num, etc*/
char *strwstr(); /*use strwstr() instead of strstr()*/
char *findbraces(); /*find left { and right } for \atop*/
int idelim=0, /* left- or right-index */
isymbol=0; /*symbols[],rightcomment[],etc index*/
int xlateleft = 0; /* true to xlate \left and \right */
/* ---
* comments
* -------- */
char *leftptr=NULL; /* find leftcomment in expression */
static char *leftcomment = "%%", /* open comment */
*rightcomment[] = {"\n", "%%", NULL}; /* close comments */
/* ---
* special long (more than 1-char) \left and \right delimiters
* ----------------------------------------------------------- */
static char *leftfrom[] = /* xlate any \left suffix... */
{ "\\|", /* \left\| */
"\\{", /* \left\{ */
"\\langle", /* \left\langle */
NULL } ; /* --- end-of-leftfrom[] --- */
static char *leftto[] = /* ...to this instead */
{ "=", /* = */
"{", /* { */
"<", /* < */
NULL } ; /* --- end-of-leftto[] --- */
static char *rightfrom[] = /* xlate any \right suffix... */
{ "\\|", /* \right\| */
"\\}", /* \right\} */
"\\rangle", /* \right\rangle */
NULL } ; /* --- end-of-rightfrom[] --- */
static char *rightto[] = /* ...to this instead */
{ "=", /* = */
"}", /* } */
">", /* > */
NULL } ; /* --- end-of-rightto[] --- */
/* ---
* { \atop }-like commands
* ----------------------- */
char *atopsym=NULL; /* atopcommands[isymbol] */
static char *atopcommands[] = /* list of {a+b\command c+d}'s */
{ "\\over", /* plain tex for \frac */
"\\choose", /* binomial coefficient */
#ifndef NOATOP /*noatop preserves old mimeTeX rule*/
"\\atop",
#endif
NULL } ; /* --- end-of-atopcommands[] --- */
static char *atopdelims[] = /* delims for atopcommands[] */
{ NULL, NULL, /* \\over has no delims */
"\\left(", "\\right)", /* \\choose has ( ) delims*/
#ifndef NOATOP /*noatop preserves old mimeTeX rule*/
NULL, NULL, /* \\atop has no delims */
#endif
NULL, NULL } ; /* --- end-of-atopdelims[] --- */
/* ---
* html special/escape chars converted to latex equivalents
* -------------------------------------------------------- */
char *htmlsym=NULL; /* symbols[isymbol].html */
static struct { char *html; char *args; char *latex; } symbols[] =
{ /* --------------------------------------------
user-supplied newcommands
-------------------------------------------- */
#ifdef NEWCOMMANDS /* -DNEWCOMMANDS=\"filename.h\" */
#include NEWCOMMANDS
#endif
/* --------------------------------------------
Specials termchar value...
-------------------------------------------- */
{ "\\version", NULL, "{\\small\\red\\text \\fbox{\\begin{gather}"
"mime\\TeX version \\versionnumber \\\\"
"last revised \\revisiondate \\\\ \\copyrighttext \\\\"
"see \\homepagetext for details \\end{gather}}}" },
{ "\\copyright", NULL,
"{\\small\\red\\text \\fbox{\\begin{gather}"
"mimeTeX \\copyrighttext \\\\"
"see \\homepagetext for details \\end{gather}}}" },
{ "\\versionnumber", NULL, "{\\text " VERSION "}" },
{ "\\revisiondate", NULL, "{\\text " REVISIONDATE "}" },
{ "\\copyrighttext", NULL, "{\\text " COPYRIGHTTEXT ".}" },
{ "\\homepagetext", NULL,
"{\\text http://www.forkosh.com/mimetex.html}" },
/* --------------------------------------------
Cyrillic termchar mimeTeX equivalent...
-------------------------------------------- */
{ "\\\'G", "embed\\","{\\acute{G}}" },
{ "\\\'g", "embed\\","{\\acute{g}}" },
{ "\\\'K", "embed\\","{\\acute{K}}" },
{ "\\\'k", "embed\\","{\\acute{k}}" },
{ "\\u U", "embed\\","{\\breve{U}}" },
{ "\\u u", "embed\\","{\\breve{u}}" },
/*{ "\\\"E", "embed\\","{\\ddot{E}}" },*/
/*{ "\\\"e", "embed\\","{\\ddot{e}}" },*/
{ "\\\"I", "embed\\","{\\ddot{\\=I}}" },
{ "\\\"\\i", "embed\\","{\\ddot{\\=\\i}}" },
/* --------------------------------------------
LaTeX Macro #args,default template...
-------------------------------------------- */
{ "\\lvec", "2n", "{#2_1,\\cdots,#2_{#1}}" },
{ "\\grave", "1", "{\\stackrel{\\Huge\\gravesym}{#1}}" }, /* \grave */
{ "\\acute", "1", "{\\stackrel{\\Huge\\acutesym}{#1}}" }, /* \acute */
{ "\\check", "1", "{\\stackrel{\\Huge\\checksym}{#1}}" }, /* \check */
{ "\\breve", "1", "{\\stackrel{\\Huge\\brevesym}{#1}}" }, /* \breve */
{ "\\buildrel","3", "{\\stackrel{#1}{#3}}" }, /* ignore #2 = \over */
{ "\\overset", NULL, "\\stackrel" }, /* just an alias */
{ "\\underset", "2", "\\relstack{#2}{#1}" }, /* reverse args */
{ "\\dfrac", "2", "{\\frac{#1}{#2}}" },
{ "\\binom", "2", "{\\begin{pmatrix}{#1}\\\\{#2}\\end{pmatrix}}" },
{ "\\aangle","26", "{\\boxaccent{#1}{#2}}" },
{ "\\actuarial","2 ","{#1\\boxaccent{6}{#2}}" }, /*comprehensive sym list*/
{ "\\boxaccent","2", "{\\fbox[,#1]{#2}}" },
/* --------------------------------------------
html char termchar LaTeX equivalent...
-------------------------------------------- */
{ """, ";", "\"" }, /* " is first, " */
{ "&", ";", "&" },
{ "<", ";", "<" },
{ ">", ";", ">" },
/*{ "\", ";", "\\" },*/ /* backslash */
{ "&backslash",";", "\\" },
{ " ", ";", "~" },
{ "¡", ";", "{\\raisebox{-2}{\\rotatebox{180}{!}}}" },
{ "¦", ";", "|" },
{ "±", ";", "\\pm" },
{ "²", ";", "{{}^2}" },
{ "³", ";", "{{}^3}" },
{ "µ", ";", "\\mu" },
{ "¹", ";", "{{}^1}" },
{ "¼", ";", "{\\frac14}" },
{ "½", ";", "{\\frac12}" },
{ "¾", ";", "{\\frac34}" },
{ "¿", ";", "{\\raisebox{-2}{\\rotatebox{180}{?}}}" },
{ "Â", ";", "{\\rm~\\hat~A}" },
{ "Ã", ";", "{\\rm~\\tilde~A}" },
{ "Ä", ";", "{\\rm~\\ddot~A}" },
{ "Å", ";", "{\\rm~A\\limits^{-1$o}}" },
{ "ã", ";", "{\\rm~\\tilde~a}" },
{ "ÿ", ";", "{\\rm~\\ddot~y}" }, /* ÿ is last, ÿ */
{ "", ";", "{[\\&\\#nnn?]}" }, /* all other explicit nnn's */
/* --------------------------------------------
html tag termchar LaTeX equivalent...
-------------------------------------------- */
{ "< br >", "embed\\i", "\\\\" },
{ "< br / >", "embed\\i", "\\\\" },
{ "< dd >", "embed\\i", " \000" },
{ "< / dd >", "embed\\i", " \000" },
{ "< dl >", "embed\\i", " \000" },
{ "< / dl >", "embed\\i", " \000" },
{ "< p >", "embed\\i", " \000" },
{ "< / p >", "embed\\i", " \000" },
/* --------------------------------------------
garbage termchar LaTeX equivalent...
-------------------------------------------- */
{ "< tex >", "embed\\i", " \000" },
{ "< / tex >", "embed\\i", " \000" },
/* --------------------------------------------
LaTeX termchar mimeTeX equivalent...
-------------------------------------------- */
{ "\\AA", NULL, "{\\rm~A\\limits^{-1$o}}" },
{ "\\aa", NULL, "{\\rm~a\\limits^{-1$o}}" },
{ "\\bmod", NULL, "{\\hspace2{\\rm~mod}\\hspace2}" },
{ "\\vdots", NULL, "{\\raisebox3{\\rotatebox{90}{\\ldots}}}" },
{ "\\dots", NULL, "{\\cdots}" },
{ "\\cdots", NULL, "{\\raisebox3{\\ldots}}" },
{ "\\ldots", NULL, "{\\fs4.\\hspace1.\\hspace1.}" },
{ "\\ddots", NULL, "{\\fs4\\raisebox8.\\hspace1\\raisebox4."
"\\hspace1\\raisebox0.}"},
{ "\\notin", NULL, "{\\not\\in}" },
{ "\\neq", NULL, "{\\not=}" },
{ "\\ne", NULL, "{\\not=}" },
{ "\\mapsto", NULL, "{\\rule[fs/2]{1}{5+fs}\\hspace{-99}\\to}" },
{ "\\hbar", NULL, "{\\compose~h{{\\fs{-1}-\\atop\\vspace3}}}" },
{ "\\angle", NULL, "{\\compose{\\hspace{3}\\lt}{\\circle(10,15;-80,80)}}"},
{ "\\textcelsius", NULL, "{\\textdegree C}"},
{ "\\textdegree", NULL, "{\\Large^{^{\\tiny\\mathbf o}}}"},
{ "\\cr", NULL, "\\\\" },
/*{ "\\colon", NULL, "{:}" },*/
{ "\\iiint", NULL, "{\\int\\int\\int}\\limits" },
{ "\\iint", NULL, "{\\int\\int}\\limits" },
{ "\\Bigiint", NULL, "{\\Bigint\\Bigint}\\limits" },
{ "\\bigsqcap",NULL, "{\\fs{+4}\\sqcap}" },
{ "\\_", "embed","{\\underline{\\ }}" }, /* displayed underscore */
{ "!`", NULL, "{\\raisebox{-2}{\\rotatebox{180}{!}}}" },
{ "?`", NULL, "{\\raisebox{-2}{\\rotatebox{180}{?}}}" },
{ "^\'", "embed","\'" }, /* avoid ^^ when re-xlating \' below */
{ "\'\'\'\'","embed","^{\\fs{-1}\\prime\\prime\\prime\\prime}" },
{ "\'\'\'", "embed","^{\\fs{-1}\\prime\\prime\\prime}" },
{ "\'\'", "embed","^{\\fs{-1}\\prime\\prime}" },
{ "\'", "embed","^{\\fs{-1}\\prime}" },
{ "\\rightleftharpoons",NULL,"{\\rightharpoonup\\atop\\leftharpoondown}" },
{ "\\therefore",NULL,"{\\Huge\\raisebox{-4}{.\\atop.\\,.}}" },
{ "\\LaTeX", NULL, "{\\rm~L\\raisebox{3}{\\fs{-1}A}\\TeX}" },
{ "\\TeX", NULL, "{\\rm~T\\raisebox{-3}{E}X}" },
{ "\\cyan", NULL, "{\\reverse\\red\\reversebg}" },
{ "\\magenta",NULL, "{\\reverse\\green\\reversebg}" },
{ "\\yellow",NULL, "{\\reverse\\blue\\reversebg}" },
{ "\\cancel",NULL, "\\Not" },
{ "\\hhline",NULL, "\\Hline" },
{ "\\Hline", NULL, "\\hline\\,\\\\\\hline" },
/* -----------------------------------------------------------------------
As per emails with Zbigniew Fiedorowicz
"Algebra Syntax" termchar mimeTeX/LaTeX equivalent...
----------------------------------------------------------------------- */
{ "sqrt", "1", "{\\sqrt{#1}}" },
{ "sin", "1", "{\\sin{#1}}" },
{ "cos", "1", "{\\cos{#1}}" },
{ "asin", "1", "{\\sin^{-1}{#1}}" },
{ "acos", "1", "{\\cos^{-1}{#1}}" },
{ "exp", "1", "{{\\rm~e}^{#1}}" },
{ "det", "1", "{\\left|{#1}\\right|}" },
/* --------------------------------------------
LaTeX Constant termchar value...
-------------------------------------------- */
{ "\\thinspace", NULL, "\\," },
{ "\\thinmathspace", NULL, "\\," },
{ "\\textwidth", NULL, "400" },
/* --- end-of-table indicator --- */
{ NULL, NULL, NULL }
} ; /* --- end-of-symbols[] --- */
/* ---
* html nn chars converted to latex equivalents
* ---------------------------------------------- */
int htmlnum=0; /* numbers[inum].html */
static struct { int html; char *latex; } numbers[] =
{ /* ---------------------------------------
html num LaTeX equivalent...
--------------------------------------- */
{ 9, " " }, /* horizontal tab */
{ 10, " " }, /* line feed */
{ 13, " " }, /* carriage return */
{ 32, " " }, /* space */
{ 33, "!" }, /* exclamation point */
{ 34, "\"" }, /* " */
{ 35, "#" }, /* hash mark */
{ 36, "$" }, /* dollar */
{ 37, "%" }, /* percent */
{ 38, "&" }, /* & */
{ 39, "\'" }, /* apostrophe (single quote) */
{ 40, ")" }, /* left parenthesis */
{ 41, ")" }, /* right parenthesis */
{ 42, "*" }, /* asterisk */
{ 43, "+" }, /* plus */
{ 44, "," }, /* comma */
{ 45, "-" }, /* hyphen (minus) */
{ 46, "." }, /* period */
{ 47, "/" }, /* slash */
{ 58, ":" }, /* colon */
{ 59, ";" }, /* semicolon */
{ 60, "<" }, /* < */
{ 61, "=" }, /* = */
{ 62, ">" }, /* > */
{ 63, "\?" }, /* question mark */
{ 64, "@" }, /* commercial at sign */
{ 91, "[" }, /* left square bracket */
{ 92, "\\" }, /* backslash */
{ 93, "]" }, /* right square bracket */
{ 94, "^" }, /* caret */
{ 95, "_" }, /* underscore */
{ 96, "`" }, /* grave accent */
{ 123, "{" }, /* left curly brace */
{ 124, "|" }, /* vertical bar */
{ 125, "}" }, /* right curly brace */
{ 126, "~" }, /* tilde */
{ 160, "~" }, /* (use tilde for latex) */
{ 166, "|" }, /* ¦ (broken vertical bar) */
{ 173, "-" }, /* (soft hyphen) */
{ 177, "{\\pm}" }, /* ± (plus or minus) */
{ 215, "{\\times}" }, /* × (plus or minus) */
{ -999, NULL }
} ; /* --- end-of-numbers[] --- */
/* -------------------------------------------------------------------------
first remove comments
-------------------------------------------------------------------------- */
expptr = expression; /* start search at beginning */
while ( (leftptr=strstr(expptr,leftcomment)) != NULL ) /*found leftcomment*/
{
char *rightsym=NULL; /* rightcomment[isymbol] */
expptr = leftptr+strlen(leftcomment); /* start rightcomment search here */
/* --- check for any closing rightcomment, in given precedent order --- */
if ( *expptr != '\000' ) /*have chars after this leftcomment*/
for(isymbol=0; (rightsym=rightcomment[isymbol]) != NULL; isymbol++)
if ( (tokptr=strstr(expptr,rightsym)) != NULL ) /*found rightcomment*/
{ tokptr += strlen(rightsym); /* first char after rightcomment */
if ( *tokptr == '\000' ) /*nothing after this rightcomment*/
{ *leftptr = '\000'; /*so terminate expr at leftcomment*/
break; } /* and stop looking for comments */
*leftptr = '~'; /* replace entire comment by ~ */
strsqueezep(leftptr+1,tokptr); /* squeeze out comment */
goto next_comment; } /* stop looking for rightcomment */
/* --- no rightcomment after opening leftcomment --- */
*leftptr = '\000'; /* so terminate expression */
/* --- resume search past squeezed-out comment --- */
next_comment:
if ( *leftptr == '\000' ) break; /* reached end of expression */
expptr = leftptr+1; /*resume search after this comment*/
} /* --- end-of-while(leftptr!=NULL) --- */
/* -------------------------------------------------------------------------
run thru table, converting all occurrences of each macro to its expansion
-------------------------------------------------------------------------- */
for(isymbol=0; (htmlsym=symbols[isymbol].html) != NULL; isymbol++)
{
int htmllen = strlen(htmlsym); /* length of escape, _without_ ; */
int isalgebra = isalpha((int)(*htmlsym)); /* leading char alphabetic */
int isembedded = 0, /* true to xlate even if embedded */
istag=0, isamp=0, /* true for , &char; symbols */
isstrwstr = 0, /* true to use strwstr() */
wstrlen = 0; /* length of strwstr() match */
char *aleft="{([<|", *aright="})]>|"; /*left,right delims for alg syntax*/
char embedkeywd[99] = "embed", /* keyword to signal embedded token*/
embedterm = '\000'; /* char immediately after embed */
int embedlen = strlen(embedkeywd); /* #chars in embedkeywd */
char *args = symbols[isymbol].args, /* number {}-args, optional []-arg */
*htmlterm = args, /*if *args nonumeric, then html term*/
*latexsym = symbols[isymbol].latex, /*latex replacement for htmlsym*/
errorsym[256]; /*or latexsym may point to error msg*/
char abuff[8192]; int iarg,nargs=0; /* macro expansion params */
char wstrwhite[99]; /* whitespace chars for strwstr() */
skipwhite(htmlsym); /*skip any bogus leading whitespace*/
htmllen = strlen(htmlsym); /* reset length of html token */
istag = (isthischar(*htmlsym,"<")?1:0); /* html starts with < */
isamp = (isthischar(*htmlsym,"&")?1:0); /* html &char; starts with & */
if ( args != NULL ) /*we have args (or htmlterm) param*/
if ( *args != '\000' ) { /* and it's not an empty string */
if ( strchr("0123456789",*args) != NULL ) /* is 1st char #args=0-9 ? */
{ htmlterm = NULL; /* if so, then we have no htmlterm */
*abuff = *args; abuff[1] = '\000'; /* #args char in ascii buffer */
nargs = atoi(abuff); } /* interpret #args to numeric */
else if ( strncmp(args,embedkeywd,embedlen) == 0 )/*xlate embedded token*/
{ int arglen = strlen(args); /* length of "embed..." string */
htmlterm = NULL; /* if so, then we have no htmlterm */
isembedded = 1 ; /* turn on embedded flag */
if ( arglen > embedlen ) /* have embed "allow escape" flag */
embedterm = args[embedlen]; /* char immediately after "embed" */
if (arglen > embedlen+1) { /* have embed,flag,white for strwstr*/
isstrwstr = 1; /* turn on strwtsr flag */
strcpy(wstrwhite,args+embedlen+1); } } /*and set its whitespace arg*/
} /* --- end-of-if(*args!='\000') --- */
expptr = expression; /* re-start search at beginning */
while ( ( tokptr=(!isstrwstr?strstr(expptr,htmlsym): /* just use strtsr */
strwstr(expptr,htmlsym,wstrwhite,&wstrlen)) ) /* or use our strwstr */
!= NULL ) { /* found another sym */
int toklen = (!isstrwstr?htmllen:wstrlen); /* length of matched sym */
char termchar = *(tokptr+toklen), /* char terminating html sequence */
prevchar = (tokptr==expptr?' ':*(tokptr-1));/*char preceding html*/
int isescaped = (isthischar(prevchar,ESCAPE)?1:0); /* token escaped?*/
int escapelen = toklen; /* total length of escape sequence */
int isflush = 0; /* true to flush (don't xlate) */
/* --- check odd/even backslashes preceding tokens --- */
if ( isescaped ) { /* have one preceding backslash */
char *p = tokptr-1; /* ptr to that preceding backslash */
while ( p != expptr ) { /* and we may have more preceding */
p--; if(!isthischar(*p,ESCAPE))break; /* but we don't, so quit */
isescaped = 1-isescaped; } } /* or flip isescaped flag if we do */
/* --- init with "trivial" abuff,escapelen from symbols[] table --- */
*abuff = '\000'; /* default to empty string */
if ( latexsym != NULL ) /* table has .latex xlation */
if ( *latexsym != '\000' ) /* and it's not an empty string */
strcpy(abuff,latexsym); /* so get local copy */
if ( !isembedded ) /*embedded sequences not terminated*/
if ( htmlterm != NULL ) /* sequence may have terminator */
escapelen += (isthischar(termchar,htmlterm)?1:0); /*add terminator*/
/* --- don't xlate if we just found prefix of longer symbol, etc --- */
if ( !isembedded ) { /* not embedded */
if ( isescaped ) /* escaped */
isflush = 1; /* set flag to flush escaped token */
if ( !istag && isalpha((int)termchar) ) /* followed by alpha */
isflush = 1; /* so just a prefix of longer symbol*/
if ( isalpha((int)(*htmlsym)) ) /* symbol starts with alpha */
if ( (!isspace(prevchar)&&isalpha(prevchar)) ) /* just a suffix*/
isflush = 1; } /* set flag to flush token */
if ( isembedded ) /* for embedded token */
if ( isescaped ) /* and embedded \token escaped */
if ( !isthischar(embedterm,ESCAPE) ) /* don't xlate escaped \token */
isflush = 1; /* set flag to flush token */
if ( isflush ) /* don't xlate this token */
{ expptr = tokptr+1;/*toklen;*/ /* just resume search after token */
continue; } /* but don't replace it */
/* --- check for prefix signalling nnn; --- */
if ( strcmp(htmlsym,"") == 0 ) { /* replacing special nnn; chars */
/* --- accumulate chars comprising number following --- */
char anum[32]; /* chars comprising number after */
int inum = 0; /* no chars accumulated yet */
while ( termchar != '\000' ) { /* don't go past end-of-string */
if ( !isdigit((int)termchar) ) break; /* and don't go past digits */
if ( inum > 10 ) break; /* some syntax error in expression */
anum[inum] = termchar; /* accumulate this digit */
inum++; toklen++; /* bump field length, token length */
termchar = *(tokptr+toklen); } /* char terminating html sequence */
anum[inum] = '\000'; /* null-terminate anum */
escapelen = toklen; /* length of nnn; sequence */
if ( htmlterm != NULL ) /* sequence may have terminator */
escapelen += (isthischar(termchar,htmlterm)?1:0); /*add terminator*/
/* --- look up nnn in number[] table --- */
htmlnum = atoi(anum); /* convert anum[] to an integer */
strninit(errorsym,latexsym,128); /* init error message */
latexsym = errorsym; /* init latexsym as error message */
strreplace(latexsym,"nnn",anum,1); /*place actual num in message*/
for ( inum=0; numbers[inum].html>=0; inum++ ) /* run thru numbers[] */
if ( htmlnum == numbers[inum].html ) { /* till we find a match */
latexsym = numbers[inum].latex; /* latex replacement */
break; } /* no need to look any further */
if ( latexsym != NULL ) /* table has .latex xlation */
if ( *latexsym != '\000' ) /* and it's not an empty string */
strcpy(abuff,latexsym); /* so get local copy */
} /* --- end-of-if(strcmp(htmlsym,"")==0) --- */
/* --- substitute macro arguments --- */
if ( nargs > 0 ) /*substitute #1,#2,... in latexsym*/
{
char *arg1ptr = tokptr+escapelen;/* nargs begin after macro literal */
char *optarg = args+1; /* ptr 1 char past #args digit 0-9 */
expptr = arg1ptr; /* ptr to beginning of next arg */
for ( iarg=1; iarg<=nargs; iarg++ ) /* one #`iarg` arg at a time */
{
char argsignal[32] = "#1", /* #1...#9 signals arg replacement */
*argsigptr = NULL; /* ptr to argsignal in abuff[] */
/* --- get argument value --- */
*argval = '\000'; /* init arg as empty string */
skipwhite(expptr); /* and skip leading white space */
if ( iarg==1 && *optarg!='\000' /* check for optional [arg] */
&& !isalgebra ) /* but not in "algebra syntax" */
{ strcpy(argval,optarg); /* init with default value */
if ( *expptr == '[' ) /* but user gave us [argval] */
expptr = texsubexpr(expptr,argval,0,"[","]",0,0); } /*so get it*/
else /* not optional, so get {argval} */
if ( *expptr != '\000' ) { /* check that some argval provided */
if ( !isalgebra ) /* only { } delims for latex macro */
expptr = texsubexpr(expptr,argval,0,"{","}",0,0);/*get {argval}*/
else { /*any delim for algebra syntax macro*/
expptr = texsubexpr(expptr,argval,0,aleft,aright,0,1);
if ( isthischar(*argval,aleft) ) /* have delim-enclosed arg */
if ( *argval != '{' ) { /* and it's not { }-enclosed */
strchange(0,argval,"\\left"); /* insert opening \left, */
strchange(0,argval+strlen(argval)-1,"\\right"); } }/*\right*/
} /* --- end-of-if(*expptr!='\000') --- */
/* --- (recursively) call mimeprep() to prep the argument --- */
if ( !isempty(argval) ) /* have an argument */
mimeprep(argval); /* so (recursively) prep it */
/* --- replace #`iarg` in macro with argval --- */
sprintf(argsignal,"#%d",iarg); /* #1...#9 signals argument */
while ( (argsigptr=strstr(argval,argsignal)) != NULL ) /* #1...#9 */
{strsqueeze(argsigptr,strlen(argsignal));} /* can't be in argval */
while ( (argsigptr=strstr(abuff,argsignal)) != NULL ) /* #1...#9 */
strchange(strlen(argsignal),argsigptr,argval); /*replaced by argval*/
} /* --- end-of-for(iarg) --- */
escapelen += ((int)(expptr-arg1ptr)); /* add in length of all args */
} /* --- end-of-if(nargs>0) --- */
strchange(escapelen,tokptr,abuff); /*replace macro or html symbol*/
expptr = tokptr + strlen(abuff); /*resume search after macro / html*/
} /* --- end-of-while(tokptr!=NULL) --- */
} /* --- end-of-for(isymbol) --- */
/* -------------------------------------------------------------------------
convert \left( to \( and \right) to \), etc.
-------------------------------------------------------------------------- */
if ( xlateleft ) /* \left...\right xlation wanted */
for ( idelim=0; idelim<2; idelim++ ) /* 0 for \left and 1 for \right */
{
char *lrstr = (idelim==0?"\\left":"\\right"); /* \left on 1st pass */
int lrlen = (idelim==0?5:6); /* strlen() of \left or \right */
char *braces = (idelim==0?LEFTBRACES ".":RIGHTBRACES "."), /*([{*/
**lrfrom= (idelim==0?leftfrom:rightfrom), /* long braces like \| */
**lrto = (idelim==0?leftto:rightto), /* xlated to 1-char like = */
*lrsym = NULL; /* lrfrom[isymbol] */
expptr = expression; /* start search at beginning */
while ( (tokptr=strstr(expptr,lrstr)) != NULL ) /* found \left or \right */
{
if ( isthischar(*(tokptr+lrlen),braces) ) /* followed by a 1-char brace*/
{ strsqueeze((tokptr+1),(lrlen-1));/*so squeeze out "left" or "right"*/
expptr = tokptr+2; } /* and resume search past brace */
else /* may be a "long" brace like \| */
{
expptr = tokptr+lrlen; /*init to resume search past\left\rt*/
for(isymbol=0; (lrsym=lrfrom[isymbol]) != NULL; isymbol++)
{ int symlen = strlen(lrsym); /* #chars in delim, e.g., 2 for \| */
if ( memcmp(tokptr+lrlen,lrsym,symlen) == 0 ) /* found long delim*/
{ strsqueeze((tokptr+1),(lrlen+symlen-2)); /*squeeze out delim*/
*(tokptr+1) = *(lrto[isymbol]); /* last char now 1-char delim*/
expptr = tokptr+2 - lrlen; /* resume search past 1-char delim*/
break; } /* no need to check more lrsym's */
} /* --- end-of-for(isymbol) --- */
} /* --- end-of-if/else(isthischar()) --- */
} /* --- end-of-while(tokptr!=NULL) --- */
} /* --- end-of-for(idelim) --- */
/* -------------------------------------------------------------------------
run thru table, converting all {a+b\atop c+d} to \atop{a+b}{c+d}
-------------------------------------------------------------------------- */
for(isymbol=0; (atopsym=atopcommands[isymbol]) != NULL; isymbol++)
{
int atoplen = strlen(atopsym); /* #chars in \atop */
expptr = expression; /* re-start search at beginning */
while ( (tokptr=strstr(expptr,atopsym)) != NULL ) /* found another atop */
{ char *leftbrace=NULL, *rightbrace=NULL; /*ptr to opening {, closing }*/
char termchar = *(tokptr+atoplen); /* \atop followed by terminator */
if ( msgfp!=NULL && msglevel>=999 )
{ fprintf(msgfp,"mimeprep> offset=%d rhs=\"%s\"\n",
(int)(tokptr-expression),tokptr);
fflush(msgfp); }
if ( isalpha((int)termchar) ) /*we just have prefix of longer sym*/
{ expptr = tokptr+atoplen; /* just resume search after prefix */
continue; } /* but don't process it */
leftbrace = findbraces(expression,tokptr); /* find left { */
rightbrace = findbraces(NULL,tokptr+atoplen-1); /* find right } */
if ( leftbrace==NULL || rightbrace==NULL )
{ expptr += atoplen; continue; } /* skip command if didn't find */
else /* we have bracketed { \atop } */
{
int leftlen = (int)(tokptr-leftbrace) - 1, /* #chars in left arg */
rightlen = (int)(rightbrace-tokptr) - atoplen, /* and in right*/
totlen = (int)(rightbrace-leftbrace) + 1; /*tot in { \atop }*/
char *open=atopdelims[2*isymbol], *close=atopdelims[2*isymbol+1];
char arg[8192], command[8192]; /* left/right args, new \atop{}{} */
*command = '\000'; /* start with null string */
if (open!=NULL) strcat(command,open); /* add open delim if needed */
strcat(command,atopsym); /* add command with \atop */
arg[0] = '{'; /* arg starts with { */
memcpy(arg+1,leftbrace+1,leftlen); /* extract left-hand arg */
arg[leftlen+1] = '\000'; /* and null terminate it */
strcat(command,arg); /* concatanate {left-arg to \atop */
strcat(command,"}{"); /* close left-arg, open right-arg */
memcpy(arg,tokptr+atoplen,rightlen); /* right-hand arg */
arg[rightlen] = '}'; /* add closing } */
arg[rightlen+1] = '\000'; /* and null terminate it */
if ( isthischar(*arg,WHITEMATH) ) /* 1st char was mandatory space */
{strsqueeze(arg,1);} /* so squeeze it out */
strcat(command,arg); /* concatanate right-arg} */
if (close!=NULL) strcat(command,close); /* add close delim if needed*/
strchange(totlen-2,leftbrace+1,command); /* {\atop} --> {\atop{}{}} */
expptr = leftbrace+strlen(command); /*resume search past \atop{}{}*/
}
} /* --- end-of-while(tokptr!=NULL) --- */
} /* --- end-of-for(isymbol) --- */
/* -------------------------------------------------------------------------
back to caller with preprocessed expression
-------------------------------------------------------------------------- */
if ( msgfp!=NULL && msglevel>=99 ) /* display preprocessed expression */
{ fprintf(msgfp,"mimeprep> expression=\"\"%s\"\"\n",expression);
fflush(msgfp); }
return ( expression );
} /* --- end-of-function mimeprep() --- */
/* ==========================================================================
* Function: strchange ( int nfirst, char *from, char *to )
* Purpose: Changes the nfirst leading chars of `from` to `to`.
* For example, to change char x[99]="12345678" to "123ABC5678"
* call strchange(1,x+3,"ABC")
* --------------------------------------------------------------------------
* Arguments: nfirst (I) int containing #leading chars of `from`
* that will be replace by `to`
* from (I/O) char * to null-terminated string whose nfirst
* leading chars will be replaced by `to`
* to (I) char * to null-terminated string that will
* replace the nfirst leading chars of `from`
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to first char of input `from`
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o If strlen(to)>nfirst, from must have memory past its null
* (i.e., we don't do a realloc)
* ======================================================================= */
/* --- entry point --- */
char *strchange ( int nfirst, char *from, char *to )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int tolen = (to==NULL?0:strlen(to)), /* #chars in replacement string */
nshift = abs(tolen-nfirst); /*need to shift from left or right*/
/* -------------------------------------------------------------------------
shift from left or right to accommodate replacement of its nfirst chars by to
-------------------------------------------------------------------------- */
if ( tolen < nfirst ) /* shift left is easy */
{strsqueeze(from,nshift);} /* memmove avoids overlap memory */
if ( tolen > nfirst ) /* need more room at start of from */
{ char *pfrom = from+strlen(from); /* ptr to null terminating from */
for ( ; pfrom>=from; pfrom-- ) /* shift all chars including null */
*(pfrom+nshift) = *pfrom; } /* shift chars nshift places right */
/* -------------------------------------------------------------------------
from has exactly the right number of free leading chars, so just put to there
-------------------------------------------------------------------------- */
if ( tolen != 0 ) /* make sure to not empty or null */
memcpy(from,to,tolen); /* chars moved into place */
return ( from ); /* changed string back to caller */
} /* --- end-of-function strchange() --- */
/* ==========================================================================
* Function: strreplace (char *string, char *from, char *to, int nreplace)
* Purpose: Changes the first nreplace occurrences of 'from' to 'to'
* in string, or all occurrences if nreplace=0.
* --------------------------------------------------------------------------
* Arguments: string (I/0) char * to null-terminated string in which
* occurrence of 'from' will be replaced by 'to'
* from (I) char * to null-terminated string
* to be replaced by 'to'
* to (I) char * to null-terminated string that will
* replace 'from'
* nreplace (I) int containing (maximum) number of
* replacements, or 0 to replace all.
* --------------------------------------------------------------------------
* Returns: ( int ) number of replacements performed,
* or 0 for no replacements or -1 for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int strreplace ( char *string, char *from, char *to, int nreplace )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int fromlen = (from==NULL?0:strlen(from)), /* #chars to be replaced */
tolen = (to==NULL?0:strlen(to)); /* #chars in replacement string */
char *pfrom = (char *)NULL, /*ptr to 1st char of from in string*/
*pstring = string, /*ptr past previously replaced from*/
*strchange(); /* change 'from' to 'to' */
int nreps = 0; /* #replacements returned to caller*/
/* -------------------------------------------------------------------------
repace occurrences of 'from' in string to 'to'
-------------------------------------------------------------------------- */
if ( string == (char *)NULL /* no input string */
|| (fromlen<1 && nreplace<=0) ) /* replacing empty string forever */
nreps = (-1); /* so signal error */
else /* args okay */
while (nreplace<1 || nreps 0 ) /* have 'from' string */
pfrom = strstr(pstring,from); /*ptr to 1st char of from in string*/
else pfrom = pstring; /*or empty from at start of string*/
if ( pfrom == (char *)NULL ) break; /*no more from's, so back to caller*/
if ( strchange(fromlen,pfrom,to) /* leading 'from' changed to 'to' */
== (char *)NULL ) { nreps=(-1); break; } /* signal error to caller */
nreps++; /* count another replacement */
pstring = pfrom+tolen; /* pick up search after 'to' */
if ( *pstring == '\000' ) break; /* but quit at end of string */
} /* --- end-of-while() --- */
return ( nreps ); /* #replacements back to caller */
} /* --- end-of-function strreplace() --- */
/* ==========================================================================
* Function: strwstr (char *string, char *substr, char *white, int *sublen)
* Purpose: Find first substr in string, but wherever substr contains
* a whitespace char (in white), string may contain any number
* (including 0) of whitespace chars. If white contains I or i,
* then match is case-insensitive (and I,i _not_ whitespace).
* --------------------------------------------------------------------------
* Arguments: string (I) char * to null-terminated string in which
* first occurrence of substr will be found
* substr (I) char * to null-terminated string containing
* "template" that will be searched for
* white (I) char * to null-terminated string containing
* whitespace chars. If NULL or empty, then
* "~ \t\n\r\f\v" (WHITEMATH in mimetex.h) used.
* If white contains I or i, then match is
* case-insensitive (and I,i _not_ considered
* whitespace).
* sublen (O) address of int returning "length" of substr
* found in string (which may be longer or
* shorter than substr itself).
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to first char of substr in string
* or NULL if not found or for any error.
* --------------------------------------------------------------------------
* Notes: o Wherever a single whitespace char appears in substr,
* the corresponding position in string may contain any
* number (including 0) of whitespace chars, e.g.,
* string="abc def" and string="abcdef" both match
* substr="c d" at offset 2 of string.
* o If substr="c d" (two spaces between c and d),
* then string must have at least one space, so now "abcdef"
* doesn't match. In general, the minimum number of spaces
* in string is the number of spaces in substr minus 1
* (so 1 space in substr permits 0 spaces in string).
* o Embedded spaces are counted in sublen, e.g.,
* string="c d" (three spaces) matches substr="c d"
* with sublen=5 returned. But string="ab c d" will
* also match substr=" c d" returning sublen=5 and
* a ptr to the "c". That is, the mandatory preceding
* space is _not_ counted as part of the match.
* But all the embedded space is counted.
* (An inconsistent bug/feature is that mandatory
* terminating space is counted.)
* o Moreover, string="c d" matches substr=" c d", i.e.,
* the very beginning of a string is assumed to be preceded
* by "virtual blanks".
* ======================================================================= */
/* --- entry point --- */
char *strwstr ( char *string, char *substr, char *white, int *sublen )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *psubstr=substr, *pstring=string,/*ptr to current char in substr,str*/
*pfound = (char *)NULL; /*ptr to found substr back to caller*/
char *pwhite=NULL, whitespace[256]; /* callers white whithout i,I */
int iscase = (white==NULL?1: /* case-sensitive if i,I in white */
strchr(white,'i')==NULL && strchr(white,'I')==NULL);
int foundlen = 0; /* length of substr found in string*/
int nstrwhite=0, nsubwhite=0, /* #leading white chars in str,sub */
nminwhite=0; /* #mandatory leading white in str */
int nstrchars=0, nsubchars=0, /* #non-white chars to be matched */
isncmp=0; /*strncmp() or strncasecmp() result*/
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- set up whitespace --- */
strcpy(whitespace,WHITEMATH); /*default if no user input for white*/
if ( white != NULL ) /*user provided ptr to white string*/
if ( *white != '\000' ) { /*and it's not just an empty string*/
strcpy(whitespace,white); /* so use caller's white spaces */
while ( (pwhite=strchr(whitespace,'i')) != NULL ) /* have an embedded i */
{strsqueeze(pwhite,1);} /* so squeeze it out */
while ( (pwhite=strchr(whitespace,'I')) != NULL ) /* have an embedded I */
{strsqueeze(pwhite,1);} /* so squeeze it out */
if ( *whitespace == '\000' ) /* caller's white just had i,I */
strcpy(whitespace,WHITEMATH); } /* so revert back to default */
/* -------------------------------------------------------------------------
Find first occurrence of substr in string
-------------------------------------------------------------------------- */
if ( string != NULL ) /* caller passed us a string ptr */
while ( *pstring != '\000' ) { /* break when string exhausted */
char *pstrptr = pstring; /* (re)start at next char in string*/
int leadingwhite = 0; /* leading whitespace */
psubstr = substr; /* start at beginning of substr */
foundlen = 0; /* reset length of found substr */
if ( substr != NULL ) /* caller passed us a substr ptr */
while ( *psubstr != '\000' ) { /*see if pstring begins with substr*/
/* --- check for end-of-string before finding match --- */
if ( *pstrptr == '\000' ) /* end-of-string without a match */
goto nextstrchar; /* keep trying with next char */
/* --- actual amount of whitespace in string and substr --- */
nsubwhite = strspn(psubstr,whitespace); /* #leading white chars in sub */
nstrwhite = strspn(pstrptr,whitespace); /* #leading white chars in str */
nminwhite = max2(0,nsubwhite-1); /* #mandatory leading white in str */
/* --- check for mandatory leading whitespace in string --- */
if ( pstrptr != string ) /*not mandatory at start of string*/
if ( nstrwhite < nminwhite ) /* too little leading white space */
goto nextstrchar; /* keep trying with next char */
/* ---hold on to #whitespace chars in string preceding substr match--- */
if ( pstrptr == pstring ) /* whitespace at start of substr */
leadingwhite = nstrwhite; /* save it as leadingwhite */
/* --- check for optional whitespace --- */
if ( psubstr != substr ) /* always okay at start of substr */
if ( nstrwhite>0 && nsubwhite<1 ) /* too much leading white space */
goto nextstrchar; /* keep trying with next char */
/* --- skip any leading whitespace in substr and string --- */
psubstr += nsubwhite; /* push past leading sub whitespace*/
pstrptr += nstrwhite; /* push past leading str whitespace*/
/* --- now get non-whitespace chars that we have to match --- */
nsubchars = strcspn(psubstr,whitespace); /* #non-white chars in sub */
nstrchars = strcspn(pstrptr,whitespace); /* #non-white chars in str */
if ( nstrchars < nsubchars ) /* too few chars for match */
goto nextstrchar; /* keep trying with next char */
/* --- see if next nsubchars are a match --- */
isncmp = (iscase? strncmp(pstrptr,psubstr,nsubchars): /*case sensitive*/
strncasecmp(pstrptr,psubstr,nsubchars)); /*case insensitive*/
if ( isncmp != 0 ) /* no match */
goto nextstrchar; /* keep trying with next char */
/* --- push past matched chars --- */
psubstr += nsubchars; pstrptr += nsubchars; /*nsubchars were matched*/
} /* --- end-of-while(*psubstr!='\000') --- */
pfound = pstring + leadingwhite; /* found match starting at pstring */
foundlen = (int)(pstrptr-pfound); /* consisting of this many chars */
goto end_of_job; /* back to caller */
/* ---failed to find substr, continue trying with next char in string--- */
nextstrchar: /* continue outer loop */
pstring++; /* bump to next char in string */
} /* --- end-of-while(*pstring!='\000') --- */
/* -------------------------------------------------------------------------
Back to caller with ptr to first occurrence of substr in string
-------------------------------------------------------------------------- */
end_of_job:
if ( msglevel>=999 && msgfp!=NULL) { /* debugging/diagnostic output */
fprintf(msgfp,"strwstr> str=\"%.72s\" sub=\"%s\" found at offset %d\n",
string,substr,(pfound==NULL?(-1):(int)(pfound-string))); fflush(msgfp); }
if ( sublen != NULL ) /*caller wants length of found substr*/
*sublen = foundlen; /* give it to him along with ptr */
return ( pfound ); /*ptr to first found substr, or NULL*/
} /* --- end-of-function strwstr() --- */
/* ==========================================================================
* Function: strdetex ( s, mode )
* Purpose: Removes/replaces any LaTeX math chars in s
* so that s can be displayed "verbatim",
* e.g., for error messages.
* --------------------------------------------------------------------------
* Arguments: s (I) char * to null-terminated string
* whose math chars are to be removed/replaced
* mode (I) int containing 0 to _not_ use macros (i.e.,
* mimeprep won't be called afterwards),
* or containing 1 to use macros that will
* be expanded by a subsequent call to mimeprep.
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to "cleaned" copy of s
* or "" (empty string) for any error.
* --------------------------------------------------------------------------
* Notes: o The returned pointer addresses a static buffer,
* so don't call strdetex() again until you're finished
* with output from the preceding call.
* ======================================================================= */
/* --- entry point --- */
char *strdetex ( char *s, int mode )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
static char sbuff[4096]; /* copy of s with no math chars */
int strreplace(); /* replace _ with -, etc */
/* -------------------------------------------------------------------------
Make a clean copy of s
-------------------------------------------------------------------------- */
/* --- check input --- */
*sbuff = '\000'; /* initialize in case of error */
if ( isempty(s) ) goto end_of_job; /* no input */
/* --- start with copy of s --- */
strninit(sbuff,s,2048); /* leave room for replacements */
/* --- make some replacements -- we *must* replace \ { } first --- */
strreplace(sbuff,"\\","\\backslash~\\!\\!",0); /*change all \'s to text*/
strreplace(sbuff,"{", "\\lbrace~\\!\\!",0); /*change all {'s to \lbrace*/
strreplace(sbuff,"}", "\\rbrace~\\!\\!",0); /*change all }'s to \rbrace*/
/* --- now our further replacements may contain \directives{args} --- */
if( mode >= 1 ) strreplace(sbuff,"_","\\_",0); /* change all _'s to \_ */
else strreplace(sbuff,"_","\\underline{\\qquad}",0); /*change them to text*/
if(0)strreplace(sbuff,"<","\\textlangle ",0); /* change all <'s to text */
if(0)strreplace(sbuff,">","\\textrangle ",0); /* change all >'s to text */
if(0)strreplace(sbuff,"$","\\textdollar ",0); /* change all $'s to text */
strreplace(sbuff,"$","\\$",0); /* change all $'s to \$ */
strreplace(sbuff,"&","\\&",0); /* change all &'s to \& */
strreplace(sbuff,"%","\\%",0); /* change all %'s to \% */
strreplace(sbuff,"#","\\#",0); /* change all #'s to \# */
/*strreplace(sbuff,"~","\\~",0);*/ /* change all ~'s to \~ */
strreplace(sbuff,"^","{\\fs{+2}\\^}",0); /* change all ^'s to \^ */
end_of_job:
return ( sbuff ); /* back with clean copy of s */
} /* --- end-of-function strdetex() --- */
/* ==========================================================================
* Function: strtexchr ( char *string, char *texchr )
* Purpose: Find first texchr in string, but texchr must be followed
* by non-alpha
* --------------------------------------------------------------------------
* Arguments: string (I) char * to null-terminated string in which
* first occurrence of delim will be found
* texchr (I) char * to null-terminated string that
* will be searched for
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to first char of texchr in string
* or NULL if not found or for any error.
* --------------------------------------------------------------------------
* Notes: o texchr should contain its leading \, e.g., "\\left"
* ======================================================================= */
/* --- entry point --- */
char *strtexchr ( char *string, char *texchr )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char delim, *ptexchr=(char *)NULL; /* ptr returned to caller*/
char *pstring = string; /* start or continue up search here*/
int texchrlen = (texchr==NULL?0:strlen(texchr)); /* #chars in texchr */
/* -------------------------------------------------------------------------
locate texchr in string
-------------------------------------------------------------------------- */
if ( string != (char *)NULL /* check that we got input string */
&& texchrlen > 0 ) { /* and a texchr to search for */
while ( (ptexchr=strstr(pstring,texchr)) /* look for texchr in string */
!= (char *)NULL ) /* found it */
if ( (delim = ptexchr[texchrlen]) /* char immediately after texchr */
== '\000' ) break; /* texchr at very end of string */
else /* if there are chars after texchr */
if ( isalpha(delim) /*texchr is prefix of longer symbol*/
|| 0 ) /* other tests to be determined */
pstring = ptexchr + texchrlen; /* continue search after texchr */
else /* passed all tests */
break; } /*so return ptr to texchr to caller*/
return ( ptexchr ); /* ptr to texchar back to caller */
} /* --- end-of-function strtexchr() --- */
/* ==========================================================================
* Function: findbraces ( char *expression, char *command )
* Purpose: If expression!=NULL, finds opening left { preceding command;
* if expression==NULL, finds closing right } after command.
* For example, to parse out {a+b\over c+d} call findbraces()
* twice.
* --------------------------------------------------------------------------
* Arguments: expression (I) NULL to find closing right } after command,
* or char * to null-terminated string to find
* left opening { preceding command.
* command (I) char * to null-terminated string whose
* first character is usually the \ of \command
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to either opening { or closing },
* or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
char *findbraces ( char *expression, char *command )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int isopen = (expression==NULL?0:1); /* true to find left opening { */
char *left="{", *right="}", /* delims bracketing {x\command y} */
*delim = (isopen?left:right), /* delim we want, { if isopen */
*match = (isopen?right:left), /* matching delim, } if isopen */
*brace = NULL; /* ptr to delim returned to caller */
int inc = (isopen?-1:+1); /* pointer increment */
int level = 1; /* nesting level, for {{}\command} */
char *ptr = command; /* start search here */
int setbrace = 1; /* true to set {}'s if none found */
/* -------------------------------------------------------------------------
search for left opening { before command, or right closing } after command
-------------------------------------------------------------------------- */
while ( 1 ) /* search for brace, or until end */
{
/* --- next char to check for delim --- */
ptr += inc; /* bump ptr left or right */
/* --- check for beginning or end of expression --- */
if ( isopen ) /* going left, check for beginning */
{ if ( ptr < expression ) break; } /* went before start of string */
else { if ( *ptr == '\000' ) break; } /* went past end of string */
/* --- don't check this char if it's escaped --- */
if ( !isopen || ptr>expression ) /* very first char can't be escaped*/
if ( isthischar(*(ptr-1),ESCAPE) ) /* escape char precedes current */
continue; /* so don't check this char */
/* --- check for delim --- */
if ( isthischar(*ptr,delim) ) /* found delim */
if ( --level == 0 ) /* and it's not "internally" nested*/
{ brace = ptr; /* set ptr to brace */
goto end_of_job; } /* and return it to caller */
/* --- check for matching delim --- */
if ( isthischar(*ptr,match) ) /* found matching delim */
level++; /* so bump nesting level */
} /* --- end-of-while(1) --- */
end_of_job:
if ( brace == (char *)NULL ) /* open{ or close} not found */
if ( setbrace ) /* want to force one at start/end? */
brace = ptr; /* { before expressn, } after cmmnd*/
return ( brace ); /*back to caller with delim or NULL*/
} /* --- end-of-function findbraces() --- */
/* ==========================================================================
* Function: strpspn ( char *s, char *reject, char *segment )
* Purpose: finds the initial segment of s containing no chars
* in reject that are outside (), [] and {} parens, e.g.,
* strpspn("abc(---)def+++","+-",segment) returns
* segment="abc(---)def" and a pointer to the first '+' in s
* because the -'s are enclosed in () parens.
* --------------------------------------------------------------------------
* Arguments: s (I) (char *)pointer to null-terminated string
* whose initial segment is desired
* reject (I) (char *)pointer to null-terminated string
* containing the "reject chars"
* segment (O) (char *)pointer returning null-terminated
* string comprising the initial segment of s
* that contains non-rejected chars outside
* (),[],{} parens, i.e., all the chars up to
* but not including the returned pointer.
* (That's the entire string if no non-rejected
* chars are found.)
* --------------------------------------------------------------------------
* Returns: ( char * ) pointer to first reject-char found in s
* outside parens, or a pointer to the
* terminating '\000' of s if there are
* no reject chars in s outside all () parens.
* --------------------------------------------------------------------------
* Notes: o the return value is _not_ like strcspn()'s
* o improperly nested (...[...)...] are not detected,
* but are considered "balanced" after the ]
* o if reject not found, segment returns the entire string s
* o leading/trailing whitespace is trimmed from returned segment
* ======================================================================= */
/* --- entry point --- */
char *strpspn ( char *s, char *reject, char *segment )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *ps = s; /* current pointer into s */
int depth = 0; /* () paren nesting level */
int seglen=0, maxseg=2047; /* segment length, max allowed */
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- check arguments --- */
if ( isempty(s) ) /* no input string supplied */
goto end_of_job; /* no reject chars supplied */
/* -------------------------------------------------------------------------
find first char from s outside () parens (and outside ""'s) and in reject
-------------------------------------------------------------------------- */
while ( *ps != '\000' ) { /* search till end of input string */
if ( isthischar(*ps,"([{") ) depth++; /* push another paren */
if ( isthischar(*ps,")]}") ) depth--; /* or pop another paren */
if ( depth < 1 ) { /* we're outside all parens */
if ( isempty(reject) ) break; /* no reject so break immediately */
if ( isthischar(*ps,reject) ) break; } /* only break on a reject char */
if ( segment != NULL ) /* caller gave us segment */
if ( seglen < maxseg ) /* don't overflow segment buffer */
memcpy(segment+seglen,ps,1); /* so copy non-reject char */
seglen += 1; ps += 1; /* bump to next char */
} /* --- end-of-while(*ps!=0) --- */
end_of_job:
if ( segment != NULL ) { /* caller gave us segment */
if ( isempty(reject) ) { /* no reject char */
segment[min2(seglen,maxseg)] = *ps; seglen++; } /*closing )]} to seg*/
segment[min2(seglen,maxseg)] = '\000'; /* null-terminate the segment */
trimwhite(segment); } /* trim leading/trailing whitespace*/
return ( ps ); /* back to caller */
} /* --- end-of-function strpspn() --- */
/* ==========================================================================
* Function: isstrstr ( char *string, char *snippets, int iscase )
* Purpose: determine whether any substring of 'string'
* matches any of the comma-separated list of 'snippets',
* ignoring case if iscase=0.
* --------------------------------------------------------------------------
* Arguments: string (I) char * containing null-terminated
* string that will be searched for
* any one of the specified snippets
* snippets (I) char * containing null-terminated,
* comma-separated list of snippets
* to be searched for in string
* iscase (I) int containing 0 for case-insensitive
* comparisons, or 1 for case-sensitive
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if any snippet is a substring of
* string, 0 if not
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int isstrstr ( char *string, char *snippets, int iscase )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int status = 0; /*1 if any snippet found in string*/
char snip[256], *snipptr = snippets, /* munge through each snippet */
delim = ',', *delimptr = NULL; /* separated by delim's */
char stringcp[4096], *cp = stringcp; /*maybe lowercased copy of string*/
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- arg check --- */
if ( string==NULL || snippets==NULL ) goto end_of_job; /* missing arg */
if ( *string=='\000' || *snippets=='\000' ) goto end_of_job; /* empty arg */
/* --- copy string and lowercase it if case-insensitive --- */
strninit(stringcp,string,4064); /* local copy of string */
if ( !iscase ) /* want case-insensitive compares */
for ( cp=stringcp; *cp != '\000'; cp++ ) /* so for each string char */
if ( isupper(*cp) ) *cp = tolower(*cp); /*lowercase any uppercase chars*/
/* -------------------------------------------------------------------------
extract each snippet and see if it's a substring of string
-------------------------------------------------------------------------- */
while ( snipptr != NULL ) /* while we still have snippets */
{
/* --- extract next snippet --- */
if ( (delimptr = strchr(snipptr,delim)) /* locate next comma delim */
== NULL ) /*not found following last snippet*/
{ strninit(snip,snipptr,255); /* local copy of last snippet */
snipptr = NULL; } /* signal end-of-string */
else /* snippet ends just before delim */
{ int sniplen = (int)(delimptr-snipptr) - 1; /* #chars in snippet */
memcpy(snip,snipptr,sniplen); /* local copy of snippet chars */
snip[sniplen] = '\000'; /* null-terminated snippet */
snipptr = delimptr + 1; } /* next snippet starts after delim */
/* --- lowercase snippet if case-insensitive --- */
if ( !iscase ) /* want case-insensitive compares */
for ( cp=snip; *cp != '\000'; cp++ ) /* so for each snippet char */
if ( isupper(*cp) ) *cp=tolower(*cp); /*lowercase any uppercase chars*/
/* --- check if snippet in string --- */
if ( strstr(stringcp,snip) != NULL ) /* found snippet in string */
{ status = 1; /* so reset return status */
break; } /* no need to check any further */
} /* --- end-of-while(*snipptr!=0) --- */
end_of_job: return ( status ); /*1 if snippet found in list, else 0*/
} /* --- end-of-function isstrstr() --- */
/* ==========================================================================
* Function: isnumeric ( s )
* Purpose: determine if s is an integer
* --------------------------------------------------------------------------
* Arguments: s (I) (char *)pointer to null-terminated string
* that's checked for a leading + or -
* followed by digits
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if s is numeric, 0 if it is not
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int isnumeric ( char *s )
{
/* -------------------------------------------------------------------------
determine whether s is an integer
-------------------------------------------------------------------------- */
int status = 0; /* return 0 if not numeric, 1 if is*/
char *p = s; /* pointer into s */
if ( isempty(s) ) goto end_of_job; /* missing arg or empty string */
skipwhite(p); /*check for leading +or- after space*/
if ( *p=='+' || *p=='-' ) p++; /* skip leading + or - */
for ( ; *p != '\000'; p++ ) { /* check rest of s for digits */
if ( isdigit(*p) ) continue; /* still got uninterrupted digits */
if ( !isthischar(*p,WHITESPACE) ) goto end_of_job; /* non-numeric char */
skipwhite(p); /* skip all subsequent whitespace */
if ( *p == '\000' ) break; /* trailing whitespace okay */
goto end_of_job; /* embedded whitespace non-numeric */
} /* --- end-of-for(*p) --- */
status = 1; /* numeric after checks succeeded */
end_of_job:
return ( status ); /*back to caller with 1=string, 0=no*/
} /* --- end-of-function isnumeric() --- */
/* ==========================================================================
* Function: evalterm ( STORE *store, char *term )
* Purpose: evaluates a term
* --------------------------------------------------------------------------
* Arguments: store (I/O) STORE * containing environment
* in which term is to be evaluated
* term (I) char * containing null-terminated string
* with a term like "3" or "a" or "a+3"
* whose value is to be determined
* --------------------------------------------------------------------------
* Returns: ( int ) value of term,
* or NOVALUE for any error
* --------------------------------------------------------------------------
* Notes: o Also evaluates index?a:b:c:etc, returning a if index<=0,
* b if index=1, etc, and the last value if index is too large.
* Each a:b:c:etc can be another expression, including another
* (index?a:b:c:etc) which must be enclosed in parentheses.
* ======================================================================= */
/* --- entry point --- */
int evalterm ( STORE *store, char *term )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int termval = 0; /* term value returned to caller */
char token[2048] = "\000", /* copy term */
*delim = NULL; /* delim '(' or '?' in token */
/*int evalwff(),*/ /* recurse to evaluate terms */
/* evalfunc();*/ /* evaluate function(arg1,arg2,...)*/
char *strpspn(); /* span delims */
int getstore(); /* lookup variables */
int isnumeric(); /* numeric=constant, else variable */
static int evaltermdepth = 0; /* recursion depth */
int novalue = (-89123456); /* dummy (for now) error signal */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
if ( ++evaltermdepth > 99 ) goto end_of_job; /*probably recursing forever*/
if ( store==NULL || isempty(term) ) goto end_of_job; /*check for missing arg*/
skipwhite(term); /* skip any leading whitespace */
/* -------------------------------------------------------------------------
First look for conditional of the form term?term:term:...
-------------------------------------------------------------------------- */
/* ---left-hand part of conditional is chars preceding "?" outside ()'s--- */
delim = strpspn(term,"?",token); /* chars preceding ? outside () */
if ( *delim != '\000' ) { /* found conditional expression */
int ncolons = 0; /* #colons we've found so far */
if ( *token != '\000' ) /* evaluate "index" value on left */
if ( (termval=evalterm(store,token)) /* evaluate left-hand term */
== novalue ) goto end_of_job; /* return error if failed */
while ( *delim != '\000' ) { /* still have chars in term */
delim++; *token='\000'; /* initialize for next "value:" */
if ( *delim == '\000' ) break; /* no more values */
delim = strpspn(delim,":",token); /* chars preceding : outside () */
if ( ncolons++ >= termval ) break; /* have corresponding term */
} /* --- end-of-while(*delim!='\000')) --- */
if ( *token != '\000' ) /* have x:x:value:x:x on right */
termval=evalterm(store,token); /* so evaluate it */
goto end_of_job; /* return result to caller */
} /* --- end-of-if(*delim!='\000')) --- */
/* -------------------------------------------------------------------------
evaluate a+b recursively
-------------------------------------------------------------------------- */
/* --- left-hand part of term is chars preceding "/+-*%" outside ()'s --- */
term = strpspn(term,"/+-*%",token); /* chars preceding /+-*% outside ()*/
/* --- evaluate a+b, a-b, etc --- */
if ( *term != '\000' ) { /* found arithmetic operation */
int leftval=0, rightval=0; /* init leftval for unary +a or -a */
if ( *token != '\000' ) /* or eval for binary a+b or a-b */
if ( (leftval=evalterm(store,token)) /* evaluate left-hand term */
== novalue ) goto end_of_job; /* return error if failed */
if ( (rightval=evalterm(store,term+1)) /* evaluate right-hand term */
== novalue ) goto end_of_job; /* return error if failed */
switch ( *term ) { /* perform requested arithmetic */
default: break; /* internal error */
case '+': termval = leftval+rightval; break; /* addition */
case '-': termval = leftval-rightval; break; /* subtraction */
case '*': termval = leftval*rightval; break; /* multiplication */
case '/': if ( rightval != 0 ) /* guard against divide by zero */
termval = leftval/rightval; break; /* integer division */
case '%': if ( rightval != 0 ) /* guard against divide by zero */
termval = leftval%rightval; break; /*left modulo right */
} /* --- end-of-switch(*relation) --- */
goto end_of_job; /* return result to caller */
} /* --- end-of-if(*term!='\000')) --- */
/* -------------------------------------------------------------------------
check for parenthesized expression or term of the form function(arg1,arg2,...)
-------------------------------------------------------------------------- */
if ( (delim = strchr(token,'(')) != NULL ) { /* token contains a ( */
/* --- strip trailing paren (if there hopefully is one) --- */
int toklen = strlen(token); /* total #chars in token */
if ( token[toklen-1] == ')' ) /* found matching ) at end of token*/
token[--toklen] = '\000'; /* remove trailing ) */
/* --- handle parenthesized subexpression --- */
if ( *token == '(' ) { /* have parenthesized expression */
strsqueeze(token,1); /* so squeeze out leading ( */
/* --- evaluate edited term --- */
trimwhite(token); /* trim leading/trailing whitespace*/
termval = evalterm(store,token); } /* evaluate token recursively */
/* --- handle function(arg1,arg2,...) --- */
else { /* have function(arg1,arg2,...) */
*delim = '\000'; /* separate function name and args */
/*termval = evalfunc(store,token,delim+1);*/ } /* evaluate function */
goto end_of_job; } /* return result to caller */
/* -------------------------------------------------------------------------
evaluate constants directly, or recursively evaluate variables, etc
-------------------------------------------------------------------------- */
if ( *token != '\000' ) { /* empty string */
if ( isnumeric(token) ) /* have a constant */
termval = atoi(token); /* convert ascii-to-int */
else { /* variable or "stored proposition"*/
termval = getstore(store,token); } /* look up token */
} /* --- end-of-if(*token!=0) --- */
/* -------------------------------------------------------------------------
back to caller with truth value of proposition
-------------------------------------------------------------------------- */
end_of_job:
/* --- back to caller --- */
if ( evaltermdepth > 0 ) evaltermdepth--; /* pop recursion depth */
return ( termval ); /* back to caller with value */
} /* --- end-of-function evalterm() --- */
/* ==========================================================================
* Function: getstore ( store, identifier )
* Purpose: finds identifier in store and returns corresponding value
* --------------------------------------------------------------------------
* Arguments: store (I) (STORE *)pointer to store containing
* the desired identifier
* identifier (I) (char *)pointer to null-terminated string
* containing the identifier whose value
* is to be returned
* --------------------------------------------------------------------------
* Returns: ( int ) identifier's corresponding value,
* or 0 if identifier not found (or any error)
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int getstore ( STORE *store, char *identifier )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int value = 0; /* store[istore].value for identifier */
int istore=0; /* store[] index containing identifier */
char seek[512], hide[512]; /* identifier arg, identifier in store */
/* --- first check args --- */
if ( store==NULL || isempty(identifier)) goto end_of_job; /* missing arg */
strninit(seek,identifier,500); /* local copy of caller's identifier */
trimwhite(seek); /* remove leading/trailing whitespace */
/* --- loop over store --- */
for ( istore=0; istorevalues[istore] or NULL */
} /* --- end-of-function getstore() --- */
/* ==========================================================================
* Functions: int unescape_url ( char *url, int isescape )
* char x2c ( char *what )
* Purpose: unescape_url replaces 3-character sequences %xx in url
* with the single character represented by hex xx.
* x2c returns the single character represented by hex xx
* passed as a 2-character sequence in what.
* --------------------------------------------------------------------------
* Arguments: url (I) char * containing null-terminated
* string with embedded %xx sequences
* to be converted.
* isescape (I) int containing 1 to _not_ unescape
* \% sequences (0 would be NCSA default)
* what (I) char * whose first 2 characters are
* interpreted as ascii representations
* of hex digits.
* --------------------------------------------------------------------------
* Returns: ( int ) unescape_url always returns 0.
* ( char ) x2c returns the single char
* corresponding to hex xx passed in what.
* --------------------------------------------------------------------------
* Notes: o These two functions were taken verbatim from util.c in
* ftp://ftp.ncsa.uiuc.edu/Web/httpd/Unix/ncsa_httpd/cgi/ncsa-default.tar.Z
* o Not quite "verbatim" -- I added the "isescape logic" 4-Dec-03
* so unescape_url() can be safely applied to input which may or
* may not have been url-encoded. (Note: currently, all calls
* to unescape_url() pass iescape=0, so it's not used.)
* o Added +++'s to blank xlation on 24-Sep-06
* o Added ^M,^F,etc to blank xlation 0n 01-Oct-06
* ======================================================================= */
/* --- entry point --- */
int unescape_url(char *url, int isescape) {
int x=0,y=0,prevescape=0,gotescape=0;
int xlateplus = (isplusblank==1?1:0); /* true to xlate plus to blank */
int strreplace(); /* replace + with blank, if needed */
char x2c();
static char *hex="0123456789ABCDEFabcdef";
/* ---
* xlate ctrl chars to blanks
* -------------------------- */
if ( 1 ) { /* xlate ctrl chars to blanks */
char *ctrlchars = "\n\t\v\b\r\f\a\015";
int seglen = strspn(url,ctrlchars); /*initial segment with ctrlchars*/
int urllen = strlen(url); /* total length of url string */
/* --- first, entirely remove ctrlchars from beginning and end --- */
if ( seglen > 0 ) { /*have ctrlchars at start of string*/
strsqueeze(url,seglen); /* squeeze out initial ctrlchars */
urllen -= seglen; } /* string is now shorter */
while ( --urllen >= 0 ) /* now remove ctrlchars from end */
if ( isthischar(url[urllen],ctrlchars) ) /* ctrlchar at end */
url[urllen] = '\000'; /* re-terminate string before it */
else break; /* or we're done */
urllen++; /* length of url string */
/* --- now, replace interior ctrlchars with ~ blanks --- */
while ( (seglen=strcspn(url,ctrlchars)) < urllen ) /*found a ctrlchar*/
url[seglen] = '~'; /* replace ctrlchar with ~ */
} /* --- end-of-if(1) --- */
/* ---
* xlate +'s to blanks if requested or if deemed necessary
* ------------------------------------------------------- */
if ( isplusblank == (-1) ) { /*determine whether or not to xlate*/
char *searchfor[] = { " ","%20", "%2B","%2b", "+++","++",
"+=+","+-+", NULL };
int isearch = 0, /* searchfor[] index */
nfound[11] = {-1,-1,-1,-1,-1,-1,-1,-1,-1,-1,-1}; /*#occurrences*/
/* --- locate occurrences of searchfor[] strings in url --- */
for ( isearch=0; searchfor[isearch] != NULL; isearch++ ) {
char *psearch = url; /* start search at beginning */
nfound[isearch] = 0; /* init #occurrences count */
while ( (psearch=strstr(psearch,searchfor[isearch])) != NULL ) {
nfound[isearch] += 1; /* count another occurrence */
psearch += strlen(searchfor[isearch]); } /*resume search after it*/
} /* --- end-of-for(isearch) --- */
/* --- apply some common-sense logic --- */
if ( nfound[0] + nfound[1] > 0 ) /* we have actual " "s or "%20"s */
isplusblank = xlateplus = 0; /* so +++'s aren't blanks */
if ( nfound[2] + nfound[3] > 0 ) { /* we have "%2B" for +++'s */
if ( isplusblank != 0 ) /* and haven't disabled xlation */
isplusblank = xlateplus = 1; /* so +++'s are blanks */
else /* we have _both_ "%20" and "%2b" */
xlateplus = 0; } /* tough call */
if ( nfound[4] + nfound[5] > 0 /* we have multiple ++'s */
|| nfound[6] + nfound[7] > 0 ) /* or we have a +=+ or +-+ */
if ( isplusblank != 0 ) /* and haven't disabled xlation */
xlateplus = 1; /* so xlate +++'s to blanks */
} /* --- end-of-if(isplusblank==-1) --- */
if ( xlateplus > 0 ) { /* want +'s xlated to blanks */
char *xlateto[] = { ""," "," "," + "," "," "," "," "," " };
while ( xlateplus > 0 ) { /* still have +++'s to xlate */
char plusses[99] = "++++++++++++++++++++"; /* longest +++ string */
plusses[xlateplus] = '\000'; /* null-terminate +++'s */
strreplace(url,plusses,xlateto[xlateplus],0); /* xlate +++'s */
xlateplus--; /* next shorter +++ string */
} /* --- end-of-while(xlateplus>0) --- */
} /* --- end-of-if(xlateplus) --- */
isplusblank = 0; /* don't iterate this xlation */
/* ---
* xlate %nn to corresponding char
* ------------------------------- */
for(;url[y];++x,++y) {
gotescape = prevescape;
prevescape = (url[x]=='\\');
if((url[x] = url[y]) == '%')
if(!isescape || !gotescape)
if(isthischar(url[y+1],hex)
&& isthischar(url[y+2],hex))
{ url[x] = x2c(&url[y+1]);
y+=2; }
}
url[x] = '\0';
return 0;
} /* --- end-of-function unescape_url() --- */
/* --- entry point --- */
char x2c(char *what) {
char digit;
digit = (what[0] >= 'A' ? ((what[0] & 0xdf) - 'A')+10 : (what[0] - '0'));
digit *= 16;
digit += (what[1] >= 'A' ? ((what[1] & 0xdf) - 'A')+10 : (what[1] - '0'));
return(digit);
} /* --- end-of-function x2c() --- */
#endif /* PART2 */
/* ---
* PART3
* ------ */
#if !defined(PARTS) || defined(PART3)
/* ==========================================================================
* Function: rasterize ( expression, size )
* Purpose: returns subraster corresponding to (a valid LaTeX) expression
* at font size
* --------------------------------------------------------------------------
* Arguments: expression (I) char * to first char of null-terminated
* string containing valid LaTeX expression
* to be rasterized
* size (I) int containing 0-4 default font size
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to expression,
* or NULL for any parsing error.
* --------------------------------------------------------------------------
* Notes: o This is mimeTeX's "main" reusable entry point. Easy to use:
* just call it with a LaTeX expression, and get back a bitmap
* of that expression. Then do what you want with the bitmap.
* ======================================================================= */
/* --- entry point --- */
subraster *rasterize ( char *expression, int size )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *preamble(), pretext[512]; /* process preamble, if present */
char chartoken[MAXSUBXSZ+1], *texsubexpr(), /*get subexpression from expr*/
*subexpr = chartoken; /* token may be parenthesized expr */
int isbrace(); /* check subexpr for braces */
mathchardef *symdef, *get_symdef(); /*get mathchardef struct for symbol*/
int ligdef, get_ligature(); /*get symtable[] index for ligature*/
int natoms=0; /* #atoms/tokens processed so far */
int type_raster(); /* display debugging output */
subraster *rasterize(), /* recurse */
*rastparen(), /* handle parenthesized subexpr's */
*rastlimits(); /* handle sub/superscripted expr's */
subraster *rastcat(), /* concatanate atom subrasters */
*subrastcpy(), /* copy final result if a charaster*/
*new_subraster(); /* new subraster for isstring mode */
subraster *get_charsubraster(), /* character subraster */
*sp=NULL, *prevsp=NULL, /* raster for current, prev char */
*expraster = (subraster *)NULL; /* raster returned to caller */
int delete_subraster(); /* free everything before returning*/
int family = fontinfo[fontnum].family; /* current font family */
int isleftscript = 0, /* true if left-hand term scripted */
wasscripted = 0, /* true if preceding token scripted*/
wasdelimscript = 0; /* true if preceding delim scripted*/
/*int pixsz = 1;*/ /*default #bits per pixel, 1=bitmap*/
char *strdetex(); /* detex token for error message */
/* --- global values saved/restored at each recursive iteration --- */
int wasstring = isstring, /* initial isstring mode flag */
wasdisplaystyle = isdisplaystyle, /*initial displaystyle mode flag*/
oldfontnum = fontnum, /* initial font family */
oldfontsize = fontsize, /* initial fontsize */
olddisplaysize = displaysize, /* initial \displaystyle size */
oldshrinkfactor = shrinkfactor, /* initial shrinkfactor */
oldsmashmargin = smashmargin, /* initial smashmargin */
oldissmashdelta = issmashdelta, /* initial issmashdelta */
oldisexplicitsmash = isexplicitsmash, /* initial isexplicitsmash */
oldisscripted = isscripted, /* initial isscripted */
*oldworkingparam = workingparam; /* initial working parameter */
subraster *oldworkingbox = workingbox, /* initial working box */
*oldleftexpression = leftexpression; /*left half rasterized so far*/
double oldunitlength = unitlength; /* initial unitlength */
mathchardef *oldleftsymdef = leftsymdef; /* init oldleftsymdef */
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
recurlevel++; /* wind up one more recursion level*/
leftexpression = NULL; /* no leading left half yet */
isreplaceleft = 0; /* reset replaceleft flag */
if(1)fraccenterline = NOVALUE; /* reset \frac baseline signal */
/* shrinkfactor = shrinkfactors[max2(0,min2(size,LARGESTSIZE))];*/ /*set sf*/
shrinkfactor = shrinkfactors[max2(0,min2(size,16))]; /* have 17 sf's */
rastlift = 0; /* reset global rastraise() lift */
if ( msgfp!=NULL && msglevel >= 9 ) { /*display expression for debugging*/
fprintf(msgfp,
"rasterize> recursion#%d, size=%d,\n\texpression=\"%s\"\n",
recurlevel,size,(expression==NULL?"":expression)); fflush(msgfp); }
if ( expression == NULL ) goto end_of_job; /* nothing given to do */
/* -------------------------------------------------------------------------
preocess optional $-terminated preamble preceding expression
-------------------------------------------------------------------------- */
expression = preamble(expression,&size,pretext); /* size may be modified */
if ( *expression == '\000' ) goto end_of_job; /* nothing left to do */
fontsize = size; /* start at requested size */
if ( isdisplaystyle == 1 ) /* displaystyle enabled but not set*/
if ( !ispreambledollars ) /* style fixed by $$...$$'s */
isdisplaystyle = (fontsize>=displaysize? 2:1); /*force at large fontsize*/
/* -------------------------------------------------------------------------
build up raster one character (or subexpression) at a time
-------------------------------------------------------------------------- */
while ( 1 )
{
/* --- kludge for \= cyrillic ligature --- */
isligature = 0; /* no ligature found yet */
family = fontinfo[fontnum].family; /* current font family */
if ( family == CYR10 ) /* may have cyrillic \= ligature */
if ( (ligdef = get_ligature(expression,family)) /*check for any ligature*/
>= 0 ) /* got some ligature */
if ( memcmp(symtable[ligdef].symbol,"\\=",2) == 0 ) /* starts with \= */
isligature = 1; /* signal \= ligature */
/* --- get next character/token or subexpression --- */
subexprptr = expression; /* ptr within expression to subexpr*/
expression = texsubexpr(expression,chartoken,0,LEFTBRACES,RIGHTBRACES,1,1);
subexpr = chartoken; /* "local" copy of chartoken ptr */
leftsymdef = NULL; /* no character identified yet */
sp = NULL; /* no subraster yet */
size = fontsize; /* in case reset by \tiny, etc */
/*isleftscript = isdelimscript;*/ /*was preceding term scripted delim*/
wasscripted = isscripted; /* true if preceding token scripted*/
wasdelimscript = isdelimscript; /* preceding \right delim scripted */
if(1)isscripted = 0; /* no subscripted expression yet */
isdelimscript = 0; /* reset \right delim scripted flag*/
/* --- debugging output --- */
if ( msgfp!=NULL && msglevel >= 9 ) { /* display chartoken for debugging */
fprintf(msgfp,
"rasterize> recursion#%d,atom#%d=\"%s\" (isligature=%d,isleftscript=%d)\n",
recurlevel,natoms+1,chartoken,isligature,isleftscript); fflush(msgfp); }
if ( expression == NULL /* no more tokens */
&& *subexpr == '\000' ) break; /* and this token empty */
if ( *subexpr == '\000' ) break; /* enough if just this token empty */
/* --- check for parenthesized subexpression --- */
if ( isbrace(subexpr,LEFTBRACES,1) ) /* got parenthesized subexpression */
{ if ( (sp=rastparen(&subexpr,size,prevsp)) /* rasterize subexpression */
== NULL ) continue; } /* flush it if failed to rasterize */
else /* --- single-character atomic token --- */
if ( !isthischar(*subexpr,SCRIPTS) ) /* scripts handled below */
{
/* --- first check for opening $ in \text{ if $n-m$ even} --- */
if ( istextmode /* we're in \text mode */
&& *subexpr=='$' && subexpr[1]=='\000' ) { /* and have an opening $ */
char *endptr=NULL, mathexpr[MAXSUBXSZ+1]; /* $expression$ in \text{ }*/
int exprlen = 0; /* length of $expression$ */
int textfontnum = fontnum; /* current text font number */
/*if ( (endptr=strrchr(expression,'$')) != NULL )*/ /*ptr to closing $*/
if ( (endptr=strchr(expression,'$')) != NULL ) /* ptr to closing $ */
exprlen = (int)(endptr-expression); /* #chars preceding closing $ */
else { /* no closing $ found */
exprlen = strlen(expression); /* just assume entire expression */
endptr = expression + (exprlen-1); } /*and push expression to '\000'*/
exprlen = min2(exprlen,MAXSUBXSZ); /* don't overflow mathexpr[] */
if ( exprlen > 0 ) { /* have something between $$ */
memcpy(mathexpr,expression,exprlen); /*local copy of math expression*/
mathexpr[exprlen] = '\000'; /* null-terminate it */
fontnum = 0; /* set math mode */
sp = rasterize(mathexpr,size); /* and rasterize $expression$ */
fontnum = textfontnum; } /* set back to text mode */
expression = endptr+1; /* push expression past closing $ */
} /* --- end-of-if(istextmode&&*subexpr=='$') --- */
else
/* --- otherwise, look up mathchardef for atomic token in table --- */
if ( (leftsymdef=symdef=get_symdef(chartoken)) /*mathchardef for token*/
== NULL ) /* lookup failed */
{ char literal[512] = "[?]"; /*display for unrecognized literal*/
int oldfontnum = fontnum; /* error display in default mode */
if ( msgfp!=NULL && msglevel >= 29 ) /* display unrecognized symbol*/
{ fprintf(msgfp,"rasterize> get_symdef() failed for \"%s\"\n",
chartoken); fflush(msgfp); }
sp = (subraster *)NULL; /* init to signal failure */
if ( warninglevel < 1 ) continue; /* warnings not wanted */
fontnum = 0; /* reset from \mathbb, etc */
if ( isthischar(*chartoken,ESCAPE) ) /* we got unrecognized \escape*/
{ /* --- so display literal {\rm~[\backslash~chartoken?]} --- */
strcpy(literal,"{\\rm~["); /* init error message token */
strcat(literal,strdetex(chartoken,0)); /* detex the token */
strcat(literal,"?]}"); } /* add closing ? and brace */
sp = rasterize(literal,size-1); /* rasterize literal token */
fontnum = oldfontnum; /* reset font family */
if ( sp == (subraster *)NULL ) continue; }/*flush if rasterize fails*/
else /* --- check if we have special handler to process this token --- */
if ( symdef->handler != NULL ) /* have a handler for this token */
{ int arg1=symdef->charnum, arg2=symdef->family, arg3=symdef->class;
if ( (sp = (subraster *) /* returned void* is subraster* */
(*(symdef->handler))(&expression,size,prevsp,arg1,arg2,arg3))==NULL)
continue; } /* flush token if handler failed */
else /* --- no handler, so just get subraster for this character --- */
if ( !isstring ) /* rasterizing */
{ if ( isligature ) /* found a ligature */
expression = subexprptr + strlen(symdef->symbol); /*push past it*/
if ( (sp=get_charsubraster(symdef,size)) /* get subraster */
== NULL ) continue; } /* flush token if failed */
else /* constructing ascii string */
{ char *symbol = symdef->symbol; /* symbol for ascii string */
int symlen = (symbol!=NULL?strlen(symbol):0); /*#chars in symbol*/
if ( symlen < 1 ) continue; /* no symbol for ascii string */
if ( (sp=new_subraster(symlen+1,1,8)) /* subraster for symbol */
== NULL ) continue; /* flush token if malloc failed */
sp->type = ASCIISTRING; /* set subraster type */
sp->symdef = symdef; /* and set symbol definition */
sp->baseline = 1; /* default (should be unused) */
strcpy((char *)((sp->image)->pixmap),symbol); /* copy symbol */
/*((char *)((sp->image)->pixmap))[symlen] = '\000';*/ } /*null*/
} /* --- end-of-if(!isthischar(*subexpr,SCRIPTS)) --- */
/* --- handle any super/subscripts following symbol or subexpression --- */
sp = rastlimits(&expression,size,sp);
isleftscript = (wasscripted||wasdelimscript?1:0);/*preceding term scripted*/
/* --- debugging output --- */
if ( msgfp!=NULL && msglevel >= 9 ) { /* display raster for debugging */
fprintf(msgfp,"rasterize> recursion#%d,atom#%d%s\n",
recurlevel,natoms+1,(sp==NULL?" = ":"..."));
if ( msglevel >= 9 ) fprintf(msgfp,
" isleftscript=%d is/wasscripted=%d,%d is/wasdelimscript=%d,%d\n",
isleftscript,isscripted,wasscripted,isdelimscript,wasdelimscript);
if ( msglevel >= 99 )
if(sp!=NULL) type_raster(sp->image,msgfp); /* display raster */
fflush(msgfp); } /* flush msgfp buffer */
/* --- accumulate atom or parenthesized subexpression --- */
if ( natoms < 1 /* nothing previous to concat */
|| expraster == NULL /* or previous was complete error */
|| isreplaceleft ) /* or we're replacing previous */
{ if ( 1 && expraster!=NULL ) /* probably replacing left */
delete_subraster(expraster); /* so first free original left */
expraster = subrastcpy(sp); /* copy static CHARASTER or left */
isreplaceleft = 0; } /* reset replacement flag */
else /*we've already built up atoms so...*/
if ( sp != NULL ) { /* ...if we have a new term */
int prevsmashmargin = smashmargin; /* save current smash margin */
if ( isleftscript ) { /* don't smash against scripts */
isdelimscript = 0; /* reset \right delim scripted flag*/
if ( !isexplicitsmash ) smashmargin = 0; } /* signal no smash wanted */
expraster = rastcat(expraster,sp,1); /* concat new term, free previous */
smashmargin = prevsmashmargin; } /* restore current smash margin */
delete_subraster(prevsp); /* free prev (if not a CHARASTER) */
prevsp = sp; /* current becomes previous */
leftexpression = expraster; /* left half rasterized so far */
/* --- bump count --- */
natoms++; /* bump #atoms count */
} /* --- end-of-while(expression!=NULL) --- */
/* -------------------------------------------------------------------------
back to caller with rasterized expression
-------------------------------------------------------------------------- */
end_of_job:
delete_subraster(prevsp); /* free last (if not a CHARASTER) */
/* --- debugging output --- */
if ( msgfp!=NULL && msglevel >= 999 ) /* display raster for debugging */
{ fprintf(msgfp,"rasterize> Final recursion level=%d, atom#%d...\n",
recurlevel,natoms);
if ( expraster != (subraster *)NULL ) /* i.e., if natoms>0 */
type_raster(expraster->image,msgfp); /* display completed raster */
fflush(msgfp); } /* flush msgfp buffer */
/* --- set final raster buffer --- */
if ( 1 && expraster != (subraster *)NULL ) /* have an expression */
{ int type = expraster->type; /* type of constructed image */
if ( type != FRACRASTER ) /* leave \frac alone */
expraster->type = IMAGERASTER; /* set type to constructed image */
if ( istextmode ) /* but in text mode */
expraster->type = blanksignal; /* set type to avoid smash */
expraster->size = fontsize; } /* set original input font size */
/* --- restore flags/values to original saved values --- */
isstring = wasstring; /* string mode reset */
isdisplaystyle = wasdisplaystyle; /* displaystyle mode reset */
fontnum = oldfontnum; /* font family reset */
fontsize = oldfontsize; /* fontsize reset */
displaysize = olddisplaysize; /* \displaystyle size reset */
shrinkfactor = oldshrinkfactor; /* shrinkfactor reset */
smashmargin = oldsmashmargin; /* smashmargin reset */
issmashdelta = oldissmashdelta; /* issmashdelta reset */
isexplicitsmash = oldisexplicitsmash; /* isexplicitsmash reset */
isscripted = oldisscripted; /* isscripted reset */
workingparam = oldworkingparam; /* working parameter reset */
workingbox = oldworkingbox; /* working box reset */
leftexpression = oldleftexpression; /* leftexpression reset */
leftsymdef = oldleftsymdef; /* leftsymdef reset */
unitlength = oldunitlength; /* unitlength reset */
iunitlength = (int)(unitlength+0.5); /* iunitlength reset */
recurlevel--; /* unwind one recursion level */
/* --- return final subraster to caller --- */
return ( expraster );
} /* --- end-of-function rasterize() --- */
/* ==========================================================================
* Function: rastparen ( subexpr, size, basesp )
* Purpose: parentheses handler, returns a subraster corresponding to
* parenthesized subexpression at font size
* --------------------------------------------------------------------------
* Arguments: subexpr (I) char ** to first char of null-terminated
* string beginning with a LEFTBRACES
* to be rasterized
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding leading left{
* (unused, but passed for consistency)
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to subexpr,
* or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o This "handler" isn't in the mathchardef symbol table,
* but is called directly from rasterize(), as necessary.
* o Though subexpr is returned unchanged, it's passed as char **
* for consistency with other handlers. Ditto, basesp is unused
* but passed for consistency
* ======================================================================= */
/* --- entry point --- */
subraster *rastparen ( char **subexpr, int size, subraster *basesp )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *expression = *subexpr; /* dereference subexpr to get char* */
int explen = strlen(expression); /* total #chars, including parens */
int isescape = 0, /* true if parens \escaped */
isrightdot = 0, /* true if right paren is \right. */
isleftdot = 0; /* true if left paren is \left. */
char left[32], right[32]; /* parens enclosing expresion */
char noparens[MAXSUBXSZ+1]; /* get subexpr without parens */
subraster *rasterize(), *sp=NULL; /* rasterize what's between ()'s */
int isheight = 1; /*true=full height, false=baseline*/
int height, /* height of rasterized noparens[] */
baseline; /* and its baseline */
int family = /*CMSYEX*/ CMEX10; /* family for paren chars */
subraster *get_delim(), *lp=NULL, *rp=NULL; /* left and right paren chars */
subraster *rastcat(); /* concatanate subrasters */
int delete_subraster(); /*in case of error after allocation*/
/* -------------------------------------------------------------------------
rasterize "interior" of expression, i.e., without enclosing parens
-------------------------------------------------------------------------- */
/* --- first see if enclosing parens are \escaped --- */
if ( isthischar(*expression,ESCAPE) ) /* expression begins with \escape */
isescape = 1; /* so set flag accordingly */
/* --- get expression *without* enclosing parens --- */
strcpy(noparens,expression); /* get local copy of expression */
noparens[explen-(1+isescape)] = '\000'; /* null-terminate before right} */
strsqueeze(noparens,(1+isescape)); /* and then squeeze out left{ */
/* --- rasterize it --- */
if ( (sp = rasterize(noparens,size)) /*rasterize "interior" of expression*/
== NULL ) goto end_of_job; /* quit if failed */
/* --- no need to add parentheses for unescaped { --- */
if ( !isescape && isthischar(*expression,"{") ) /* don't add parentheses */
goto end_of_job; /* just return sp to caller */
/* -------------------------------------------------------------------------
obtain paren characters to enclose noparens[] raster with
-------------------------------------------------------------------------- */
/* --- first get left and right parens from expression --- */
memset(left,0,16); memset(right,0,16); /* init parens with nulls */
left[0] = *(expression+isescape); /* left{ is 1st or 2nd char */
right[0] = *(expression+explen-1); /* right} is always last char */
isleftdot = (isescape && isthischar(*left,".")); /* true if \left. */
isrightdot = (isescape && isthischar(*right,".")); /* true if \right. */
/* --- need height of noparens[] raster as minimum parens height --- */
height = (sp->image)->height; /* height of noparens[] raster */
baseline = sp->baseline; /* baseline of noparens[] raster */
if ( !isheight ) height = baseline+1; /* parens only enclose baseline up */
/* --- get best-fit parentheses characters --- */
if ( !isleftdot ) /* if not \left. */
lp = get_delim(left,height+1,family); /* get left paren char */
if ( !isrightdot ) /* and if not \right. */
rp = get_delim(right,height+1,family); /* get right paren char */
if ( (lp==NULL && !isleftdot) /* check that we got left( */
|| (rp==NULL && !isrightdot) ) /* and right) if needed */
{ delete_subraster(sp); /* if failed, free subraster */
if ( lp != NULL ) free ((void *)lp);/*free left-paren subraster envelope*/
if ( rp != NULL ) free ((void *)rp);/*and right-paren subraster envelope*/
sp = (subraster *)NULL; /* signal error to caller */
goto end_of_job; } /* and quit */
/* -------------------------------------------------------------------------
set paren baselines to center on noparens[] raster, and concat components
-------------------------------------------------------------------------- */
/* --- set baselines to center paren chars on raster --- */
if ( lp != NULL ) /* ignore for \left. */
lp->baseline = baseline + ((lp->image)->height - height)/2;
if ( rp != NULL ) /* ignore for \right. */
rp->baseline = baseline + ((rp->image)->height - height)/2;
/* --- concat lp||sp||rp to obtain final result --- */
if ( lp != NULL ) /* ignore \left. */
sp = rastcat(lp,sp,3); /* concat lp||sp and free sp,lp */
if ( sp != NULL ) /* succeeded or ignored \left. */
if ( rp != NULL ) /* ignore \right. */
sp = rastcat(sp,rp,3); /* concat sp||rp and free sp,rp */
/* --- back to caller --- */
end_of_job:
return ( sp );
} /* --- end-of-function rastparen() --- */
/* ==========================================================================
* Function: rastlimits ( expression, size, basesp )
* Purpose: \limits, \nolimts, _ and ^ handler,
* dispatches call to rastscripts() or to rastdispmath()
* as necessary, to handle sub/superscripts following symbol
* --------------------------------------------------------------------------
* Arguments: expression (I) char ** to first char of null-terminated
* LaTeX expression (unused/unchanged)
* size (I) int containing base font size (not used,
* just stored in subraster)
* basesp (I) subraster * to current character (or
* subexpression) immediately preceding script
* indicator
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster returned by rastscripts()
* or rastdispmath(), or NULL for any error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastlimits ( char **expression, int size, subraster *basesp )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *rastscripts(), *rastdispmath(), /*one of these will do the work*/
*rastcat(), /* may need to concat scripts */
*rasterize(), /* may need to construct dummy base*/
*scriptsp = basesp, /* and this will become the result */
*dummybase = basesp; /* for {}_i construct a dummy base */
int isdisplay = (-1); /* set 1 for displaystyle, else 0 */
int oldsmashmargin = smashmargin; /* save original smashmargin */
int type_raster(); /* display debugging output */
int delete_subraster(); /* free dummybase, if necessary */
int rastsmashcheck(); /* check if okay to smash scripts */
/* --- to check for \limits or \nolimits preceding scripts --- */
char *texchar(), *exprptr=*expression, limtoken[255]; /*check for \limits*/
int toklen=0; /* strlen(limtoken) */
mathchardef *tokdef, *get_symdef(); /* mathchardef struct for limtoken */
int class=(leftsymdef==NULL?NOVALUE:leftsymdef->class); /*base sym class*/
/* -------------------------------------------------------------------------
determine whether or not to use displaymath
-------------------------------------------------------------------------- */
scriptlevel++; /* first, increment subscript level*/
*limtoken = '\000'; /* no token yet */
isscripted = 0; /* signal term not (text) scripted */
if ( msgfp!=NULL && msglevel>=999 )
{ fprintf(msgfp,"rastlimits> scriptlevel#%d exprptr=%.48s\n",
scriptlevel,(exprptr==NULL?"null":exprptr)); fflush(msgfp); }
if ( isstring ) goto end_of_job; /* no scripts for ascii string */
/* --- check for \limits or \nolimits --- */
skipwhite(exprptr); /* skip white space before \limits */
if ( !isempty(exprptr) ) /* non-empty expression supplied */
exprptr = texchar(exprptr,limtoken); /* retrieve next token */
if ( *limtoken != '\000' ) /* have token */
if ( (toklen=strlen(limtoken)) >= 3 ) /* which may be \[no]limits */
if ( memcmp("\\limits",limtoken,toklen) == 0 /* may be \limits */
|| memcmp("\\nolimits",limtoken,toklen) == 0 ) /* or may be \nolimits */
if ( (tokdef= get_symdef(limtoken)) /* look up token to be sure */
!= NULL ) { /* found token in table */
if ( strcmp("\\limits",tokdef->symbol) == 0 ) /* found \limits */
isdisplay = 1; /* so explicitly set displaymath */
else /* wasn't \limits */
if ( strcmp("\\nolimits",tokdef->symbol) == 0 ) /* found \nolimits */
isdisplay = 0; } /* so explicitly reset displaymath */
/* --- see if we found \[no]limits --- */
if ( isdisplay != (-1) ) /* explicit directive found */
*expression = exprptr; /* so bump expression past it */
else /* noexplicit directive */
{ isdisplay = 0; /* init displaymath flag off */
if ( isdisplaystyle ) { /* we're in displaystyle math mode */
if ( isdisplaystyle >= 5 ) /* and mode irrevocably forced true */
{ if ( class!=OPENING && class!=CLOSING ) /*don't force ('s and )'s*/
isdisplay = 1; } /* set flag if mode forced true */
else
if ( isdisplaystyle >= 2 ) /*or mode forced conditionally true*/
{ if ( class!=VARIABLE && class!=ORDINARY /*don't force characters*/
&& class!=OPENING && class!=CLOSING /*don't force ('s and )'s*/
&& class!=BINARYOP /* don't force binary operators */
&& class!=NOVALUE ) /* finally, don't force "images" */
isdisplay = 1; } /* set flag if mode forced true */
else /* determine mode from base symbol */
if ( class == DISPOPER ) /* it's a displaystyle operator */
isdisplay = 1; } } /* so set flag */
/* -------------------------------------------------------------------------
dispatch call to create sub/superscripts
-------------------------------------------------------------------------- */
if ( isdisplay ) /* scripts above/below base symbol */
scriptsp = rastdispmath(expression,size,basesp); /* everything all done */
else { /* scripts alongside base symbol */
if ( dummybase == NULL ) /* no base symbol preceding scripts*/
dummybase = rasterize("\\rule0{10}",size); /*guess a typical base symbol*/
issmashokay = 1; /*haven't found a no-smash char yet*/
if((scriptsp=rastscripts(expression,size,dummybase)) == NULL) /*no scripts*/
scriptsp = basesp; /* so just return unscripted symbol*/
else { /* symbols followed by scripts */
isscripted = 1; /*signal current term text-scripted*/
if ( basesp != NULL ) /* have base symbol */
{ /*if(0)smashmargin = 0;*/ /*don't smash script (doesn't work)*/
/*scriptsp = rastcat(basesp,scriptsp,2);*//*concat scripts to base sym*/
/* --- smash (or just concat) script raster against base symbol --- */
if ( !issmashokay ) /* don't smash leading - */
if ( !isexplicitsmash ) scriptsp->type = blanksignal; /*don't smash*/
scriptsp = rastcat(basesp,scriptsp,3); /*concat scripts to base sym*/
if(1) scriptsp->type = IMAGERASTER; /* flip type of composite object */
/* --- smash (or just concat) scripted term to stuff to its left --- */
issmashokay = 1; /* okay to smash base expression */
if ( 0 && smashcheck > 1 ) /* smashcheck=2 to check base */
/* note -- we _don't_ have base expression available to check */
issmashokay = rastsmashcheck(*expression); /*check if okay to smash*/
if ( !issmashokay ) /* don't smash leading - */
if ( !isexplicitsmash ) scriptsp->type = blanksignal; /*don't smash*/
scriptsp->size = size; } } } /* and set font size */
end_of_job:
smashmargin = oldsmashmargin; /* reset original smashmargin */
if ( dummybase != basesp ) delete_subraster(dummybase); /*free work area*/
if ( msgfp!=NULL && msglevel>=99 )
{ fprintf(msgfp,"rastlimits> scriptlevel#%d returning %s\n",
scriptlevel,(scriptsp==NULL?"null":"..."));
if ( scriptsp != NULL ) /* have a constructed raster */
type_raster(scriptsp->image,msgfp); /*display constructed raster*/
fflush(msgfp); }
scriptlevel--; /*lastly, decrement subscript level*/
return ( scriptsp );
} /* --- end-of-function rastlimits() --- */
/* ==========================================================================
* Function: rastscripts ( expression, size, basesp )
* Purpose: super/subscript handler, returns subraster for the leading
* scripts in expression, whose base symbol is at font size
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string beginning with a super/subscript,
* and returning ptr immediately following
* last script character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding leading script
* (scripts will be placed relative to base)
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to scripts,
* or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o This "handler" isn't in the mathchardef symbol table,
* but is called directly from rasterize(), as necessary.
* ======================================================================= */
/* --- entry point --- */
subraster *rastscripts ( char **expression, int size, subraster *basesp )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texscripts(), /* parse expression for scripts */
subscript[512], supscript[512]; /* scripts parsed from expression */
subraster *rasterize(), *subsp=NULL, *supsp=NULL; /* rasterize scripts */
subraster *new_subraster(), *sp=NULL, /* super- over subscript subraster */
*rastack(); /*sets scripts in displaymath mode*/
raster *rp=NULL; /* image raster embedded in sp */
int height=0, width=0, baseline=0, /* height,width,baseline of sp */
subht=0, subwidth=0, subln=0, /* height,width,baseline of sub */
supht=0, supwidth=0, supln=0, /* height,width,baseline of sup */
baseht=0, baseln=0; /* height,baseline of base */
int bdescend=0, sdescend=0; /* descender of base, subscript */
int issub=0, issup=0, isboth=0, /* true if we have sub,sup,both */
isbase=0; /* true if we have base symbol */
int szval = min2(max2(size,0),LARGESTSIZE), /* 0...LARGESTSIZE */
vbetween = 2, /* vertical space between scripts */
vabove = szval+1, /*sup's top/bot above base's top/bot*/
vbelow = szval+1, /*sub's top/bot below base's top/bot*/
vbottom = szval+1; /*sup's bot above (sub's below) bsln*/
/*int istweak = 1;*/ /* true to tweak script positioning */
int rastput(); /*put scripts in constructed raster*/
int delete_subraster(); /* free work areas */
int rastsmashcheck(); /* check if okay to smash scripts */
int pixsz = 1; /*default #bits per pixel, 1=bitmap*/
/* -------------------------------------------------------------------------
Obtain subscript and/or superscript expressions, and rasterize them/it
-------------------------------------------------------------------------- */
/* --- parse for sub,superscript(s), and bump expression past it(them) --- */
if ( expression == NULL ) goto end_of_job; /* no *ptr given */
if ( *expression == NULL ) goto end_of_job; /* no expression given */
if ( *(*expression) == '\000' ) goto end_of_job; /* nothing in expression */
*expression = texscripts(*expression,subscript,supscript,3);
/* --- rasterize scripts --- */
if ( *subscript != '\000' ) /* have a subscript */
subsp = rasterize(subscript,size-1); /* so rasterize it at size-1 */
if ( *supscript != '\000' ) /* have a superscript */
supsp = rasterize(supscript,size-1); /* so rasterize it at size-1 */
/* --- set flags for convenience --- */
issub = (subsp != (subraster *)NULL); /* true if we have subscript */
issup = (supsp != (subraster *)NULL); /* true if we have superscript */
isboth = (issub && issup); /* true if we have both */
if (!issub && !issup) goto end_of_job; /* quit if we have neither */
/* --- check for leading no-smash chars (if enabled) --- */
issmashokay = 0; /* default, don't smash scripts */
if ( smashcheck > 0 ) { /* smash checking wanted */
issmashokay = 1; /*haven't found a no-smash char yet*/
if ( issub ) /* got a subscript */
issmashokay = rastsmashcheck(subscript); /* check if okay to smash */
if ( issmashokay ) /* clean sub, so check sup */
if ( issup ) /* got a superscript */
issmashokay = rastsmashcheck(supscript); /* check if okay to smash */
} /* --- end-of-if(smashcheck>0) --- */
/* -------------------------------------------------------------------------
get height, width, baseline of scripts, and height, baseline of base symbol
-------------------------------------------------------------------------- */
/* --- get height and width of components --- */
if ( issub ) /* we have a subscript */
{ subht = (subsp->image)->height; /* so get its height */
subwidth = (subsp->image)->width; /* and width */
subln = subsp->baseline; } /* and baseline */
if ( issup ) /* we have a superscript */
{ supht = (supsp->image)->height; /* so get its height */
supwidth = (supsp->image)->width; /* and width */
supln = supsp->baseline; } /* and baseline */
/* --- get height and baseline of base, and descender of base and sub --- */
if ( basesp == (subraster *)NULL ) /* no base symbol for scripts */
basesp = leftexpression; /* try using left side thus far */
if ( basesp != (subraster *)NULL ) /* we have base symbol for scripts */
{ baseht = (basesp->image)->height; /* height of base symbol */
baseln = basesp->baseline; /* and its baseline */
bdescend = baseht-(baseln+1); /* and base symbol descender */
sdescend = bdescend + vbelow; /*sub must descend by at least this*/
if ( baseht > 0 ) isbase = 1; } /* set flag */
/* -------------------------------------------------------------------------
determine width of constructed raster
-------------------------------------------------------------------------- */
width = max2(subwidth,supwidth); /*widest component is overall width*/
/* -------------------------------------------------------------------------
determine height and baseline of constructed raster
-------------------------------------------------------------------------- */
/* --- both super/subscript --- */
if ( isboth ) /*we have subscript and superscript*/
{ height = max2(subht+vbetween+supht, /* script heights + space bewteen */
vbelow+baseht+vabove); /*sub below base bot, sup above top*/
baseline = baseln + (height-baseht)/2; } /*center scripts on base symbol*/
/* --- superscript only --- */
if ( !issub ) /* we only have a superscript */
{ height = max3(baseln+1+vabove, /* sup's top above base symbol top */
supht+vbottom, /* sup's bot above baseln */
supht+vabove-bdescend); /* sup's bot above base symbol bot */
baseline = height-1; } /*sup's baseline at bottom of raster*/
/* --- subscript only --- */
if ( !issup ) { /* we only have a subscript */
if ( subht > sdescend ) /*sub can descend below base bot...*/
{ height = subht; /* ...without extra space on top */
baseline = height-(sdescend+1); /* sub's bot below base symbol bot */
baseline = min2(baseline,max2(baseln-vbelow,0)); }/*top below base top*/
else /* sub's top will be below baseln */
{ height = sdescend+1; /* sub's bot below base symbol bot */
baseline = 0; } } /* sub's baseline at top of raster */
/* -------------------------------------------------------------------------
construct raster with superscript over subscript
-------------------------------------------------------------------------- */
/* --- allocate subraster containing constructed raster --- */
if ( (sp=new_subraster(width,height,pixsz)) /*allocate subraster and raster*/
== NULL ) /* and if we fail to allocate */
goto end_of_job; /* quit */
/* --- initialize subraster parameters --- */
sp->type = IMAGERASTER; /* set type as constructed image */
sp->size = size; /* set given size */
sp->baseline = baseline; /* composite scripts baseline */
rp = sp->image; /* raster embedded in subraster */
/* --- place super/subscripts in new raster --- */
if ( issup ) /* we have a superscript */
rastput(rp,supsp->image,0,0,1); /* it goes in upper-left corner */
if ( issub ) /* we have a subscript */
rastput(rp,subsp->image,height-subht,0,1); /*in lower-left corner*/
/* -------------------------------------------------------------------------
free unneeded component subrasters and return final result to caller
-------------------------------------------------------------------------- */
end_of_job:
if ( issub ) delete_subraster(subsp); /* free unneeded subscript */
if ( issup ) delete_subraster(supsp); /* and superscript */
return ( sp );
} /* --- end-of-function rastscripts() --- */
/* ==========================================================================
* Function: rastdispmath ( expression, size, sp )
* Purpose: displaymath handler, returns sp along with
* its immediately following super/subscripts
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following sp to be
* rasterized along with its super/subscripts,
* and returning ptr immediately following last
* character processed.
* size (I) int containing 0-7 default font size
* sp (I) subraster * to display math operator
* to which super/subscripts will be added
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to sp
* plus its scripts, or NULL for any error
* --------------------------------------------------------------------------
* Notes: o sp returned unchanged if no super/subscript(s) follow it.
* ======================================================================= */
/* --- entry point --- */
subraster *rastdispmath ( char **expression, int size, subraster *sp )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texscripts(), /* parse expression for scripts */
subscript[512], supscript[512]; /* scripts parsed from expression */
int issub=0, issup=0; /* true if we have sub,sup */
subraster *rasterize(), *subsp=NULL, *supsp=NULL, /* rasterize scripts */
*rastack(), /* stack operator with scripts */
*new_subraster(); /* for dummy base sp, if needed */
int vspace = 1; /* vertical space between scripts */
/* -------------------------------------------------------------------------
Obtain subscript and/or superscript expressions, and rasterize them/it
-------------------------------------------------------------------------- */
/* --- parse for sub,superscript(s), and bump expression past it(them) --- */
if ( expression == NULL ) goto end_of_job; /* no *ptr given */
if ( *expression == NULL ) goto end_of_job; /* no expression given */
if ( *(*expression) == '\000' ) goto end_of_job; /* nothing in expression */
*expression = texscripts(*expression,subscript,supscript,3);
/* --- rasterize scripts --- */
if ( *subscript != '\000' ) /* have a subscript */
subsp = rasterize(subscript,size-1); /* so rasterize it at size-1 */
if ( *supscript != '\000' ) /* have a superscript */
supsp = rasterize(supscript,size-1); /* so rasterize it at size-1 */
/* --- set flags for convenience --- */
issub = (subsp != (subraster *)NULL); /* true if we have subscript */
issup = (supsp != (subraster *)NULL); /* true if we have superscript */
if (!issub && !issup) goto end_of_job; /*return operator alone if neither*/
/* -------------------------------------------------------------------------
stack operator and its script(s)
-------------------------------------------------------------------------- */
/* --- stack superscript atop operator --- */
if ( issup ) { /* we have a superscript */
if ( sp == NULL ) /* but no base expression */
sp = supsp; /* so just use superscript */
else /* have base and superscript */
if ( (sp=rastack(sp,supsp,1,vspace,1,3)) /* stack supsp atop base sp */
== NULL ) goto end_of_job; } /* and quit if failed */
/* --- stack operator+superscript atop subscript --- */
if ( issub ) { /* we have a subscript */
if ( sp == NULL ) /* but no base expression */
sp = subsp; /* so just use subscript */
else /* have base and subscript */
if ( (sp=rastack(subsp,sp,2,vspace,1,3)) /* stack sp atop base subsp */
== NULL ) goto end_of_job; } /* and quit if failed */
sp->type = IMAGERASTER; /* flip type of composite object */
sp->size = size; /* and set font size */
/* -------------------------------------------------------------------------
free unneeded component subrasters and return final result to caller
-------------------------------------------------------------------------- */
end_of_job:
return ( sp );
} /* --- end-of-function rastdispmath() --- */
/* ==========================================================================
* Function: rastleft ( expression, size, basesp, ildelim, arg2, arg3 )
* Purpose: \left...\right handler, returns a subraster corresponding to
* delimited subexpression at font size
* --------------------------------------------------------------------------
* Arguments: expression (I) char ** to first char of null-terminated
* string beginning with a \left
* to be rasterized
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding leading left{
* (unused, but passed for consistency)
* ildelim (I) int containing ldelims[] index of
* left delimiter
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to subexpr,
* or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastleft ( char **expression, int size, subraster *basesp,
int ildelim, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *rasterize(), *sp=NULL; /*rasterize between \left...\right*/
subraster *get_delim(), *lp=NULL, *rp=NULL; /* left and right delim chars */
subraster *rastlimits(); /*handle sub/super scripts on lp,rp*/
subraster *rastcat(); /* concat lp||sp||rp subrasters */
int family=CMSYEX, /* get_delim() family */
height=0, rheight=0, /* subexpr, right delim height */
margin=(size+1), /* delim height margin over subexpr*/
opmargin=(5); /* extra margin for \int,\sum,\etc */
char /* *texleft(),*/ subexpr[MAXSUBXSZ+1];/*chars between \left...\right*/
char *texchar(), /* get delims after \left,\right */
ldelim[256]=".", rdelim[256]="."; /* delims following \left,\right */
char *strtexchr(), *pleft, *pright; /*locate \right matching our \left*/
int isleftdot=0, isrightdot=0; /* true if \left. or \right. */
int isleftscript=0, isrightscript=0; /* true if delims are scripted */
int sublen=0; /* strlen(subexpr) */
int idelim=0; /* 1=left,2=right */
/* int gotldelim = 0; */ /* true if ildelim given by caller */
int delete_subraster(); /* free subraster if rastleft fails*/
int wasdisplaystyle = isdisplaystyle; /* save current displaystyle */
int istextleft=0, istextright=0; /* true for non-displaystyle delims*/
/* --- recognized delimiters --- */
static char left[16]="\\left", right[16]="\\right"; /* tex delimiters */
static char *ldelims[] = {
"unused", ".", /* 1 for \left., \right. */
"(", ")", /* 2,3 for \left(, \right) */
"\\{","\\}", /* 4,5 for \left\{, \right\} */
"[", "]", /* 6,7 for \left[, \right] */
"<", ">", /* 8,9 for \left<, \right> */
"|", "\\|", /* 10,11 for \left,\right |,\|*/
NULL };
/* --- recognized operator delimiters --- */
static char *opdelims[] = { /* operator delims from cmex10 */
"int", "sum", "prod",
"cup", "cap", "dot",
"plus", "times", "wedge",
"vee",
NULL }; /* --- end-of-opdelims[] --- */
/* --- delimiter xlation --- */
static char *xfrom[] = /* xlate any delim suffix... */
{ "\\|", /* \| */
"\\{", /* \{ */
"\\}", /* \} */
"\\lbrace", /* \lbrace */
"\\rbrace", /* \rbrace */
"\\langle", /* \langle */
"\\rangle", /* \rangle */
NULL } ; /* --- end-of-xfrom[] --- */
static char *xto[] = /* ...to this instead */
{ "=", /* \| to = */
"{", /* \{ to { */
"}", /* \} to } */
"{", /* \lbrace to { */
"}", /* \rbrace to } */
"<", /* \langle to < */
">", /* \rangle to > */
NULL } ; /* --- end-of-xto[] --- */
/* --- non-displaystyle delimiters --- */
static char *textdelims[] = /* these delims _aren't_ display */
{ "|", "=",
"(", ")",
"[", "]",
"<", ">",
"{", "}",
"dbl", /* \lbrackdbl and \rbrackdbl */
NULL } ; /* --- end-of-textdelims[] --- */
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- check args --- */
if ( *(*expression) == '\000' ) goto end_of_job; /* nothing after \left */
/* --- determine left delimiter, and set default \right. delimiter --- */
if ( ildelim!=NOVALUE && ildelim>=1 ) /* called with explicit left delim */
{ strcpy(ldelim,ldelims[ildelim]); /* so just get a local copy */
/* gotldelim = 1; */ } /* and set flag that we got it */
else /* trapped \left without delim */
{ skipwhite(*expression); /* interpret \left ( as \left( */
if ( *(*expression) == '\000' ) /* end-of-string after \left */
goto end_of_job; /* so return NULL */
*expression = texchar(*expression,ldelim); /*pull delim from expression*/
if ( *expression == NULL /* probably invalid end-of-string */
|| *ldelim == '\000' ) goto end_of_job; } /* no delimiter */
strcpy(rdelim,"."); /* init default \right. delim */
/* -------------------------------------------------------------------------
locate \right balancing our opening \left
-------------------------------------------------------------------------- */
/* --- first \right following \left --- */
if ( (pright=strtexchr(*expression,right)) /* look for \right after \left */
!= NULL ) { /* found it */
/* --- find matching \right by pushing past any nested \left's --- */
pleft = *expression; /* start after first \left( */
while ( 1 ) { /*break when matching \right found*/
/* -- locate next nested \left if there is one --- */
if ( (pleft=strtexchr(pleft,left)) /* find next \left */
== NULL ) break; /*no more, so matching \right found*/
pleft += strlen(left); /* push ptr past \left token */
if ( pleft >= pright ) break; /* not nested if \left after \right*/
/* --- have nested \left, so push forward to next \right --- */
if ( (pright=strtexchr(pright+strlen(right),right)) /* find next \right */
== NULL ) break; /* ran out of \right's */
} /* --- end-of-while(1) --- */
} /* --- end-of-if(pright!=NULL) --- */
/* -------------------------------------------------------------------------
push past \left(_a^b sub/superscripts, if present
-------------------------------------------------------------------------- */
pleft = *expression; /*reset pleft after opening \left( */
if ( (lp=rastlimits(expression,size,lp)) /*dummy call push expression past b*/
!= NULL ) /* found actual _a^b scripts, too */
{ delete_subraster(lp); /* but we don't need them */
lp = NULL; } /* reset pointer, too */
/* -------------------------------------------------------------------------
get \right delimiter and subexpression between \left...\right, xlate delims
-------------------------------------------------------------------------- */
/* --- get delimiter following \right --- */
if ( pright == (char *)NULL ) { /* assume \right. at end of exprssn*/
strcpy(rdelim,"."); /* set default \right. */
sublen = strlen(*expression); /* use entire remaining expression */
memcpy(subexpr,*expression,sublen); /* copy all remaining chars */
*expression += sublen; } /* and push expression to its null */
else { /* have explicit matching \right */
sublen = (int)(pright-(*expression)); /* #chars between \left...\right */
memcpy(subexpr,*expression,sublen); /* copy chars preceding \right */
*expression = pright+strlen(right); /* push expression past \right */
skipwhite(*expression); /* interpret \right ) as \right) */
*expression = texchar(*expression,rdelim); /*pull delim from expression*/
if ( *rdelim == '\000' ) strcpy(rdelim,"."); } /* \right. if no rdelim */
/* --- get subexpression between \left...\right --- */
if ( sublen < 1 ) goto end_of_job; /* nothing between delimiters */
subexpr[sublen] = '\000'; /* and null-terminate it */
/* --- adjust margin for expressions containing \middle's --- */
if ( strtexchr(subexpr,"\\middle") != NULL ) /* have enclosed \middle's */
margin = 1; /* so don't "overwhelm" them */
/* --- check for operator delimiter --- */
for ( idelim=0; opdelims[idelim]!=NULL; idelim++ )
if ( strstr(ldelim,opdelims[idelim]) != NULL ) /* found operator */
{ margin += opmargin; /* extra height for operator */
if ( *ldelim == '\\' ) /* have leading escape */
{strsqueeze(ldelim,1);} /* squeeze it out */
break; } /* no need to check rest of table */
/* --- xlate delimiters and check for textstyle --- */
for ( idelim=1; idelim<=2; idelim++ ) { /* 1=left, 2=right */
char *lrdelim = (idelim==1? ldelim:rdelim); /* ldelim or rdelim */
int ix; char *xdelim; /* xfrom[] and xto[] index, delim */
for( ix=0; (xdelim=xfrom[ix]) != NULL; ix++ )
if ( strcmp(lrdelim,xdelim) == 0 ) /* found delim to xlate */
{ strcpy(lrdelim,xto[ix]); /* replace with corresponding xto[]*/
break; } /* no need to check further */
for( ix=0; (xdelim=textdelims[ix]) != NULL; ix++ )
if ( strstr(lrdelim,xdelim) != 0 ) /* found textstyle delim */
{ if ( idelim == 1 ) /* if it's the \left one */
istextleft = 1; /* set left textstyle flag */
else istextright = 1; /* else set right textstyle flag */
break; } /* no need to check further */
} /* --- end-of-for(idelim) --- */
/* --- debugging --- */
if ( msgfp!=NULL && msglevel>=99 )
fprintf(msgfp,"rastleft> left=\"%s\" right=\"%s\" subexpr=\"%s\"\n",
ldelim,rdelim,subexpr);
/* -------------------------------------------------------------------------
rasterize subexpression
-------------------------------------------------------------------------- */
/* --- rasterize subexpression --- */
if ( (sp = rasterize(subexpr,size)) /* rasterize chars between delims */
== NULL ) goto end_of_job; /* quit if failed */
height = (sp->image)->height; /* height of subexpr raster */
rheight = height+margin; /*default rheight as subexpr height*/
/* -------------------------------------------------------------------------
rasterize delimiters, reset baselines, and add sub/superscripts if present
-------------------------------------------------------------------------- */
/* --- check for dot delimiter --- */
isleftdot = (strchr(ldelim,'.')!=NULL); /* true if \left. */
isrightdot = (strchr(rdelim,'.')!=NULL); /* true if \right. */
/* --- get rasters for best-fit delim characters, add sub/superscripts --- */
isdisplaystyle = (istextleft?0:9); /* force \displaystyle */
if ( !isleftdot ) /* if not \left. */
{ /* --- first get requested \left delimiter --- */
lp = get_delim(ldelim,rheight,family); /* get \left delim char */
/* --- reset lp delim baseline to center delim on subexpr raster --- */
if ( lp != NULL ) /* if get_delim() succeeded */
{ int lheight = (lp->image)->height; /* actual height of left delim */
lp->baseline = sp->baseline + (lheight - height)/2;
if ( lheight > rheight ) /* got bigger delim than requested */
rheight = lheight-1; } /* make sure right delim matches */
/* --- then add on any sub/superscripts attached to \left( --- */
lp = rastlimits(&pleft,size,lp); /*\left(_a^b and push pleft past b*/
isleftscript = isscripted; } /* check if left delim scripted */
isdisplaystyle = (istextright?0:9); /* force \displaystyle */
if ( !isrightdot ) /* and if not \right. */
{ /* --- first get requested \right delimiter --- */
rp = get_delim(rdelim,rheight,family); /* get \right delim char */
/* --- reset rp delim baseline to center delim on subexpr raster --- */
if ( rp != NULL ) /* if get_delim() succeeded */
rp->baseline = sp->baseline + ((rp->image)->height - height)/2;
/* --- then add on any sub/superscripts attached to \right) --- */
rp = rastlimits(expression,size,rp); /*\right)_c^d, expression past d*/
isrightscript = isscripted; } /* check if right delim scripted */
isdisplaystyle = wasdisplaystyle; /* original \displystyle default */
/* --- check that we got delimiters --- */
if ( 0 )
if ( (lp==NULL && !isleftdot) /* check that we got left( */
|| (rp==NULL && !isrightdot) ) /* and right) if needed */
{ if ( lp != NULL ) free ((void *)lp); /* free \left-delim subraster */
if ( rp != NULL ) free ((void *)rp); /* and \right-delim subraster */
if (0) { delete_subraster(sp); /* if failed, free subraster */
sp = (subraster *)NULL; } /* signal error to caller */
goto end_of_job; } /* and quit */
/* -------------------------------------------------------------------------
concat lp || sp || rp components
-------------------------------------------------------------------------- */
/* --- concat lp||sp||rp to obtain final result --- */
if ( lp != NULL ) /* ignore \left. */
sp = rastcat(lp,sp,3); /* concat lp||sp and free sp,lp */
if ( sp != NULL ) /* succeeded or ignored \left. */
if ( rp != NULL ) /* ignore \right. */
sp = rastcat(sp,rp,3); /* concat sp||rp and free sp,rp */
/* --- back to caller --- */
end_of_job:
isdelimscript = isrightscript; /* signal if right delim scripted */
return ( sp );
} /* --- end-of-function rastleft() --- */
/* ==========================================================================
* Function: rastright ( expression, size, basesp, ildelim, arg2, arg3 )
* Purpose: ...\right handler, intercepts an unexpected/unbalanced \right
* --------------------------------------------------------------------------
* Arguments: expression (I) char ** to first char of null-terminated
* string beginning with a \right
* to be rasterized
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding leading left{
* (unused, but passed for consistency)
* ildelim (I) int containing rdelims[] index of
* right delimiter
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to subexpr,
* or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastright ( char **expression, int size, subraster *basesp,
int ildelim, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster /* *rasterize(),*/ *sp=NULL; /*rasterize \right subexpr's*/
if ( sp != NULL ) /* returning entire expression */
{
isreplaceleft = 1; /* set flag to replace left half*/
}
return ( sp );
} /* --- end-of-function rastright() --- */
/* ==========================================================================
* Function: rastmiddle ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \middle handler, returns subraster corresponding to
* entire expression with \middle delimiter(s) sized to fit.
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \middle to be
* rasterized, and returning ptr immediately
* to terminating null.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \middle
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to expression,
* or NULL for any parsing error
* (expression ptr unchanged if error occurs)
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastmiddle ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *rasterize(), *sp=NULL, *subsp[32]; /*rasterize \middle subexpr's*/
char *exprptr = *expression, /* local copy of ptr to expression */
*texchar(), delim[32][132], /* delimiters following \middle's */
*strtexchr(), /* locate \middle's */
subexpr[MAXSUBXSZ+1], *subptr=NULL;/*subexpression between \middle's*/
int height=0, habove=0, hbelow=0; /* height, above & below baseline */
int idelim, ndelims=0, /* \middle count (max 32) */
family = CMSYEX; /* delims from CMSY10 or CMEX10 */
subraster *subrastcpy(), /* copy subraster */
*rastcat(), /* concatanate subraster */
*get_delim(); /* get rasterized delimiter */
int delete_subraster(); /* free work area subsp[]'s at eoj */
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
subsp[0] = leftexpression; /* expressn preceding 1st \middle */
subsp[1] = NULL; /* set first null */
/* -------------------------------------------------------------------------
accumulate subrasters between consecutive \middle\delim...\middle\delim...'s
-------------------------------------------------------------------------- */
while ( ndelims < 30 ) /* max of 31 \middle's */
{
/* --- maintain max height above,below baseline --- */
if ( subsp[ndelims] != NULL ) /*exprssn preceding current \middle*/
{ int baseline = (subsp[ndelims])->baseline; /* #rows above baseline */
height = ((subsp[ndelims])->image)->height; /* tot #rows (height) */
habove = max2(habove,baseline); /* max #rows above baseline */
hbelow = max2(hbelow,height-baseline); } /* max #rows below baseline */
/* --- get delimter after \middle --- */
skipwhite(exprptr); /*skip space betwn \middle & \delim*/
exprptr = texchar(exprptr,delim[ndelims]); /* \delim after \middle */
if ( *(delim[ndelims]) == '\000' ) /* \middle at end-of-expression */
break; /* ignore it and consider job done */
ndelims++; /* count another \middle\delim */
/* --- get subexpression between \delim and next \middle --- */
subsp[ndelims] = NULL; /* no subexpresion yet */
if ( *exprptr == '\000' ) /* end-of-expression after \delim */
break; /* so we have all subexpressions */
if ( (subptr = strtexchr(exprptr,"\\middle")) /* find next \middle */
== NULL ) /* no more \middle's */
{ strncpy(subexpr,exprptr,MAXSUBXSZ); /*get entire remaining expression*/
subexpr[MAXSUBXSZ] = '\000'; /* make sure it's null-terminated */
exprptr += strlen(exprptr); } /* push exprptr to terminating '\0'*/
else /* have another \middle */
{ int sublen = (int)(subptr-exprptr); /* #chars between \delim...\middle*/
memcpy(subexpr,exprptr,min2(sublen,MAXSUBXSZ)); /* get subexpression */
subexpr[min2(sublen,MAXSUBXSZ)] = '\000'; /* and null-terminate it */
exprptr += (sublen+strlen("\\middle")); } /* push exprptr past \middle*/
/* --- rasterize subexpression --- */
subsp[ndelims] = rasterize(subexpr,size); /* rasterize subexpresion */
} /* --- end-of-while(1) --- */
/* -------------------------------------------------------------------------
construct \middle\delim's and concatanate them between subexpressions
-------------------------------------------------------------------------- */
if ( ndelims < 1 /* no delims */
|| (height=habove+hbelow) < 1 ) /* or no subexpressions? */
goto end_of_job; /* just flush \middle directive */
for ( idelim=0; idelim<=ndelims; idelim++ )
{
/* --- first add on subexpression preceding delim --- */
if ( subsp[idelim] != NULL ) { /* have subexpr preceding delim */
if ( sp == NULL ) /* this is first piece */
{ sp = subsp[idelim]; /* so just use it */
if ( idelim == 0 ) sp = subrastcpy(sp); } /* or copy leftexpression */
else sp = rastcat(sp,subsp[idelim],(idelim>0?3:1)); } /* or concat it */
/* --- now construct delimiter --- */
if ( *(delim[idelim]) != '\000' ) /* have delimter */
{ subraster *delimsp = get_delim(delim[idelim],height,family);
if ( delimsp != NULL ) /* rasterized delim */
{ delimsp->baseline = habove; /* set baseline */
if ( sp == NULL ) /* this is first piece */
sp = delimsp; /* so just use it */
else sp = rastcat(sp,delimsp,3); } } /*or concat to existing pieces*/
} /* --- end-of-for(idelim) --- */
/* --- back to caller --- */
end_of_job:
if ( 0 ) /* now handled above */
for ( idelim=1; idelim<=ndelims; idelim++ ) /* free subsp[]'s (not 0) */
if ( subsp[idelim] != NULL ) /* have allocated subraster */
delete_subraster(subsp[idelim]); /* so free it */
if ( sp != NULL ) /* returning entire expression */
{ int newht = (sp->image)->height; /* height of returned subraster */
sp->baseline = min2(newht-1,newht/2+5); /* guess new baseline */
isreplaceleft = 1; /* set flag to replace left half*/
*expression += strlen(*expression); } /* and push to terminating null*/
return ( sp );
} /* --- end-of-function rastmiddle() --- */
/* ==========================================================================
* Function: rastflags ( expression, size, basesp, flag, value, arg3 )
* Purpose: sets an internal flag, e.g., for \rm, or sets an internal
* value, e.g., for \unitlength=, and returns NULL
* so nothing is displayed
* --------------------------------------------------------------------------
* Arguments: expression (I) char ** to first char of null-terminated
* LaTeX expression (unused/unchanged)
* size (I) int containing base font size (not used,
* just stored in subraster)
* basesp (I) subraster * to character (or subexpression)
* immediately preceding "flags" directive
* (unused but passed for consistency)
* flag (I) int containing #define'd symbol specifying
* internal flag to be set
* value (I) int containing new value of flag
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) NULL so nothing is displayed
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastflags ( char **expression, int size, subraster *basesp,
int flag, int value, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), /* parse expression for... */
valuearg[1024]="NOVALUE"; /* value from expression, if needed */
int argvalue=NOVALUE, /* atoi(valuearg) */
isdelta=0, /* true if + or - precedes valuearg */
valuelen=0; /* strlen(valuearg) */
double dblvalue=(-99.), strtod(); /*convert ascii {valuearg} to double*/
static int displaystylelevel = (-99); /* \displaystyle set at recurlevel */
/* -------------------------------------------------------------------------
set flag or value
-------------------------------------------------------------------------- */
switch ( flag )
{
default: break; /* unrecognized flag */
case ISFONTFAM:
if ( isthischar((*(*expression)),WHITEMATH) ) /* \rm followed by white */
(*expression)++; /* skip leading ~ after \rm */
fontnum = value; /* set font family */
break;
case ISSTRING: isstring=value; break; /* set string/image mode */
case ISDISPLAYSTYLE: /* set \displaystyle mode */
displaystylelevel = recurlevel; /* \displaystyle set at recurlevel */
isdisplaystyle=value; break;
case ISOPAQUE: istransparent=value; break; /* set transparent/opaque */
case ISREVERSE: /* reverse video */
if ( value==1 || value==NOVALUE )
{ fgred=255-fgred; fggreen=255-fggreen; fgblue=255-fgblue; }
if ( value==2 || value==NOVALUE )
{ bgred=255-bgred; bggreen=255-bggreen; bgblue=255-bgblue; }
if ( value==2 || value==NOVALUE )
isblackonwhite = !isblackonwhite;
if ( gammacorrection > 0.0001 ) /* have gamma correction */
gammacorrection = REVERSEGAMMA; /* use reverse video gamma instead */
break;
case ISSUPER: /* set supersampling/lowpass flag */
#ifndef SSFONTS /* don't have ss fonts loaded */
value = 0; /* so force lowpass */
#endif
isss = issupersampling = value;
fonttable = (issupersampling?ssfonttable:aafonttable); /* set fonts */
break;
case ISFONTSIZE: /* set fontsize */
case ISMAGSTEP: /* set magstep */
case ISDISPLAYSIZE: /* set displaysize */
case ISCONTENTTYPE: /*enable/disable content-type lines*/
case ISCONTENTCACHED: /* write content-type to cache file*/
case ISSHRINK: /* set shrinkfactor */
case ISAAALGORITHM: /* set anti-aliasing algorithm */
case ISWEIGHT: /* set font weight */
case ISCENTERWT: /* set lowpass center pixel weight */
case ISADJACENTWT: /* set lowpass adjacent weight */
case ISCORNERWT: /* set lowpass corner weight */
case ISCOLOR: /* set red(1),green(2),blue(3) */
case ISSMASH: /* set (minimum) "smash" margin */
case ISGAMMA: /* set gamma correction */
case ISPBMPGM: /* set pbmpgm output flag and ptype*/
if ( value != NOVALUE ) /* passed a fixed value to be set */
{ argvalue = value; /* set given fixed int value */
dblvalue = (double)value; } /* or maybe interpreted as double */
else /* get value from expression */
{ *expression = texsubexpr(*expression,valuearg,1023,"{","}",0,0);
if ( *valuearg != '\000' ) /* guard against empty string */
if ( !isalpha(*valuearg) ) /* and against alpha string args */
if ( !isthischar(*valuearg,"?") ) /*leading ? is query for value*/
{ isdelta = isthischar(*valuearg,"+-"); /* leading + or - */
if ( memcmp(valuearg,"--",2) == 0 ) /* leading -- signals...*/
{ isdelta=0; strsqueeze(valuearg,1); } /* ...not delta */
switch ( flag ) { /* convert to double or int */
default: argvalue = atoi(valuearg); break; /* convert to int */
case ISGAMMA:
dblvalue = strtod(valuearg,NULL); break; } /* or to double */
} /* --- end-of-if(*valuearg!='?') --- */
} /* --- end-of-if(value==NOVALUE) --- */
switch ( flag )
{
default: break;
case ISCOLOR: /* set color */
slower(valuearg); /* convert arg to lower case */
if ( argvalue==1 || strstr(valuearg,"red") )
{ fggreen = fgblue = (isblackonwhite?0:255);
fgred = (isblackonwhite?255:0); }
if ( argvalue==2 || strstr(valuearg,"green") )
{ fgred = fgblue = (isblackonwhite?0:255);
fggreen = (isblackonwhite?255:0); }
if ( argvalue==3 || strstr(valuearg,"blue") )
{ fgred = fggreen = (isblackonwhite?0:255);
fgblue = (isblackonwhite?255:0); }
if ( argvalue==0 || strstr(valuearg,"black") )
fgred = fggreen = fgblue = (isblackonwhite?0:255);
if ( argvalue==7 || strstr(valuearg,"white") )
fgred = fggreen = fgblue = (isblackonwhite?255:0);
break;
case ISFONTSIZE: /* set fontsize */
if ( argvalue != NOVALUE ) /* got a value */
{ int largestsize = (issupersampling?16:LARGESTSIZE);
fontsize = (isdelta? fontsize+argvalue : argvalue);
fontsize = max2(0,min2(fontsize,largestsize));
shrinkfactor = shrinkfactors[fontsize];
if ( isdisplaystyle == 1 /* displaystyle enabled but not set*/
|| (1 && isdisplaystyle==2) /* displaystyle enabled and set */
|| (0 && isdisplaystyle==0) )/*\textstyle disabled displaystyle*/
if ( displaystylelevel != recurlevel ) /*respect \displaystyle*/
if ( !ispreambledollars ) { /* respect $$...$$'s */
if ( fontsize >= displaysize )
isdisplaystyle = 2; /* forced */
else isdisplaystyle = 1; }
/*displaystylelevel = (-99);*/ } /* reset \displaystyle level */
else /* embed font size in expression */
{ sprintf(valuearg,"%d",fontsize); /* convert size */
valuelen = strlen(valuearg); /* ought to be 1 */
if ( *expression != '\000' ) /* ill-formed expression */
{ *expression = (char *)(*expression-valuelen); /*back up buff*/
memcpy(*expression,valuearg,valuelen); } } /*and put in size*/
break;
case ISMAGSTEP: /* set magstep */
if ( argvalue != NOVALUE ) { /* got a value */
int largestmag = 10;
magstep = (isdelta? magstep+argvalue : argvalue);
magstep = max2(1,min2(magstep,largestmag)); }
break;
case ISDISPLAYSIZE: /* set displaysize */
if ( argvalue != NOVALUE ) /* got a value */
displaysize = (isdelta? displaysize+argvalue : argvalue);
break;
case ISCONTENTTYPE: /*enable/disable content-type lines*/
if ( argvalue != NOVALUE ) /* got a value */
isemitcontenttype = (argvalue>0?1:0);
break;
case ISCONTENTCACHED: /* write content-type to cache file*/
if ( argvalue != NOVALUE ) /* got a value */
iscachecontenttype = (argvalue>0?1:0);
break;
case ISPBMPGM: /* output pbm/pgm rather than gif */
ispbmpgm = 1; /* always set pbm/pgm flag */
pbmpgmtype = 1; /* and init type (1 for pbm) */
if ( argvalue != NOVALUE ) /* got a value */
pbmpgmtype = (argvalue<1?1:argvalue);
break;
case ISSMASH: /* set (minimum) "smash" margin */
if ( argvalue != NOVALUE ) /* got a value */
{ smashmargin = argvalue; /* set value */
if ( arg3 != NOVALUE ) isdelta=arg3; /* hard-coded isdelta */
issmashdelta = (isdelta?1:0); } /* and set delta flag */
smashmargin = max2((isdelta?-5:0),min2(smashmargin,32)); /*sanity*/
isexplicitsmash = 1; /* signal explicit \smash directive*/
break;
case ISSHRINK: /* set shrinkfactor */
if ( argvalue != NOVALUE ) /* got a value */
shrinkfactor = (isdelta? shrinkfactor+argvalue : argvalue);
shrinkfactor = max2(1,min2(shrinkfactor,27)); /* sanity check */
break;
case ISAAALGORITHM: /* set anti-aliasing algorithm */
if ( argvalue != NOVALUE ) { /* got a value */
if ( argvalue >= 0 ) { /* non-negative to set algorithm */
aaalgorithm = argvalue; /* set algorithm number */
aaalgorithm = max2(0,min2(aaalgorithm,4)); } /* bounds check */
else maxfollow = abs(argvalue); } /* or maxfollow=abs(negative#) */
break;
case ISWEIGHT: /* set font weight number */
value = (argvalue==NOVALUE? NOVALUE : /* don't have a value */
(isdelta? weightnum+argvalue : argvalue));
if ( value>=0 && value= 0.0 ) /* got a value */
gammacorrection = dblvalue; /* set gamma correction */
break;
} /* --- end-of-switch() --- */
break;
case PNMPARAMS: /*set fgalias,fgonly,bgalias,bgonly*/
*expression = texsubexpr(*expression,valuearg,1023,"{","}",0,0);
valuelen = strlen(valuearg); /* ought to be 1-4 */
if ( valuelen>0 && isthischar(toupper(valuearg[0]),"TY1") ) fgalias=1;
if ( valuelen>0 && isthischar(toupper(valuearg[0]),"FN0") ) fgalias=0;
if ( valuelen>1 && isthischar(toupper(valuearg[1]),"TY1") ) fgonly =1;
if ( valuelen>1 && isthischar(toupper(valuearg[1]),"FN0") ) fgonly =0;
if ( valuelen>2 && isthischar(toupper(valuearg[2]),"TY1") ) bgalias=1;
if ( valuelen>2 && isthischar(toupper(valuearg[2]),"FN0") ) bgalias=0;
if ( valuelen>3 && isthischar(toupper(valuearg[3]),"TY1") ) bgonly =1;
if ( valuelen>3 && isthischar(toupper(valuearg[3]),"FN0") ) bgonly =0;
break;
case UNITLENGTH:
if ( value != NOVALUE ) /* passed a fixed value to be set */
unitlength = (double)(value); /* set given fixed value */
else /* get value from expression */
{ *expression = texsubexpr(*expression,valuearg,1023,"{","}",0,0);
if ( *valuearg != '\000' ) /* guard against empty string */
unitlength = strtod(valuearg,NULL); } /* convert to double */
iunitlength = (int)(unitlength+0.5); /* iunitlength reset */
break;
} /* --- end-of-switch(flag) --- */
return ( NULL ); /*just set value, nothing to display*/
} /* --- end-of-function rastflags() --- */
/* ==========================================================================
* Function: rastspace(expression, size, basesp, width, isfill, isheight)
* Purpose: returns a blank/space subraster width wide,
* with baseline and height corresponding to basep
* --------------------------------------------------------------------------
* Arguments: expression (I) char ** to first char of null-terminated
* LaTeX expression (unused/unchanged)
* size (I) int containing base font size (not used,
* just stored in subraster)
* basesp (I) subraster * to character (or subexpression)
* immediately preceding space, whose baseline
* and height params are transferred to space
* width (I) int containing #bits/pixels for space width
* isfill (I) int containing true to \hfill complete
* expression out to width
* (Kludge: isfill=99 signals \hspace*
* for negative space)
* isheight (I) int containing true (but not NOVALUE)
* to treat width arg as height
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to empty/blank subraster
* or NULL for any error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastspace ( char **expression, int size, subraster *basesp,
int width, int isfill, int isheight )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *new_subraster(), *spacesp=NULL; /* subraster for space */
raster *bp=NULL, *backspace_raster(); /* for negative space */
int delete_subraster(); /* if fail, free unneeded subraster*/
int baseht=1, baseln=0; /* height,baseline of base symbol */
int pixsz = 1; /*default #bits per pixel, 1=bitmap*/
int isstar=0, minspace=0; /* defaults for negative hspace */
char *texsubexpr(), widtharg[256]; /* parse for optional {width} */
int evalterm(), evalue=0; /* evaluate [args], {args} */
subraster *rasterize(), *rightsp=NULL; /*rasterize right half of expression*/
subraster *rastcat(); /* cat rightsp after \hfill */
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
if ( isfill > 1 ) { isstar=1; isfill=0; } /* large fill signals \hspace* */
if ( isfill == NOVALUE ) isfill=0; /* novalue means false */
if ( isheight == NOVALUE ) isheight=0; /* novalue means false */
minspace = (isstar?(-1):0); /* reset default minspace */
/* -------------------------------------------------------------------------
determine width if not given (e.g., \hspace{width}, \hfill{width})
-------------------------------------------------------------------------- */
if ( width == 0 ) { /* width specified in expression */
double dwidth; int widthval; /* test {width} before using it */
int minwidth = (isfill||isheight?1:-600); /* \hspace allows negative */
/* --- check if optional [minspace] given for negative \hspace --- */
if ( *(*expression) == '[' ) { /* [minspace] if leading char is [ */
/* ---parse [minspace], bump expression past it, evaluate expression--- */
*expression = texsubexpr(*expression,widtharg,127,"[","]",0,0);
if ( !isempty(widtharg) ) { /* got [minspace] */
evalue = evalterm(mimestore,widtharg); /* evaluate widtharg expr */
minspace = iround(unitlength*((double)evalue)); } /* in pixels */
} /* --- end-of-if(*(*expression)=='[') --- */
width = 1; /* set default width */
*expression = texsubexpr(*expression,widtharg,255,"{","}",0,0);
dwidth = unitlength*((double)evalterm(mimestore,widtharg)); /* scaled */
widthval = /* convert {width} to integer */
(int)( dwidth + (dwidth>=0.0?0.5:(-0.5)) );
if ( widthval>=minwidth && widthval<=600 ) /* sanity check */
width = widthval; /* replace deafault width */
} /* --- end-of-if(width==0) --- */
/* -------------------------------------------------------------------------
first check for negative space
-------------------------------------------------------------------------- */
if ( width < 0 ) { /* have negative hspace */
if ( leftexpression != (subraster *)NULL ) /* can't backspace */
if ( (spacesp=new_subraster(0,0,0)) /* get new subraster for backspace */
!= NULL ) { /* and if we succeed... */
int nback=(-width), pback; /*#pixels wanted,actually backspaced*/
if ( (bp=backspace_raster(leftexpression->image,nback,&pback,minspace,0))
!= NULL ) { /* and if backspace succeeds... */
spacesp->image = bp; /* save backspaced image */
/*spacesp->type = leftexpression->type;*/ /* copy original type */
spacesp->type = blanksignal; /* need to propagate blanks */
spacesp->size = leftexpression->size; /* copy original font size */
spacesp->baseline = leftexpression->baseline; /* and baseline */
blanksymspace += -(nback-pback); /* wanted more than we got */
isreplaceleft = 1; } /*signal to replace entire expressn*/
else { /* backspace failed */
delete_subraster(spacesp); /* free unneeded envelope */
spacesp = (subraster *)NULL; } } /* and signal failure */
goto end_of_job;
} /* --- end-of-if(width<0) --- */
/* -------------------------------------------------------------------------
see if width is "absolute" or fill width
-------------------------------------------------------------------------- */
if ( isfill /* called as \hfill{} */
&& !isheight ) /* parameter conflict */
{ if ( leftexpression != NULL ) /* if we have left half */
width -= (leftexpression->image)->width; /*reduce left width from total*/
if ( (rightsp=rasterize(*expression,size)) /* rasterize right half */
!= NULL ) /* succeeded */
width -= (rightsp->image)->width; } /* reduce right width from total */
/* -------------------------------------------------------------------------
construct blank subraster, and return it to caller
-------------------------------------------------------------------------- */
/* --- get parameters from base symbol --- */
if ( basesp != (subraster *)NULL ) /* we have base symbol for space */
{ baseht = (basesp->image)->height; /* height of base symbol */
baseln = basesp->baseline; } /* and its baseline */
/* --- flip params for height --- */
if ( isheight ) /* width is actually height */
{ baseht = width; /* use given width as height */
width = 1; } /* and set default width */
/* --- generate and init space subraster --- */
if ( width > 0 ) /*make sure we have positive width*/
if ( (spacesp=new_subraster(width,baseht,pixsz)) /*generate space subraster*/
!= NULL ) /* and if we succeed... */
{ /* --- ...re-init subraster parameters --- */
spacesp->size = size; /*propagate base font size forward*/
if(1)spacesp->type = blanksignal; /* need to propagate blanks (???) */
spacesp->baseline = baseln; } /* ditto baseline */
/* -------------------------------------------------------------------------
concat right half if \hfill-ing
-------------------------------------------------------------------------- */
if ( rightsp != NULL ) /* we have a right half after fill */
{ spacesp = (spacesp==NULL? rightsp: /* no space, so just use right half*/
rastcat(spacesp,rightsp,3)); /* or cat right half after space */
spacesp->type = blanksignal; /* need to propagate blanks */
*expression += strlen((*expression)); } /* push expression to its null */
end_of_job:
return ( spacesp );
} /* --- end-of-function rastspace() --- */
/* ==========================================================================
* Function: rastnewline ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \\ handler, returns subraster corresponding to
* left-hand expression preceding \\ above right-hand expression
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \\ to be
* rasterized, and returning ptr immediately
* to terminating null.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \\
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to expression,
* or NULL for any parsing error
* (expression ptr unchanged if error occurs)
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastnewline ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *rastack(), *newlsp=NULL; /* subraster for both lines */
subraster *rasterize(), *rightsp=NULL; /*rasterize right half of expression*/
char *texsubexpr(), spacexpr[129]/*, *xptr=spacexpr*/; /*for \\[vspace]*/
int evalterm(), evalue=0; /* evaluate [arg], {arg} */
int vspace = size+2; /* #pixels between lines */
/* -------------------------------------------------------------------------
obtain optional [vspace] argument immediately following \\ command
-------------------------------------------------------------------------- */
/* --- check if [vspace] given --- */
if ( *(*expression) == '[' ) /*have [vspace] if leading char is [*/
{
/* ---parse [vspace] and bump expression past it, interpret as double--- */
*expression = texsubexpr(*expression,spacexpr,127,"[","]",0,0);
if ( *spacexpr == '\000' ) goto end_of_job; /* couldn't get [vspace] */
evalue = evalterm(mimestore,spacexpr); /* evaluate [space] arg */
vspace = iround(unitlength*((double)evalue)); /* vspace in pixels */
} /* --- end-of-if(*(*expression)=='[') --- */
if ( leftexpression == NULL ) goto end_of_job; /* nothing preceding \\ */
/* -------------------------------------------------------------------------
rasterize right half of expression and stack left half above it
-------------------------------------------------------------------------- */
/* --- rasterize right half --- */
if ( (rightsp=rasterize(*expression,size)) /* rasterize right half */
== NULL ) goto end_of_job; /* quit if failed */
/* --- stack left half above it --- */
/*newlsp = rastack(rightsp,leftexpression,1,vspace,0,3);*//*right under left*/
newlsp = rastack(rightsp,leftexpression,1,vspace,0,1); /*right under left*/
/* --- back to caller --- */
end_of_job:
if ( newlsp != NULL ) /* returning entire expression */
{ int newht = (newlsp->image)->height; /* height of returned subraster */
newlsp->baseline = min2(newht-1,newht/2+5); /* guess new baseline */
isreplaceleft = 1; /* so set flag to replace left half*/
*expression += strlen(*expression); } /* and push to terminating null*/
return ( newlsp ); /* 1st line over 2nd, or null=error*/
} /* --- end-of-function rastnewline() --- */
/* ==========================================================================
* Function: rastarrow ( expression, size, basesp, drctn, isBig, arg3 )
* Purpose: returns left/right arrow subraster (e.g., for \longrightarrow)
* --------------------------------------------------------------------------
* Arguments: expression (I) char ** to first char of null-terminated
* LaTeX expression (unused/unchanged)
* size (I) int containing base font size (not used,
* just stored in subraster)
* basesp (I) subraster * to character (or subexpression)
* immediately preceding space, whose baseline
* and height params are transferred to space
* drctn (I) int containing +1 for right, -1 for left,
* or 0 for leftright
* isBig (I) int containing 0 for ---> or 1 for ===>
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to left/right arrow subraster
* or NULL for any error
* --------------------------------------------------------------------------
* Notes: o An optional argument [width] may *immediately* follow
* the \longxxx to explicitly set the arrow's width in pixels.
* For example, \longrightarrow calculates a default width
* (as usual in LaTeX), whereas \longrightarrow[50] explicitly
* draws a 50-pixel long arrow. This can be used, e.g.,
* to draw commutative diagrams in conjunction with
* \array (and maybe with \stackrel and/or \relstack, too).
* o In case you really want to render, say, [f]---->[g], just
* use an intervening space, i.e., [f]\longrightarrow~[g].
* In text mode use two spaces {\rm~[f]\longrightarrow~~[g]}.
* ======================================================================= */
/* --- entry point --- */
subraster *rastarrow ( char **expression, int size, subraster *basesp,
int drctn, int isBig, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *arrow_subraster(), *arrowsp=NULL; /* subraster for arrow */
char *texsubexpr(), widtharg[256]; /* parse for optional [width] */
char *texscripts(), sub[1024],super[1024]; /* and _^limits after [width]*/
subraster *rasterize(), *subsp=NULL,*supsp=NULL; /*rasterize limits*/
subraster *new_subraster(), *rastack(), *spacesp=NULL; /*space below arrow*/
int delete_subraster(); /*free work areas in case of error*/
int evalterm(); /* evaluate [arg], {arg} */
int width = 10 + 8*size, height; /* width, height for \longxxxarrow */
int islimits = 1; /*true to handle limits internally*/
int limsize = size-1; /* font size for limits */
int vspace = 1; /* #empty rows below arrow */
int pixsz = 1; /*default #bits per pixel, 1=bitmap*/
/* -------------------------------------------------------------------------
construct longleft/rightarrow subraster, with limits, and return it to caller
-------------------------------------------------------------------------- */
/* --- check for optional width arg and replace default width --- */
if ( *(*expression) == '[' ) /*check for []-enclosed optional arg*/
{ int widthval; /* test [width] before using it */
*expression = texsubexpr(*expression,widtharg,255,"[","]",0,0);
widthval = /* convert [width] to integer */
(int)((unitlength*((double)evalterm(mimestore,widtharg)))+0.5);
if ( widthval>=2 && widthval<=600 ) /* sanity check */
width = widthval; } /* replace deafault width */
/* --- now parse for limits, and bump expression past it(them) --- */
if ( islimits ) /* handling limits internally */
{ *expression = texscripts(*expression,sub,super,3); /* parse for limits */
if ( *sub != '\000' ) /*have a subscript following arrow*/
subsp = rasterize(sub,limsize); /* so try to rasterize subscript */
if ( *super != '\000' ) /*have superscript following arrow*/
supsp = rasterize(super,limsize); } /*so try to rasterize superscript*/
/* --- set height based on width --- */
height = min2(17,max2(9,(width+2)/6)); /* height based on width */
height = 1 + (height/2)*2; /* always force odd height */
/* --- generate arrow subraster --- */
if ( (arrowsp=arrow_subraster(width,height,pixsz,drctn,isBig)) /*build arrow*/
== NULL ) goto end_of_job; /* and quit if we failed */
/* --- add space below arrow --- */
if ( vspace > 0 ) /* if we have space below arrow */
if ( (spacesp=new_subraster(width,vspace,pixsz)) /*allocate required space*/
!= NULL ) /* and if we succeeded */
if ( (arrowsp = rastack(spacesp,arrowsp,2,0,1,3)) /* space below arrow */
== NULL ) goto end_of_job; /* and quit if we failed */
/* --- init arrow subraster parameters --- */
arrowsp->size = size; /*propagate base font size forward*/
arrowsp->baseline = height+vspace-1; /* set baseline at bottom of arrow */
/* --- add limits above/below arrow, as necessary --- */
if ( subsp != NULL ) /* stack subscript below arrow */
if ( (arrowsp = rastack(subsp,arrowsp,2,0,1,3)) /* subscript below arrow */
== NULL ) goto end_of_job; /* quit if failed */
if ( supsp != NULL ) /* stack superscript above arrow */
if ( (arrowsp = rastack(arrowsp,supsp,1,vspace,1,3)) /*supsc above arrow*/
== NULL ) goto end_of_job; /* quit if failed */
/* --- return arrow (or NULL) to caller --- */
end_of_job:
return ( arrowsp );
} /* --- end-of-function rastarrow() --- */
/* ==========================================================================
* Function: rastuparrow ( expression, size, basesp, drctn, isBig, arg3 )
* Purpose: returns an up/down arrow subraster (e.g., for \longuparrow)
* --------------------------------------------------------------------------
* Arguments: expression (I) char ** to first char of null-terminated
* LaTeX expression (unused/unchanged)
* size (I) int containing base font size (not used,
* just stored in subraster)
* basesp (I) subraster * to character (or subexpression)
* immediately preceding space, whose baseline
* and height params are transferred to space
* drctn (I) int containing +1 for up, -1 for down,
* or 0 for updown
* isBig (I) int containing 0 for ---> or 1 for ===>
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to up/down arrow subraster
* or NULL for any error
* --------------------------------------------------------------------------
* Notes: o An optional argument [height] may *immediately* follow
* the \longxxx to explicitly set the arrow's height in pixels.
* For example, \longuparrow calculates a default height
* (as usual in LaTeX), whereas \longuparrow[25] explicitly
* draws a 25-pixel high arrow. This can be used, e.g.,
* to draw commutative diagrams in conjunction with
* \array (and maybe with \stackrel and/or \relstack, too).
* o In case you really want to render, say, [f]---->[g], just
* use an intervening space, i.e., [f]\longuparrow~[g].
* In text use two spaces {\rm~[f]\longuparrow~~[g]}.
* ======================================================================= */
/* --- entry point --- */
subraster *rastuparrow ( char **expression, int size, subraster *basesp,
int drctn, int isBig, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *uparrow_subraster(), *arrowsp=NULL; /* subraster for arrow */
char *texsubexpr(), heightarg[256]; /* parse for optional [height] */
char *texscripts(), sub[1024],super[1024]; /* and _^limits after [width]*/
subraster *rasterize(), *subsp=NULL,*supsp=NULL; /*rasterize limits*/
subraster *rastcat(); /* cat superscript left, sub right */
int evalterm(); /* evaluate [arg], {arg} */
int height = 8 + 2*size, width; /* height, width for \longxxxarrow */
int islimits = 1; /*true to handle limits internally*/
int limsize = size-1; /* font size for limits */
int pixsz = 1; /*default #bits per pixel, 1=bitmap*/
/* -------------------------------------------------------------------------
construct blank subraster, and return it to caller
-------------------------------------------------------------------------- */
/* --- check for optional height arg and replace default height --- */
if ( *(*expression) == '[' ) /*check for []-enclosed optional arg*/
{ int heightval; /* test height before using it */
*expression = texsubexpr(*expression,heightarg,255,"[","]",0,0);
heightval = /* convert [height] to integer */
(int)((unitlength*((double)evalterm(mimestore,heightarg)))+0.5);
if ( heightval>=2 && heightval<=600 ) /* sanity check */
height = heightval; } /* replace deafault height */
/* --- now parse for limits, and bump expression past it(them) --- */
if ( islimits ) /* handling limits internally */
{ *expression = texscripts(*expression,sub,super,3); /* parse for limits */
if ( *sub != '\000' ) /*have a subscript following arrow*/
subsp = rasterize(sub,limsize); /* so try to rasterize subscript */
if ( *super != '\000' ) /*have superscript following arrow*/
supsp = rasterize(super,limsize); } /*so try to rasterize superscript*/
/* --- set width based on height --- */
width = min2(17,max2(9,(height+2)/4)); /* width based on height */
width = 1 + (width/2)*2; /* always force odd width */
/* --- generate arrow subraster --- */
if ( (arrowsp=uparrow_subraster(width,height,pixsz,drctn,isBig)) /*build arr*/
== NULL ) goto end_of_job; /* and quit if we failed */
/* --- init arrow subraster parameters --- */
arrowsp->size = size; /*propagate base font size forward*/
arrowsp->baseline = height-1; /* set baseline at bottom of arrow */
/* --- add limits above/below arrow, as necessary --- */
if ( supsp != NULL ) /* cat superscript to left of arrow*/
{ int supht = (supsp->image)->height, /* superscript height */
deltab = (1+abs(height-supht))/2; /* baseline difference to center */
supsp->baseline = supht-1; /* force script baseline to bottom */
if ( supht <= height ) /* arrow usually taller than script*/
arrowsp->baseline -= deltab; /* so bottom of script goes here */
else supsp->baseline -= deltab; /* else bottom of arrow goes here */
if ( (arrowsp = rastcat(supsp,arrowsp,3)) /* superscript left of arrow */
== NULL ) goto end_of_job; } /* quit if failed */
if ( subsp != NULL ) /* cat subscript to right of arrow */
{ int subht = (subsp->image)->height, /* subscript height */
deltab = (1+abs(height-subht))/2; /* baseline difference to center */
arrowsp->baseline = height-1; /* reset arrow baseline to bottom */
subsp->baseline = subht-1; /* force script baseline to bottom */
if ( subht <= height ) /* arrow usually taller than script*/
arrowsp->baseline -= deltab; /* so bottom of script goes here */
else subsp->baseline -= deltab; /* else bottom of arrow goes here */
if ( (arrowsp = rastcat(arrowsp,subsp,3)) /* subscript right of arrow */
== NULL ) goto end_of_job; } /* quit if failed */
/* --- return arrow (or NULL) to caller --- */
end_of_job:
arrowsp->baseline = height-1; /* reset arrow baseline to bottom */
return ( arrowsp );
} /* --- end-of-function rastuparrow() --- */
/* ==========================================================================
* Function: rastoverlay (expression, size, basesp, overlay, offset2, arg3)
* Purpose: overlays one raster on another
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following overlay \cmd to
* be rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding overlay \cmd
* (unused, but passed for consistency)
* overlay (I) int containing 1 to overlay / (e.g., \not)
* or NOVALUE to pick up 2nd arg from expression
* offset2 (I) int containing #pixels to horizontally offset
* overlay relative to underlying symbol,
* positive(right) or negative or 0,
* or NOVALUE to pick up optional [offset] arg
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to composite,
* or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastoverlay ( char **expression, int size, subraster *basesp,
int overlay, int offset2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), /*parse expression for base,overlay*/
expr1[512], expr2[512]; /* base, overlay */
subraster *rasterize(), *sp1=NULL, *sp2=NULL, /*rasterize 1=base, 2=overlay*/
*new_subraster(); /*explicitly alloc sp2 if necessary*/
subraster *rastcompose(), *overlaysp=NULL; /*subraster for composite overlay*/
int isalign = 0; /* true to align baselines */
int line_raster(); /* draw diagonal for \Not */
int evalterm(); /* evaluate [arg], {arg} */
/* -------------------------------------------------------------------------
Obtain base, and maybe overlay, and rasterize them
-------------------------------------------------------------------------- */
/* --- check for optional offset2 arg --- */
if ( offset2 == NOVALUE ) /* only if not explicitly specified*/
if ( *(*expression) == '[' ) /*check for []-enclosed optional arg*/
{ int offsetval; /* test before using it */
*expression = texsubexpr(*expression,expr2,511,"[","]",0,0);
offsetval = /* convert [offset2] to int */
(int)(((double)evalterm(mimestore,expr2))+0.5);
if ( abs(offsetval) <= 25 ) /* sanity check */
offset2 = offsetval; } /* replace deafault */
if ( offset2 == NOVALUE ) offset2 = 0; /* novalue means no offset */
/* --- parse for base, bump expression past it, and rasterize it --- */
*expression = texsubexpr(*expression,expr1,511,"{","}",0,0);
if ( isempty(expr1) ) goto end_of_job; /* nothing to overlay, so quit */
rastlift1 = rastlift = 0; /* reset all raisebox() lifts */
if ( strstr(expr1,"\\raise") != NULL ) /* have a \raisebox */
isalign = 2; /* so align baselines */
if ( (sp1=rasterize(expr1,size)) /* rasterize base expression */
== NULL ) goto end_of_job; /* quit if failed to rasterize */
overlaysp = sp1; /*in case we return with no overlay*/
rastlift1 = rastlift; /* save lift for base expression */
/* --- get overlay expression, and rasterize it --- */
if ( overlay == NOVALUE ) /* get overlay from input stream */
{ *expression = texsubexpr(*expression,expr2,511,"{","}",0,0);
if ( !isempty(expr2) ) { /* have an overlay */
if ( strstr(expr2,"\\raise") != NULL ) /* have a \raisebox */
isalign = 2; /* so align baselines */
sp2 = rasterize(expr2,size); } } /* rasterize overlay expression */
else /* use specific built-in overlay */
switch ( overlay )
{
default: break;
case 1: /* e.g., \not overlays slash */
sp2 = rasterize("/",size+1); /* rasterize overlay expression */
isalign = 0; /* automatically handled correctly */
offset2 = max2(1,size-3); /* push / right a bit */
offset2 = 0;
break;
case 2: /* e.g., \Not draws diagonal */
sp2 = NULL; /* no overlay required */
isalign = 0; /* automatically handled correctly */
if ( overlaysp != NULL ) /* check that we have raster */
{ raster *rp = overlaysp->image; /* raster to be \Not-ed */
int width=rp->width, height=rp->height; /* raster dimensions */
if ( 0 ) /* diagonal within bounding box */
line_raster(rp,0,width-1,height-1,0,1); /* just draw diagonal */
else /* construct "wide" diagonal */
{ int margin=3; /* desired extra margin width */
sp2 = new_subraster(width+margin,height+margin,1); /*alloc it*/
if ( sp2 != NULL ) /* allocated successfully */
line_raster(sp2->image,0,width+margin-1,height+margin-1,0,1);}}
break;
case 3: /* e.g., \sout for strikeout */
sp2 = NULL; /* no overlay required */
if ( overlaysp != NULL ) /* check that we have raster */
{ raster *rp = overlaysp->image; /* raster to be \sout-ed */
int width=rp->width, height=rp->height; /* raster dimensions */
int baseline = (overlaysp->baseline)-rastlift; /*skip descenders*/
int midrow = max2(0,min2(height-1,offset2+((baseline+1)/2)));
if ( 1 ) /* strikeout within bounding box */
line_raster(rp,midrow,0,midrow,width-1,1); } /*draw strikeout*/
break;
} /* --- end-of-switch(overlay) --- */
if ( sp2 == NULL ) goto end_of_job; /*return sp1 if failed to rasterize*/
/* -------------------------------------------------------------------------
construct composite overlay
-------------------------------------------------------------------------- */
overlaysp = rastcompose(sp1,sp2,offset2,isalign,3);
end_of_job:
return ( overlaysp );
} /* --- end-of-function rastoverlay() --- */
/* ==========================================================================
* Function: rastfrac ( expression, size, basesp, isfrac, arg2, arg3 )
* Purpose: \frac,\atop handler, returns a subraster corresponding to
* expression (immediately following \frac,\atop) at font size
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \frac to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \frac
* (unused, but passed for consistency)
* isfrac (I) int containing true to draw horizontal line
* between numerator and denominator,
* or false not to draw it (for \atop).
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to fraction,
* or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastfrac ( char **expression, int size, subraster *basesp,
int isfrac, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), /*parse expression for numer,denom*/
numer[MAXSUBXSZ+1], denom[MAXSUBXSZ+1]; /* parsed numer, denom */
subraster *rasterize(), *numsp=NULL, *densp=NULL; /*rasterize numer, denom*/
subraster *rastack(), *fracsp=NULL; /* subraster for numer/denom */
subraster *new_subraster()/*, *spacesp=NULL*/; /* space for num or den */
int width=0, /* width of constructed raster */
numheight=0; /* height of numerator */
int baseht=0, baseln=0; /* height,baseline of base symbol */
/*int istweak = 1;*/ /*true to tweak baseline alignment*/
int rule_raster(), /* draw horizontal line for frac */
lineheight = 1; /* thickness of fraction line */
int vspace = (size>2?2:1); /*vertical space between components*/
int delete_subraster(); /*free work areas in case of error*/
int type_raster(); /* display debugging output */
/* -------------------------------------------------------------------------
Obtain numerator and denominator, and rasterize them
-------------------------------------------------------------------------- */
/* --- parse for numerator,denominator and bump expression past them --- */
*expression = texsubexpr(*expression,numer,0,"{","}",0,0);
*expression = texsubexpr(*expression,denom,0,"{","}",0,0);
if ( *numer=='\000' && *denom=='\000' ) /* missing both components of frac */
goto end_of_job; /* nothing to do, so quit */
/* --- rasterize numerator, denominator --- */
if ( *numer != '\000' ) /* have a numerator */
if ( (numsp = rasterize(numer,size-1)) /* so rasterize numer at size-1 */
== NULL ) goto end_of_job; /* and quit if failed */
if ( *denom != '\000' ) /* have a denominator */
if ( (densp = rasterize(denom,size-1)) /* so rasterize denom at size-1 */
== NULL ) /* failed */
{ if ( numsp != NULL ) /* already rasterized numerator */
delete_subraster(numsp); /* so free now-unneeded numerator */
goto end_of_job; } /* and quit */
/* --- if one componenet missing, use a blank space for it --- */
if ( numsp == NULL ) /* no numerator given */
numsp = rasterize("[?]",size-1); /* missing numerator */
if ( densp == NULL ) /* no denominator given */
densp = rasterize("[?]",size-1); /* missing denominator */
/* --- check that we got both components --- */
if ( numsp==NULL || densp==NULL ) /* some problem */
{ delete_subraster(numsp); /*delete numerator (if it existed)*/
delete_subraster(densp); /*delete denominator (if it existed)*/
goto end_of_job; } /* and quit */
/* --- get height of numerator (to determine where line belongs) --- */
numheight = (numsp->image)->height; /* get numerator's height */
/* -------------------------------------------------------------------------
construct raster with numerator stacked over denominator
-------------------------------------------------------------------------- */
/* --- construct raster with numer/denom --- */
if ( (fracsp = rastack(densp,numsp,0,2*vspace+lineheight,1,3))/*numer/denom*/
== NULL ) /* failed to construct numer/denom */
{ delete_subraster(numsp); /* so free now-unneeded numerator */
delete_subraster(densp); /* and now-unneeded denominator */
goto end_of_job; } /* and then quit */
/* --- determine width of constructed raster --- */
width = (fracsp->image)->width; /*just get width of embedded image*/
/* --- initialize subraster parameters --- */
fracsp->size = size; /* propagate font size forward */
fracsp->baseline = (numheight+vspace+lineheight)+(size+2);/*default baseline*/
fracsp->type = FRACRASTER; /* signal \frac image */
if ( basesp != (subraster *)NULL ) /* we have base symbol for frac */
{ baseht = (basesp->image)->height; /* height of base symbol */
baseln = basesp->baseline; /* and its baseline */
} /* --- end-of-if(basesp!=NULL) --- */
/* -------------------------------------------------------------------------
draw horizontal line between numerator and denominator
-------------------------------------------------------------------------- */
fraccenterline = numheight+vspace; /* signal that we have a \frac */
if ( isfrac ) /*line for \frac, but not for \atop*/
rule_raster(fracsp->image,fraccenterline,0,width,lineheight,0);
/* -------------------------------------------------------------------------
return final result to caller
-------------------------------------------------------------------------- */
end_of_job:
if ( msgfp!=NULL && msglevel>=99 )
{ fprintf(msgfp,"rastfrac> returning %s\n",(fracsp==NULL?"null":"..."));
if ( fracsp != NULL ) /* have a constructed raster */
type_raster(fracsp->image,msgfp); } /* display constructed raster */
return ( fracsp );
} /* --- end-of-function rastfrac() --- */
/* ==========================================================================
* Function: rastackrel ( expression, size, basesp, base, arg2, arg3 )
* Purpose: \stackrel handler, returns a subraster corresponding to
* stacked relation
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \stackrel to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \stackrel
* (unused, but passed for consistency)
* base (I) int containing 1 if upper/first subexpression
* is base relation, or 2 if lower/second is
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to stacked
* relation, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastackrel ( char **expression, int size, subraster *basesp,
int base, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), /*parse expression for upper,lower*/
upper[MAXSUBXSZ+1], lower[MAXSUBXSZ+1]; /* parsed upper, lower */
subraster *rasterize(), *upsp=NULL, *lowsp=NULL; /* rasterize upper, lower */
subraster *rastack(), *relsp=NULL; /* subraster for upper/lower */
int upsize = (base==1? size:size-1), /* font size for upper component */
lowsize = (base==2? size:size-1); /* font size for lower component */
int vspace = 1; /*vertical space between components*/
int delete_subraster(); /*free work areas in case of error*/
/* -------------------------------------------------------------------------
Obtain numerator and denominator, and rasterize them
-------------------------------------------------------------------------- */
/* --- parse for numerator,denominator and bump expression past them --- */
*expression = texsubexpr(*expression,upper,0,"{","}",0,0);
*expression = texsubexpr(*expression,lower,0,"{","}",0,0);
if ( *upper=='\000' || *lower=='\000' ) /* missing either component */
goto end_of_job; /* nothing to do, so quit */
/* --- rasterize upper, lower --- */
if ( *upper != '\000' ) /* have upper component */
if ( (upsp = rasterize(upper,upsize)) /* so rasterize upper component */
== NULL ) goto end_of_job; /* and quit if failed */
if ( *lower != '\000' ) /* have lower component */
if ( (lowsp = rasterize(lower,lowsize)) /* so rasterize lower component */
== NULL ) /* failed */
{ if ( upsp != NULL ) /* already rasterized upper */
delete_subraster(upsp); /* so free now-unneeded upper */
goto end_of_job; } /* and quit */
/* -------------------------------------------------------------------------
construct stacked relation raster
-------------------------------------------------------------------------- */
/* --- construct stacked relation --- */
if ( (relsp = rastack(lowsp,upsp,3-base,vspace,1,3)) /* stacked relation */
== NULL ) goto end_of_job; /* quit if failed */
/* --- initialize subraster parameters --- */
relsp->size = size; /* propagate font size forward */
/* -------------------------------------------------------------------------
return final result to caller
-------------------------------------------------------------------------- */
end_of_job:
return ( relsp );
} /* --- end-of-function rastackrel() --- */
/* ==========================================================================
* Function: rastmathfunc ( expression, size, basesp, base, arg2, arg3 )
* Purpose: \log, \lim, etc handler, returns a subraster corresponding
* to math functions
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \mathfunc to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \mathfunc
* (unused, but passed for consistency)
* mathfunc (I) int containing 1=arccos, 2=arcsin, etc.
* islimits (I) int containing 1 if function may have
* limits underneath, e.g., \lim_{n\to\infty}
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to mathfunc,
* or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastmathfunc ( char **expression, int size, subraster *basesp,
int mathfunc, int islimits, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texscripts(), /* parse expression for _limits */
func[MAXTOKNSZ+1], limits[MAXSUBXSZ+1]; /*func as {\rm func}, limits*/
char *texsubexpr(), /* parse expression for arg */
funcarg[MAXTOKNSZ+1]; /* optional func arg */
subraster *rasterize(), *funcsp=NULL, *limsp=NULL; /*rasterize func,limits*/
subraster *rastack(), *mathfuncsp=NULL; /* subraster for mathfunc/limits */
int limsize = size-1; /* font size for limits */
int vspace = 1; /*vertical space between components*/
int delete_subraster(); /*free work areas in case of error*/
/* --- table of function names by mathfunc number --- */
static int numnames = 34; /* number of names in table */
static char *funcnames[] = {
"error", /* 0 index is illegal/error bucket*/
"arccos", "arcsin", "arctan", /* 1 - 3 */
"arg", "cos", "cosh", /* 4 - 6 */
"cot", "coth", "csc", /* 7 - 9 */
"deg", "det", "dim", /* 10 - 12 */
"exp", "gcd", "hom", /* 13 - 15 */
"inf", "ker", "lg", /* 16 - 18 */
"lim", "liminf", "limsup", /* 19 - 21 */
"ln", "log", "max", /* 22 - 24 */
"min", "Pr", "sec", /* 25 - 27 */
"sin", "sinh", "sup", /* 28 - 30 */
"tan", "tanh", /* 31 - 32 */
/* --- extra mimetex funcnames --- */
"tr", /* 33 */
"pmod" /* 34 */
} ;
/* -------------------------------------------------------------------------
set up and rasterize function name in \rm
-------------------------------------------------------------------------- */
if ( mathfunc<0 || mathfunc>numnames ) mathfunc=0; /* check index bounds */
switch ( mathfunc ) /* check for special processing */
{
default: /* no special processing */
strcpy(func,"{\\rm~"); /* init string with {\rm~ */
strcat(func,funcnames[mathfunc]); /* concat function name */
strcat(func,"}"); /* and add terminating } */
break;
case 34: /* \pmod{x} --> (mod x) */
/* --- parse for \pmod{arg} argument --- */
*expression = texsubexpr(*expression,funcarg,2047,"{","}",0,0);
strcpy(func,"{\\({\\rm~mod}"); /* init with {\left({\rm~mod} */
strcat(func,"\\hspace2"); /* concat space */
strcat(func,funcarg); /* and \pmodargument */
strcat(func,"\\)}"); /* and add terminating \right)} */
break;
} /* --- end-of-switch(mathfunc) --- */
if ( (funcsp = rasterize(func,size)) /* rasterize function name */
== NULL ) goto end_of_job; /* and quit if failed */
mathfuncsp = funcsp; /* just return funcsp if no limits */
if ( !islimits ) goto end_of_job; /* treat any subscript normally */
/* -------------------------------------------------------------------------
Obtain limits, if permitted and if provided, and rasterize them
-------------------------------------------------------------------------- */
/* --- parse for subscript limits, and bump expression past it(them) --- */
*expression = texscripts(*expression,limits,limits,1);
if ( *limits=='\000') goto end_of_job; /* no limits, nothing to do, quit */
/* --- rasterize limits --- */
if ( (limsp = rasterize(limits,limsize)) /* rasterize limits */
== NULL ) goto end_of_job; /* and quit if failed */
/* -------------------------------------------------------------------------
construct func atop limits
-------------------------------------------------------------------------- */
/* --- construct func atop limits --- */
if ( (mathfuncsp = rastack(limsp,funcsp,2,vspace,1,3)) /* func atop limits */
== NULL ) goto end_of_job; /* quit if failed */
/* --- initialize subraster parameters --- */
mathfuncsp->size = size; /* propagate font size forward */
/* -------------------------------------------------------------------------
return final result to caller
-------------------------------------------------------------------------- */
end_of_job:
return ( mathfuncsp );
} /* --- end-of-function rastmathfunc() --- */
/* ==========================================================================
* Function: rastsqrt ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \sqrt handler, returns a subraster corresponding to
* expression (immediately following \sqrt) at font size
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \sqrt to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \accent
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to expression,
* or NULL for any parsing error
* (expression ptr unchanged if error occurs)
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastsqrt ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1], /*parse subexpr to be sqrt-ed*/
rootarg[MAXSUBXSZ+1]; /* optional \sqrt[rootarg]{...} */
subraster *rasterize(), *subsp=NULL; /* rasterize subexpr */
subraster *accent_subraster(), *sqrtsp=NULL, /* subraster with the sqrt */
*new_subraster(), *rootsp=NULL; /* optionally preceded by [rootarg]*/
int sqrtheight=0, sqrtwidth=0, surdwidth=0, /* height,width of sqrt */
rootheight=0, rootwidth=0, /* height,width of rootarg raster */
subheight=0, subwidth=0, pixsz=0; /* height,width,pixsz of subexpr */
int rastput(); /* put subexpr in constructed sqrt */
int overspace = 2; /*space between subexpr and overbar*/
int delete_subraster(); /* free work areas */
/* -------------------------------------------------------------------------
Obtain subexpression to be sqrt-ed, and rasterize it
-------------------------------------------------------------------------- */
/* --- first check for optional \sqrt[rootarg]{...} --- */
if ( *(*expression) == '[' ) /*check for []-enclosed optional arg*/
{ *expression = texsubexpr(*expression,rootarg,0,"[","]",0,0);
if ( *rootarg != '\000' ) /* got rootarg */
if ( (rootsp=rasterize(rootarg,size-1)) /*rasterize it at smaller size*/
!= NULL ) /* rasterized successfully */
{ rootheight = (rootsp->image)->height; /* get height of rootarg */
rootwidth = (rootsp->image)->width; } /* and its width */
} /* --- end-of-if(**expression=='[') --- */
/* --- parse for subexpr to be sqrt-ed, and bump expression past it --- */
*expression = texsubexpr(*expression,subexpr,0,"{","}",0,0);
if ( *subexpr == '\000' ) /* couldn't get subexpression */
goto end_of_job; /* nothing to do, so quit */
/* --- rasterize subexpression to be accented --- */
if ( (subsp = rasterize(subexpr,size)) /*rasterize subexpr at original size*/
== NULL ) goto end_of_job; /* quit if failed */
/* -------------------------------------------------------------------------
determine height and width of sqrt raster to be constructed
-------------------------------------------------------------------------- */
/* --- first get height and width of subexpr --- */
subheight = (subsp->image)->height; /* height of subexpr */
subwidth = (subsp->image)->width; /* and its width */
pixsz = (subsp->image)->pixsz; /* pixsz remains constant */
/* --- determine height and width of sqrt to contain subexpr --- */
sqrtheight = subheight + overspace; /* subexpr + blank line + overbar */
surdwidth = SQRTWIDTH(sqrtheight,(rootheight<1?2:1)); /* width of surd */
sqrtwidth = subwidth + surdwidth + 1; /* total width */
/* -------------------------------------------------------------------------
construct sqrt (with room to move in subexpr) and embed subexpr in it
-------------------------------------------------------------------------- */
/* --- construct sqrt --- */
if ( (sqrtsp=accent_subraster(SQRTACCENT,
(rootheight<1?sqrtwidth:(-sqrtwidth)),sqrtheight,0,pixsz))
== NULL ) goto end_of_job; /* quit if failed to build sqrt */
/* --- embed subexpr in sqrt at lower-right corner--- */
rastput(sqrtsp->image,subsp->image,overspace,sqrtwidth-subwidth,1);
sqrtsp->baseline = subsp->baseline + overspace; /* adjust baseline */
/* --- "embed" rootarg at upper-left --- */
if ( rootsp != NULL ) /*have optional \sqrt[rootarg]{...}*/
{
/* --- allocate full raster to contain sqrtsp and rootsp --- */
int fullwidth = sqrtwidth +rootwidth - min2(rootwidth,max2(0,surdwidth-4)),
fullheight= sqrtheight+rootheight- min2(rootheight,3+size);
subraster *fullsp = new_subraster(fullwidth,fullheight,pixsz);
if ( fullsp != NULL ) /* allocated successfully */
{ /* --- embed sqrtsp exactly at lower-right corner --- */
rastput(fullsp->image,sqrtsp->image, /* exactly at lower-right corner*/
fullheight-sqrtheight,fullwidth-sqrtwidth,1);
/* --- embed rootsp near upper-left, nestled above leading surd --- */
rastput(fullsp->image,rootsp->image,
0,max2(0,surdwidth-rootwidth-2-size),0);
/* --- replace sqrtsp with fullsp --- */
delete_subraster(sqrtsp); /* free original sqrtsp */
sqrtsp = fullsp; /* and repoint it to fullsp instead*/
sqrtsp->baseline = fullheight - (subheight - subsp->baseline); }
} /* --- end-of-if(rootsp!=NULL) --- */
/* --- initialize subraster parameters --- */
sqrtsp->size = size; /* propagate font size forward */
/* -------------------------------------------------------------------------
free unneeded component subrasters and return final result to caller
-------------------------------------------------------------------------- */
end_of_job:
if ( subsp != NULL ) delete_subraster(subsp); /* free unneeded subexpr */
return ( sqrtsp );
} /* --- end-of-function rastsqrt() --- */
/* ==========================================================================
* Function: rastaccent (expression,size,basesp,accent,isabove,isscript)
* Purpose: \hat, \vec, \etc handler, returns a subraster corresponding
* to expression (immediately following \accent) at font size
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \accent to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \accent
* (unused, but passed for consistency)
* accent (I) int containing HATACCENT or VECACCENT, etc,
* between numerator and denominator,
* or false not to draw it (for \over).
* isabove (I) int containing true if accent is above
* expression to be accented, or false
* if accent is below (e.g., underbrace)
* isscript (I) int containing true if sub/superscripts
* allowed (for under/overbrace), or 0 if not.
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to expression,
* or NULL for any parsing error
* (expression ptr unchanged if error occurs)
* --------------------------------------------------------------------------
* Notes: o Also handles \overbrace{}^{} and \underbrace{}_{} by way
* of isabove and isscript args.
* ======================================================================= */
/* --- entry point --- */
subraster *rastaccent ( char **expression, int size, subraster *basesp,
int accent, int isabove, int isscript )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1]; /*parse subexpr to be accented*/
char *texscripts(), *script=NULL, /* \under,overbrace allow scripts */
subscript[MAXTOKNSZ+1], supscript[MAXTOKNSZ+1]; /* parsed scripts */
subraster *rasterize(), *subsp=NULL, *scrsp=NULL; /*rasterize subexpr,script*/
subraster *rastack(), *accsubsp=NULL; /* stack accent, subexpr, script */
subraster *accent_subraster(), *accsp=NULL; /*raster for the accent itself*/
int accheight=0, accwidth=0, accdir=0,/*accent height, width, direction*/
subheight=0, subwidth=0, pixsz=0; /* height,width,pixsz of subexpr */
int delete_subraster(); /*free work areas in case of error*/
int vspace = 0; /*vertical space between accent,sub*/
/* -------------------------------------------------------------------------
Obtain subexpression to be accented, and rasterize it
-------------------------------------------------------------------------- */
/* --- parse for subexpr to be accented, and bump expression past it --- */
*expression = texsubexpr(*expression,subexpr,0,"{","}",0,0);
if ( *subexpr=='\000' ) /* couldn't get subexpression */
goto end_of_job; /* nothing to do, so quit */
/* --- rasterize subexpression to be accented --- */
if ( (subsp = rasterize(subexpr,size)) /*rasterize subexpr at original size*/
== NULL ) goto end_of_job; /* quit if failed */
/* -------------------------------------------------------------------------
determine desired accent width and height
-------------------------------------------------------------------------- */
/* --- first get height and width of subexpr --- */
subheight = (subsp->image)->height; /* height of subexpr */
subwidth = (subsp->image)->width; /* and its width is overall width */
pixsz = (subsp->image)->pixsz; /* original pixsz remains constant */
/* --- determine desired width, height of accent --- */
accwidth = subwidth; /* same width as subexpr */
accheight = 4; /* default for bars */
switch ( accent )
{ default: break; /* default okay */
case DOTACCENT: case DDOTACCENT:
accheight = (size<4? 3:4); /* default for dots */
break;
case VECACCENT:
vspace = 1; /* set 1-pixel vertical space */
accdir = isscript; /* +1=right,-1=left,0=lr; +10for==>*/
isscript = 0; /* >>don't<< signal sub/supscript */
case HATACCENT:
accheight = 7; /* default */
if ( subwidth < 10 ) accheight = 5; /* unless small width */
else if ( subwidth > 25 ) accheight = 9; /* or large */
break;
} /* --- end-of-switch(accent) --- */
accheight = min2(accheight,subheight); /*never higher than accented subexpr*/
/* -------------------------------------------------------------------------
construct accent, and construct subraster with accent over (or under) subexpr
-------------------------------------------------------------------------- */
/* --- first construct accent --- */
if ( (accsp = accent_subraster(accent,accwidth,accheight,accdir,pixsz))
== NULL ) goto end_of_job; /* quit if failed to build accent */
/* --- now stack accent above (or below) subexpr, and free both args --- */
accsubsp = (isabove? rastack(subsp,accsp,1,vspace,1,3)/*accent above subexpr*/
: rastack(accsp,subsp,2,vspace,1,3)); /*accent below subexpr*/
if ( accsubsp == NULL ) /* failed to stack accent */
{ delete_subraster(subsp); /* free unneeded subsp */
delete_subraster(accsp); /* and unneeded accsp */
goto end_of_job; } /* and quit */
/* -------------------------------------------------------------------------
look for super/subscript (annotation for over/underbrace)
-------------------------------------------------------------------------- */
/* --- first check whether accent permits accompanying annotations --- */
if ( !isscript ) goto end_of_job; /* no annotations for this accent */
/* --- now get scripts if there actually are any --- */
*expression = texscripts(*expression,subscript,supscript,(isabove?2:1));
script = (isabove? supscript : subscript); /*select above^ or below_ script*/
if ( *script == '\000' ) goto end_of_job; /* no accompanying script */
/* --- rasterize script annotation at size-2 --- */
if ( (scrsp = rasterize(script,size-2)) /* rasterize script at size-2 */
== NULL ) goto end_of_job; /* quit if failed */
/* --- stack annotation above (or below) accent, and free both args --- */
accsubsp = (isabove? rastack(accsubsp,scrsp,1,0,1,3) /* accent above base */
: rastack(scrsp,accsubsp,2,0,1,3)); /* accent below base */
/* -------------------------------------------------------------------------
return final result to caller
-------------------------------------------------------------------------- */
end_of_job:
if ( accsubsp != NULL ) /* initialize subraster parameters */
accsubsp->size = size; /* propagate font size forward */
return ( accsubsp );
} /* --- end-of-function rastaccent() --- */
/* ==========================================================================
* Function: rastfont (expression,size,basesp,ifontnum,arg2,arg3)
* Purpose: \cal{}, \scr{}, \etc handler, returns subraster corresponding
* to char(s) within {}'s rendered at size
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \font to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \accent
* (unused, but passed for consistency)
* ifontnum (I) int containing 1 for \cal{}, 2 for \scr{}
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to chars
* between {}'s, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastfont ( char **expression, int size, subraster *basesp,
int ifontnum, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), fontchars[MAXSUBXSZ+1], /* chars to render in font */
subexpr[MAXSUBXSZ+1]; /* turn \cal{AB} into \calA\calB */
char *pfchars=fontchars, fchar='\0'; /* run thru fontchars one at a time*/
char *name = NULL; /* fontinfo[ifontnum].name */
int family = 0, /* fontinfo[ifontnum].family */
istext = 0, /* fontinfo[ifontnum].istext */
class = 0; /* fontinfo[ifontnum].class */
subraster *rasterize(), *fontsp=NULL, /* rasterize chars in font */
*rastflags(); /* or just set flag to switch font */
int oldsmashmargin = smashmargin; /* turn off smash in text mode */
#if 0
/* --- fonts recognized by rastfont --- */
static int nfonts = 11; /* legal font #'s are 1...nfonts */
static struct {char *name; int class;}
fonts[] =
{ /* --- name class 1=upper,2=alpha,3=alnum,4=lower,5=digit,9=all --- */
{ "\\math", 0 },
{ "\\mathcal", 1 }, /*(1) calligraphic, uppercase */
{ "\\mathscr", 1 }, /*(2) rsfs/script, uppercase */
{ "\\textrm", -1 }, /*(3) \rm,\text{abc} --> {\rm~abc} */
{ "\\textit", -1 }, /*(4) \it,\textit{abc}-->{\it~abc} */
{ "\\mathbb", -1 }, /*(5) \bb,\mathbb{abc}-->{\bb~abc} */
{ "\\mathbf", -1 }, /*(6) \bf,\mathbf{abc}-->{\bf~abc} */
{ "\\mathrm", -1 }, /*(7) \mathrm */
{ "\\cyr", -1 }, /*(8) \cyr */
{ "\\textgreek",-1 }, /*(9) \textgreek */
{ "\\textbfgreek",CMMI10BGR,1,-1 },/*(10) \textbfgreek{ab} */
{ "\\textbbgreek",BBOLD10GR,1,-1 },/*(11) \textbbgreek{ab} */
{ NULL, 0 }
} ; /* --- end-of-fonts[] --- */
#endif
/* -------------------------------------------------------------------------
first get font name and class to determine type of conversion desired
-------------------------------------------------------------------------- */
if (ifontnum<=0 || ifontnum>nfontinfo) ifontnum=0; /*math if out-of-bounds*/
name = fontinfo[ifontnum].name; /* font name */
family = fontinfo[ifontnum].family; /* font family */
istext = fontinfo[ifontnum].istext; /*true in text mode (respect space)*/
class = fontinfo[ifontnum].class; /* font class */
if ( istext ) /* text (respect blanks) */
{ mathsmashmargin = smashmargin; /* needed for \text{if $n-m$ even} */
smashmargin = 0; } /* don't smash internal blanks */
/* -------------------------------------------------------------------------
now convert \font{abc} --> {\font~abc}, or convert ABC to \calA\calB\calC
-------------------------------------------------------------------------- */
if ( 1 || class<0 ) /* not character-by-character */
{
/* ---
if \font not immediately followed by { then it has no arg, so just set flag
------------------------------------------------------------------------ */
if ( *(*expression) != '{' ) /* no \font arg, so just set flag */
{
if ( msgfp!=NULL && msglevel>=99 )
fprintf(msgfp,"rastfont> \\%s rastflags() for font#%d\n",name,ifontnum);
fontsp = rastflags(expression,size,basesp,ISFONTFAM,ifontnum,arg3);
goto end_of_job;
} /* --- end-of-if(*(*expression)!='{') --- */
/* ---
convert \font{abc} --> {\font~abc}
---------------------------------- */
/* --- parse for {fontchars} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,fontchars,0,"{","}",0,0);
if ( msgfp!=NULL && msglevel>=99 )
fprintf(msgfp,"rastfont> \\%s fontchars=\"%s\"\n",name,fontchars);
/* --- convert all fontchars at the same time --- */
strcpy(subexpr,"{"); /* start off with opening { */
strcat(subexpr,name); /* followed by font name */
strcat(subexpr,"~"); /* followed by whitespace */
strcat(subexpr,fontchars); /* followed by all the chars */
strcat(subexpr,"}"); /* terminate with closing } */
} /* --- end-of-if(class<0) --- */
else /* character-by-character */
{
/* ---
convert ABC to \calA\calB\calC
------------------------------ */
int isprevchar=0; /* true if prev char converted */
/* --- parse for {fontchars} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,fontchars,0,"{","}",0,0);
if ( msgfp!=NULL && msglevel>=99 )
fprintf(msgfp,"rastfont> \\%s fontchars=\"%s\"\n",name,fontchars);
/* --- convert fontchars one at a time --- */
strcpy(subexpr,"{\\rm~"); /* start off with opening {\rm */
strcpy(subexpr,"{"); /* nope, just start off with { */
for ( pfchars=fontchars; (fchar= *pfchars)!='\000'; pfchars++ )
{
if ( isthischar(fchar,WHITEMATH) ) /* some whitespace */
{ if ( 0 || istext ) /* and we're in a text mode font */
strcat(subexpr,"\\;"); } /* so respect whitespace */
else /* char to be displayed in font */
{ int exprlen = 0; /* #chars in subexpr before fchar */
int isinclass = 0; /* set true if fchar in font class */
/* --- class: 1=upper, 2=alpha, 3=alnum, 4=lower, 5=digit, 9=all --- */
switch ( class ) /* check if fchar is in font class */
{ default: break; /* no chars in unrecognized class */
case 1: if ( isupper((int)fchar) ) isinclass=1; break;
case 2: if ( isalpha((int)fchar) ) isinclass=1; break;
case 3: if ( isalnum((int)fchar) ) isinclass=1; break;
case 4: if ( islower((int)fchar) ) isinclass=1; break;
case 5: if ( isdigit((int)fchar) ) isinclass=1; break;
case 9: isinclass=1; break; }
if ( isinclass ) /* convert current char to \font */
{ strcat(subexpr,name); /* by prefixing it with font name */
isprevchar = 1; } /* and set flag to signal separator*/
else /* current char not in \font */
{ if ( isprevchar ) /* extra separator only after \font*/
if ( isalpha(fchar) ) /* separator only before alpha */
strcat(subexpr,"~"); /* need separator after \font */
isprevchar = 0; } /* reset flag for next char */
exprlen = strlen(subexpr); /* #chars so far */
subexpr[exprlen] = fchar; /*fchar immediately after \fontname*/
subexpr[exprlen+1] = '\000'; } /* replace terminating '\0' */
} /* --- end-of-for(pfchars) --- */
strcat(subexpr,"}"); /* add closing } */
} /* --- end-of-if/else(class<0) --- */
/* -------------------------------------------------------------------------
rasterize subexpression containing chars to be rendered at font
-------------------------------------------------------------------------- */
if ( msgfp!=NULL && msglevel>=99 )
fprintf(msgfp,"rastfont> subexpr=\"%s\"\n",subexpr);
if ( (fontsp = rasterize(subexpr,size)) /* rasterize chars in font */
== NULL ) goto end_of_job; /* and quit if failed */
/* -------------------------------------------------------------------------
back to caller with chars rendered in font
-------------------------------------------------------------------------- */
end_of_job:
smashmargin = oldsmashmargin; /* restore smash */
mathsmashmargin = SMASHMARGIN; /* this one probably not necessary */
if ( istext && fontsp!=NULL ) /* raster contains text mode font */
fontsp->type = blanksignal; /* signal nosmash */
return ( fontsp ); /* chars rendered in font */
} /* --- end-of-function rastfont() --- */
/* ==========================================================================
* Function: rastbegin ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \begin{}...\end{} handler, returns a subraster corresponding
* to array expression within environment, i.e., rewrites
* \begin{}...\end{} as mimeTeX equivalent, and rasterizes that.
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \begin to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \begin
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to array
* expression, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastbegin ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1], /* \begin{} environment params*/
*exprptr=NULL,*begptr=NULL,*endptr=NULL,*braceptr=NULL; /* ptrs */
char *begtoken="\\begin{", *endtoken="\\end{"; /*tokens we're looking for*/
int strreplace(); /* replace substring in string */
char *strchange(); /*\begin...\end --> {\begin...\end}*/
char *delims = (char *)NULL; /* mdelims[ienviron] */
subraster *rasterize(), *sp=NULL; /* rasterize environment */
int ienviron = 0; /* environs[] index */
int nbegins = 0; /* #\begins nested beneath this one*/
int envlen=0, sublen=0; /* #chars in environ, subexpr */
static int blevel = 0; /* \begin...\end nesting level */
static char *mdelims[] = { NULL, NULL, NULL, NULL,
"()","[]","{}","||","==", /* for pbBvVmatrix */
NULL, NULL, NULL, NULL, "{.", NULL, NULL, NULL, NULL, NULL, NULL,
NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL };
static char *environs[] = { /* types of environments we process*/
"eqnarray", /* 0 eqnarray environment */
"array", /* 1 array environment */
"matrix", /* 2 array environment */
"tabular", /* 3 array environment */
"pmatrix", /* 4 ( ) */
"bmatrix", /* 5 [ ] */
"Bmatrix", /* 6 { } */
"vmatrix", /* 7 | | */
"Vmatrix", /* 8 || || */
"gather", /* 9 gather environment */
"align", /* 10 align environment */
"verbatim", /* 11 verbatim environment */
"picture", /* 12 picture environment */
"cases", /* 13 cases environment */
"equation", /* 14 for \begin{equation} */
NULL }; /* trailer */
/* -------------------------------------------------------------------------
determine type of environment we're beginning
-------------------------------------------------------------------------- */
/* --- first bump nesting level --- */
blevel++; /* count \begin...\begin...'s */
/* --- \begin must be followed by {type_of_environment} --- */
exprptr = texsubexpr(*expression,subexpr,0,"{","}",0,0);
if ( *subexpr == '\000' ) goto end_of_job; /* no environment given */
while ( (delims=strchr(subexpr,'*')) != NULL ) /* have environment* */
{strsqueeze(delims,1);} /* treat it as environment */
/* --- look up environment in our table --- */
for ( ienviron=0; ;ienviron++ ) /* search table till NULL */
if ( environs[ienviron] == NULL ) /* found NULL before match */
goto end_of_job; /* so quit */
else /* see if we have an exact match */
if ( memcmp(environs[ienviron],subexpr,strlen(subexpr)) == 0 ) /*match*/
break; /* leave loop with ienviron index */
/* --- accumulate any additional params for this environment --- */
*subexpr = '\000'; /* reset subexpr to empty string */
delims = mdelims[ienviron]; /* mdelims[] string for ienviron */
if ( delims != NULL ) /* add appropriate opening delim */
{ strcpy(subexpr,"\\"); /* start with \ for (,[,{,|,= */
strcat(subexpr,delims); /* then add opening delim */
subexpr[2] = '\000'; } /* remove extraneous closing delim */
switch ( ienviron )
{
default: goto end_of_job; /* environ not implemented yet */
case 0: /* \begin{eqnarray} */
strcpy(subexpr,"\\array{rcl$"); /* set default rcl for eqnarray */
break;
case 1: case 2: case 3: /* \begin{array} followed by {lcr} */
strcpy(subexpr,"\\array{"); /*start with mimeTeX \array{ command*/
skipwhite(exprptr); /* bump to next non-white char */
if ( *exprptr == '{' ) /* assume we have {lcr} argument */
{ exprptr = texsubexpr(exprptr,subexpr+7,0,"{","}",0,0); /*add on lcr*/
if ( *(subexpr+7) == '\000' ) goto end_of_job; /* quit if no lcr */
strcat(subexpr,"$"); } /* add terminating $ to lcr */
break;
case 4: case 5: case 6: /* \begin{pmatrix} or b,B,v,Vmatrix */
case 7: case 8:
strcat(subexpr,"\\array{"); /*start with mimeTeX \array{ command*/
break;
case 9: /* gather */
strcat(subexpr,"\\array{c$"); /* center equations */
break;
case 10: /* align */
strcat(subexpr,"\\array{rclrclrclrclrclrcl$"); /* a&=b & c&=d & etc */
break;
case 11: /* verbatim */
strcat(subexpr,"{\\rm "); /* {\rm ...} */
/*strcat(subexpr,"\\\\{\\rm ");*/ /* \\{\rm } doesn't work in context */
break;
case 12: /* picture */
strcat(subexpr,"\\picture"); /* picture environment */
skipwhite(exprptr); /* bump to next non-white char */
if ( *exprptr == '(' ) /*assume we have (width,height) arg*/
{ exprptr = texsubexpr(exprptr,subexpr+8,0,"(",")",0,1); /*add on arg*/
if ( *(subexpr+8) == '\000' ) goto end_of_job; } /* quit if no arg */
strcat(subexpr,"{"); /* opening { after (width,height) */
break;
case 13: /* cases */
strcat(subexpr,"\\array{ll$"); /* a&b \\ c&d etc */
break;
case 14: /* \begin{equation} */
strcat(subexpr,"{"); /* just enclose expression in {}'s */
break;
} /* --- end-of-switch(ienviron) --- */
/* -------------------------------------------------------------------------
locate matching \end{...}
-------------------------------------------------------------------------- */
/* --- first \end following \begin --- */
if ( (endptr=strstr(exprptr,endtoken)) /* find 1st \end following \begin */
== NULL ) goto end_of_job; /* and quit if no \end found */
/* --- find matching endptr by pushing past any nested \begin's --- */
begptr = exprptr; /* start after first \begin{...} */
while ( 1 ) /*break when we find matching \end*/
{
/* --- first, set ptr to closing } terminating current \end{...} --- */
if ( (braceptr=strchr(endptr+1,'}')) /* find 1st } following \end{ */
== NULL ) goto end_of_job; /* and quit if no } found */
/* -- locate next nested \begin --- */
if ( (begptr=strstr(begptr,begtoken)) /* find next \begin{...} */
== NULL ) break; /*no more, so we have matching \end*/
begptr += strlen(begtoken); /* push ptr past token */
if ( begptr >= endptr ) break; /* past endptr, so not nested */
/* --- have nested \begin, so push forward to next \end --- */
nbegins++; /* count another nested \begin */
if ( (endptr=strstr(endptr+strlen(endtoken),endtoken)) /* find next \end */
== NULL ) goto end_of_job; /* and quit if none found */
} /* --- end-of-while(1) --- */
/* --- push expression past closing } of \end{} --- */
*expression = braceptr+1; /* resume processing after } */
/* -------------------------------------------------------------------------
add on everything (i.e., the ...'s) between \begin{}[{}] ... \end{}
-------------------------------------------------------------------------- */
/* --- add on everything, completing subexpr for \begin{}...\end{} --- */
sublen = strlen(subexpr); /* #chars in "preamble" */
envlen = (int)(endptr-exprptr); /* #chars between \begin{}{}...\end */
memcpy(subexpr+sublen,exprptr,envlen); /*concatanate environ after subexpr*/
subexpr[sublen+envlen] = '\000'; /* and null-terminate */
if ( 2 > 1 ) /* always... */
strcat(subexpr,"}"); /* ...followed by terminating } */
/* --- add terminating \right), etc, if necessary --- */
if ( delims != (char *)NULL ) /* need closing delim */
{ strcat(subexpr,"\\"); /* start with \ for ),],},|,= */
strcat(subexpr,delims+1); } /* add appropriate closing delim */
/* -------------------------------------------------------------------------
change nested \begin...\end to {\begin...\end} so \array{} can handle them
-------------------------------------------------------------------------- */
if ( nbegins > 0 ) /* have nested begins */
if ( blevel < 2 ) /* only need to do this once */
{
begptr = subexpr; /* start at beginning of subexpr */
while( (begptr=strstr(begptr,begtoken)) != NULL ) /* have \begin{...} */
{ strchange(0,begptr,"{"); /* \begin --> {\begin */
begptr += strlen(begtoken); } /* continue past {\begin */
endptr = subexpr; /* start at beginning of subexpr */
while( (endptr=strstr(endptr,endtoken)) != NULL ) /* have \end{...} */
if ( (braceptr=strchr(endptr+1,'}')) /* find 1st } following \end{ */
== NULL ) goto end_of_job; /* and quit if no } found */
else /* found terminating } */
{ strchange(0,braceptr,"}"); /* \end{...} --> \end{...}} */
endptr = braceptr+1; } /* continue past \end{...} */
} /* --- end-of-if(nbegins>0) --- */
/* -------------------------------------------------------------------------
post process as necessary
-------------------------------------------------------------------------- */
switch ( ienviron )
{
default: break; /* no post-processing required */
case 10: /* align */
strreplace(subexpr,"&=","#*@*#=",0); /* tag all &='s */
strreplace(subexpr,"&<","#*@*#<",0); /* tag all &<'s */
strreplace(subexpr,"&\\lt","#*@*#<",0); /* tag all &\lt's */
strreplace(subexpr,"&\\leq","#*@*#\\leq",0); /* tag all &\leq's */
strreplace(subexpr,"&>","#*@*#>",0); /* tag all &>'s */
strreplace(subexpr,"&\\gt","#*@*#>",0); /* tag all &\gt's */
strreplace(subexpr,"&\\geq","#*@*#\\geq",0); /* tag all &\geq's */
if ( nbegins < 1 ) /* don't modify nested arrays */
strreplace(subexpr,"&","\\hspace{10}&\\hspace{10}",0); /* add space */
strreplace(subexpr,"#*@*#=","& = &",0); /*restore and xlate tagged &='s*/
strreplace(subexpr,"#*@*#<","& \\lt &",0); /*restore, xlate tagged &<'s*/
strreplace(subexpr,"#*@*#\\leq","& \\leq &",0); /*xlate tagged &\leq's*/
strreplace(subexpr,"#*@*#>","& \\gt &",0); /*restore, xlate tagged &>'s*/
strreplace(subexpr,"#*@*#\\geq","& \\geq &",0); /*xlate tagged &\geq's*/
break;
case 11: /* verbatim */
strreplace(subexpr,"\n","\\\\",0); /* xlate \n newline to latex \\ */
/*strcat(subexpr,"\\\\");*/ /* add final latex \\ newline */
break;
case 12: /* picture */
strreplace(subexpr,"\\put "," ",0); /*remove \put's (not really needed)*/
strreplace(subexpr,"\\put(","(",0); /*remove \put's (not really needed)*/
strreplace(subexpr,"\\oval","\\circle",0); /* actually an ellipse */
break;
} /* --- end-of-switch(ienviron) --- */
/* -------------------------------------------------------------------------
return rasterized mimeTeX equivalent of \begin{}...\end{} environment
-------------------------------------------------------------------------- */
/* --- debugging output --- */
if ( msgfp!=NULL && msglevel>=99 )
fprintf(msgfp,"rastbegin> subexpr=%s\n",subexpr);
/* --- rasterize mimeTeX equivalent of \begin{}...\end{} environment --- */
sp = rasterize(subexpr,size); /* rasterize subexpr */
end_of_job:
blevel--; /* decrement \begin nesting level */
return ( sp ); /* back to caller with sp or NULL */
} /* --- end-of-function rastbegin() --- */
/* ==========================================================================
* Function: rastarray ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \array handler, returns a subraster corresponding to array
* expression (immediately following \array) at font size
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \array to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \array
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to array
* expression, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \array{3,lcrBC$a&b&c\\d&e&f\\etc}
* o The 3,lcrBC$ part is an optional "preamble". The lcr means
* what you think, i.e., "horizontal" left,center,right
* justification down corresponding column. The new BC means
* "vertical" baseline,center justification across corresponding
* row. The leading 3 specifies the font size 0-4 to be used.
* You may also specify +1,-1,+2,-2, etc, which is used as an
* increment to the current font size, e.g., -1,lcr$ uses
* one font size smaller than current. Without a leading
* + or -, the font size is "absolute".
* o The preamble can also be just lcrBC$ without a leading
* size-part, or just 3$ without a trailing lcrBC-part.
* The default size is whatever is current, and the
* default justification is c(entered) and B(aseline).
* ======================================================================= */
/* --- entry point --- */
subraster *rastarray ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1], *exprptr, /*parse array subexpr*/
subtok[MAXTOKNSZ+1], *subptr=subtok, /* &,\\ inside { } not a delim*/
token[MAXTOKNSZ+1], *tokptr=token, /* subexpr token to rasterize */
*preamble(), *preptr=token; /*process optional size,lcr preamble*/
char *coldelim="&", *rowdelim="\\"; /* need escaped rowdelim */
int maxarraysz = 63; /* max #rows, cols */
int justify[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* -1,0,+1 = l,c,r */
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
hline[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* hline above row? */
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
vline[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*vline left of col?*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
colwidth[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*widest tokn in col*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
rowheight[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* "highest" in row */
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
fixcolsize[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*1=fixed col width*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
fixrowsize[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*1=fixed row height*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
rowbaseln[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* baseline for row */
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
vrowspace[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*extra //[len]space*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
rowcenter[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*true = vcenter row*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
static int /* --- propagate global values across arrays --- */
gjustify[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* -1,0,+1 = l,c,r */
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
gcolwidth[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*widest tokn in col*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
growheight[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /* "highest" in row */
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
gfixcolsize[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*1=fixed col width*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
gfixrowsize[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*1=fixed row height*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},
growcenter[65]={0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, /*true = vcenter row*/
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
int rowglobal=0, colglobal=0, /* true to set global values */
rowpropagate=0, colpropagate=0; /* true if propagating values */
int irow,nrows=0, icol,ncols[65], /*#rows in array, #cols in each row*/
maxcols=0; /* max# cols in any single row */
int itoken, ntokens=0, /* index, total #tokens in array */
subtoklen=0, /* strlen of {...} subtoken */
istokwhite=1, /* true if token all whitespace */
nnonwhite=0; /* #non-white tokens */
int isescape=0,wasescape=0, /* current,prev chars escape? */
ischarescaped=0, /* is current char escaped? */
nescapes=0; /* #consecutive escapes */
subraster *rasterize(), *toksp[1025], /* rasterize tokens */
*new_subraster(), *arraysp=NULL; /* subraster for entire array */
raster *arrayrp=NULL; /* raster for entire array */
int delete_subraster(); /* free toksp[] workspace at eoj */
int rowspace=2, colspace=4, /* blank space between rows, cols */
hspace=1, vspace=1; /*space to accommodate hline,vline*/
int width=0, height=0, /* width,height of array */
leftcol=0, toprow=0; /*upper-left corner for cell in it*/
int rastput(); /* embed tokens/cells in array */
int rule_raster(); /* draw hlines and vlines in array */
char *hlchar="\\hline", *hdchar="\\hdash"; /* token signals hline */
char *texchar(), hltoken[1025]; /* extract \hline from token */
int ishonly=0, hltoklen, minhltoklen=3; /*flag, token must be \hl or \hd*/
int isnewrow=1; /* true for new row */
int pixsz = 1; /*default #bits per pixel, 1=bitmap*/
int evalterm(), evalue=0; /* evaluate [arg], {arg} */
static int mydaemonlevel = 0; /* check against global daemonlevel*/
/* -------------------------------------------------------------------------
Macros to determine extra raster space required for vline/hline
-------------------------------------------------------------------------- */
#define vlinespace(icol) \
( vline[icol] == 0? 0 : /* no vline so no space needed */ \
( icol<1 || icol>=maxcols? vspace+(colspace+1)/2 : vspace ) )
#define hlinespace(irow) \
( hline[irow] == 0? 0 : /* no hline so no space needed */ \
( irow<1 || irow>=nrows? hspace+(rowspace+1)/2 : hspace ) )
/* -------------------------------------------------------------------------
Obtain array subexpression
-------------------------------------------------------------------------- */
/* --- parse for array subexpression, and bump expression past it --- */
subexpr[1] = *subexpr = ' '; /* set two leading blanks */
*expression = texsubexpr(*expression,subexpr+2,0,"{","}",0,0);
if ( msglevel>=29 && msgfp!=NULL ) /* debugging, display array */
fprintf(msgfp,"rastarray> %.256s\n",subexpr+2);
if ( *(subexpr+2)=='\000' ) /* couldn't get subexpression */
goto end_of_job; /* nothing to do, so quit */
/* -------------------------------------------------------------------------
reset static arrays if main re-entered as daemon (or dll)
-------------------------------------------------------------------------- */
if ( mydaemonlevel != daemonlevel ) { /* main re-entered */
for ( icol=0; icol<=maxarraysz; icol++ ) /* for each array[] index */
gjustify[icol] = gcolwidth[icol] = growheight[icol] =
gfixcolsize[icol] = gfixrowsize[icol] = growcenter[icol] = 0;
mydaemonlevel = daemonlevel; } /* update mydaemonlevel */
/* -------------------------------------------------------------------------
process optional size,lcr preamble if present
-------------------------------------------------------------------------- */
/* --- reset size, get lcr's, and push exprptr past preamble --- */
exprptr = preamble(subexpr+2,&size,preptr); /* reset size and get lcr's */
/* --- init with global values --- */
for(icol=0; icol<=maxarraysz; icol++) { /* propagate global values... */
justify[icol] = gjustify[icol]; /* -1,0,+1 = l,c,r */
colwidth[icol] = gcolwidth[icol]; /* column width */
rowheight[icol] = growheight[icol]; /* row height */
fixcolsize[icol] = gfixcolsize[icol]; /* 1=fixed col width */
fixrowsize[icol] = gfixrowsize[icol]; /* 1=fixed row height */
rowcenter[icol] = growcenter[icol]; } /* true = vcenter row */
/* --- process lcr's, etc in preamble --- */
itoken = 0; /* debugging flag */
if ( msglevel>=29 && msgfp!=NULL ) /* debugging, display preamble */
if ( *preptr != '\000' ) /* if we have one */
fprintf(msgfp,"rastarray> preamble= \"%.256s\"\nrastarray> preamble: ",
preptr);
irow = icol = 0; /* init lcr counts */
while ( *preptr != '\000' ) /* check preamble text for lcr */
{
char prepchar = *preptr; /* current preamble character */
int prepcase = (islower(prepchar)?1:(isupper(prepchar)?2:0)); /*1,2,or 0*/
if ( irow=29 && msgfp!=NULL ) /* debugging */
fprintf(msgfp," %c[%d]",prepchar,
(prepcase==1?icol+1:(prepcase==2?irow+1:0)));
preptr++; /* check next char for lcr */
itoken++; /* #lcr's processed (debugging only)*/
/* --- check for number or +number specifying colwidth or rowheight --- */
if ( prepcase != 0 ) /* only check upper,lowercase */
{
int ispropagate = (*preptr=='+'?1:0); /* leading + propagates width/ht */
if ( ispropagate ) { /* set row or col propagation */
if ( prepcase == 1 ) colpropagate = 1; /* propagating col values */
else if ( prepcase == 2 ) rowpropagate = 1; } /*propagating row values*/
if ( !colpropagate && prepcase == 1 )
{ colwidth[icol] = 0; /* reset colwidth */
fixcolsize[icol] = 0; } /* reset width flag */
if ( !rowpropagate && prepcase == 2 )
{ rowheight[irow] = 0; /* reset row height */
fixrowsize[irow] = 0; } /* reset height flag */
if ( ispropagate ) preptr++; /* bump past leading + */
if ( isdigit(*preptr) ) /* digit follows character */
{ char *endptr = NULL; /* preptr set to 1st char after num*/
int size = (int)(strtol(preptr,&endptr,10)); /* interpret number */
char *whchars="?wh"; /* debugging width/height labels */
preptr = endptr; /* skip over all digits */
if ( size==0 || (size>=3&&size<=500) ) { /* sanity check */
int index; /* icol,irow...maxarraysz index */
if ( prepcase == 1 ) /* lowercase signifies colwidth */
for(index=icol; index<=maxarraysz; index++) { /*propagate col size*/
colwidth[index] = size; /* set colwidth to fixed size */
fixcolsize[index] = (size>0?1:0); /* set fixed width flag */
justify[index] = justify[icol]; /* and propagate justification */
if ( colglobal ) { /* set global values */
gcolwidth[index] = colwidth[index]; /* set global col width */
gfixcolsize[index] = fixcolsize[index]; /*set global width flag*/
gjustify[index] = justify[icol]; } /* set global col justify */
if ( !ispropagate ) break; } /* don't propagate */
else /* uppercase signifies rowheight */
for(index=irow; index<=maxarraysz; index++) { /*propagate row size*/
rowheight[index] = size; /* set rowheight to size */
fixrowsize[index] = (size>0?1:0); /* set fixed height flag */
rowcenter[index] = rowcenter[irow]; /* and propagate row center */
if ( rowglobal ) { /* set global values */
growheight[index] = rowheight[index]; /* set global row height */
gfixrowsize[index] = fixrowsize[index]; /*set global height flag*/
growcenter[index] = rowcenter[irow]; } /*set global row center*/
if ( !ispropagate ) break; } /* don't propagate */
} /* --- end-of-if(size>=3&&size<=500) --- */
if ( msglevel>=29 && msgfp!=NULL ) /* debugging */
fprintf(msgfp,":%c=%d/fix#%d",whchars[prepcase],
(prepcase==1?colwidth[icol]:rowheight[irow]),
(prepcase==1?fixcolsize[icol]:fixrowsize[irow]));
} /* --- end-of-if(isdigit()) --- */
} /* --- end-of-if(prepcase!=0) --- */
if ( prepcase == 1 ) icol++; /* bump col if lowercase lcr */
else if ( prepcase == 2 ) irow++; /* bump row if uppercase BC */
} /* --- end-of-while(*preptr!='\000') --- */
if ( msglevel>=29 && msgfp!=NULL ) /* debugging, emit final newline */
if ( itoken > 0 ) /* if we have preamble */
fprintf(msgfp,"\n");
/* -------------------------------------------------------------------------
tokenize and rasterize components a & b \\ c & d \\ etc of subexpr
-------------------------------------------------------------------------- */
/* --- rasterize tokens one at a time, and maintain row,col counts --- */
nrows = 0; /* start with top row */
ncols[nrows] = 0; /* no tokens/cols in top row yet */
while ( 1 ) /* scan chars till end */
{
/* --- local control flags --- */
int iseox = (*exprptr == '\000'), /* null signals end-of-expression */
iseor = iseox, /* \\ or eox signals end-of-row */
iseoc = iseor; /* & or eor signals end-of-col */
/* --- check for escapes --- */
isescape = isthischar(*exprptr,ESCAPE); /* is current char escape? */
wasescape= (!isnewrow&&isthischar(*(exprptr-1),ESCAPE)); /*prev char esc?*/
nescapes = (wasescape?nescapes+1:0); /* # preceding consecutive escapes */
ischarescaped = (nescapes%2==0?0:1); /* is current char escaped? */
/* -----------------------------------------------------------------------
check for {...} subexpression starting from where we are now
------------------------------------------------------------------------ */
if ( *exprptr == '{' /* start of {...} subexpression */
&& !ischarescaped ) /* if not escaped \{ */
{
subptr = texsubexpr(exprptr,subtok,4095,"{","}",1,1); /*entire subexpr*/
subtoklen = strlen(subtok); /* #chars in {...} */
memcpy(tokptr,exprptr,subtoklen); /* copy {...} to accumulated token */
tokptr += subtoklen; /* bump tokptr to end of token */
exprptr += subtoklen; /* and bump exprptr past {...} */
istokwhite = 0; /* signal non-empty token */
continue; /* continue with char after {...} */
} /* --- end-of-if(*exprptr=='{') --- */
/* -----------------------------------------------------------------------
check for end-of-row(\\) and/or end-of-col(&)
------------------------------------------------------------------------ */
/* --- check for (escaped) end-of-row delimiter --- */
if ( isescape && !ischarescaped ) /* current char is escaped */
if ( isthischar(*(exprptr+1),rowdelim) /* next char is rowdelim */
|| *(exprptr+1) == '\000' ) /* or a pathological null */
{ iseor = 1; /* so set end-of-row flag */
wasescape=isescape=nescapes = 0; } /* reset flags for new row */
/* --- check for end-of-col delimiter --- */
if (iseor /* end-of-row signals end-of-col */
|| (!ischarescaped&&isthischar(*exprptr,coldelim))) /*or unescaped coldel*/
iseoc = 1; /* so set end-of-col flag */
/* -----------------------------------------------------------------------
rasterize completed token
------------------------------------------------------------------------ */
if ( iseoc ) /* we have a completed token */
{
*tokptr = '\000'; /* first, null-terminate token */
/* --- check first token in row for [len] and/or \hline or \hdash --- */
ishonly = 0; /*init for token not only an \hline*/
if ( ncols[nrows] == 0 ) /*\hline must be first token in row*/
{
tokptr=token; skipwhite(tokptr); /* skip whitespace after // */
/* --- first check for optional [len] --- */
if ( *tokptr == '[' ) { /* have [len] if leading char is [ */
/* ---parse [len] and bump tokptr past it, interpret as double--- */
char lenexpr[128]; int len; /* chars between [...] as int */
tokptr = texsubexpr(tokptr,lenexpr,127,"[","]",0,0);
if ( *lenexpr != '\000' ) { /* got [len] expression */
evalue = evalterm(mimestore,lenexpr); /* evaluate len expression */
len = iround(unitlength*((double)evalue)); /* len in pixels */
if ( len>=(-63) && len<=255 ) { /* sanity check */
vrowspace[nrows] = len; /* extra vspace before this row */
strsqueezep(token,tokptr); /* flush [len] from token */
tokptr=token; skipwhite(tokptr); } } /* reset ptr, skip white */
} /* --- end-of-if(*tokptr=='[') --- */
/* --- now check for \hline or \hdash --- */
tokptr = texchar(tokptr,hltoken); /* extract first char from token */
hltoklen = strlen(hltoken); /* length of first char */
if ( hltoklen >= minhltoklen ) { /*token must be at least \hl or \hd*/
if ( memcmp(hlchar,hltoken,hltoklen) == 0 ) /* we have an \hline */
hline[nrows] += 1; /* bump \hline count for row */
else if ( memcmp(hdchar,hltoken,hltoklen) == 0 ) /*we have an \hdash*/
hline[nrows] = (-1); } /* set \hdash flag for row */
if ( hline[nrows] != 0 ) /* \hline or \hdash prefixes token */
{ skipwhite(tokptr); /* flush whitespace after \hline */
if ( *tokptr == '\000' /* end-of-expression after \hline */
|| isthischar(*tokptr,coldelim) ) /* or unescaped coldelim */
{ istokwhite = 1; /* so token contains \hline only */
if ( iseox ) ishonly = 1; } /* ignore entire row at eox */
else /* token contains more than \hline */
{strsqueezep(token,tokptr);} } /* so flush \hline */
} /* --- end-of-if(ncols[nrows]==0) --- */
/* --- rasterize completed token --- */
toksp[ntokens] = (istokwhite? NULL : /* don't rasterize empty token */
rasterize(token,size)); /* rasterize non-empty token */
if ( toksp[ntokens] != NULL ) /* have a rasterized token */
nnonwhite++; /* bump rasterized token count */
/* --- maintain colwidth[], rowheight[] max, and rowbaseln[] --- */
if ( toksp[ntokens] != NULL ) /* we have a rasterized token */
{
/* --- update max token "height" in current row, and baseline --- */
int twidth = ((toksp[ntokens])->image)->width, /* width of token */
theight = ((toksp[ntokens])->image)->height, /* height of token */
tbaseln = (toksp[ntokens])->baseline, /* baseline of token */
rheight = rowheight[nrows], /* current max height for row */
rbaseln = rowbaseln[nrows]; /* current baseline for max height */
if ( 0 || fixrowsize[nrows]==0 ) /* rowheight not fixed */
rowheight[nrows] = /*max2( rheight,*/( /* current (max) rowheight */
max2(rbaseln+1,tbaseln+1) /* max height above baseline */
+ max2(rheight-rbaseln-1,theight-tbaseln-1) ); /* plus max below */
rowbaseln[nrows] = max2(rbaseln,tbaseln); /*max space above baseline*/
/* --- update max token width in current column --- */
icol = ncols[nrows]; /* current column index */
if ( 0 || fixcolsize[icol]==0 ) /* colwidth not fixed */
colwidth[icol] = max2(colwidth[icol],twidth); /*widest token in col*/
} /* --- end-of-if(toksp[]!=NULL) --- */
/* --- bump counters --- */
if ( !ishonly ) /* don't count only an \hline */
if ( ncols[nrows] < maxarraysz ) /* don't overflow arrays */
{ ntokens++; /* bump total token count */
ncols[nrows] += 1; } /* and bump #cols in current row */
/* --- get ready for next token --- */
tokptr = token; /* reset ptr for next token */
istokwhite = 1; /* next token starts all white */
} /* --- end-of-if(iseoc) --- */
/* -----------------------------------------------------------------------
bump row as necessary
------------------------------------------------------------------------ */
if ( iseor ) /* we have a completed row */
{
maxcols = max2(maxcols,ncols[nrows]); /* max# cols in array */
if ( ncols[nrows]>0 || hline[nrows]==0 ) /*ignore row with only \hline*/
if ( nrows < maxarraysz ) /* don't overflow arrays */
nrows++; /* bump row count */
ncols[nrows] = 0; /* no cols in this row yet */
if ( !iseox ) /* don't have a null yet */
{ exprptr++; /* bump past extra \ in \\ delim */
iseox = (*exprptr == '\000'); } /* recheck for pathological \null */
isnewrow = 1; /* signal start of new row */
} /* --- end-of-if(iseor) --- */
else
isnewrow = 0; /* no longer first col of new row */
/* -----------------------------------------------------------------------
quit when done, or accumulate char in token and proceed to next char
------------------------------------------------------------------------ */
/* --- quit when done --- */
if ( iseox ) break; /* null terminator signalled done */
/* --- accumulate chars in token --- */
if ( !iseoc ) /* don't accumulate delimiters */
{ *tokptr++ = *exprptr; /* accumulate non-delim char */
if ( !isthischar(*exprptr,WHITESPACE) ) /* this token isn't empty */
istokwhite = 0; } /* so reset flag to rasterize it */
/* --- ready for next char --- */
exprptr++; /* bump ptr */
} /* --- end-of-while(*exprptr!='\000') --- */
/* --- make sure we got something to do --- */
if ( nnonwhite < 1 ) /* completely empty array */
goto end_of_job; /* NULL back to caller */
/* -------------------------------------------------------------------------
determine dimensions of array raster and allocate it
-------------------------------------------------------------------------- */
/* --- adjust colspace --- */
colspace = 2 + 2*size; /* temp kludge */
/* --- reset propagated sizes at boundaries of array --- */
colwidth[maxcols] = rowheight[nrows] = 0; /* reset explicit 0's at edges */
/* --- determine width of array raster --- */
width = colspace*(maxcols-1); /* empty space between cols */
if ( msglevel>=29 && msgfp!=NULL ) /* debugging */
fprintf(msgfp,"rastarray> %d cols, widths: ",maxcols);
for ( icol=0; icol<=maxcols; icol++ ) /* and for each col */
{ width += colwidth[icol]; /*width of this col (0 for maxcols)*/
width += vlinespace(icol); /*plus space for vline, if present*/
if ( msglevel>=29 && msgfp!=NULL ) /* debugging */
fprintf(msgfp," %d=%2d+%d",icol+1,colwidth[icol],(vlinespace(icol))); }
/* --- determine height of array raster --- */
height = rowspace*(nrows-1); /* empty space between rows */
if ( msglevel>=29 && msgfp!=NULL ) /* debugging */
fprintf(msgfp,"\nrastarray> %d rows, heights: ",nrows);
for ( irow=0; irow<=nrows; irow++ ) /* and for each row */
{ height += rowheight[irow]; /*height of this row (0 for nrows)*/
height += vrowspace[irow]; /*plus extra //[len], if present*/
height += hlinespace(irow); /*plus space for hline, if present*/
if ( msglevel>=29 && msgfp!=NULL ) /* debugging */
fprintf(msgfp," %d=%2d+%d",irow+1,rowheight[irow],(hlinespace(irow))); }
/* --- allocate subraster and raster for array --- */
if ( msglevel>=29 && msgfp!=NULL ) /* debugging */
fprintf(msgfp,"\nrastarray> tot width=%d(colspc=%d) height=%d(rowspc=%d)\n",
width,colspace, height,rowspace);
if ( (arraysp=new_subraster(width,height,pixsz)) /* allocate new subraster */
== NULL ) goto end_of_job; /* quit if failed */
/* --- initialize subraster parameters --- */
arraysp->type = IMAGERASTER; /* image */
arraysp->symdef = NULL; /* not applicable for image */
arraysp->baseline=min2(height/2+5,height-1); /*is a little above center good?*/
arraysp->size = size; /* size (probably unneeded) */
arrayrp = arraysp->image; /* raster embedded in subraster */
/* -------------------------------------------------------------------------
embed tokens/cells in array
-------------------------------------------------------------------------- */
itoken = 0; /* start with first token */
toprow = 0; /* start at top row of array */
for ( irow=0; irow<=nrows; irow++ ) /*tokens were accumulated row-wise*/
{
/* --- initialization for row --- */
int baseline = rowbaseln[irow]; /* baseline for this row */
if ( hline[irow] != 0 ) /* need hline above this row */
{ int hrow = (irow<1? 0 : toprow - rowspace/2); /* row for hline */
if ( irow >= nrows ) hrow = height-1; /* row for bottom hline */
rule_raster(arrayrp,hrow,0,width,1,(hline[irow]<0?1:0)); } /* hline */
if ( irow >= nrows ) break; /*just needed \hline for irow=nrows*/
toprow += vrowspace[irow]; /* extra //[len] space above irow */
if ( toprow < 0 ) toprow = 0; /* check for large negative [-len] */
toprow += hlinespace(irow); /* space for hline above irow */
leftcol = 0; /* start at leftmost column */
for ( icol=0; icolimage)->width, /* token width */
theight= (tsp->image)->height, /* token height */
tokencol = 0, /*H offset (init for left justify)*/
tokenrow = baseline - tsp->baseline;/*V offset (init for baseline)*/
/* --- adjust leftcol for vline to left of icol, if present ---- */
/*leftcol += vlinespace(icol);*/ /* space for vline to left of col */
/* --- reset justification (if not left-justified) --- */
if ( justify[icol] == 0 ) /* but user wants it centered */
tokencol = (cwidth-twidth+1)/2; /* so split margin left/right */
else if ( justify[icol] == 1 ) /* or user wants right-justify */
tokencol = cwidth-twidth; /* so put entire margin at left */
/* --- reset vertical centering (if not baseline-aligned) --- */
if ( rowcenter[irow] ) /* center cells in row vertically */
tokenrow = (rowheight[irow]-theight)/2; /* center row */
/* --- embed token raster at appropriate place in array raster --- */
rastput(arrayrp,tsp->image, /* overlay cell token in array */
toprow+ tokenrow, /*with aligned baseline or centered*/
leftcol+tokencol, 1); /* and justified as requested */
} /* --- end-of-if(tsp!=NULL) --- */
itoken++; /* bump index for next cell */
leftcol += colwidth[icol] + colspace /*move leftcol right for next col*/
/* + vlinespace(icol) */ ; /*don't add space for vline to left of col*/
} /* --- end-of-for(icol) --- */
toprow += rowheight[irow] + rowspace; /* move toprow down for next row */
} /* --- end-of-for(irow) --- */
/* -------------------------------------------------------------------------
draw vlines as necessary
-------------------------------------------------------------------------- */
leftcol = 0; /* start at leftmost column */
for ( icol=0; icol<=maxcols; icol++ ) /* check each col for a vline */
{
if ( vline[icol] != 0 ) /* need vline to left of this col */
{ int vcol = (icol<1? 0 : leftcol - colspace/2); /* column for vline */
if ( icol >= maxcols ) vcol = width-1; /*column for right edge vline*/
rule_raster(arrayrp,0,vcol,1,height,(vline[icol]<0?2:0)); } /* vline */
leftcol += vlinespace(icol); /* space for vline to left of col */
if ( icol < maxcols ) /* don't address past end of array */
leftcol += colwidth[icol] + colspace; /*move leftcol right for next col*/
} /* --- end-of-for(icol) --- */
/* -------------------------------------------------------------------------
free workspace and return final result to caller
-------------------------------------------------------------------------- */
end_of_job:
/* --- free workspace --- */
if ( ntokens > 0 ) /* if we have workspace to free */
while ( --ntokens >= 0 ) /* free each token subraster */
if ( toksp[ntokens] != NULL ) /* if we rasterized this cell */
delete_subraster(toksp[ntokens]); /* then free it */
/* --- return final result to caller --- */
return ( arraysp );
} /* --- end-of-function rastarray() --- */
/* ==========================================================================
* Function: rastpicture ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \picture handler, returns subraster corresponding to picture
* expression (immediately following \picture) at font size
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \picture to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \picture
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to picture
* expression, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \picture(width,height){(x,y){pic_elem}~(x,y){pic_elem}~etc}
* o
* ======================================================================= */
/* --- entry point --- */
subraster *rastpicture ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), picexpr[2049], *picptr=picexpr, /* picture {expre} */
putexpr[256], *putptr,*multptr, /*[multi]put (x,y[;xinc,yinc;num])*/
pream[96], *preptr, /* optional put preamble */
picelem[1025]; /* picture element following put */
subraster *rasterize(), *picelemsp=NULL, /* rasterize picture elements */
*new_subraster(), *picturesp=NULL, /* subraster for entire picture */
*oldworkingbox = workingbox; /* save working box on entry */
raster *picturerp=NULL; /* raster for entire picture */
int delete_subraster(); /* free picelemsp[] workspace */
int pixsz = 1; /* pixels are one bit each */
double x=0.0,y=0.0, /* x,y-coords for put,multiput*/
xinc=0.0,yinc=0.0; /* x,y-incrementss for multiput*/
int width=0, height=0, /* #pixels width,height of picture */
ewidth=0, eheight=0, /* pic element width,height */
ix=0,xpos=0, iy=0,ypos=0, /* mimeTeX x,y pixel coords */
num=1, inum; /* number reps, index of element */
int evalterm(); /* evaluate [arg] and {arg}'s */
int iscenter=0; /* center or lowerleft put position*/
int *oldworkingparam = workingparam, /* save working param on entry */
origin = 0; /* x,yinc ++=00 +-=01 -+=10 --=11 */
int rastput(); /* embed elements in picture */
int type_raster(); /* display debugging output */
/* -------------------------------------------------------------------------
First obtain (width,height) arguments immediately following \picture command
-------------------------------------------------------------------------- */
/* --- parse for (width,height) arguments, and bump expression past it --- */
*expression = texsubexpr(*expression,putexpr,254,"(",")",0,0);
if ( *putexpr == '\000' ) goto end_of_job; /* couldn't get (width,height) */
/* --- now interpret width,height returned in putexpr --- */
if ( (putptr=strchr(putexpr,',')) != NULL ) /* look for ',' in width,height*/
*putptr = '\000'; /* found it, so replace ',' by '\0'*/
width=height = eround(putexpr); /*width pixels*/
if ( putptr != NULL ) /* 2nd arg, if present, is height */
height = eround(putptr+1); /*in pixels*/
/* -------------------------------------------------------------------------
Then obtain entire picture {...} subexpression following (width,height)
-------------------------------------------------------------------------- */
/* --- parse for picture subexpression, and bump expression past it --- */
*expression = texsubexpr(*expression,picexpr,2047,"{","}",0,0);
if ( *picexpr == '\000' ) goto end_of_job; /* couldn't get {pic_elements} */
/* -------------------------------------------------------------------------
allocate subraster and raster for complete picture
-------------------------------------------------------------------------- */
/* --- sanity check on width,height args --- */
if ( width < 2 || width > 600
|| height < 2 || height > 600 ) goto end_of_job;
/* --- allocate and initialize subraster for constructed picture --- */
if ( (picturesp=new_subraster(width,height,pixsz)) /*allocate new subraster*/
== NULL ) goto end_of_job; /* quit if failed */
workingbox = picturesp; /* set workingbox to our picture */
/* --- initialize picture subraster parameters --- */
picturesp->type = IMAGERASTER; /* image */
picturesp->symdef = NULL; /* not applicable for image */
picturesp->baseline = height/2 + 2; /* is a little above center good? */
picturesp->size = size; /* size (probably unneeded) */
picturerp = picturesp->image; /* raster embedded in subraster */
if ( msgfp!=NULL && msglevel>=29 ) /* debugging */
fprintf(msgfp,"picture> width,height=%d,%d\n",width,height);
/* -------------------------------------------------------------------------
parse out each picture element, rasterize it, and place it in picture
-------------------------------------------------------------------------- */
while ( *picptr != '\000' ) /* until we run out of pic_elems */
{
/* -----------------------------------------------------------------------
first obtain leading \[multi]put(x,y[;xinc,yinc;num]) args for pic_elem
------------------------------------------------------------------------ */
/* --- init default values in case not explicitly supplied in args --- */
x=y=0.0; xinc=yinc=0.0; num=1; /* init default values */
iscenter = origin = 0; /* center, origin */
/* --- get (pream$x,y;xinc,yinc;num ) args and bump picptr past it --- */
while ( *picptr != '\000' ) /* skip invalid chars preceding ( */
if ( *picptr == '(' ) break; /* found opening ( */
else picptr++; /* else skip invalid char */
picptr = texsubexpr(picptr,putexpr,254,"(",")",0,0);
if ( *putexpr == '\000' ) goto end_of_job; /* couldn't get (x,y) */
/* --- first look for $-terminated or for any non-digit preamble --- */
*pream = '\000'; /* init preamble as empty string */
if ( (putptr=strchr(putexpr,'$')) != NULL ) /*check for $ pream terminator*/
{ *putptr++ = '\000'; /* replace $ by '\0', bump past $ */
strninit(pream,putexpr,92); } /* copy leading preamble from put */
else /* look for any non-digit preamble */
{ int npream = 0; /* #chars in preamble */
for ( preptr=pream,putptr=putexpr; ; npream++,putptr++ )
if ( *putptr == '\000' /* end-of-putdata signalled */
|| !isalpha((int)(*putptr)) /* or found non-alpha char */
|| npream > 92 ) break; /* or preamble too long */
else *preptr++ = *putptr; /* copy alpha char to preamble */
*preptr = '\000'; } /* null-terminate preamble */
/* --- interpret preamble --- */
for ( preptr=pream; ; preptr++ ) /* examine each preamble char */
if ( *preptr == '\000' ) break; /* end-of-preamble signalled */
else switch ( tolower(*preptr) ) /* check lowercase preamble char */
{
default: break; /* unrecognized flag */
case 'c': iscenter=1; break; /* center pic_elem at x,y coords */
} /* --- end-of-switch --- */
/* --- interpret x,y;xinc,yinc;num following preamble --- */
if ( *putptr != '\000' ) /*check for put data after preamble*/
{
/* --- first squeeze preamble out of put expression --- */
if ( *pream != '\000' ) /* have preamble */
{strsqueezep(putexpr,putptr);} /* squeeze it out */
/* --- interpret x,y --- */
if ( (multptr=strchr(putexpr,';')) != NULL ) /*semicolon signals multiput*/
*multptr = '\000'; /* replace semicolon by '\0' */
if ( (putptr=strchr(putexpr,',')) != NULL ) /* comma separates x,y */
*putptr = '\000'; /* replace comma by '\0' */
if ( *putexpr != '\000' ) /* leading , may be placeholder */
x = (double)(eround(putexpr)); /* x coord in pixels*/
if ( putptr != NULL ) /* 2nd arg, if present, is y coord */
y = (double)(eround(putptr+1)); /* in pixels */
/* --- interpret xinc,yinc,num if we have a multiput --- */
if ( multptr != NULL ) /* found ';' signalling multiput */
{
if ( (preptr=strchr(multptr+1,';')) != NULL ) /* ';' preceding num arg*/
*preptr = '\000'; /* replace ';' by '\0' */
if ( (putptr=strchr(multptr+1,',')) != NULL ) /* ',' between xinc,yinc*/
*putptr = '\000'; /* replace ',' by '\0' */
if ( *(multptr+1) != '\000' ) /* leading , may be placeholder */
xinc = (double)(eround(multptr+1)); /* xinc in pixels */
if ( putptr != NULL ) /* 2nd arg, if present, is yinc */
yinc = (double)(eround(putptr+1)); /* in user pixels */
num = (preptr==NULL? 999 : atoi(preptr+1)); /*explicit num val or 999*/
} /* --- end-of-if(multptr!=NULL) --- */
} /* --- end-of-if(*preptr!='\000') --- */
if ( msgfp!=NULL && msglevel>=29 ) /* debugging */
fprintf(msgfp,
"picture> pream;x,y;xinc,yinc;num=\"%s\";%.2f,%.2f;%.2f,%.2f;%d\n",
pream,x,y,xinc,yinc,num);
/* -----------------------------------------------------------------------
now obtain {...} picture element following [multi]put, and rasterize it
------------------------------------------------------------------------ */
/* --- parse for {...} picture element and bump picptr past it --- */
picptr = texsubexpr(picptr,picelem,1023,"{","}",0,0);
if ( *picelem == '\000' ) goto end_of_job; /* couldn't get {pic_elem} */
if ( msgfp!=NULL && msglevel>=29 ) /* debugging */
fprintf(msgfp, "picture> picelem=\"%.50s\"\n",picelem);
/* --- rasterize picture element --- */
origin = 0; /* init origin as working param */
workingparam = &origin; /* and point working param to it */
picelemsp = rasterize(picelem,size); /* rasterize picture element */
if ( picelemsp == NULL ) continue; /* failed to rasterize, skip elem */
ewidth = (picelemsp->image)->width; /* width of element, in pixels */
eheight = (picelemsp->image)->height; /* height of element, in pixels */
if ( origin == 55 ) iscenter = 1; /* origin set to (.5,.5) for center*/
if ( msgfp!=NULL && msglevel>=29 ) /* debugging */
{ fprintf(msgfp, "picture> ewidth,eheight,origin,num=%d,%d,%d,%d\n",
ewidth,eheight,origin,num);
if ( msglevel >= 999 ) type_raster(picelemsp->image,msgfp); }
/* -----------------------------------------------------------------------
embed element in picture (once, or multiple times if requested)
------------------------------------------------------------------------ */
for ( inum=0; inum=29 ) /* debugging */
fprintf(msgfp,
"picture> inum,x,y,ix,iy,xpos,ypos=%d,%.2f,%.2f,%d,%d,%d,%d\n",
inum,x,y,ix,iy,xpos,ypos);
/* --- embed token raster at xpos,ypos, and quit if out-of-bounds --- */
if ( !rastput(picturerp,picelemsp->image,ypos,xpos,0) ) break;
/* --- apply increment --- */
if ( xinc==0. && yinc==0. ) break; /* quit if both increments zero */
x += xinc; y += yinc; /* increment coords for next iter */
} /* --- end-of-for(inum) --- */
/* --- free picture element subraster after embedding it in picture --- */
delete_subraster(picelemsp); /* done with subraster, so free it */
} /* --- end-of-while(*picptr!=0) --- */
/* -------------------------------------------------------------------------
return picture constructed from pic_elements to caller
-------------------------------------------------------------------------- */
end_of_job:
workingbox = oldworkingbox; /* restore original working box */
workingparam = oldworkingparam; /* restore original working param */
return ( picturesp ); /* return our picture to caller */
} /* --- end-of-function rastpicture() --- */
/* ==========================================================================
* Function: rastline ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \line handler, returns subraster corresponding to line
* parameters (xinc,yinc){xlen}
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \line to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \line
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to line
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \line(xinc,yinc){xlen}
* o if {xlen} not given, then it's assumed xlen = |xinc|
* ======================================================================= */
/* --- entry point --- */
subraster *rastline ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(),linexpr[257], *xptr=linexpr; /*line(xinc,yinc){xlen}*/
subraster *new_subraster(), *linesp=NULL; /* subraster for line */
/*char *origexpression = *expression;*/ /*original expression after \line*/
int pixsz = 1; /* pixels are one bit each */
int thickness = 1; /* line thickness */
double xinc=0.0, yinc=0.0, /* x,y-increments for line, */
xlen=0.0, ylen=0.0; /* x,y lengths for line */
int width=0, height=0, /* #pixels width,height of line */
rwidth=0, rheight=0; /*alloc width,height plus thickness*/
int evalterm(); /* evaluate [arg] and {arg}'s */
int istop=0, isright=0, /* origin at bot-left if x,yinc>=0 */
origin = 0; /* x,yinc: ++=00 +-=01 -+=10 --=11 */
int line_raster(); /* draw line in linesp->image */
/* -------------------------------------------------------------------------
obtain (xinc,yinc) arguments immediately following \line command
-------------------------------------------------------------------------- */
/* --- parse for (xinc,yinc) arguments, and bump expression past it --- */
*expression = texsubexpr(*expression,linexpr,253,"(",")",0,0);
if ( *linexpr == '\000' ) goto end_of_job; /* couldn't get (xinc,yinc) */
/* --- now interpret xinc,yinc;thickness returned in linexpr --- */
if ( (xptr=strchr(linexpr,';')) != NULL ) /* look for ';' after xinc,yinc */
{ *xptr = '\000'; /* terminate linexpr at ; */
thickness = evalterm(mimestore,xptr+1); } /* get int thickness */
if ( (xptr=strchr(linexpr,',')) != NULL ) /* look for ',' in xinc,yinc */
*xptr = '\000'; /* found it, so replace ',' by '\0'*/
if ( *linexpr != '\000' ) /* check against missing 1st arg */
xinc = xlen = (double)evalterm(mimestore,linexpr); /* xinc in user units */
if ( xptr != NULL ) /* 2nd arg, if present, is yinc */
yinc = ylen = (double)evalterm(mimestore,xptr+1); /* in user units */
/* -------------------------------------------------------------------------
obtain optional {xlen} following (xinc,yinc), and calculate ylen
-------------------------------------------------------------------------- */
/* --- check if {xlen} given --- */
if ( *(*expression) == '{' ) /*have {xlen} if leading char is { */
{
/* --- parse {xlen} and bump expression past it, interpret as double --- */
*expression = texsubexpr(*expression,linexpr,253,"{","}",0,0);
if ( *linexpr == '\000' ) goto end_of_job; /* couldn't get {xlen} */
xlen = (double)evalterm(mimestore,linexpr); /* xlen in user units */
/* --- set other values accordingly --- */
if ( xlen < 0.0 ) xinc = -xinc; /* if xlen negative, flip xinc sign*/
if ( xinc != 0.0 ) ylen = xlen*yinc/xinc; /* set ylen from xlen and slope*/
else xlen = 0.0; /* can't have xlen if xinc=0 */
} /* --- end-of-if(*(*expression)=='{') --- */
/* -------------------------------------------------------------------------
calculate width,height, etc, based on xlen,ylen, etc
-------------------------------------------------------------------------- */
/* --- force lengths positive --- */
xlen = absval(xlen); /* force xlen positive */
ylen = absval(ylen); /* force ylen positive */
/* --- calculate corresponding lengths in pixels --- */
width = max2(1,iround(unitlength*xlen)); /*scale by unitlength and round,*/
height = max2(1,iround(unitlength*ylen)); /* and must be at least 1 pixel */
rwidth = width + (ylen<0.001?0:max2(0,thickness-1));
rheight = height + (xlen<0.001?0:max2(0,thickness-1));
/* --- set origin corner, x,yinc's: ++=0=(0,0) +-=1=(0,1) -+=10=(1,0) --- */
if ( xinc < 0.0 ) isright = 1; /*negative xinc, so corner is (1,?)*/
if ( yinc < 0.0 ) istop = 1; /*negative yinc, so corner is (?,1)*/
origin = isright*10 + istop; /* interpret 0=(0,0), 11=(1,1), etc*/
if ( msgfp!=NULL && msglevel>=29 ) /* debugging */
fprintf(msgfp,"rastline> width,height,origin;x,yinc=%d,%d,%d;%g,%g\n",
width,height,origin,xinc,yinc);
/* -------------------------------------------------------------------------
allocate subraster and raster for line
-------------------------------------------------------------------------- */
/* --- sanity check on width,height,thickness args --- */
if ( width < 1 || width > 600
|| height < 1 || height > 600
|| thickness<1||thickness>25 ) goto end_of_job;
/* --- allocate and initialize subraster for constructed line --- */
if ( (linesp=new_subraster(rwidth,rheight,pixsz)) /* alloc new subraster */
== NULL ) goto end_of_job; /* quit if failed */
/* --- initialize line subraster parameters --- */
linesp->type = IMAGERASTER; /* image */
linesp->symdef = NULL; /* not applicable for image */
linesp->baseline = height/2 + 2 /* is a little above center good? */
+ (rheight-height)/2; /* account for line thickness too */
linesp->size = size; /* size (probably unneeded) */
/* -------------------------------------------------------------------------
draw the line
-------------------------------------------------------------------------- */
line_raster ( linesp->image, /* embedded raster image */
(istop? 0 : height-1), /* row0, from bottom or top */
(isright? width-1 : 0), /* col0, from left or right */
(istop? height-1 : 0), /* row1, to top or bottom */
(isright? 0 : width-1), /* col1, to right or left */
thickness ); /* line thickness (usually 1 pixel)*/
/* -------------------------------------------------------------------------
return constructed line to caller
-------------------------------------------------------------------------- */
end_of_job:
if ( workingparam != NULL ) /* caller wants origin */
*workingparam = origin; /* return origin corner to caller */
return ( linesp ); /* return line to caller */
} /* --- end-of-function rastline() --- */
/* ==========================================================================
* Function: rastrule ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \rule handler, returns subraster corresponding to rule
* parameters [lift]{width}{height}
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \rule to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \rule
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to rule
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \rule[lift]{width}{height}
* o if [lift] not given, then bottom of rule on baseline
* o if width=0 then you get an invisible strut 1 (one) pixel wide
* ======================================================================= */
/* --- entry point --- */
subraster *rastrule ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), rulexpr[257]; /* rule[lift]{wdth}{hgt} */
subraster *new_subraster(), *rulesp=NULL; /* subraster for rule */
int pixsz = 1; /* pixels are one bit each */
int lift=0, width=0, height=0; /* default rule parameters */
double dval; /* convert ascii params to doubles */
int rwidth=0, rheight=0; /* alloc width, height plus lift */
int rule_raster(); /* draw rule in rulesp->image */
int evalterm(); /* evaluate args */
/* -------------------------------------------------------------------------
Obtain lift,width,height
-------------------------------------------------------------------------- */
/* --- check for optional lift arg --- */
if ( *(*expression) == '[' ) /*check for []-enclosed optional arg*/
{ *expression = texsubexpr(*expression,rulexpr,255,"[","]",0,0);
dval = evalterm(mimestore,rulexpr); /* convert [lift] to int */
if ( dval <= 99 && dval >= (-99) ) /* sanity check */
lift = iround(unitlength*dval); } /* scale by unitlength and round */
/* --- parse for width --- */
*expression = texsubexpr(*expression,rulexpr,255,"{","}",0,0);
if ( *rulexpr == '\000' ) goto end_of_job; /* quit if args missing */
dval = evalterm(mimestore,rulexpr); /* convert {width} to int */
if ( dval <= 500 && dval >= 0 ) /* sanity check */
width = max2(0,iround(unitlength*dval)); /* scale by unitlength and round*/
/* --- parse for height --- */
*expression = texsubexpr(*expression,rulexpr,255,"{","}",0,0);
if ( *rulexpr == '\000' ) goto end_of_job; /* quit if args missing */
dval = evalterm(mimestore,rulexpr); /* convert {height} to int */
if ( dval <= 500 && dval > 0 ) /* sanity check */
height= max2(1,iround(unitlength*dval)); /* scale by unitlength and round*/
/* --- raster width,height in pixels --- */
rwidth = max2(1,width); /* raster must be at least 1 pixel*/
rheight = height + (lift>=0?lift: /* raster height plus lift */
(-lift 600
|| rheight < 1 || rheight > 600 ) goto end_of_job;
/* --- allocate and initialize subraster for constructed rule --- */
if ( (rulesp=new_subraster(rwidth,rheight,pixsz)) /* alloc new subraster */
== NULL ) goto end_of_job; /* quit if failed */
/* --- initialize line subraster parameters --- */
rulesp->type = IMAGERASTER; /* image */
rulesp->symdef = NULL; /* not applicable for image */
rulesp->baseline = rheight-1 + (lift>=0?0:lift); /*adjust baseline for lift*/
rulesp->size = size; /* size (probably unneeded) */
/* -------------------------------------------------------------------------
draw the rule
-------------------------------------------------------------------------- */
rule_raster ( rulesp->image, /* embedded raster image */
(-lift0? 0:4 ) ); /* rule type */
/* -------------------------------------------------------------------------
return constructed rule to caller
-------------------------------------------------------------------------- */
end_of_job:
return ( rulesp ); /* return rule to caller */
} /* --- end-of-function rastrule() --- */
/* ==========================================================================
* Function: rastcircle ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \circle handler, returns subraster corresponding to ellipse
* parameters (xdiam[,ydiam])
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \circle to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \circle
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to ellipse
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \circle(xdiam[,ydiam])
* o
* ======================================================================= */
/* --- entry point --- */
subraster *rastcircle ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), circexpr[512],*xptr=circexpr; /*circle(xdiam[,ydiam])*/
char *qptr=NULL, quads[256]="1234"; /* default to draw all quadrants */
double theta0=0.0, theta1=0.0; /* ;theta0,theta1 instead of ;quads*/
subraster *new_subraster(), *circsp=NULL; /* subraster for ellipse */
int pixsz = 1; /* pixels are one bit each */
double xdiam=0.0, ydiam=0.0; /* x,y major/minor axes/diameters */
int width=0, height=0; /* #pixels width,height of ellipse */
int thickness = 1; /* drawn lines are one pixel thick */
int evalterm(); /* evaluate [arg],{arg} expressions*/
int origin = 55; /* force origin centered */
int circle_raster(), /* draw ellipse in circsp->image */
circle_recurse(); /* for theta0,theta1 args */
/* -------------------------------------------------------------------------
obtain (xdiam[,ydiam]) arguments immediately following \circle command
-------------------------------------------------------------------------- */
/* --- parse for (xdiam[,ydiam]) args, and bump expression past it --- */
*expression = texsubexpr(*expression,circexpr,500,"(",")",0,0);
if ( *circexpr == '\000' ) goto end_of_job; /* couldn't get (xdiam[,ydiam])*/
/* --- now interpret xdiam[,ydiam] returned in circexpr --- */
if ( (qptr=strchr(circexpr,';')) != NULL ) /* semicolon signals quads data */
{ *qptr = '\000'; /* replace semicolon by '\0' */
strninit(quads,qptr+1,128); /* save user-requested quads */
if ( (qptr=strchr(quads,',')) != NULL ) /* have theta0,theta1 instead */
{ *qptr = '\000'; /* replace , with null */
theta0 = (double)evalterm(mimestore,quads); /* theta0 precedes , */
theta1 = (double)evalterm(mimestore,qptr+1); /* theta1 follows , */
qptr = NULL; } /* signal thetas instead of quads */
else
qptr = quads; } /* set qptr arg for circle_raster()*/
else /* no ;quads at all */
qptr = quads; /* default to all 4 quadrants */
if ( (xptr=strchr(circexpr,',')) != NULL ) /* look for ',' in xdiam[,ydiam]*/
*xptr = '\000'; /* found it, so replace ',' by '\0'*/
xdiam = ydiam = /* xdiam=ydiam in user units */
(double)evalterm(mimestore,circexpr); /* evaluate expression */
if ( xptr != NULL ) /* 2nd arg, if present, is ydiam */
ydiam = (double)evalterm(mimestore,xptr+1); /* in user units */
/* -------------------------------------------------------------------------
calculate width,height, etc
-------------------------------------------------------------------------- */
/* --- calculate width,height in pixels --- */
width = max2(1,iround(unitlength*xdiam)); /*scale by unitlength and round,*/
height = max2(1,iround(unitlength*ydiam)); /* and must be at least 1 pixel */
if ( msgfp!=NULL && msglevel>=29 ) /* debugging */
fprintf(msgfp,"rastcircle> width,height;quads=%d,%d,%s\n",
width,height,(qptr==NULL?"default":qptr));
/* -------------------------------------------------------------------------
allocate subraster and raster for complete picture
-------------------------------------------------------------------------- */
/* --- sanity check on width,height args --- */
if ( width < 1 || width > 600
|| height < 1 || height > 600 ) goto end_of_job;
/* --- allocate and initialize subraster for constructed ellipse --- */
if ( (circsp=new_subraster(width,height,pixsz)) /* allocate new subraster */
== NULL ) goto end_of_job; /* quit if failed */
/* --- initialize ellipse subraster parameters --- */
circsp->type = IMAGERASTER; /* image */
circsp->symdef = NULL; /* not applicable for image */
circsp->baseline = height/2 + 2; /* is a little above center good? */
circsp->size = size; /* size (probably unneeded) */
/* -------------------------------------------------------------------------
draw the ellipse
-------------------------------------------------------------------------- */
if ( qptr != NULL ) /* have quads */
circle_raster ( circsp->image, /* embedded raster image */
0, 0, /* row0,col0 are upper-left corner */
height-1, width-1, /* row1,col1 are lower-right */
thickness, /* line thickness is 1 pixel */
qptr ); /* "1234" quadrants to be drawn */
else /* have theta0,theta1 */
circle_recurse ( circsp->image, /* embedded raster image */
0, 0, /* row0,col0 are upper-left corner */
height-1, width-1, /* row1,col1 are lower-right */
thickness, /* line thickness is 1 pixel */
theta0,theta1 ); /* theta0,theta1 arc to be drawn */
/* -------------------------------------------------------------------------
return constructed ellipse to caller
-------------------------------------------------------------------------- */
end_of_job:
if ( workingparam != NULL ) /* caller wants origin */
*workingparam = origin; /* return center origin to caller */
return ( circsp ); /* return ellipse to caller */
} /* --- end-of-function rastcircle() --- */
/* ==========================================================================
* Function: rastbezier ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \bezier handler, returns subraster corresponding to bezier
* parameters (col0,row0)(col1,row1)(colt,rowt)
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \bezier to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \bezier
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to bezier
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \bezier(col1,row1)(colt,rowt)
* o col0=0,row0=0 assumed, i.e., given by
* \picture(){~(col0,row0){\bezier(col1,row1)(colt,rowt)}~}
* ======================================================================= */
/* --- entry point --- */
subraster *rastbezier ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
subraster *new_subraster(), *bezsp=NULL; /* subraster for bezier */
char *texsubexpr(), bezexpr[129],*xptr=bezexpr; /*\bezier(r,c)(r,c)(r,c)*/
double r0=0.0,c0=0.0, r1=0.0,c1=0.0, rt=0.0,ct=0.0, /* bezier points */
rmid=0.0, cmid=0.0, /* coords at parameterized midpoint*/
rmin=0.0, cmin=0.0, /* minimum r,c */
rmax=0.0, cmax=0.0, /* maximum r,c */
rdelta=0.0, cdelta=0.0, /* rmax-rmin, cmax-cmin */
r=0.0, c=0.0; /* some point */
int evalterm(); /* evaluate [arg],{arg} expressions*/
int iarg=0; /* 0=r0,c0 1=r1,c1 2=rt,ct */
int width=0, height=0; /* dimensions of bezier raster */
int pixsz = 1; /* pixels are one bit each */
/*int thickness = 1;*/ /* drawn lines are one pixel thick */
int origin = 0; /*c's,r's reset to lower-left origin*/
int bezier_raster(); /* draw bezier in bezsp->image */
/* -------------------------------------------------------------------------
obtain (c1,r1)(ct,rt) args immediately following \bezier command
-------------------------------------------------------------------------- */
for ( iarg=1; iarg<=2; iarg++ ) /* 0=c0,r0 1=c1,r1 2=ct,rt */
{
/* --- parse for (r,c) args, and bump expression past them all --- */
*expression = texsubexpr(*expression,bezexpr,127,"(",")",0,0);
if ( *bezexpr == '\000' ) goto end_of_job; /* couldn't get (r,c)*/
/* --- now interpret (r,c) returned in bezexpr --- */
c = r = 0.0; /* init x-coord=col, y-coord=row */
if ( (xptr=strchr(bezexpr,',')) != NULL ) /* comma separates row,col */
{ *xptr = '\000'; /* found it, so replace ',' by '\0'*/
/* --- row=y-coord in pixels --- */
r = unitlength*((double)evalterm(mimestore,xptr+1)); }
/* --- col=x-coord in pixels --- */
c = unitlength*((double)evalterm(mimestore,bezexpr));
/* --- store r,c --- */
switch ( iarg )
{ case 0: r0=r; c0=c; break;
case 1: r1=r; c1=c; break;
case 2: rt=r; ct=c; break; }
} /* --- end-of-for(iarg) --- */
/* --- determine midpoint and maximum,minimum points --- */
rmid = 0.5*(rt + 0.5*(r0+r1)); /* y-coord at middle of bezier */
cmid = 0.5*(ct + 0.5*(c0+c1)); /* x-coord at middle of bezier */
rmin = min3(r0,r1,rmid); /* lowest row */
cmin = min3(c0,c1,cmid); /* leftmost col */
rmax = max3(r0,r1,rmid); /* highest row */
cmax = max3(c0,c1,cmid); /* rightmost col */
rdelta = rmax-rmin; /* height */
cdelta = cmax-cmin; /* width */
/* --- rescale coords so we start at 0,0 --- */
r0 -= rmin; c0 -= cmin; /* rescale r0,c0 */
r1 -= rmin; c1 -= cmin; /* rescale r1,c1 */
rt -= rmin; ct -= cmin; /* rescale rt,ct */
/* --- flip rows so 0,0 becomes lower-left corner instead of upper-left--- */
r0 = rdelta - r0 + 1; /* map 0-->height-1, height-1-->0 */
r1 = rdelta - r1 + 1;
rt = rdelta - rt + 1;
/* --- determine width,height of raster needed for bezier --- */
width = (int)(cdelta + 0.9999) + 1; /* round width up */
height = (int)(rdelta + 0.9999) + 1; /* round height up */
if ( msgfp!=NULL && msglevel>=29 ) /* debugging */
fprintf(msgfp,"rastbezier> width,height,origin=%d,%d,%d; c0,r0=%g,%g; "
"c1,r1=%g,%g\n rmin,mid,max=%g,%g,%g; cmin,mid,max=%g,%g,%g\n",
width,height,origin, c0,r0, c1,r1, rmin,rmid,rmax, cmin,cmid,cmax);
/* -------------------------------------------------------------------------
allocate raster
-------------------------------------------------------------------------- */
/* --- sanity check on width,height args --- */
if ( width < 1 || width > 600
|| height < 1 || height > 600 ) goto end_of_job;
/* --- allocate and initialize subraster for constructed bezier --- */
if ( (bezsp=new_subraster(width,height,pixsz)) /* allocate new subraster */
== NULL ) goto end_of_job; /* quit if failed */
/* --- initialize bezier subraster parameters --- */
bezsp->type = IMAGERASTER; /* image */
bezsp->symdef = NULL; /* not applicable for image */
bezsp->baseline = height/2 + 2; /* is a little above center good? */
bezsp->size = size; /* size (probably unneeded) */
/* -------------------------------------------------------------------------
draw the bezier
-------------------------------------------------------------------------- */
bezier_raster ( bezsp->image, /* embedded raster image */
r0, c0, /* row0,col0 are lower-left corner */
r1, c1, /* row1,col1 are upper-right */
rt, ct ); /* bezier tangent point */
/* -------------------------------------------------------------------------
return constructed bezier to caller
-------------------------------------------------------------------------- */
end_of_job:
if ( workingparam != NULL ) /* caller wants origin */
*workingparam = origin; /* return center origin to caller */
return ( bezsp ); /* return bezier to caller */
} /* --- end-of-function rastbezier() --- */
/* ==========================================================================
* Function: rastraise ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \raisebox{lift}{subexpression} handler, returns subraster
* containing subexpression with its baseline "lifted" by lift
* pixels, scaled by \unitlength, or "lowered" if lift arg
* negative
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \raisebox to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \raisebox
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to \raisebox
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \raisebox{lift}{subexpression}
* o
* ======================================================================= */
/* --- entry point --- */
subraster *rastraise ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1], *liftexpr=subexpr; /* args */
subraster *rasterize(), *raisesp=NULL; /* rasterize subexpr to be raised */
int lift=0; /* amount to raise/lower baseline */
int evalterm(); /* evaluate [arg],{arg} expressions*/
/* -------------------------------------------------------------------------
obtain {lift} argument immediately following \raisebox command
-------------------------------------------------------------------------- */
rastlift = 0; /* reset global lift adjustment */
/* --- parse for {lift} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,liftexpr,0,"{","}",0,0);
if ( *liftexpr == '\000' ) goto end_of_job; /* couldn't get {lift} */
lift = eround(liftexpr); /* {lift} to integer */
if ( abs(lift) > 200 ) lift=0; /* sanity check */
/* -------------------------------------------------------------------------
obtain {subexpr} argument after {lift}, and rasterize it
-------------------------------------------------------------------------- */
/* --- parse for {subexpr} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,subexpr,0,"{","}",0,0);
/* --- rasterize subexpression to be raised/lowered --- */
if ( (raisesp = rasterize(subexpr,size)) /* rasterize subexpression */
== NULL ) goto end_of_job; /* and quit if failed */
/* -------------------------------------------------------------------------
raise/lower baseline and return it to caller
-------------------------------------------------------------------------- */
/* --- raise/lower baseline --- */
raisesp->baseline += lift; /* new baseline (no height checks) */
rastlift = lift; /* set global to signal adjustment */
/* --- return raised subexpr to caller --- */
end_of_job:
return ( raisesp ); /* return raised subexpr to caller */
} /* --- end-of-function rastraise() --- */
/* ==========================================================================
* Function: rastrotate ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \rotatebox{degrees}{subexpression} handler, returns subraster
* containing subexpression rotated by degrees (counterclockwise
* if degrees positive)
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \rotatebox to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \rotatebox
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to \rotatebox
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \rotatebox{degrees}{subexpression}
* o
* ======================================================================= */
/* --- entry point --- */
subraster *rastrotate ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1], *degexpr=subexpr; /* args */
subraster *rasterize(), *rotsp=NULL; /* subraster for rotated subexpr */
raster *rastrot(), *rotrp=NULL; /* rotate subraster->image 90 degs */
int delete_raster(); /* delete intermediate rasters */
int baseline=0; /* baseline of rasterized image */
double degrees=0.0, ipart,fpart; /* degrees to be rotated */
int idegrees=0, isneg=0; /* positive ipart, isneg=1 if neg */
int n90=0, isn90=1; /* degrees is n90 multiples of 90 */
int evalterm(); /* evaluate [arg],{arg} expressions*/
/* -------------------------------------------------------------------------
obtain {degrees} argument immediately following \rotatebox command
-------------------------------------------------------------------------- */
/* --- parse for {degrees} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,degexpr,0,"{","}",0,0);
if ( *degexpr == '\000' ) goto end_of_job; /* couldn't get {degrees} */
degrees = (double)evalterm(mimestore,degexpr); /* degrees to be rotated */
if ( degrees < 0.0 ) /* clockwise rotation desired */
{ degrees = -degrees; /* flip sign so degrees positive */
isneg = 1; } /* and set flag to indicate flip */
fpart = modf(degrees,&ipart); /* integer and fractional parts */
ipart = (double)(((int)degrees)%360); /* degrees mod 360 */
degrees = ipart + fpart; /* restore fractional part */
if ( isneg ) /* if clockwise rotation requested */
degrees = 360.0 - degrees; /* do equivalent counterclockwise */
idegrees = (int)(degrees+0.5); /* integer degrees */
n90 = idegrees/90; /* degrees is n90 multiples of 90 */
isn90 = (90*n90==idegrees); /*true if degrees is multiple of 90*/
isn90 = 1; /* forced true for time being */
/* -------------------------------------------------------------------------
obtain {subexpr} argument after {degrees}, and rasterize it
-------------------------------------------------------------------------- */
/* --- parse for {subexpr} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,subexpr,0,"{","}",0,0);
/* --- rasterize subexpression to be rotated --- */
if ( (rotsp = rasterize(subexpr,size)) /* rasterize subexpression */
== NULL ) goto end_of_job; /* and quit if failed */
/* --- return unmodified image if no rotation requested --- */
if ( abs(idegrees) < 2 ) goto end_of_job; /* don't bother rotating image */
/* --- extract params for image to be rotated --- */
rotrp = rotsp->image; /* unrotated rasterized image */
baseline = rotsp->baseline; /* and baseline of that image */
/* -------------------------------------------------------------------------
rotate by multiples of 90 degrees
-------------------------------------------------------------------------- */
if ( isn90 ) /* rotation by multiples of 90 */
if ( n90 > 0 ) /* do nothing for 0 degrees */
{
n90 = 4-n90; /* rasrot() rotates clockwise */
while ( n90 > 0 ) /* still have remaining rotations */
{ raster *nextrp = rastrot(rotrp); /* rotate raster image */
if ( nextrp == NULL ) break; /* something's terribly wrong */
delete_raster(rotrp); /* free previous raster image */
rotrp = nextrp; /* and replace it with rotated one */
n90--; } /* decrement remaining count */
} /* --- end-of-if(isn90) --- */
/* -------------------------------------------------------------------------
requested rotation not multiple of 90 degrees
-------------------------------------------------------------------------- */
if ( !isn90 ) /* explicitly construct rotation */
{ ; } /* not yet implemented */
/* -------------------------------------------------------------------------
re-populate subraster envelope with rotated image
-------------------------------------------------------------------------- */
/* --- re-init various subraster parameters, embedding raster in it --- */
if ( rotrp != NULL ) /* rotated raster constructed okay */
{ rotsp->type = IMAGERASTER; /* signal constructed image */
rotsp->image = rotrp; /* raster we just constructed */
/* --- now try to guess pleasing baseline --- */
if ( idegrees > 2 ) { /* leave unchanged if unrotated */
if ( strlen(subexpr) < 3 /* we rotated a short expression */
|| abs(idegrees-180) < 3 ) /* or just turned it upside-down */
baseline = rotrp->height - 1; /* so set with nothing descending */
else /* rotated a long expression */
baseline = (65*(rotrp->height-1))/100; } /* roughly center long expr */
rotsp->baseline = baseline; } /* set baseline as calculated above*/
/* --- return rotated subexpr to caller --- */
end_of_job:
return ( rotsp ); /*return rotated subexpr to caller*/
} /* --- end-of-function rastrotate() --- */
/* ==========================================================================
* Function: rastmagnify ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \magnify{magstep}{subexpression} handler, returns subraster
* containing magnified subexpression
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \reflectbox to
* be rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \reflectbox
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to \magnify
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \magnify{magstep}{subexpression}
* o
* ======================================================================= */
/* --- entry point --- */
subraster *rastmagnify ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1], *magexpr=subexpr; /* args */
subraster *rasterize(), *magsp=NULL; /* subraster for magnified subexpr */
raster *rastmag(), *magrp=NULL; /* magnify subraster->image */
int magstep = 1; /* default magnification */
int delete_raster(); /* delete intermediate raster */
int baseline=0; /* baseline of rasterized image */
/* -------------------------------------------------------------------------
obtain {magstep} argument immediately following \magnify command
-------------------------------------------------------------------------- */
/* --- parse for {magstep} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,magexpr,255,"{","}",0,0);
magstep = atoi(magexpr); /* convert {magstep} to int */
if ( magstep<1 || magstep>10 ) /* check magstep input */
magstep = 1; /* back to default if illegal */
/* -------------------------------------------------------------------------
obtain {subexpr} argument after {magstep}, and rasterize it
-------------------------------------------------------------------------- */
/* --- parse for {subexpr} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,subexpr,0,"{","}",0,0);
/* --- rasterize subexpression to be reflected --- */
if ( (magsp = rasterize(subexpr,size)) /* rasterize subexpression */
== NULL ) goto end_of_job; /* and quit if failed */
/* --- return unmodified image if no magnification requested --- */
if ( magstep<=1 ) goto end_of_job; /* don't bother magnifying image */
/* --- extract params for image to be magnified --- */
magrp = magsp->image; /* unmagnified rasterized image */
baseline = magsp->baseline; /* and baseline of that image */
/* -------------------------------------------------------------------------
magnify image and adjust its parameters
-------------------------------------------------------------------------- */
/* --- magnify image --- */
magrp = rastmag(magsp->image,magstep); /* magnify raster image */
if ( magrp == NULL ) goto end_of_job; /* failed to magnify image */
delete_raster(magsp->image); /* free original raster image */
magsp->image = magrp; /*and replace it with magnified one*/
/* --- adjust parameters --- */
baseline *= magstep; /* scale baseline */
if ( baseline > 0 ) baseline += 1; /* adjust for no descenders */
magsp->baseline = baseline; /*reset baseline of magnified image*/
/* --- return magnified subexpr to caller --- */
end_of_job:
return ( magsp ); /*back to caller with magnified expr*/
} /* --- end-of-function rastmagnify() --- */
/* ==========================================================================
* Function: rastreflect ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \reflectbox[axis]{subexpression} handler, returns subraster
* containing subexpression reflected horizontally (i.e., around
* vertical axis, |_ becomes _|) if [axis] not given or axis=1,
* or reflected vertically if axis=2 given.
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \reflectbox to
* be rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \reflectbox
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to \reflectbox
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \reflectbox[axis]{subexpression}
* o
* ======================================================================= */
/* --- entry point --- */
subraster *rastreflect ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1], *axisexpr=subexpr; /* args */
subraster *rasterize(), *refsp=NULL; /* subraster for reflected subexpr */
raster *rastref(), *refrp=NULL; /* reflect subraster->image */
int axis = 1; /* default horizontal reflection */
int delete_raster(); /* delete intermediate raster */
int baseline=0; /* baseline of rasterized image */
/* -------------------------------------------------------------------------
obtain [axis] argument immediately following \reflectbox command, if given
-------------------------------------------------------------------------- */
/* --- check for optional [axis] arg --- */
if ( *(*expression) == '[' ) /*check for []-enclosed optional arg*/
{ *expression = texsubexpr(*expression,axisexpr,255,"[","]",0,0);
axis = atoi(axisexpr); /* convert [axis] to int */
if ( axis<1 || axis>2 ) /* check axis input */
axis = 1; } /* back to default if illegal */
/* -------------------------------------------------------------------------
obtain {subexpr} argument after optional [axis], and rasterize it
-------------------------------------------------------------------------- */
/* --- parse for {subexpr} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,subexpr,0,"{","}",0,0);
/* --- rasterize subexpression to be reflected --- */
if ( (refsp = rasterize(subexpr,size)) /* rasterize subexpression */
== NULL ) goto end_of_job; /* and quit if failed */
/* --- return unmodified image if no reflection requested --- */
if ( axis<1 || axis>2 ) goto end_of_job; /* don't bother reflecting image */
/* --- extract params for image to be reflected --- */
refrp = refsp->image; /* unreflected rasterized image */
baseline = refsp->baseline; /* and baseline of that image */
/* -------------------------------------------------------------------------
reflect image and adjust its parameters
-------------------------------------------------------------------------- */
/* --- reflect image --- */
refrp = rastref(refsp->image,axis); /* reflect raster image */
if ( refrp == NULL ) goto end_of_job; /* failed to reflect image */
delete_raster(refsp->image); /* free original raster image */
refsp->image = refrp; /*and replace it with reflected one*/
/* --- adjust parameters --- */
if ( axis == 2 ) /* for vertical reflection */
baseline = refrp->height - 1; /* set with nothing descending */
refsp->baseline = baseline; /* reset baseline of reflected image*/
/* --- return reflected subexpr to caller --- */
end_of_job:
return ( refsp ); /*back to caller with reflected expr*/
} /* --- end-of-function rastreflect() --- */
/* ==========================================================================
* Function: rastfbox ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \fbox{subexpression} handler, returns subraster
* containing subexpression with frame box drawn around it
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \fbox to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \fbox
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to \fbox
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \fbox[width][height]{subexpression}
* o
* ======================================================================= */
/* --- entry point --- */
subraster *rastfbox ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1], widtharg[512]; /* args */
subraster *rasterize(), *framesp=NULL; /* rasterize subexpr to be framed */
raster *border_raster(), *bp=NULL; /* framed image raster */
int evalterm(), evalue=0; /* interpret [width][height] */
int fwidth=6, fthick=1, /*extra frame width, line thickness*/
fsides=0; /* frame sides: 1=left,2=top,4=right,8=bot */
int width=(-1), height=(-1), /* optional [width][height] args */
iscompose = 0; /* set true if optional args given */
/* -------------------------------------------------------------------------
obtain optional [width][height] arguments immediately following \fbox
-------------------------------------------------------------------------- */
/* --- first check for optional \fbox[width] --- */
if ( *(*expression) == '[' ) { /* check for []-enclosed width arg */
*expression = texsubexpr(*expression,widtharg,511,"[","]",0,0);
if ( !isempty(widtharg) ) { /* got widtharg */
char *comma = strchr(widtharg,','); /* look for [width,sides] */
if ( comma == (char *)NULL ) /* no comma */
comma = strchr(widtharg,';'); /* permit semicolon [width;sides] */
if ( comma != (char *)NULL ) { /* optional [width,fsides] found */
fsides = atoi(comma+1); /* interpret fsides after comma */
if ( size < 5 ) /* for smaller fonts */
{ fwidth = 2; fthick = 1; } /* tighten frame, thinner accent */
else { fwidth = 3; fthick = 2; } /* loosen frame, thicken accent */
*comma = '\000'; /* null-terminate width at comma */
trimwhite(widtharg); } /*remove leading/trailing whitespace*/
if ( comma==(char *)NULL || !isempty(widtharg) ) { /* have a width */
height = 1; /* default explicit height, too */
if ( fsides == 0 ) { /* a normal framebox */
evalue = eround(widtharg); /* interpret and scale width */
width = max2(1,evalue); /* must be >0 */
fwidth = 2; iscompose = 1; }
else /* absolute pixels for "accents" */
width = evalterm(mimestore,widtharg); }
} /* --- end-of-if(!isempty(widtharg)) --- */
} /* --- end-of-if(**expression=='[') --- */
if ( width > 0 || fsides > 0) /* found leading [width], so... */
if ( *(*expression) == '[' ) /* check for []-enclosed height arg */
{ *expression = texsubexpr(*expression,widtharg,511,"[","]",0,0);
if ( !isempty(widtharg) ) { /* got widtharg */
if ( fsides == 0 ) { /* a normal framebox */
evalue = eround(widtharg); /* interpret and scale height */
height = max2(1,evalue); /* must be >0 */
fwidth = 0; } /* no extra border */
else /* absolute pixels for "accents" */
height = evalterm(mimestore,widtharg); }
} /* --- end-of-if(**expression=='[') --- */
/* -------------------------------------------------------------------------
obtain {subexpr} argument
-------------------------------------------------------------------------- */
/* --- parse for {subexpr} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,subexpr,0,"{","}",0,0);
/* --- rasterize subexpression to be framed --- */
if ( width<0 || height<0 ) /* no explicit dimensions given */
{ if ( (framesp = rasterize(subexpr,size)) /* rasterize subexpression */
== NULL ) goto end_of_job; } /* and quit if failed */
else
{ char composexpr[8192]; /* compose subexpr with empty box */
sprintf(composexpr,"\\compose{\\hspace{%d}\\vspace{%d}}{%.8000s}",
width,height,subexpr);
if ( (framesp = rasterize(composexpr,size)) /* rasterize subexpression */
== NULL ) goto end_of_job; } /* and quit if failed */
/* -------------------------------------------------------------------------
draw frame, reset params, and return it to caller
-------------------------------------------------------------------------- */
/* --- draw border --- */
if ( fsides > 0 ) fthick += (100*fsides); /* embed fsides in fthick arg */
if ( (bp = border_raster(framesp->image,-fwidth,-fwidth,fthick,1))
== NULL ) goto end_of_job; /* draw border and quit if failed */
/* --- replace original image and raise baseline to accommodate frame --- */
framesp->image = bp; /* replace image with framed one */
if ( !iscompose ) /* simple border around subexpr */
framesp->baseline += fwidth; /* so just raise baseline */
else
framesp->baseline = (framesp->image)->height - 1; /* set at bottom */
/* --- return framed subexpr to caller --- */
end_of_job:
return ( framesp ); /* return framed subexpr to caller */
} /* --- end-of-function rastfbox() --- */
/* ==========================================================================
* Function: rastinput ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \input{filename} handler, reads filename and returns
* subraster containing image of expression read from filename
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \input to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \input
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to expression
* in filename, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \input{filename} reads entire file named filename
* \input{filename:tag} reads filename, but returns only
* those characters between ... in that file.
* o
* ======================================================================= */
/* --- entry point --- */
subraster *rastinput ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), tag[1024]="\000", filename[1024]="\000"; /* args */
subraster *rasterize(), *inputsp=NULL; /* rasterized input image */
int status, rastreadfile(); /* read input file */
int format=0, npts=0; /* don't reformat (numerical) input */
int isinput = (seclevel<=inputseclevel?1:0); /*true if \input permitted*/
/*int evalterm();*/ /* evaluate expressions */
char *inputpath = INPUTPATH; /* permitted \input{} paths for any user */
int isstrstr(); /* search for valid inputpath in filename */
char subexpr[MAXFILESZ+1] = "\000", /*concatanated lines from input file*/
*mimeprep(), /* preprocess inputted data */
*dbltoa(), *reformat=NULL; /* reformat numerical input */
/* -------------------------------------------------------------------------
obtain [tag]{filename} argument
-------------------------------------------------------------------------- */
/* --- parse for optional [tag] or [fmt] arg, bump expression past it --- */
if ( *(*expression) == '[' ) /* check for []-enclosed value */
{ char argfld[MAXTOKNSZ+1]; /* optional argument field */
*expression = texsubexpr(*expression,argfld,MAXTOKNSZ-1,"[","]",0,0);
if ( (reformat=strstr(argfld,"dtoa")) != NULL ) /*dtoa/dbltoa requested*/
{ format = 1; /* signal dtoa()/dbltoa() format */
if ( (reformat=strchr(reformat,'=')) != NULL ) /* have dtoa= */
npts = (int)strtol(reformat+1,NULL,0); } /* so set npts */
if ( format == 0 ) { /* reformat not requested */
strninit(tag,argfld,1020); } } /* so interpret arg as tag */
/* --- parse for {filename} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,filename,1020,"{","}",0,0);
/* --- check for alternate filename:tag --- */
if ( !isempty(filename) /* got filename */
/*&& isempty(tag)*/ ) /* but no [tag] */
{ char *delim = strchr(filename,':'); /* look for : in filename:tag */
if ( delim != (char *)NULL ) /* found it */
{ *delim = '\000'; /* null-terminate filename at : */
strninit(tag,delim+1,1020); } } /* and stuff after : is tag */
/* --- check filename for an inputpath valid for all users --- */
if ( !isinput /* if this user can't \input{} */
&& !isempty(filename) /* and we got a filename */
&& !isempty(inputpath) ) /* and an inputpath */
if ( isstrstr(filename,inputpath,0) ) /* filename has allowed inputpath */
isinput = 1; /* okay to \input{} this filename */
/* --- guard against recursive runaway (e.g., file \input's itself) --- */
if ( ++ninputcmds > 8 ) /* max \input's per expression */
isinput = 0; /* flip flag off after the max */
/* --------------------------------------------------------------------------
Read file (and convert to numeric if [dtoa] option was given)
-------------------------------------------------------------------------- */
if ( isinput ) { /* user permitted to use \input{} */
status = rastreadfile(filename,0,tag,subexpr); /* read file */
if ( *subexpr == '\000' ) goto end_of_job; /* quit if problem */
/* --- rasterize input subexpression --- */
mimeprep(subexpr); /* preprocess subexpression */
if ( format == 1 ) { /* dtoa()/dbltoa() */
double d = strtod(subexpr,NULL); /* interpret subexpr as double */
if ( d != 0.0 ) /* conversion to double successful */
if ( (reformat=dbltoa(d,npts)) != NULL ) /* reformat successful */
strcpy(subexpr,reformat); } /*replace subexpr with reformatted*/
} /* --- end-of-if(isinput) --- */
/* --------------------------------------------------------------------------
emit error message for unauthorized users trying to use \input{}
-------------------------------------------------------------------------- */
else { /* inputseclevel > seclevel */
sprintf(subexpr,
"\\ \\text{[\\backslash input\\lbrace %.128s\\rbrace\\ not permitted]}\\ ",
(isempty(filename)?"???":filename));
} /* --- end-of-if/else(isinput) --- */
/* --------------------------------------------------------------------------
Rasterize constructed subexpression
-------------------------------------------------------------------------- */
inputsp = rasterize(subexpr,size); /* rasterize subexpression */
/* --- return input image to caller --- */
end_of_job:
return ( inputsp ); /* return input image to caller */
} /* --- end-of-function rastinput() --- */
/* ==========================================================================
* Function: rastcounter ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: \counter[value]{filename} handler, returns subraster
* containing image of counter value read from filename
* (or optional [value]), and increments counter
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \counter to be
* rasterized, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \counter
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) ptr to subraster corresponding to \counter
* requested, or NULL for any parsing error
* --------------------------------------------------------------------------
* Notes: o Summary of syntax...
* \counter[value][logfile]{filename:tag}
* o :tag is optional
* ======================================================================= */
/* --- entry point --- */
subraster *rastcounter ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), filename[1024]="\000", /* counter file */
logfile[1024]="\000", tag[1024]="\000"; /*optional log file and tag*/
subraster *rasterize(), *countersp=NULL; /* rasterized counter image */
FILE /* *fp=NULL,*/ *logfp=NULL; /* counter and log file pointers */
int status=0,rastreadfile(),rastwritefile(), /*read,write counter file*/
iscounter = (seclevel<=counterseclevel?1:0), /*is \counter permitted*/
isstrict = 1; /* true to only write to existing files */
char text[MAXFILESZ] = "1_", /* only line in counter file without tags */
*delim = NULL, /* delimiter in text */
utext[128] = "1_", /* default delimiter */
*udelim = utext+1; /* underscore delimiter */
char *rasteditfilename(), /* edit log file name */
*timestamp(), /* timestamp for logging */
*dbltoa(); /* double to comma-separated ascii */
int counter = 1, /* atoi(text) (after _ removed, if present) */
value = 1, /* optional [value] argument */
gotvalue = 0, /* set true if [value] supplied */
isdelta = 0, /* set true if [+value] or [-value] is delta*/
ordindex = (-1); /* ordinal[] index to append ordinal suffix */
/*--- ordinal suffixes based on units digit of counter ---*/
static char *ordinal[]={"th","st","nd","rd","th","th","th","th","th","th"};
static char *logvars[]={"REMOTE_ADDR","HTTP_REFERER",NULL}; /* log vars*/
static int commentvar = 1; /* logvars[commentvar] replaced by comment */
/* -------------------------------------------------------------------------
first obtain optional [value][logfile] args immediately following \counter
-------------------------------------------------------------------------- */
/* --- first check for optional \counter[value] --- */
if ( *(*expression) == '[' ) /* check for []-enclosed value */
{ *expression = texsubexpr(*expression,text,1023,"[","]",0,0);
if ( *text != '\000' ) /* got counter value (or logfile) */
if ( strlen(text) >= 1 ) { /* and it's not an empty string */
if ( isthischar(*text,"+-0123456789") ) /* check for leading +-digit */
gotvalue = 1; /* signal we got optional value */
else /* not +-digit, so must be logfile */
strcpy(logfile,text); } /* so just copy it */
} /* --- end-of-if(**expression=='[') --- */
/* --- next check for optional \counter[][logfile] --- */
if ( *(*expression) == '[' ) /* check for []-enclosed logfile */
{ *expression = texsubexpr(*expression,filename,1023,"[","]",0,0);
if ( *filename != '\000' ) /* got logfile (or counter value) */
if ( strlen(filename) >= 1 ) { /* and it's not an empty string */
if ( !(isthischar(*text,"+-0123456789")) /* not a leading +-digit */
|| gotvalue ) /* or we already got counter value */
strcpy(logfile,filename); /* so just copy it */
else /* leading +-digit must be value */
{ strcpy(text,filename); /* copy value to text line */
gotvalue = 1; } } /* and signal we got optional value*/
} /* --- end-of-if(**expression=='[') --- */
/* --- evaluate [value] if present --- */
if ( gotvalue ) { /*leading +-digit should be in text*/
if ( *text == '+' ) isdelta = (+1); /* signal adding */
if ( *text == '-' ) isdelta = (-1); /* signal subtracting */
value = (int)(strtod((isdelta==0?text:text+1),&udelim)+0.1); /*abs(value)*/
if ( isdelta == (-1) ) value = (-value); /* set negative value if needed */
counter = value; /* re-init counter */
} /* --- end-of-if(gotvalue) --- */
/* -------------------------------------------------------------------------
obtain counter {filename} argument
-------------------------------------------------------------------------- */
/* --- parse for {filename} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,filename,1023,"{","}",0,0);
/* --- check for counter filename:tag --- */
if ( *filename != '\000' ) /* got filename */
if ( (delim=strchr(filename,':')) /* look for : in filename:tag */
!= (char *)NULL ) /* found it */
{ *delim = '\000'; /* null-terminate filename at : */
strcpy(tag,delim+1); } /* and stuff after : is tag */
/* --------------------------------------------------------------------------
emit error message for unauthorized users trying to use \counter{}
-------------------------------------------------------------------------- */
if ( !iscounter ) { /* counterseclevel > seclevel */
sprintf(text,
"\\ \\text{[\\backslash counter\\lbrace %.128s\\rbrace\\ not permitted]}\\ ",
(isempty(filename)?"???":filename));
goto rasterize_counter; /* rasterize error message */
} /* --- end-of-if(!iscounter) --- */
/* --------------------------------------------------------------------------
Read and parse file, increment and rewrite counter (with optional underscore)
-------------------------------------------------------------------------- */
if ( strlen(filename) > 1 ) /* make sure we got {filename} arg */
{
/* --- read and interpret first (and only) line from counter file --- */
if ( !gotvalue || (isdelta!=0) ) /*if no [count] arg or if delta arg*/
if ( (status=rastreadfile(filename,1,tag,text)) > 0 ) /*try reading file*/
{ char *vdelim = NULL; /* underscore delim from file */
double fileval = strtod(text,&vdelim); /* value and delim from file */
counter = (int)(fileval<0.0?fileval-0.1:fileval+0.1); /* integerized */
counter += value; /* bump count by 1 or add/sub delta*/
if ( !gotvalue ) udelim=vdelim; } /* default to file's current delim */
/* --- check for ordinal suffix --- */
if ( udelim != (char *)NULL ) /* have some delim after value */
if ( *udelim == '_' ) /* underscore signals ordinal */
{ int abscount = (counter>=0?counter:(-counter)); /* abs(counter) */
ordindex = abscount%10; /* least significant digit */
if ( abscount >= 10 ) /* counter is 10 or greater */
if ( (abscount/10)%10 == 1 ) /* and the last two are 10-19 */
ordindex = 0; } /* use th for 11,12,13 rather than st,nd,rd */
/* --- rewrite counter file --- */
if ( status >= 0 ) /* file was read okay */
{ sprintf(text,"%d",counter); /*build image of incremented counter*/
if ( ordindex >= 0 ) strcat(text,"_"); /* tack on _ */
if ( *tag == '\000' ) strcat(text,"\n"); /* and newline */
status = rastwritefile(filename,tag,text,isstrict); } /*rewrite counter*/
} /* --- end-of-if(strlen(filename)>1) --- */
/* --------------------------------------------------------------------------
log counter request
-------------------------------------------------------------------------- */
if ( strlen(logfile) > 1 ) /* optional [logfile] given */
{
char comment[1024] = "\000", /* embedded comment, logfile:comment*/
*commptr = strchr(logfile,':'); /* check for : signalling comment */
int islogokay = 1; /* logfile must exist if isstrict */
if ( commptr != NULL ) /* have embedded comment */
{ strcpy(comment,commptr+1); /* comment follows : */
*commptr = '\000'; } /* null-terminate actual logfile */
strcpy(logfile,rasteditfilename(logfile)); /* edit log file name */
if ( *logfile == '\000' ) islogokay = 0; /* given an invalid file name */
else if ( isstrict ) { /*okay, but only write if it exists*/
if ( (logfp=fopen(logfile,"r")) == (FILE *)NULL ) /*doesn't already exist*/
islogokay = 0; /* so don't write log file */
else fclose(logfp); } /* close file opened for test read */
if ( islogokay ) /* okay to write logfile */
if ( (logfp = fopen(logfile,"a")) /* open logfile */
!= (FILE *)NULL ) { /* opened successfully for append */
int ilog=0; /* logvars[] index */
fprintf(logfp,"%s ",timestamp(TZDELTA,0)); /* first emit timestamp */
if (*tag=='\000') fprintf(logfp,"%s",filename); /* emit counter filename */
else fprintf(logfp,"<%s>",tag); /* or tag if we have one */
fprintf(logfp,"=%d",counter); /* emit counter value */
if ( status < 1 ) /* read or re-write failed */
fprintf(logfp,"(%s %d)","error status",status); /* emit error */
for ( ilog=0; logvars[ilog] != NULL; ilog++ ) /* log till end-of-table */
if ( ilog == commentvar /* replace with comment... */
&& commptr != NULL ) /* ...if available */
fprintf(logfp," %.256s",comment); /* log embedded comment */
else
{ char *logval = getenv(logvars[ilog]); /*getenv(variable) to be logged*/
fprintf(logfp," %.64s", /* log variable */
(logval!=NULL?logval:"")); } /* emit value or */
fprintf(logfp,"\n"); /* terminating newline */
fclose(logfp); /* close logfile */
} /* --- end-of-if(islogokay&&logfp!=NULL) --- */
} /* --- end-of-if(strlen(logfile)>1) --- */
/* --------------------------------------------------------------------------
construct counter expression and rasterize it
-------------------------------------------------------------------------- */
/* --- construct expression --- */
/*sprintf(text,"%d",counter);*/ /* start with counter */
strcpy(text,dbltoa(((double)counter),0)); /* comma-separated counter value */
if ( ordindex >= 0 ) /* need to tack on ordinal suffix */
{ strcat(text,"^{\\underline{\\rm~"); /* start with ^ and {\underline{\rm */
strcat(text,ordinal[ordindex]); /* then st,nd,rd, or th */
strcat(text,"}}"); } /* finish with }} */
/* --- rasterize it --- */
rasterize_counter:
countersp = rasterize(text,size); /* rasterize counter subexpression */
/* --- return counter image to caller --- */
/*end_of_job:*/
return ( countersp ); /* return counter image to caller */
} /* --- end-of-function rastcounter() --- */
/* ==========================================================================
* Function: rasteval ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: handle \eval
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \eval,
* and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \eval
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) subraster ptr to date stamp
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rasteval ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ]; /* arg to be evaluated */
subraster *rasterize(), *evalsp=NULL; /* rasterize evaluated expression */
int evalterm(), value=0; /* evaluate expression */
/* -------------------------------------------------------------------------
Parse for subexpr to be \eval-uated, and bump expression past it
-------------------------------------------------------------------------- */
*expression = texsubexpr(*expression,subexpr,0,"{","}",0,0);
if ( *subexpr == '\000' ) /* couldn't get subexpression */
goto end_of_job; /* nothing to do, so quit */
/* -------------------------------------------------------------------------
Evaluate expression, ascii-ize integer result, rasterize it
-------------------------------------------------------------------------- */
/* --- evaluate expression --- */
value = evalterm(mimestore,subexpr); /* evaluate expression */
/* --- ascii-ize it --- */
sprintf(subexpr,"%d",value); /* ascii version of value */
/* --- rasterize ascii-ized expression value --- */
evalsp = rasterize(subexpr,size); /* rasterize evaluated expression */
/* --- return evaluated expression raster to caller --- */
end_of_job:
return ( evalsp ); /* return evaluated expr to caller */
} /* --- end-of-function rasteval() --- */
/* ==========================================================================
* Function: rasttoday ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: handle \today
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \today,
* and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \today
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) subraster ptr to date stamp
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rasttoday ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), optarg[2050]; /* optional [+/-tzdelta,ifmt] args */
char *timestamp(), *today=optarg; /* timestamp to be rasterized */
subraster *rasterize(), *todaysp=NULL; /* rasterize timestamp */
int ifmt=1, tzdelta=0; /* default timestamp() args */
/* -------------------------------------------------------------------------
Get optional args \today[+/-tzdelta,ifmt]
-------------------------------------------------------------------------- */
/* --- check for optional \today[+/-tzdelta,ifmt] --- */
if ( *(*expression) == '[' ) /* check for []-enclosed value */
{ *expression = texsubexpr(*expression,optarg,2047,"[","]",0,0);
if ( *optarg != '\000' ) /* got optional arg */
{ char *comma = strchr(optarg,','); /* comma between +/-tzdelta,ifmt */
int iarg, nargs=(comma==NULL?1:2); /* #optional args between []'s */
if ( comma != NULL ) *comma = '\000'; /* null-terminate first arg */
for ( iarg=1; iarg<=nargs; iarg++ ) /* process one or both args */
{ char *arg = (iarg==1?optarg:comma+1); /* choose 1st or 2nd arg */
if ( isthischar(*arg,"+-") ) /* leading +/- signals tzdelta */
tzdelta = atoi(arg); /* so interpret arg as tzdelta */
else ifmt = atoi(arg); } /* else interpret args as ifmt */
} /* --- end-of-if(*optarg!='\0') --- */
} /* --- end-of-if(**expression=='[') --- */
/* -------------------------------------------------------------------------
Get timestamp and rasterize it
-------------------------------------------------------------------------- */
strcpy(today,"\\text{"); /* rasterize timestamp as text */
strcat(today,timestamp(tzdelta,ifmt)); /* get timestamp */
strcat(today,"}"); /* terminate \text{} braces */
todaysp = rasterize(today,size); /* rasterize timestamp */
/* --- return timestamp raster to caller --- */
/*end_of_job:*/
return ( todaysp ); /* return timestamp to caller */
} /* --- end-of-function rasttoday() --- */
/* ==========================================================================
* Function: rastcalendar ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: handle \calendar
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \calendar
* and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \calendar
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) subraster ptr to rendered one-month calendar
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastcalendar ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), optarg[2050]; /* optional [year,month] args */
char *calendar(), *calstr=NULL; /* calendar to be rasterized */
subraster *rasterize(), *calendarsp=NULL; /* rasterize calendar string */
int year=0,month=0,day=0, argval=0; /* default calendar() args */
/* -------------------------------------------------------------------------
Get optional args \today[+/-tzdelta,ifmt]
-------------------------------------------------------------------------- */
/* --- check for optional \calendar[year,month] --- */
if ( *(*expression) == '[' ) /* check for []-enclosed value */
{ *expression = texsubexpr(*expression,optarg,2047,"[","]",0,0);
if ( *optarg != '\000' ) /* got optional arg */
{ char *comma = strchr(optarg,','), /* comma between year,month */
*comma2 = NULL; /* second comma before day */
int iarg, nargs=(comma==NULL?1:2); /* #optional args between []'s */
if ( comma != NULL ) { *comma = '\000'; /*null-terminate first arg*/
if ( (comma2=strchr(comma+1,',')) != NULL ) /* have third arg */
{ *comma2 = '\000'; nargs++; } } /* null-term 2nd arg, bump count */
for ( iarg=1; iarg<=nargs; iarg++ ) /* process one or both args */
{ char *arg= (iarg==1?optarg:(iarg==2?comma+1:comma2+1)); /*get arg*/
argval = atoi(arg); /* interpret arg as integer */
if ( iarg < 3 ) /* first two args are month,year */
{if ( argval>1972 && argval<2100 ) year = argval; /* year value */
else if ( argval>=1 && argval<=12 ) month = argval;} /*or month*/
else /* only 3rd arg can be day */
if ( argval>=1 && argval<=31 ) day = argval; } /* day value */
} /* --- end-of-if(*optarg!='\0') --- */
} /* --- end-of-if(**expression=='[') --- */
/* -------------------------------------------------------------------------
Get calendar string and rasterize it
-------------------------------------------------------------------------- */
if ( msgfp!= NULL && msglevel>=9 )
fprintf(msgfp,"rastcalendar> year=%d, month=%d, day=%d\n",
year,month,day);
calstr = calendar(year,month,day); /* get calendar string */
calendarsp = rasterize(calstr,size); /* rasterize calendar string */
/* --- return calendar raster to caller --- */
/*end_of_job:*/
return ( calendarsp ); /* return calendar to caller */
} /* --- end-of-function rastcalendar() --- */
/* ==========================================================================
* Function: rastenviron ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: handle \environment
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \environment
* and returning ptr immediately
* following last character processed (in this
* case, \environment takes no arguments, so
* expression is returned unchanged).
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \environment
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) subraster ptr to rendered environment image
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastenviron ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), optarg[255]; /* optional [...] args (for future)*/
char environstr[8192] = "\000", /* string for all environment vars */
environvar[1024] = "\000"; /* one environment variable */
char *strwrap(), /* wrap long lines */
*strdetex(), /* removes/replaces any math chars */
*environptr = NULL; /* ptr to preprocessed environvar */
char *mimeprep(); /* preprocess environvar string */
int unescape_url(); /* convert all %xx's to chars */
int isenviron = (seclevel<=environseclevel?1:0); /*is \environ permitted*/
int maxvarlen = 512, /* max chars in environment var */
maxenvlen = 6400, /* max chars in entire string */
wraplen = 48; /* strwrap() wrap lines at 48 chars*/
int ienv = 0; /* environ[] index */
subraster *rasterize(), *environsp=NULL; /* rasterize environment string */
/* -------------------------------------------------------------------------
Get args
-------------------------------------------------------------------------- */
/* --- check for optional \environment args --- */
if ( 1 ) /* there aren't any args (yet) */
if ( *(*expression) == '[' ) { /* check for []-enclosed value */
*expression = texsubexpr(*expression,optarg,250,"[","]",0,0);
if ( *optarg != '\000' ) { ; /* got optional arg, so process it */
wraplen = atoi(optarg); /* interpret \environment[wraplen] */
if ( wraplen < 1 ) wraplen = 8; /* set minimum */
} /* --- end-of-if(*optarg!='\0') --- */
} /* --- end-of-if(**expression=='[') --- */
/* --------------------------------------------------------------------------
emit error message for unauthorized users trying to use \environ
-------------------------------------------------------------------------- */
if ( !isenviron ) { /* environseclevel > seclevel */
sprintf(environstr,
"\\ \\text{[\\backslash environment\\ not permitted]}\\ ");
goto rasterize_environ; /* rasterize error message */
} /* --- end-of-if(!isenviron) --- */
/* -------------------------------------------------------------------------
Accumulate environment variables and rasterize string containing them
-------------------------------------------------------------------------- */
*environstr = '\000'; /* reset environment string */
strcat(environstr,"\\nocaching\\fbox{\\normalsize\\text{"); /*init string*/
for ( ienv=0; ; ienv++ ) { /* loop over environ[] strings */
if ( environ[ienv] == (char *)NULL ) break; /* null terminates list */
if ( *(environ[ienv]) == '\000' ) break; /* double-check empty string */
strninit(environvar,environ[ienv],maxvarlen); /* max length displayed */
if ( strlen(environ[ienv]) > maxvarlen ) /* we truncated the variable */
strcat(environvar,"..."); /* so add an ellipsis */
unescape_url(environvar,0); /* convert all %xx's to chars */
environptr = strdetex(environvar,1); /* remove/replace any math chars */
strninit(environvar,environptr,maxvarlen); /*de-tex'ed/nomath environvar*/
environptr = strwrap(environvar,wraplen,-6); /* wrap long lines */
strninit(environvar,environptr,maxvarlen); /* line-wrapped environvar */
mimeprep(environvar); /* preprocess environvar string */
if ( strlen(environstr) + strlen(environvar) > maxenvlen ) break;
sprintf(environstr+strlen(environstr), /* display environment string */
" %2d. %s\\\\\n", ienv+1,environvar);
if ( msgfp!= NULL && msglevel>=9 )
fprintf(msgfp,"rastenviron> %2d. %.256s\n",
ienv+1,/*environ[ienv]*/environvar);
if ( strlen(environstr) >= 7200 ) break; /* don't overflow buffer */
} /* --- end-of-for(ienv) --- */
strcat(environstr,"}}"); /* end {\text{...}} mode */
rasterize_environ:
environsp = rasterize(environstr,size); /* rasterize environment string */
/* --- return environment raster to caller --- */
/*end_of_job:*/
return ( environsp ); /* return environment to caller */
} /* --- end-of-function rastenviron() --- */
/* ==========================================================================
* Function: rastmessage ( expression, size, basesp, arg1, arg2, arg3 )
* Purpose: handle \message
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \message
* and returning ptr immediately
* following last character processed.
* size (I) int containing 0-7 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \mesasge
* (unused, but passed for consistency)
* arg1 (I) int unused
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) subraster ptr to rendered message image
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastmessage ( char **expression, int size, subraster *basesp,
int arg1, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), amsg[256]="\000"; /* message number text */
int imsg = 0; /* default message number */
char msg[4096];
subraster *rasterize(), *messagesp=NULL; /* rasterize requested message */
int strreplace(); /*replace SERVER_NAME in refmsgnum*/
int reflevels = REFLEVELS; /* #topmost levels to match */
char *urlprune(); /*prune referer_match in refmsgnum*/
char *strdetex(); /* remove math chars from messages */
char *http_host = getenv("HTTP_HOST"), /* http host for mimeTeX */
*server_name = getenv("SERVER_NAME"), /* server hosting mimeTeX */
*referer_match = (!isempty(http_host)?http_host: /*match http_host*/
(!isempty(server_name)?server_name:(NULL))); /* or server_name */
/* -------------------------------------------------------------------------
obtain message {amsg} argument
-------------------------------------------------------------------------- */
/* --- parse for {amsg} arg, and bump expression past it --- */
*expression = texsubexpr(*expression,amsg,255,"{","}",0,0);
/* --- interpret argument --- */
if ( *amsg != '\000' ) { /* got amsg arg */
imsg = atoi(amsg); /* interpret as an int */
if ( imsg < 0 /* if too small */
|| imsg > maxmsgnum ) /* or too big */
imsg = 0; } /* default to first message */
/* --- retrieve requested message --- */
strninit(msg,msgtable[imsg],4095); /* local copy of message */
/* --- process as necessary --- */
if ( imsg == refmsgnum) { /* urlncmp() failed to validate */
if ( reflevels > 0 ) /* have #levels to validate */
strreplace(msg,"SERVER_NAME", /* replace SERVER_NAME */
strdetex(urlprune(referer_match,reflevels),1),0); /*with referer_match*/
} /* --- end-of-switch(imsg) --- */
/* --- rasterize requested message --- */
messagesp = rasterize(msg,size); /* rasterize message string */
/* --- return message raster to caller --- */
/*end_of_job:*/
return ( messagesp ); /* return message to caller */
} /* --- end-of-function rastmessage() --- */
/* ==========================================================================
* Function: rastnoop ( expression, size, basesp, nargs, arg2, arg3 )
* Purpose: no op -- flush \escape without error
* --------------------------------------------------------------------------
* Arguments: expression (I/O) char ** to first char of null-terminated
* string immediately following \escape to be
* flushed, and returning ptr immediately
* following last character processed.
* size (I) int containing 0-5 default font size
* basesp (I) subraster * to character (or subexpression)
* immediately preceding \escape
* (unused, but passed for consistency)
* nargs (I) int containing number of {}-args after
* \escape to be flushed along with it
* arg2 (I) int unused
* arg3 (I) int unused
* --------------------------------------------------------------------------
* Returns: ( subraster * ) NULL subraster ptr
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
subraster *rastnoop ( char **expression, int size, subraster *basesp,
int nargs, int arg2, int arg3 )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *texsubexpr(), subexpr[MAXSUBXSZ+1]; /*dummy args eaten by \escape*/
subraster *rasterize(), *noopsp=NULL; /* rasterize subexpr */
/* --- flush accompanying args if necessary --- */
if ( nargs != NOVALUE /* not unspecified */
&& nargs > 0 ) /* and args to be flushed */
while ( --nargs >= 0 ) /* count down */
*expression = texsubexpr(*expression,subexpr,0,"{","}",0,0); /*flush arg*/
/* --- return null ptr to caller --- */
/*end_of_job:*/
return ( noopsp ); /* return NULL ptr to caller */
} /* --- end-of-function rastnoop() --- */
/* ==========================================================================
* Function: rastopenfile ( filename, mode )
* Purpose: Opens filename[.tex] in mode, returning FILE *
* --------------------------------------------------------------------------
* Arguments: filename (I/O) char * to null-terminated string containing
* name of file to open (preceded by path
* relative to mimetex executable)
* If fopen() fails, .tex appeneded,
* and returned if that fopen() succeeds
* mode (I) char * to null-terminated string containing
* fopen() mode
* --------------------------------------------------------------------------
* Returns: ( FILE * ) pointer to opened file, or NULL if error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
FILE *rastopenfile ( char *filename, char *mode )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
FILE *fp = (FILE *)NULL /*,*fopen()*/; /*file pointer to opened filename*/
char texfile[2050] = "\000", /* local, edited copy of filename */
*rasteditfilename(), /* prepend pathprefix if necessary */
amode[512] = "r"; /* test open mode if arg mode=NULL */
int ismode = 0; /* true of mode!=NULL */
/* --------------------------------------------------------------------------
Check mode and open file
-------------------------------------------------------------------------- */
/* --- edit filename --- */
strncpy(texfile,rasteditfilename(filename),2047); /*edited copy of filename*/
texfile[2047] = '\000'; /* make sure it's null terminated */
/* --- check mode --- */
if ( mode != (char *)NULL ) /* caller passed mode arg */
if ( *mode != '\000' ) /* and it's not an empty string */
{ ismode = 1; /* so flip mode flag true */
strncpy(amode,mode,254); /* and replace "r" with caller's */
amode[254] = '\000'; /* make sure it's null terminated */
compress(amode,' '); } /* remove embedded blanks */
/* --- open filename or filename.tex --- */
if ( strlen(texfile) > 1 ) /* make sure we got actual filename*/
if ( (fp = fopen(texfile,amode)) /* try opening given filename */
== NULL ) /* failed to open given filename */
{ strcpy(filename,texfile); /* signal possible filename error */
strcat(texfile,".tex"); /* but first try adding .tex */
if ( (fp = fopen(texfile,amode)) /* now try opening filename.tex */
!= NULL ) /* filename.tex succeeded */
strcpy(filename,texfile); } /* replace caller's filename */
/* --- close file if only opened to check name --- */
if ( !ismode && fp!=NULL ) /* no mode, so just checking */
fclose(fp); /* close file, fp signals success */
/* --- return fp or NULL to caller --- */
/*end_of_job:*/
if ( msglevel>=9 && msgfp!=NULL ) /* debuging */
{ fprintf(msgfp,"rastopenfile> returning fopen(%s,%s) = %s\n",
filename,amode,(fp==NULL?"NULL":"Okay")); fflush(msgfp); }
return ( fp ); /* return fp or NULL to caller */
} /* --- end-of-function rastopenfile() --- */
/* ==========================================================================
* Function: rasteditfilename ( filename )
* Purpose: edits filename to remove security problems,
* e.g., removes all ../'s and ..\'s.
* --------------------------------------------------------------------------
* Arguments: filename (I) char * to null-terminated string containing
* name of file to be edited
* --------------------------------------------------------------------------
* Returns: ( char * ) pointer to edited filename,
* or empty string "\000" if any problem
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
char *rasteditfilename ( char *filename )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
static char editname[2050]; /*edited filename returned to caller*/
char *strchange(); /* prepend pathprefix if necessary */
int strreplace(), /* remove ../'s and ..\'s */
isprefix = (*pathprefix=='\000'?0:1); /* true if paths have prefix */
/* --------------------------------------------------------------------------
edit filename
-------------------------------------------------------------------------- */
/* --- first check filename arg --- */
*editname = '\000'; /* init edited name as empty string*/
if ( filename == (char *)NULL ) goto end_of_job; /* no filename arg */
if ( *filename == '\000' ) goto end_of_job; /* filename is an empty string */
/* --- init edited filename --- */
strcpy(editname,filename); /* init edited name as input name */
compress(editname,' '); /* remove embedded blanks */
/* --- remove leading or embedded ....'s --- */
while ( strreplace(editname,"....",NULL,0) > 0 ) ; /* squeeze out ....'s */
/* --- remove leading / and \ and dots (and blanks) --- */
if ( *editname != '\000' ) /* still have chars in filename */
while ( isthischar(*editname," ./\\") ) /* absolute paths invalid */
{strsqueeze(editname,1);} /* so flush leading / or \ (or ' ')*/
if ( *editname == '\000' ) goto end_of_job; /* no chars left in filename */
/* --- remove leading or embedded ../'s and ..\'s --- */
while ( strreplace(editname,"../",NULL,0) > 0 ) ; /* squeeze out ../'s */
while ( strreplace(editname,"..\\",NULL,0) > 0 ) ; /* and ..\'s */
while ( strreplace(editname,"../",NULL,0) > 0 ) ; /* and ../'s again */
/* --- prepend path prefix (if compiled with -DPATHPREFIX) --- */
if ( isprefix && *editname!='\000' ) /* filename is preceded by prefix */
strchange(0,editname,pathprefix); /* so prepend prefix */
end_of_job:
return ( editname ); /* back with edited filename */
} /* --- end-of-function rasteditfilename() --- */
/* ==========================================================================
* Function: rastreadfile ( filename, islock, tag, value )
* Purpose: Read filename, returning value as string
* between ... or entire file if tag=NULL passed.
* --------------------------------------------------------------------------
* Arguments: filename (I) char * to null-terminated string containing
* name of file to read (preceded by path
* relative to mimetex executable)
* islock (I) int containing 1 to lock file while reading
* (hopefully done by opening in "r+" mode)
* tag (I) char * to null-terminated string containing
* html-like tagname. File contents between
* and will be returned, or
* entire file if tag=NULL passed.
* value (O) char * returning value between ...
* or entire file if tag=NULL.
* --------------------------------------------------------------------------
* Returns: ( int ) 1=okay, 0=some error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int rastreadfile ( char *filename, int islock, char *tag, char *value )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
FILE *fp = (FILE *)NULL, *rastopenfile(); /* pointer to opened filename */
char texfile[1024] = "\000", /* local copy of input filename */
text[MAXLINESZ+1]; /* line from input file */
char *tagp, tag1[1024], tag2[1024]; /* left and right */
int vallen=0, maxvallen=MAXFILESZ; /* #chars in value, max allowed */
int status = (-1); /* status returned, 1=okay */
int tagnum = 0; /* tag we're looking for */
/*int islock = 1;*/ /* true to lock file */
/* --------------------------------------------------------------------------
Open file
-------------------------------------------------------------------------- */
/* --- first check output arg --- */
if ( value == (char *)NULL ) goto end_of_job; /* no output buffer supplied */
*value = '\000'; /* init buffer with empty string */
/* --- open filename or filename.tex --- */
if ( filename != (char *)NULL ) /* make sure we got filename arg */
{ strncpy(texfile,filename,1023); /* local copy of filename */
texfile[1023] = '\000'; /* make sure it's null terminated */
fp = rastopenfile(texfile,(islock?"r+":"r")); } /* try opening it */
/* --- check that file opened --- */
if ( fp == (FILE *)NULL ) /* failed to open file */
{ sprintf(value,"{\\normalsize\\rm[file %s?]}",texfile);
goto end_of_job; } /* return error message to caller */
status = 0; /* file opened successfully */
if ( islock ) rewind(fp); /* start at beginning of file */
/* --------------------------------------------------------------------------
construct 's
-------------------------------------------------------------------------- */
if ( tag != (char *)NULL ) /* caller passed tag arg */
if ( *tag != '\000' ) /* and it's not an empty string */
{ strcpy(tag1,"<"); strcpy(tag2,""); /* begin with < and */
strcat(tag1,tag); strcat(tag2,tag); /* followed by caller's tag */
strcat(tag1,">"); strcat(tag2,">"); /* ending both tags with > */
compress(tag1,' '); compress(tag2,' '); /* remove embedded blanks */
tagnum = 1; } /* signal that we have tag */
/* --------------------------------------------------------------------------
Read file, concatnate lines
-------------------------------------------------------------------------- */
while ( fgets(text,MAXLINESZ-1,fp) != (char *)NULL ) { /*read input till eof*/
switch ( tagnum ) { /* look for left- or right-tag */
case 0: status = 1; break; /* no tag to look for */
case 1: /* looking for opening left */
if ( (tagp=strstr(text,tag1)) == NULL ) break; /*haven't found it yet*/
tagp += strlen(tag1); /* first char past tag */
strsqueezep(text,tagp); /*shift out preceding text and tag*/
tagnum = 2; /*now looking for closing right tag*/
case 2: /* looking for closing right */
if ( (tagp=strstr(text,tag2)) == NULL ) break; /*haven't found it yet*/
*tagp = '\000'; /* terminate line at tag */
tagnum = 3; /* done after this line */
status = 1; /* successfully read tag */
break;
} /* ---end-of-switch(tagnum) --- */
if ( tagnum != 1 ) { /* no tag or left tag already found*/
int textlen = strlen(text); /* #chars in current line */
if ( vallen+textlen > maxvallen ) break; /* quit before overflow */
strcat(value,text); /* concat line to end of value */
vallen += textlen; /* bump length */
if ( tagnum > 2 ) break; } /* found right tag, so we're done */
} /* --- end-of-while(fgets()!=NULL) --- */
if ( tagnum<1 || tagnum>2 ) status=1; /* okay if no tag or we found tag */
fclose ( fp ); /* close input file after reading */
/* --- return value and status to caller --- */
end_of_job:
return ( status ); /* return status to caller */
} /* --- end-of-function rastreadfile() --- */
/* ==========================================================================
* Function: rastwritefile ( filename, tag, value, isstrict )
* Purpose: Re/writes filename, replacing string between ...
* with value, or writing entire file as value if tag=NULL.
* --------------------------------------------------------------------------
* Arguments: filename (I) char * to null-terminated string containing
* name of file to write (preceded by path
* relative to mimetex executable)
* tag (I) char * to null-terminated string containing
* html-like tagname. File contents between
* and will be replaced, or
* entire file written if tag=NULL passed.
* value (I) char * containing string replacing value
* between ... or replacing entire
* file if tag=NULL.
* isstrict (I) int containing 1 to only rewrite existing
* files, or 0 to create new file if necessary.
* --------------------------------------------------------------------------
* Returns: ( int ) 1=okay, 0=some error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int rastwritefile( char *filename, char *tag, char *value, int isstrict )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
FILE *fp = (FILE *)NULL, *rastopenfile(); /* pointer to opened filename */
char texfile[1024] = "\000", /* local copy of input filename */
filebuff[MAXFILESZ+1] = "\000", /* entire contents of file */
tag1[1024], tag2[1024], /* left and right */
*strchange(), /* put value between ...*/
*timestamp(); /* log modification time */
int istag=0, rastreadfile(), /* read file if tag!=NULL */
/*isstrict = (seclevel>5? 1:0),*/ /*true only writes existing files*/
isnewfile = 0, /* true if writing new file */
status = 0; /* status returned, 1=okay */
int istimestamp = 0; /* true to update tag */
/* --------------------------------------------------------------------------
check args
-------------------------------------------------------------------------- */
/* --- check filename and value --- */
if ( filename == (char *)NULL /* quit if no filename arg supplied*/
|| value == (char *)NULL ) goto end_of_job; /* or no value arg supplied */
if ( strlen(filename) < 2 /* quit if unreasonable filename */
|| *value == '\000' ) goto end_of_job; /* or empty value string supplied */
/* --- establish filename[.tex] --- */
strncpy(texfile,filename,1023); /* local copy of input filename */
texfile[1023] = '\000'; /* make sure it's null terminated */
if ( rastopenfile(texfile,NULL) /* unchanged or .tex appended */
== (FILE *)NULL ) /* can't open, so write new file */
{ if ( isstrict ) goto end_of_job; /* fail if new files not permitted */
isnewfile = 1; } /* signal we're writing new file */
/* --- check whether tag supplied by caller --- */
if ( tag != (char *)NULL ) /* caller passed tag argument */
if ( *tag != '\000' ) /* and it's not an empty string */
{ istag = 1; /* so flip tag flag true */
strcpy(tag1,"<"); strcpy(tag2,""); /* begin tags with < and */
strcat(tag1,tag); strcat(tag2,tag); /* followed by caller's tag */
strcat(tag1,">"); strcat(tag2,">"); /* ending both tags with > */
compress(tag1,' '); compress(tag2,' '); } /* remove embedded blanks */
/* --------------------------------------------------------------------------
read existing file if just rewriting a single tag
-------------------------------------------------------------------------- */
/* --- read original file if only replacing a tag within it --- */
*filebuff = '\000'; /* init as empty file */
if ( !isnewfile ) /* if file already exists */
if ( istag ) /* and just rewriting one tag */
if ( rastreadfile(texfile,1,NULL,filebuff) /* read entire existing file */
<= 0 ) goto end_of_job; /* signal error if failed to read */
/* --------------------------------------------------------------------------
construct new file data if needed (entire file replaced by value if no tag)
-------------------------------------------------------------------------- */
if ( istag ) /* only replacing tag in file */
{
/* --- find and in file --- */
int tlen1=strlen(tag1), tlen2=strlen(tag2), flen; /*tag,buff lengths*/
char *tagp1 = (isnewfile? NULL:strstr(filebuff,tag1)), /* in file*/
*tagp2 = (isnewfile? NULL:strstr(filebuff,tag2)); /* in file*/
/* --- if adding new just concatanate at end of file --- */
if ( tagp1 == (char *)NULL ) /* add new tag to file */
{
/* --- preprocess filebuff --- */
if ( tagp2 != (char *)NULL ) /* apparently have ... */
{strsqueezep(filebuff,tagp2+tlen2);} /* remove ... */
if ( (flen = strlen(filebuff)) /* #chars currently in buffer */
> 0 ) /* we have non-empty buffer */
if (!isthischar(*(filebuff+flen-1),"\n\r")) /*no newline at end of file*/
if(0)strcat(filebuff,"\n"); /* so add one before new tag */
/* --- add new tag --- */
strcat(filebuff,tag1); /* add opening */
strcat(filebuff,value); /* then value */
strcat(filebuff,tag2); /* finally closing */
strcat(filebuff,"\n"); /* newline at end of file */
} /* --- end-of-if(tagp1==NULL) --- */
else /* found existing opening */
{
if ( tagp2 == NULL ) /* apparently have ... */
{ *(tagp1+tlen1) = '\000'; /* so get rid of trailing ... */
strcat(filebuff,value); /* then concatanate value */
strcat(filebuff,tag2); } /* and finally closing */
else /* else have ... */
if ( (flen=((int)(tagp2-tagp1))-tlen1) /* len of .'s in ... */
>= 0 ) /* usually precedes */
strchange(flen,tagp1+tlen1,value); /* change ...'s to value */
else /* weirdly, precedes */
{ char fbuff[4096]; /* field buff for value */
if ( (flen = ((int)(tagp1-tagp2))+tlen1) /* strlen(...) */
<= 0 ) goto end_of_job; /* must be internal error */
strcpy(fbuff,tag1); /* set opening */
strcat(fbuff,value); /* then value */
strcat(fbuff,tag2); /* finally closing */
strchange(flen,tagp2,fbuff); } /* replace original ... */
} /* --- end-of-if/else(tagp1==NULL) --- */
} /* --- end-of-if(istag) --- */
/* --------------------------------------------------------------------------
rewrite file and return to caller
-------------------------------------------------------------------------- */
/* --- first open file for write --- */
if ( (fp=rastopenfile(texfile,"w")) /* open for write */
== (FILE *)NULL ) goto end_of_job; /* signal error if can't open */
/* --- rewrite and close file --- */
if ( fputs((istag?filebuff:value),fp) /* write filebuff or value */
!= EOF ) status = 1; /* signal success if succeeded */
fclose ( fp ); /* close output file after writing */
/* --- modify timestamp --- */
if ( status > 0 ) /*forget timestamp if write failed*/
if ( istimestamp ) /* if we're updating timestamp */
if ( istag ) /* only log time in tagged file */
if ( strstr(tag,"timestamp") == (char *)NULL ) /* but avoid recursion */
{ char fbuff[2048]; /* field buff value */
strcpy(fbuff,tag); /* tag modified */
strcat(fbuff," modified at "); /* spacer */
strcat(fbuff,timestamp(TZDELTA,0)); /* start with timestamp */
status = rastwritefile(filename,"timestamp",fbuff,1); }
/* --- return status to caller --- */
end_of_job:
return ( status ); /* return status to caller */
} /* --- end-of-function rastwritefile() --- */
/* ==========================================================================
* Function: calendar ( year, month, day )
* Purpose: returns null-terminated character string containing
* \begin{array}...\end{array} for the one-month calendar
* specified by year=1973...2099 and month=1...12.
* If either arg out-of-range, today's value is used.
* --------------------------------------------------------------------------
* Arguments: year (I) int containing 1973...2099 or 0 for current
* year
* month (I) int containing 1...12 or 0 for current month
* day (I) int containing day to emphasize or 0
* --------------------------------------------------------------------------
* Returns: ( char * ) char ptr to null-terminated buffer
* containing \begin{array}...\end{array}
* string that will render calendar for
* requested month, or NULL for any error.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
char *calendar( int year, int month, int day )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
static char calbuff[4096]; /* calendar returned to caller */
time_t time_val = (time_t)(0); /* binary value returned by time() */
struct tm *tmstruct=(struct tm *)NULL, *localtime(); /* interpret time_val */
int yy=0, mm=0, dd=0; /* today (emphasize today's dd) */
int idd=1, iday=0, daynumber(); /* day-of-week for idd=1...31 */
char aval[64]; /* ascii day or 4-digit year */
/* --- calendar data --- */
static char *monthnames[] = { "?", "January", "February", "March", "April",
"May", "June", "July", "August", "September", "October",
"November", "December", "?" } ;
static int modays[] =
{ 0, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31, 0 };
/* -------------------------------------------------------------------------
initialization
-------------------------------------------------------------------------- */
/* --- get current date/time --- */
time((time_t *)(&time_val)); /* get date and time */
tmstruct = localtime((time_t *)(&time_val)); /* interpret time_val */
yy = 1900 + (int)(tmstruct->tm_year); /* current four-digit year */
mm = 1 + (int)(tmstruct->tm_mon); /* current month, 1-12 */
dd = (int)(tmstruct->tm_mday); /* current day, 1-31 */
/* --- check args --- */
if ( year<1973 || year>2099 ) year = yy; /* current year if out-of-bounds */
if ( month<1 || month>12 ) month = mm; /* current month if out-of-bounds */
if ( month==mm && year==yy && day==0 ) /* current month and default day */
day = dd; /* emphasize current day */
modays[2] = (year%4==0?29:28); /* Feb has 29 days in leap years */
/* --- initialize calendar string --- */
strcpy(calbuff,"{\\begin{gather}"); /* center `month year` above cal */
strcat(calbuff,"\\small\\text{"); /* month set in roman */
strcat(calbuff,monthnames[month]); /* insert month name */
strcat(calbuff," }"); /* add a space */
sprintf(aval,"%d",year); /* convert year to ascii */
strcat(calbuff,aval); /* add year */
strcat(calbuff,"\\\\"); /* end top row */
strcat(calbuff, /* now begin calendar arrayr */
"\\begin{array}{|c|c|c|c|c|c|c|CCCCCC} \\hline"
"\\tiny\\text{Sun} & \\tiny\\text{Mon} & \\tiny\\text{Tue} &"
"\\tiny\\text{Wed} & \\tiny\\text{Thu} & \\tiny\\text{Fri} &"
"\\tiny\\text{Sat} \\\\ \\hline " );
/* -------------------------------------------------------------------------
generate calendar
-------------------------------------------------------------------------- */
for ( idd=1; idd<=modays[month]; idd++ ) /* run through days of month */
{
/* --- get day-of-week for this day --- */
iday = 1 + (daynumber(year,month,idd)%7); /* 1=Monday...7=Sunday */
if ( iday == 7 ) iday = 0; /* now 0=Sunday...6=Saturday */
/* --- may need empty cells at beginning of month --- */
if ( idd == 1 ) /* first day of month */
if ( iday > 0 ) /* need to skip cells */
{ strcpy(aval,"\\ &\\ &\\ &\\ &\\ &\\ &\\ &\\ &\\ &\\"); /*cells to skip*/
aval[3*iday] = '\000'; /*skip cells preceding 1st of month*/
strcat(calbuff,aval); } /* add skip string to buffer */
/* --- add idd to current cell --- */
sprintf(aval,"%d",idd); /* convert idd to ascii */
if ( idd == day /* emphasize today's date */
/*&& month==mm && year==yy*/ ) /* only if this month's calendar */
{ strcat(calbuff,"{\\fs{-1}\\left\\langle "); /*emphasize, 1 size smaller*/
strcat(calbuff,aval); /* put in idd */
strcat(calbuff,"\\right\\rangle}"); } /* finish emphasis */
else /* not today's date */
strcat(calbuff,aval); /* so just put in idd */
/* --- terminate cell --- */
if ( idd < modays[month] ) { /* not yet end-of-month */
if ( iday < 6 ) /* still have days left in week */
strcat(calbuff,"&"); /* new cell in same week */
else /* reached end-of-week */
strcat(calbuff,"\\\\ \\hline"); } /* so start new week */
} /* --- end-of-for(idd) --- */
strcat(calbuff,"\\\\ \\hline"); /* final underline at end-of-month */
/* --- return calendar to caller --- */
strcat(calbuff,"\\end{array}\\end{gather}}"); /* terminate array */
return ( calbuff ); /* back to caller with calendar */
} /* --- end-of-function calendar() --- */
/* ==========================================================================
* Function: timestamp ( tzdelta, ifmt )
* Purpose: returns null-terminated character string containing
* current date:time stamp as ccyy-mm-dd:hh:mm:ss{am,pm}
* --------------------------------------------------------------------------
* Arguments: tzdelta (I) integer, positive or negative, containing
* containing number of hours to be added or
* subtracted from system time (to accommodate
* your desired time zone).
* ifmt (I) integer containing 0 for default format
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to null-terminated buffer
* containing current date:time stamp
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
char *timestamp( int tzdelta, int ifmt )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
static char timebuff[256]; /* date:time buffer back to caller */
/*long time_val = 0L;*/ /* binary value returned by time() */
time_t time_val = (time_t)(0); /* binary value returned by time() */
struct tm *tmstruct=(struct tm *)NULL, *localtime(); /* interpret time_val */
int year=0, hour=0,ispm=1, /* adjust year, and set am/pm hour */
month=0, day=0, /* adjust day and month for delta */
minute=0,second=0; /* minute and second not adjusted */
int tzadjust(); /* time zone adjustment function */
int daynumber(); /* #days since Jan 1, 1973 */
static char *daynames[] = { "Monday", "Tuesday", "Wednesday",
"Thursday", "Friday", "Saturday", "Sunday" } ;
static char *monthnames[] = { "?", "January", "February", "March", "April",
"May", "June", "July", "August", "September", "October",
"November", "December", "?" } ;
/* -------------------------------------------------------------------------
get current date:time, adjust values, and and format stamp
-------------------------------------------------------------------------- */
/* --- first init returned timebuff in case of any error --- */
*timebuff = '\000';
/* --- get current date:time --- */
time((time_t *)(&time_val)); /* get date and time */
tmstruct = localtime((time_t *)(&time_val)); /* interpret time_val */
/* --- extract fields --- */
year = (int)(tmstruct->tm_year); /* local copy of year, 0=1900 */
month = (int)(tmstruct->tm_mon) + 1; /* local copy of month, 1-12 */
day = (int)(tmstruct->tm_mday); /* local copy of day, 1-31 */
hour = (int)(tmstruct->tm_hour); /* local copy of hour, 0-23 */
minute= (int)(tmstruct->tm_min); /* local copy of minute,0-59 */
second= (int)(tmstruct->tm_sec); /* local copy of second,0-59 */
/* --- adjust year --- */
year += 1900; /* set century in year */
/* --- adjust for timezone --- */
tzadjust(tzdelta,&year,&month,&day,&hour);
/* --- check params --- */
if ( hour<0 || hour>23
|| day<1 || day>31
|| month<1 || month>12
|| year<1973 ) goto end_of_job;
/* --- adjust hour for am/pm --- */
switch ( ifmt )
{
default:
case 0:
if ( hour < 12 ) /* am check */
{ ispm=0; /* reset pm flag */
if ( hour == 0 ) hour = 12; } /* set 00hrs = 12am */
if ( hour > 12 ) hour -= 12; /* pm check sets 13hrs to 1pm, etc */
break;
} /* --- end-of-switch(ifmt) --- */
/* --- format date:time stamp --- */
switch ( ifmt )
{
default:
case 0: /* --- 2005-03-05:11:49:59am --- */
sprintf(timebuff,"%04d-%02d-%02d:%02d:%02d:%02d%s", year,month,day,
hour,minute,second,((ispm)?"pm":"am"));
break;
case 1: /* --- Saturday, March 5, 2005 --- */
sprintf(timebuff,"%s, %s %d, %d",
daynames[daynumber(year,month,day)%7],monthnames[month],day,year);
break;
case 2: /* --- Saturday, March 5, 2005, 11:49:59am --- */
sprintf(timebuff,"%s, %s %d, %d, %d:%02d:%02d%s",
daynames[daynumber(year,month,day)%7],monthnames[month],day,year,
hour,minute,second,((ispm)?"pm":"am"));
break;
case 3: /* --- 11:49:59am --- */
sprintf(timebuff,"%d:%02d:%02d%s",
hour,minute,second,((ispm)?"pm":"am"));
break;
case 4: /* --- 1231235959 (mmddhhmmss time as integer) --- */
sprintf(timebuff,"%d%02d%02d%02d%02d",
month,day,hour,minute,second);
break;
} /* --- end-of-switch(ifmt) --- */
end_of_job:
return ( timebuff ); /* return stamp to caller */
} /* --- end-of-function timestamp() --- */
/* ==========================================================================
* Function: tzadjust ( tzdelta, year, month, day, hour )
* Purpose: Adjusts hour, and day,month,year if necessary,
* by delta increment to accommodate your time zone.
* --------------------------------------------------------------------------
* Arguments: tzdelta (I) integer, positive or negative, containing
* containing number of hours to be added or
* subtracted from given time (to accommodate
* your desired time zone).
* year (I) addr of int containing 4-digit year
* month (I) addr of int containing month 1=Jan - 12=Dec.
* day (I) addr of int containing day 1-31 for Jan.
* hour (I) addr of int containing hour 0-23
* Returns: ( int ) 1 for success, or 0 for error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int tzadjust ( int tzdelta, int *year, int *month, int *day, int *hour )
{
/* --------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int yy = *year, mm = *month, dd = *day, hh = *hour; /*dereference args*/
/* --- calendar data --- */
static int modays[] =
{ 0, 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31, 0 };
/* --------------------------------------------------------------------------
check args
-------------------------------------------------------------------------- */
if ( mm<1 || mm>12 ) return(-1); /* bad month */
if ( dd<1 || dd>modays[mm] ) return(-1); /* bad day */
if ( hh<0 || hh>23 ) return(-1); /* bad hour */
if ( tzdelta>23 || tzdelta<(-23) ) return(-1); /* bad tzdelta */
/* --------------------------------------------------------------------------
make adjustments
-------------------------------------------------------------------------- */
/* --- adjust hour --- */
hh += tzdelta; /* apply caller's delta */
/* --- adjust for feb 29 --- */
modays[2] = (yy%4==0?29:28); /* Feb has 29 days in leap years */
/* --- adjust day --- */
if ( hh < 0 ) /* went to preceding day */
{ dd--; hh += 24; }
if ( hh > 23 ) /* went to next day */
{ dd++; hh -= 24; }
/* --- adjust month --- */
if ( dd < 1 ) /* went to preceding month */
{ mm--; dd = modays[mm]; }
if ( dd > modays[mm] ) /* went to next month */
{ mm++; dd = 1; }
/* --- adjust year --- */
if ( mm < 1 ) /* went to preceding year */
{ yy--; mm = 12; dd = modays[mm]; }
if ( mm > 12 ) /* went to next year */
{ yy++; mm = 1; dd = 1; }
/* --- back to caller --- */
*year=yy; *month=mm; *day=dd; *hour=hh; /* reset adjusted args */
return ( 1 );
} /* --- end-of-function tzadjust() --- */
/* ==========================================================================
* Function: daynumber ( year, month, day )
* Purpose: Returns number of actual calendar days from Jan 1, 1973
* to the given date (e.g., bvdaynumber(1974,1,1)=365).
* --------------------------------------------------------------------------
* Arguments: year (I) int containing year -- may be either 1995 or
* 95, or may be either 2010 or 110 for those
* years.
* month (I) int containing month, 1=Jan thru 12=Dec.
* day (I) int containing day of month, 1-31 for Jan, etc.
* Returns: ( int ) Number of days from Jan 1, 1973 to given date,
* or -1 for error (e.g., year<1973).
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int daynumber ( int year, int month, int day )
{
/* --------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
/* --- returned value (note: returned as a default "int") --- */
int ndays; /* #days since jan 1, year0 */
/* --- initial conditions --- */
static int year0 = 73, /* jan 1 was a monday, 72 was a leap */
days4yrs = 1461, /* #days in 4 yrs = 365*4 + 1 */
days1yr = 365;
/* --- table of accumulated days per month (last index not used) --- */
static int modays[] =
{ 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334, 365 };
/* --- variables for #days since day0 --- */
int nyears, nfouryrs; /*#years, #4-yr periods since year0*/
/* --------------------------------------------------------------------------
Check input
-------------------------------------------------------------------------- */
if ( month < 1 || month > 12 ) /*month used as index, so must be ok*/
return ( -1 ); /* otherwise, forget it */
if ( year >= 1900 ) year -= 1900; /*use two-digit years (3 after 2000)*/
/* --------------------------------------------------------------------------
Find #days since jan 1, 1973
-------------------------------------------------------------------------- */
/* --- figure #complete 4-year periods and #remaining yrs till current --- */
nyears = year - year0; /* #years since year0 */
if ( nyears < 0 ) return ( -1 ); /* we're not working backwards */
nfouryrs = nyears/4; /* #complete four-year periods */
nyears -= (4*nfouryrs); /* remainder excluding current year*/
/* --- #days from jan 1, year0 till jan 1, this year --- */
ndays = (days4yrs*nfouryrs) /* #days in 4-yr periods */
+ (days1yr*nyears); /* +remaining days */
/*if ( year > 100 ) ndays--;*/ /* subtract leap year for 2000AD */
/* --- add #days within current year --- */
ndays += (modays[month-1] + (day-1));
/* --- may need an extra day if current year is a leap year --- */
if ( nyears == 3 ) /*three preceding yrs so this is 4th*/
{ if ( month > 2 ) /* past feb so need an extra day */
/*if ( year != 100 )*/ /* unless it's 2000AD */
ndays++; } /* so add it in */
return ( (int)(ndays) ); /* #days back to caller */
} /* --- end-of-function daynumber() --- */
/* ==========================================================================
* Function: strwrap ( s, linelen, tablen )
* Purpose: Inserts \n's and spaces in (a copy of) s to wrap lines
* at linelen and indent them by tablen.
* --------------------------------------------------------------------------
* Arguments: s (I) char * to null-terminated string
* to be wrapped.
* linelen (I) int containing maximum linelen
* between \\'s.
* tablen (I) int containing number of spaces to indent
* lines. 0=no indent. Positive means
* only indent first line and not others.
* Negative means indent all lines except first.
* --------------------------------------------------------------------------
* Returns: ( char * ) ptr to "line-wrapped" copy of s
* or "" (empty string) for any error.
* --------------------------------------------------------------------------
* Notes: o The returned copy of s has embedded \\'s as necessary
* to wrap lines at linelen. Any \\'s in the input copy
* are removed first. If (and only if) the input s contains
* a terminating \\ then so does the returned copy.
* o The returned pointer addresses a static buffer,
* so don't call strwrap() again until you're finished
* with output from the preceding call.
* o Modified for mimetex from original version written
* for mathtex (where \n in verbatim mode instead of \\
* produced linebreaks).
* ======================================================================= */
/* --- entry point --- */
char *strwrap ( char *s, int linelen, int tablen )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
static char sbuff[4096]; /* line-wrapped copy of s */
char *sol = sbuff; /* ptr to start of current line*/
char tab[32] = " "; /* tab string */
int strreplace(); /* remove \n's */
char *strchange(); /* add \n's and indent space */
int finalnewline = (lastchar(s)=='\n'?1:0); /*newline at end of string?*/
int istab = (tablen>0?1:0), /* init true to indent first line */
iswhite = 0; /* true if line break on whitespace*/
int rhslen = 0, /* remaining right hand side length*/
thislen = 0, /* length of current line segment */
thistab = 0, /* length of tab on current line */
wordlen = 0; /* length to next whitespace char */
/* -------------------------------------------------------------------------
Make a clean copy of s
-------------------------------------------------------------------------- */
/* --- check input --- */
*sbuff = '\000'; /* initialize in case of error */
if ( isempty(s) ) goto end_of_job; /* no input */
if ( tablen < 0 ) tablen = (-tablen); /* set positive tablen */
if ( tablen >= linelen ) tablen = linelen-1; /* tab was longer than line */
tab[min2(tablen,16)] = '\000'; /* null-terminate tab string */
tablen = strlen(tab); /* reset to actual tab length */
finalnewline = 0; /* turned off for mimetex version */
/* --- start with copy of s --- */
strninit(sbuff,s,3000); /* leave room for \n's and tabs */
if ( linelen < 1 ) goto end_of_job; /* can't do anything */
trimwhite(sbuff); /*remove leading/trailing whitespace*/
strreplace(sbuff,"\n"," ",0); /* remove any original \n's */
strreplace(sbuff,"\r"," ",0); /* remove any original \r's */
strreplace(sbuff,"\t"," ",0); /* remove any original \t's */
strreplace(sbuff,"\f"," ",0); /* remove any original \f's */
strreplace(sbuff,"\v"," ",0); /* remove any original \v's */
strreplace(sbuff,"\\\\"," ",0); /* remove any original \\'s */
/* -------------------------------------------------------------------------
Insert \\'s and spaces as needed
-------------------------------------------------------------------------- */
while ( 1 ) { /* till end-of-line */
/* --- init --- */
trimwhite(sol); /*remove leading/trailing whitespace*/
thislen = thistab = 0; /* no chars in current line yet */
if ( istab && tablen>0 ) { /* need to indent this line */
strchange(0,sol,tab); /* insert indent at start of line */
thistab = tablen; } /* line starts with whitespace tab */
if ( sol == sbuff ) istab = 1-istab; /* flip tab flag after first line */
sol += thistab; /* skip tab */
rhslen = strlen(sol); /* remaining right hand side chars */
if ( rhslen+thistab <= linelen ) break; /* no more \\'s needed */
if ( 0 && msgfp!=NULL && msglevel >= 99 ) {
fprintf(msgfp,"strwrap> rhslen=%d, sol=\"\"%s\"\"\n",rhslen,sol);
fflush(msgfp); }
/* --- look for last whitespace preceding linelen --- */
while ( 1 ) { /* till we exceed linelen */
wordlen = strcspn(sol+thislen," \t\n\r\f\v :;.,"); /*ptr to next white/break*/
if ( sol[thislen+wordlen] == '\000' ) /* no more whitespace in string */
goto end_of_job; /* so nothing more we can do */
if ( thislen+thistab+wordlen >= linelen ) /* next word won't fit */
if ( thislen > 0 ) break; /* but make sure line has one word */
thislen += (wordlen+1); } /* ptr past next whitespace char */
if ( thislen < 1 ) break; /* line will have one too-long word*/
/*sol[thislen-1] = '\n';*/ /* replace last space with newline */
/*sol += thislen;*/ /* next line starts after newline */
iswhite = (isthischar(sol[thislen-1],":;.,")?0:1); /*linebreak on space?*/
strchange(iswhite,sol+thislen-iswhite,"\\\\"); /* put \\ at end of line */
sol += (thislen+2-iswhite); /* next line starts after \\ */
} /* --- end-of-while(1) --- */
end_of_job:
if ( finalnewline ) strcat(sbuff,"\\\\"); /* replace final newline */
return ( sbuff ); /* back with clean copy of s */
} /* --- end-of-function strwrap() --- */
/* ==========================================================================
* Function: strnlower ( s, n )
* Purpose: lowercase the first n chars of string s
* --------------------------------------------------------------------------
* Arguments: s (I/O) (char *)pointer to null-terminated string
* whose chars are to be lowercased
* n (I) int containing max number of chars to be
* lowercased (less than n will be lowercased
* if terminating '\000' found first)
* If n<=0 (or n>=strlen(s)) then the entire
* string s will be lowercased
* --------------------------------------------------------------------------
* Returns: ( char * ) s (always same as input)
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
char *strnlower ( char *s, int n )
{
/* -------------------------------------------------------------------------
lowercase s
-------------------------------------------------------------------------- */
char *p = s; /* save s for return to caller */
if ( !isempty(s) ) /* check for valid input */
while ( *p != '\000' ) { /* lowercase each char till end */
*p = tolower(*p); /* lowercase this char */
if ( n > 0 ) /* only lowercase first n chars */
if ( --n < 1 ) break; /* quit when we're done */
p++; } /* proceed to next char */
return ( s ); /* back to caller with s */
} /* --- end-of-function strnlower() --- */
/* ==========================================================================
* Function: urlprune ( url, n )
* Purpose: Prune http://abc.def.ghi.com/etc into abc.def.ghi.com
* (if n=2 only ghi.com is returned, or if n=-1 only "ghi")
* --------------------------------------------------------------------------
* Arguments: url (I) char * to null-terminated string
* containing url to be pruned
* n (i) int containing number of levels retained
* in pruned url. If n<0 its abs() is used,
* but the topmost level (usually .com, .org,
* etc) is omitted. That is, if n=2 would
* return "ghi.com" then n=-1 returns "ghi".
* n=0 retains all levels.
* --------------------------------------------------------------------------
* Returns: ( char * ) pointer to (static) null-terminated string
* containing pruned url with the first n
* top-level domain, e.g., for n=2,
* http://abc.def.ghi.com/etc returns ghi.com,
* or an empty string "\000" for any error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
char *urlprune ( char *url, int n )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
static char pruned[2048]; /* pruned url returned to caller */
char *purl = /*NULL*/pruned; /* ptr to pruned, init for error */
char *delim = NULL; /* delimiter separating components */
char *strnlower(); /* lowercase a string */
int istruncate = (n<0?1:0); /*true to truncate .com from pruned*/
int ndots = 0; /* number of dots found in url */
/* -------------------------------------------------------------------------
prune the url
-------------------------------------------------------------------------- */
/* --- first check input --- */
*pruned = '\000'; /* init for error */
if ( isempty(url) ) goto end_of_job; /* missing input, so return NULL */
if ( n < 0 ) n = (-n); /* flip n positive */
if ( n == 0 ) n = 999; /* retain all levels of url */
/* --- preprocess url --- */
strninit(pruned,url,2032); /* copy url to our static buffer */
strlower(pruned); /* lowercase it and... */
trimwhite(pruned); /*remove leading/trailing whitespace*/
/* --- first remove leading http:// --- */
if ( (delim=strstr(pruned,"://")) != NULL ) /* found http:// or ftp:// etc */
if ( ((int)(delim-pruned)) <= 8 ) { /* make sure it's a prefix */
strsqueezep(pruned,delim+3); /* squeeze out leading http:// */
trimwhite(pruned); } /*remove leading/trailing whitespace*/
/* --- next remove leading www. --- */
if ( (delim=strstr(pruned,"www.")) != NULL ) /* found www. */
if ( ((int)(delim-pruned)) == 0 ) { /* make sure it's the leading chars*/
strsqueezep(pruned,delim+4); /* squeeze out leading www. */
trimwhite(pruned); } /*remove leading/trailing whitespace*/
/* --- finally remove leading / and everything following it --- */
if ( (delim=strchr(pruned,'/')) != NULL ) /* found first / */
*delim = '\000'; /* null-terminate url at first / */
if ( isempty(pruned) ) goto end_of_job; /* nothing left in url */
/* --- count dots from back of url --- */
delim = pruned + strlen(pruned); /*ptr to '\000' terminating pruned*/
while ( ((int)(delim-pruned)) > 0 ) { /* don't back up before first char */
delim--; /* ptr to preceding character */
if ( *delim != '.' ) continue; /* not a dot, so keep looking */
ndots++; /* count another dot found */
if ( istruncate ) { /* remove trailing .com */
istruncate = 0; /* don't truncate any more dots */
*delim = '\000'; /* truncate pruned url */
ndots = 0; } /* and reset dot count */
if ( ndots >= n ) { /* have all requested levels */
strsqueezep(pruned,delim+1); /* squeeze out leading levels */
break; } /* and we're done */
} /* --- end-of-while() --- */
purl = pruned; /*completed okay, return pruned url*/
end_of_job:
return ( purl ); /* back with pruned url */
} /* --- end-of-function urlprune() --- */
/* ==========================================================================
* Function: urlncmp ( url1, url2, n )
* Purpose: Compares the n topmost levels of two urls
* --------------------------------------------------------------------------
* Arguments: url1 (I) char * to null-terminated string
* containing url to be compared with url2
* url2 (I) char * to null-terminated string
* containing url to be compared with url1
* n (I) int containing number of top levels
* to compare, or 0 to compare them all.
* n<0 compares that many top levels excluding
* the last, i.e., for n=-1, xxx.com and xxx.org
* would be considered a match
* --------------------------------------------------------------------------
* Returns: ( int ) 1 if url's match, or
* 0 if not.
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int urlncmp ( char *url1, char *url2, int n )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
char *urlprune(), *prune=NULL, /* prune url's */
prune1[4096], prune2[4096]; /* pruned copies of url1,url2 */
int ismatch = 0; /* true if url's match */
/* -------------------------------------------------------------------------
prune url's and compare the pruned results
-------------------------------------------------------------------------- */
/* --- check input --- */
if ( isempty(url1) /*make sure both url1,url2 supplied*/
|| isempty(url2) ) goto end_of_job; /* missing input, so return 0 */
/* --- prune url's --- */
prune = urlprune(url1,n); /* ptr to pruned version of url1 */
if ( isempty(prune) ) goto end_of_job; /* some problem with url1 */
strninit(prune1,prune,4064); /* local copy of pruned url1 */
prune = urlprune(url2,n); /* ptr to pruned version of url2 */
if ( isempty(prune) ) goto end_of_job; /* some problem with url2 */
strninit(prune2,prune,4064); /* local copy of pruned url2 */
/* --- compare pruned url's --- */
if ( strcmp(prune1,prune2) == 0 ) /* pruned url's are identical */
ismatch = 1; /* signal match to caller */
end_of_job:
return ( ismatch ); /*back with #matching url components*/
} /* --- end-of-function urlncmp() --- */
/* ==========================================================================
* Function: dbltoa ( dblval, npts )
* Purpose: Converts double to ascii, in financial format
* (e.g., comma-separated and negatives enclosed in ()'s).
* -------------------------------------------------------------------------
* Arguments: dblval (I) double containing value to be converted.
* npts (I) int containing #places after decimal point
* to be displayed in returned string.
* Returns: ( char * ) null-terminated string containing
* double converted to financial format.
* -------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
char *dbltoa ( double dblval, int npts )
/* double dblval;
int npts; */
{
/* -------------------------------------------------------------------------
Allocations and Declarations
------------------------------------------------------------------------- */
static char finval[256]; /* buffer returned to caller */
static char digittbl[32]="0123456789*"; /* table of ascii decimal digits */
char *finptr = finval; /* ptr to next char being converted*/
double floor(); /* integer which is glb(double) */
double dbldigit; /* to shift out digits from dblval */
int digit; /* one digit from dblval */
int isneg = 0; /* reset true if dblval negative */
int ifrac = 0; /* npts fractional digits of dblval*/
char digits[64]; int ndigits=0; /* all the digits [0]=least signif */
/* -------------------------------------------------------------------------
Check sign
------------------------------------------------------------------------- */
if ( dblval < 0.0 ) /* got a negative value to convert */
{ isneg=1; dblval=(-dblval); } /* set flag and make it positive */
/* -------------------------------------------------------------------------
Get fractional part of dblval if required
------------------------------------------------------------------------- */
if ( npts > 0 )
{ int ipts = npts; /* loop index */
dbldigit = dblval-floor(dblval); /* fractional part as double */
digit = 1; /* check if rounded frac > 1 */
while ( --ipts >= 0 ) /* count down */
{ dbldigit *= 10.0; /* shift left one digit at a time */
digit *= 10; } /* and keep max up-to-date */
ifrac = (int)(dbldigit + 0.5); /* store fractional part as integer*/
if ( ifrac >= digit ) /* round to next whole number */
{ dblval++; ifrac=0; } /* bump val, reset frac to zero */
} /* --- end-of-if(npts>0) --- */
else dblval += 0.5; /* no frac, round to nearest whole */
/* -------------------------------------------------------------------------
Get whole digits
------------------------------------------------------------------------- */
dblval = floor(dblval); /* get rid of fractional part */
while ( dblval > 0.0 ) /* still have data digits remaining*/
{ dbldigit = floor(dblval/10.0); /* shift out next digit */
digit = (int)(dblval - 10.0*dbldigit + 0.01); /* least signif digit */
if ( digit<0 || digit>9 ) digit=10; /* index check */
digits[ndigits++] = digittbl[digit]; /* store ascii digit */
dblval = dbldigit; } /* ready for next digit */
if ( ndigits < 1 ) digits[ndigits++] = '0'; /* store a single '0' for 0.0 */
/* -------------------------------------------------------------------------
Format whole part from digits[] array
------------------------------------------------------------------------- */
if ( isneg ) *finptr++ = '('; /* leading paren for negative value*/
for ( digit=ndigits-1; digit>=0; digit-- ) /* start with most significant */
{ *finptr++ = digits[digit]; /* store digit */
if ( digit>0 && digit%3==0 ) /* need a comma */
*finptr++ = ','; } /* put in separating comma */
/* -------------------------------------------------------------------------
Format fractional part using ifrac
------------------------------------------------------------------------- */
if ( npts > 0 )
{ *finptr++ = '.'; /* start with decimal point */
sprintf(finptr,"%0*d",npts,ifrac); /* convert to string */
finptr += npts; } /* bump ptr past fractional digits */
/* -------------------------------------------------------------------------
End-of-Job
------------------------------------------------------------------------- */
if ( isneg ) *finptr++ = ')'; /*trailing paren for negative value*/
*finptr = '\000'; /* null-terminate converted double */
return ( finval ); /* converted double back to caller */
} /* --- end-of-function dbltoa() --- */
/* ==========================================================================
* Function: aalowpass ( rp, bytemap, grayscale )
* Purpose: calculates a lowpass anti-aliased bytemap
* for rp->bitmap, with each byte 0...grayscale-1
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* bytemap (O) intbyte * to bytemap, calculated
* by applying lowpass filter to rp->bitmap,
* and returned (as you'd expect) in 1-to-1
* addressing correspondence with rp->bitmap
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 1=success, 0=any error
* --------------------------------------------------------------------------
* Notes: o If the center point of the box being averaged is black,
* then the entire "average" is forced black (grayscale-1)
* regardless of the surrounding points. This is my attempt
* to avoid a "washed-out" appearance of thin (one-pixel-wide)
* lines, which would otherwise turn from black to a gray shade.
* o Also, while the weights for neighbor points are fixed,
* you may adjust the center point weight on the compile line.
* A higher weight sharpens the resulting anti-aliased image;
* lower weights blur it out more (but keep the "center" black
* as per the preceding note).
* ======================================================================= */
/* --- entry point --- */
int aalowpass (raster *rp, intbyte *bytemap, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int status = 1; /* 1=success, 0=failure to caller */
pixbyte *bitmap= (rp==NULL?NULL:rp->pixmap); /*local rp->pixmap ptr*/
int irow=0, icol=0; /* rp->height, rp->width indexes */
int weights[9] = { 1,3,1, 3,0,3, 1,3,1 }; /* matrix of weights */
int adjindex[9]= { 0,1,2, 7,-1,3, 6,5,4 }; /*clockwise from upper-left*/
int totwts = 0; /* sum of all weights in matrix */
int isforceavg = 1, /*force avg black if center black?*/
isminmaxwts = 1, /*use wts or #pts for min/max test */
blackscale = 0; /*(grayscale+1)/4;*/ /*force black if wgted avg>bs */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- calculate total weights --- */
weights[4]= centerwt; /* weight for center point */
weights[1]= weights[3]= weights[5]= weights[7]= adjacentwt; /*adjacent pts*/
totwts = centerwt + 4*(1+adjacentwt); /* tot is center plus neighbors */
/* -------------------------------------------------------------------------
Calculate bytemap as 9-point weighted average over bitmap
-------------------------------------------------------------------------- */
for ( irow=0; irowheight; irow++ )
for ( icol=0; icolwidth; icol++ )
{
int ipixel = icol + irow*(rp->width); /* center pixel index */
int jrow=0, jcol=0, /* box around ipixel */
bitval = 0, /* value of bit/pixel at jrow,jcol */
iscenter = 0, /* set true if center pixel black */
nadjacent=0, wadjacent=0, /* #adjacent black pixels, their wts*/
ngaps = 0, /* #gaps in 8 pixels around center */
iwt=(-1), sumwts=0; /* weights index, sum in-bound wts */
char adjmatrix[8]; /* adjacency "matrix" */
memset(adjmatrix,0,8); /* zero out adjacency matrix */
bytemap[ipixel] = 0; /* init pixel white */
/*--- for ipixel at irow,icol, get weighted average of adjacent pixels ---*/
for ( jrow=irow-1; jrow<=irow+1; jrow++ ) /* jrow = irow-1...irow+1 */
for ( jcol=icol-1; jcol<=icol+1; jcol++ ) /* jcol = icol-1...icol+1 */
{
int jpixel = jcol + jrow*(rp->width); /* averaging index */
iwt++; /*always bump weight index*/
if ( jrow<0 || jrow>=rp->height /* if row out pf bounds */
|| jcol<0 || jcol>=rp->width ) /* or col out of bounds */
continue; /* ignore this point */
bitval = (int)getlongbit(bitmap,jpixel); /* value of bit at jrow,jcol */
if ( bitval ) /* this is a black pixel */
{ if ( jrow==irow && jcol==icol ) /* and this is center point */
iscenter = 1; /* set flag for center point black */
else /* adjacent point black */
{ nadjacent++; /* bump adjacent black count */
adjmatrix[adjindex[iwt]] = 1; } /*set "bit" in adjacency matrix*/
wadjacent += weights[iwt]; } /* sum weights for black pixels */
sumwts += weights[iwt]; /* and sum weights for all pixels */
} /* --- end-of-for(jrow,jcol) --- */
/* --- count gaps --- */
ngaps = (adjmatrix[7]!=adjmatrix[0]?1:0); /* init count */
for ( iwt=0; iwt<7; iwt++ ) /* clockwise around adjacency */
if ( adjmatrix[iwt] != adjmatrix[iwt+1] ) ngaps++; /* black/white flip */
ngaps /= 2; /*each gap has 2 black/white flips*/
/* --- anti-alias pixel, but leave it black if it was already black --- */
if ( isforceavg && iscenter ) /* force avg if center point black */
bytemap[ipixel] = grayscale-1; /* so force grayscale-1=black */
else /* center point not black */
if ( ngaps <= 2 ) /*don't darken checkerboarded pixel*/
{ bytemap[ipixel] = /* 0=white ... grayscale-1=black */
((totwts/2 - 1) + (grayscale-1)*wadjacent)/totwts; /* not /sumwts; */
if ( blackscale > 0 /* blackscale kludge turned on */
&& bytemap[ipixel] > blackscale ) /* weighted avg > blackscale */
bytemap[ipixel] = grayscale-1; } /* so force it entirely black */
/*--- only anti-alias pixels whose adjacent pixels fall within bounds ---*/
if ( !iscenter ) { /* apply min/maxadjacent test */
if ( isminmaxwts ) /* min/max refer to adjacent weights*/
{ if ( wadjacent < minadjacent /* wts of adjacent points too low */
|| wadjacent > maxadjacent ) /* or too high */
bytemap[ipixel] = 0; } /* so leave point white */
else /* min/max refer to #adjacent points*/
{ if ( nadjacent < minadjacent /* too few adjacent points black */
|| nadjacent > maxadjacent ) /* or too many */
bytemap[ipixel] = 0; } } /* so leave point white */
} /* --- end-of-for(irow,icol) --- */
/* -------------------------------------------------------------------------
Back to caller with gray-scale anti-aliased bytemap
-------------------------------------------------------------------------- */
/*end_of_job:*/
return ( status );
} /* --- end-of-function aalowpass() --- */
/* ==========================================================================
* Function: aapnm ( rp, bytemap, grayscale )
* Purpose: calculates a lowpass anti-aliased bytemap
* for rp->bitmap, with each byte 0...grayscale-1,
* based on the pnmalias.c algorithm
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* bytemap (O) intbyte * to bytemap, calculated
* by applying pnm-based filter to rp->bitmap,
* and returned (as you'd expect) in 1-to-1
* addressing correspondence with rp->bitmap
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 1=success, 0=any error
* --------------------------------------------------------------------------
* Notes: o Based on the pnmalias.c algorithm in the netpbm package
* on sourceforge.
* ======================================================================= */
/* --- entry point --- */
int aapnm (raster *rp, intbyte *bytemap, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
pixbyte *bitmap = rp->pixmap; /* local rp->pixmap ptr */
int width=rp->width, height=rp->height, /* width, height of raster */
icol = 0, irow = 0, /* width, height indexes */
imap = (-1); /* pixel index = icol + irow*width */
int bgbitval=0, fgbitval=1; /* background, foreground bitval */
int isfirstaa = 1; /*debugging switch signals 1st pixel*/
#if 0
int totwts=12, wts[9]={1,1,1, 1,4,1, 1,1,1}; /* pnmalias default wts */
int totwts=16, wts[9]={1,2,1, 2,4,2, 1,2,1}; /* weights */
#endif
int totwts=18, wts[9]={1,2,1, 2,6,2, 1,2,1}; /* pnmalias default wts */
int isresetparams = 1, /* true to set antialiasing params */
isfgalias = 1, /* true to antialias fg bits */
isfgonly = 0, /* true to only antialias fg bits */
isbgalias = 0, /* true to antialias bg bits */
isbgonly = 0; /* true to only antialias bg bits */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- check for bold light --- */
if ( 0 )
{ if ( weightnum > 2 ) { isbgalias=1; } /* simulate bold */
if ( weightnum < 1 ) { isbgonly=1; isfgalias=0; } } /* simulate light */
/* --- reset wts[], etc, and calculate total weights --- */
if ( isresetparams ) /* wts[], etc taken from params */
{ int iwt=0; /* wts[iwt] index */
wts[4]= centerwt; /* weight for center point */
wts[1]=wts[3]=wts[5]=wts[7] = adjacentwt; /* and adjacent points */
wts[0]=wts[2]=wts[6]=wts[8] = cornerwt; /* and corner points */
for ( totwts=0,iwt=0; iwt<9; iwt++ ) totwts += wts[iwt]; /* sum wts */
isfgalias = fgalias; /* set isfgalias */
isfgonly = fgonly; /* set isfgonly */
isbgalias = bgalias; /* set isbgalias */
isbgonly = bgonly; } /* set isbgonly */
/* -------------------------------------------------------------------------
Calculate bytemap as 9-point weighted average over bitmap
-------------------------------------------------------------------------- */
for ( irow=0; irow 0 ) /* nn (north) bit available */
nnbitval = getlongbit(bitmap,imap-width); /* nn bit value */
if ( irow < height-1 ) /* ss (south) bit available */
ssbitval = getlongbit(bitmap,imap+width); /* ss bit value */
if ( icol > 0 ) /* ww (west) bit available */
{ wwbitval = getlongbit(bitmap,imap-1); /* ww bit value */
if ( irow > 0 ) /* nw bit available */
nwbitval = getlongbit(bitmap,imap-width-1); /* nw bit value */
if ( irow < height-1 ) /* sw bit available */
swbitval = getlongbit(bitmap,imap+width-1); } /* sw bit value */
if ( icol < width-1 ) /* ee (east) bit available */
{ eebitval = getlongbit(bitmap,imap+1); /* ee bit value */
if ( irow > 0 ) /* ne bit available */
nebitval = getlongbit(bitmap,imap-width+1); /* ne bit value */
if ( irow < height-1 ) /* se bit available */
sebitval = getlongbit(bitmap,imap+width+1); } /* se bit value */
/* --- check for edges --- */
isbgedge = /* current pixel borders a bg edge */
(nnbitval==bgbitval && eebitval==bgbitval) || /*upper-right edge*/
(eebitval==bgbitval && ssbitval==bgbitval) || /*lower-right edge*/
(ssbitval==bgbitval && wwbitval==bgbitval) || /*lower-left edge*/
(wwbitval==bgbitval && nnbitval==bgbitval) ; /*upper-left edge*/
isfgedge = /* current pixel borders an fg edge*/
(nnbitval==fgbitval && eebitval==fgbitval) || /*upper-right edge*/
(eebitval==fgbitval && ssbitval==fgbitval) || /*lower-right edge*/
(ssbitval==fgbitval && wwbitval==fgbitval) || /*lower-left edge*/
(wwbitval==fgbitval && nnbitval==fgbitval) ; /*upper-left edge*/
/* ---check top/bot left/right edges for corners (added by j.forkosh)--- */
if ( 1 ) { /* true to perform test */
int isbghorz=0, isfghorz=0, isbgvert=0, isfgvert=0; /* horz/vert edges */
isbghorz = /* top or bottom edge is all bg */
(nwbitval+nnbitval+nebitval == 3*bgbitval) || /* top edge bg */
(swbitval+ssbitval+sebitval == 3*bgbitval) ; /* bottom edge bg */
isfghorz = /* top or bottom edge is all fg */
(nwbitval+nnbitval+nebitval == 3*fgbitval) || /* top edge fg */
(swbitval+ssbitval+sebitval == 3*fgbitval) ; /* bottom edge fg */
isbgvert = /* left or right edge is all bg */
(nwbitval+wwbitval+swbitval == 3*bgbitval) || /* left edge bg */
(nebitval+eebitval+sebitval == 3*bgbitval) ; /* right edge bg */
isfgvert = /* left or right edge is all bg */
(nwbitval+wwbitval+swbitval == 3*fgbitval) || /* left edge fg */
(nebitval+eebitval+sebitval == 3*fgbitval) ; /* right edge fg */
if ( (isbghorz && isbgvert && (bitval==fgbitval)) /* we're at an...*/
|| (isfghorz && isfgvert && (bitval==bgbitval)) ) /*...inside corner */
continue; /* don't antialias */
} /* --- end-of-if(1) --- */
/* --- check #gaps for checkerboard (added by j.forkosh) --- */
if ( 0 ) { /* true to perform test */
int ngaps=0, mingaps=1,maxgaps=2; /* count #fg/bg flips (max=4 noop) */
if ( nwbitval!=nnbitval ) ngaps++; /* upper-left =? upper */
if ( nnbitval!=nebitval ) ngaps++; /* upper =? upper-right */
if ( nebitval!=eebitval ) ngaps++; /* upper-right =? right */
if ( eebitval!=sebitval ) ngaps++; /* right =? lower-right */
if ( sebitval!=ssbitval ) ngaps++; /* lower-right =? lower */
if ( ssbitval!=swbitval ) ngaps++; /* lower =? lower-left */
if ( swbitval!=wwbitval ) ngaps++; /* lower-left =? left */
if ( wwbitval!=nwbitval ) ngaps++; /* left =? upper-left */
if ( ngaps > 0 ) ngaps /= 2; /* each gap has 2 bg/fg flips */
if ( ngapsmaxgaps ) continue;
} /* --- end-of-if(1) --- */
/* --- antialias if necessary --- */
if ( (isbgalias && isbgedge) /* alias pixel surrounding bg */
|| (isfgalias && isfgedge) /* alias pixel surrounding fg */
|| (isbgedge && isfgedge) ) /* neighboring fg and bg pixel */
{
int aasumval = /* sum wts[]*bitmap[] */
wts[0]*nwbitval + wts[1]*nnbitval + wts[2]*nebitval +
wts[3]*wwbitval + wts[4]*bitval + wts[5]*eebitval +
wts[6]*swbitval + wts[7]*ssbitval + wts[8]*sebitval ;
double aawtval = ((double)aasumval)/((double)totwts); /* weighted val */
aabyteval= (int)(((double)(grayscale-1))*aawtval+0.5); /*0...grayscale-1*/
bytemap[imap] = (intbyte)(aabyteval); /* set antialiased pixel */
if ( msglevel>=99 && msgfp!=NULL ) { fprintf(msgfp, /*diagnostic output*/
"%s> irow,icol,imap=%d,%d,%d aawtval=%.4f aabyteval=%d\n",
(isfirstaa?"aapnm algorithm":"aapnm"),
irow,icol,imap, aawtval,aabyteval);
isfirstaa = 0; }
} /* --- end-of-if(isedge) --- */
} /* --- end-of-for(irow,icol) --- */
/* -------------------------------------------------------------------------
Back to caller with gray-scale anti-aliased bytemap
-------------------------------------------------------------------------- */
/*end_of_job:*/
return ( 1 );
} /* --- end-of-function aapnm() --- */
/* ==========================================================================
* Function: aapnmlookup ( rp, bytemap, grayscale )
* Purpose: calculates a lowpass anti-aliased bytemap
* for rp->bitmap, with each byte 0...grayscale-1,
* based on the pnmalias.c algorithm.
* This version uses aagridnum() and aapatternnum() lookups
* to interpret 3x3 lowpass pixel grids.
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* bytemap (O) intbyte * to bytemap, calculated
* by applying pnm-based filter to rp->bitmap,
* and returned (as you'd expect) in 1-to-1
* addressing correspondence with rp->bitmap
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 1=success, 0=any error
* --------------------------------------------------------------------------
* Notes: o Based on the pnmalias.c algorithm in the netpbm package
* on sourceforge.
* o This version uses aagridnum() and aapatternnum() lookups
* to interpret 3x3 lowpass pixel grids.
* ======================================================================= */
/* --- entry point --- */
int aapnmlookup (raster *rp, intbyte *bytemap, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int width=rp->width, height=rp->height, /* width, height of raster */
icol = 0, irow = 0, /* width, height indexes */
imap = (-1); /* pixel index = icol + irow*width */
int bgbitval=0, fgbitval=1; /* background, foreground bitval */
int isfirstaa = 1; /*debugging switch signals 1st pixel*/
int aacenterwt=centerwt, aaadjacentwt=adjacentwt, aacornerwt=cornerwt,
totwts = centerwt + 4*(adjacentwt+cornerwt); /*pnmalias default wts*/
int isfgalias = fgalias, /*(1) true to antialias fg bits */
isfgonly = fgonly, /*(0) true to only antialias fg bits*/
isbgalias = bgalias, /*(0) true to antialias bg bits */
isbgonly = bgonly; /*(0) true to only antialias bg bits*/
int gridnum=(-1), aagridnum(), /* grid# for 3x3 grid at irow,icol */
patternum=(-1), aapatternnum(); /*pattern#, 1-51, for input gridnum*/
int aapatterns(); /* to antialias special patterns */
/* ---
* pattern number data
* ------------------- */
/* --- number of adjacent fg pixels set in pattern --- */
static int nadjacents[] = { -1, /* #adjacent fg pixels for pattern */
0, 4, 0, 1, 4, 3, 1, 0, 1, 0, /* 1-10 */
2, 2, 3, 4, 3, 4, 2, 2, 1, 2, /* 11-20 */
1, 2, 1, 2, 0, 1, 3, 2, 3, 2, /* 21-30 */
3, 2, 3, 2, 4, 3, 1, 2, 2, 2, /* 31-40 */
2, 1, 2, 2, 3, 0, 3, 2, 2, 1, 4, /* 41-51 */
-1 } ; /* --- end-of-nadjacents[] --- */
/* --- number of corner fg pixels set in pattern --- */
static int ncorners[] = { -1, /* #corner fg pixels for pattern */
0, 4, 1, 0, 3, 4, 1, 2, 1, 2, /* 1-10 */
0, 0, 3, 2, 3, 2, 4, 4, 2, 1, /* 11-20 */
2, 1, 2, 1, 3, 2, 0, 1, 2, 3, /* 21-30 */
2, 3, 2, 3, 1, 2, 4, 3, 2, 2, /* 31-40 */
2, 3, 2, 2, 1, 4, 1, 2, 2, 3, 0, /* 41-51 */
-1 } ; /* --- end-of-ncorners[] --- */
/* --- 0,1,2=pattern contains horizontal bg,fg,both edge; -1=no edge --- */
static int horzedges[] = { -1, /* 0,1,2 = horz bg,fg,both edge */
0, 1, 0, 0, 1, 1, 0, 0, 0, -1, /* 1-10 */
0, -1, 1, 1, 1, -1, 1, -1, 2, 0, /* 11-20 */
-1, -1, -1, 0, -1, -1, -1, -1, 2, 1, /* 21-30 */
-1, -1, -1, 1, -1, -1, -1, -1, 2, -1, /* 31-40 */
-1, 1, 1, -1, -1, -1, 0, 0, -1, -1, -1, /* 41-51 */
-1 } ; /* --- end-of-horzedges[] --- */
/* --- 0,1,2=pattern contains vertical bg,fg,both edge; -1=no edge --- */
static int vertedges[] = { -1, /* 0,1,2 = vert bg,fg,both edge */
0, 1, 0, 0, 1, 1, 0, -1, -1, -1, /* 1-10 */
0, 0, 1, -1, -1, -1, 1, 1, -1, -1, /* 11-20 */
-1, 0, 0, 0, -1, -1, 0, -1, -1, -1, /* 21-30 */
-1, 1, 1, 1, -1, -1, 1, -1, -1, -1, /* 31-40 */
-1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, /* 41-51 */
-1 } ; /* --- end-of-vertedges[] --- */
/* --- 0,1,2=pattern contains diagonal bg,fg,both edge; -1=no edge --- */
static int diagedges[] = { -1, /* 0,1,2 = diag bg,fg,both edge */
0, 1, 0, 0, 1, 1, 0, 0, 0, 0, /* 1-10 */
2, -1, 1, 1, 1, 1, 1, -1, 0, 2, /* 11-20 */
0, -1, 0, 2, 0, -1, 1, 1, 1, 1, /* 21-30 */
1, -1, 1, 2, 1, 1, -1, 1, 2, -1, /* 31-40 */
1, 0, -1, 2, 1, 0, 1, -1, 1, -1, 1, /* 41-51 */
-1 } ; /* --- end-of-diagedges[] --- */
/* -------------------------------------------------------------------------
Calculate bytemap as 9-point weighted average over bitmap
-------------------------------------------------------------------------- */
for ( irow=0; irow511 ) continue; /* gridnum out of bounds*/
/* --- check if we're antialiasing this pixel --- */
if ( (isbgonly && bitval==fgbitval) /* only antialias background bit */
|| (isfgonly && bitval==bgbitval) ) /* only antialias foreground bit */
continue; /* leave default and do next bit */
/* --- look up pattern number, 1-51, corresponding to input gridnum --- */
patternum = aapatternnum(gridnum); /* look up pattern number */
if ( patternum<1 || patternum>51 ) continue; /* some internal error */
/* --- special pattern number processing --- */
if ( (aabyteval = aapatterns(rp,irow,icol,gridnum,patternum,grayscale))
>= 0 ) { /* special processing for pattern */
bytemap[imap] = (intbyte)(aabyteval); /* set antialiased pixel */
continue; } /* and continue with next pixel */
/* --- check for diagonal edges --- */
isbgdiag = ( diagedges[patternum]==2 || /*current pixel borders a bg edge*/
diagedges[patternum]==0 );
isfgdiag = ( diagedges[patternum]==2 || /*current pixel borders a fg edge*/
diagedges[patternum]==1 );
/* ---check top/bot left/right edges for corners (added by j.forkosh)--- */
if ( 1 ) { /* true to perform test */
int isbghorz=0, isfghorz=0, isbgvert=0, isfgvert=0, /* horz/vert edges */
horzedge=horzedges[patternum], vertedge=vertedges[patternum];
isbghorz = (horzedge==2||horzedge==0); /* top or bottom edge is all bg */
isfghorz = (horzedge==2||horzedge==1); /* top or bottom edge is all fg */
isbgvert = (vertedge==2||vertedge==0); /* left or right edge is all bg */
isfgvert = (vertedge==2||vertedge==1); /* left or right edge is all fg */
if ( (isbghorz && isbgvert && (bitval==fgbitval)) /* we're at an...*/
|| (isfghorz && isfgvert && (bitval==bgbitval)) ) /*...inside corner */
continue; /* don't antialias */
} /* --- end-of-if(1) --- */
#if 0
/* --- check #gaps for checkerboard (added by j.forkosh) --- */
if ( 0 ) { /* true to perform test */
int ngaps=0, mingaps=1,maxgaps=2; /* count #fg/bg flips (max=4 noop) */
if ( nwbitval!=nnbitval ) ngaps++; /* upper-left =? upper */
if ( nnbitval!=nebitval ) ngaps++; /* upper =? upper-right */
if ( nebitval!=eebitval ) ngaps++; /* upper-right =? right */
if ( eebitval!=sebitval ) ngaps++; /* right =? lower-right */
if ( sebitval!=ssbitval ) ngaps++; /* lower-right =? lower */
if ( ssbitval!=swbitval ) ngaps++; /* lower =? lower-left */
if ( swbitval!=wwbitval ) ngaps++; /* lower-left =? left */
if ( wwbitval!=nwbitval ) ngaps++; /* left =? upper-left */
if ( ngaps > 0 ) ngaps /= 2; /* each gap has 2 bg/fg flips */
if ( ngapsmaxgaps ) continue;
} /* --- end-of-if(1) --- */
#endif
/* --- antialias if necessary --- */
if ( (isbgalias && isbgdiag) /* alias pixel surrounding bg */
|| (isfgalias && isfgdiag) /* alias pixel surrounding fg */
|| (isbgdiag && isfgdiag) ) /* neighboring fg and bg pixel */
{
int aasumval = /* sum wts[]*bitmap[] */
aacenterwt*bitval + /* apply centerwt to center pixel */
aaadjacentwt*nadjacents[patternum] + /* similarly for adjacents */
aacornerwt*ncorners[patternum]; /* and corners */
double aawtval = ((double)aasumval)/((double)totwts); /* weighted val */
aabyteval= (int)(((double)(grayscale-1))*aawtval+0.5); /*0...grayscale-1*/
bytemap[imap] = (intbyte)(aabyteval); /* set antialiased pixel */
if ( msglevel>=99 && msgfp!=NULL ) { fprintf(msgfp, /*diagnostic output*/
"%s> irow,icol,imap=%d,%d,%d aawtval=%.4f aabyteval=%d",
(isfirstaa?"aapnmlookup algorithm":"aapnm"),
irow,icol,imap, aawtval,aabyteval);
if ( msglevel < 100 ) fprintf(msgfp,"\n"); /* no more output */
else fprintf(msgfp,", grid#,pattern#=%d,%d\n",gridnum,patternum);
isfirstaa = 0; }
} /* --- end-of-if(isedge) --- */
} /* --- end-of-for(irow,icol) --- */
/* -------------------------------------------------------------------------
Back to caller with gray-scale anti-aliased bytemap
-------------------------------------------------------------------------- */
/*end_of_job:*/
return ( 1 );
} /* --- end-of-function aapnmlookup() --- */
/* ==========================================================================
* Function: aapatterns ( rp, irow, icol, gridnum, patternum, grayscale )
* Purpose: For patterns requireing special processing,
* calculates anti-aliased value for pixel at irow,icol,
* whose surrounding 3x3 pixel grid is coded by gridnum
* (which must correspond to a pattern requiring special
* processing).
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* irow (I) int containing row, 0...height-1,
* of pixel to be antialiased
* icol (I) int containing col, 0...width-1,
* of pixel to be antialiased
* gridnum (I) int containing 0...511 corresponding to
* 3x3 pixel grid surrounding irow,icol
* patternum (I) int containing 1...51 pattern# of
* the 3x3 grid surrounding irow,icol
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 0...grayscale-1 for success,
* -1 = error, or no special processing required
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int aapatterns (raster *rp, int irow, int icol,
int gridnum, int patternum, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int aaval = (-1); /* antialiased value returned */
int iscenter = (gridnum&1); /* true if center pixel set/black */
int aapatternnum(), /* if patternum not supplied */
aapattern1124(), /* routine for patterns #11,24 */
aapattern19(), /* special routine for pattern #19 */
aapattern20(), /* special routine for pattern #20 */
aapattern39(); /* special routine for pattern #39 */
/* -------------------------------------------------------------------------
special pattern number processing
-------------------------------------------------------------------------- */
if ( 1 ) {
if ( patternum < 1 ) /* pattern# not supplied by caller */
patternum = aapatternnum(gridnum); /* so look it up ourselves */
switch ( patternum ) {
default: break; /* no special processing */
case 11:
case 24: aaval = aapattern1124(rp,irow,icol,gridnum,grayscale); break;
case 19: aaval = aapattern19(rp,irow,icol,gridnum,grayscale); break;
case 20: aaval = aapattern20(rp,irow,icol,gridnum,grayscale); break;
case 39: aaval = aapattern39(rp,irow,icol,gridnum,grayscale); break;
/* case 24: if ( (gridnum&1) == 0 ) aaval=0; break; */
case 29: aaval = (iscenter?grayscale-1:0); break; /* no antialiasing */
} /* --- end-of-switch(patternum) --- */
} /* --- end-of-if() --- */
return ( aaval ); /* return antialiased val to caller*/
} /* --- end-of-function aapatterns() --- */
/* ==========================================================================
* Function: aapattern1124 ( rp, irow, icol, gridnum, grayscale )
* Purpose: calculates anti-aliased value for pixel at irow,icol,
* whose surrounding 3x3 pixel grid is coded by gridnum
* (which must correspond to pattern #11 or #24).
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* irow (I) int containing row, 0...height-1,
* of pixel to be antialiased
* icol (I) int containing col, 0...width-1,
* of pixel to be antialiased
* gridnum (I) int containing 0...511 corresponding to
* 3x3 pixel grid surrounding irow,icol
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 0...grayscale-1 for success, -1=any error
* --------------------------------------------------------------------------
* Notes: o Handles the eight gridnum's
* (gridnum/2 shown to eliminate irrelevant low-order bit)
* --- --- -*- -*-
* --* = 10 *-- = 18 --* = 72 *-- = 80 (pattern$11)
* -*- -*- --- ---
*
* --- --- -** **-
* --* = 11 *-- = 22 --* = 104 *-- = 208 (pattern$24)
* -** **- --- ---
* o For black * center pixel, using grid#10 as an example,
* pixel stays --- antialiased ---*
* black if -*** if part of -**
* part of a -*- a diagonal -*-
* corner, eg, * line, eg, *
* ======================================================================= */
/* --- entry point --- */
int aapattern1124 (raster *rp, int irow, int icol,
int gridnum, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int aaval = (-1); /* antialiased value returned */
int iscenter = gridnum&1; /* true if pixel at irow,icol black*/
int patternum = 24; /* init for pattern#24 default */
pixbyte *bitmap = rp->pixmap; /* local rp->pixmap ptr */
int width=rp->width, height=rp->height; /* width, height of raster */
int jrow=irow, jcol=icol; /* corner or diagonal row,col */
int vertcornval=0, horzcornval=0, /* vertical, horizontal corner bits*/
topdiagval=0, botdiagval=0, /* upper,lower diagonal pixel bits */
cornval=0, diagval=0; /* vert+horzcorn, top+botdiag */
int hdirection=99, vdirection=99, /* horz,vert corner direction */
hturn=99,vturn=99, aafollowline(); /* follow corner till turns */
/* -------------------------------------------------------------------------
Check corner and diagonal pixels
-------------------------------------------------------------------------- */
if ( 0 ) goto end_of_job; /* true to turn off pattern1124 */
switch ( gridnum/2 ) { /* check pattern#11,24 corner, diag*/
default: goto end_of_job; /* not a pattern#11,24 gridnum */
case 10: patternum=11; case 11:
hdirection = 2; vdirection = -1; /* directions to follow corner */
if ( (jrow=irow+2) < height ) { /* vert corner below center pixel */
vertcornval = getlongbit(bitmap,(icol+jrow*width));
if ( (icol-1) >= 0 ) /* lower diag left of center */
botdiagval = getlongbit(bitmap,((icol-1)+jrow*width)); }
if ( (jcol=icol+2) < width ) { /* horz corner right of center */
horzcornval = getlongbit(bitmap,(jcol+irow*width));
if ( (irow-1) >= 0 ) /* upper diag above center */
topdiagval = getlongbit(bitmap,(jcol+(irow-1)*width)); }
break;
case 18: patternum=11; case 22:
hdirection = -2; vdirection = -1; /* directions to follow corner */
if ( (jrow=irow+2) < height ) { /* vert corner below center pixel */
vertcornval = getlongbit(bitmap,(icol+jrow*width));
if ( (icol+1) < width ) /* lower diag right of center */
botdiagval = getlongbit(bitmap,((icol+1)+jrow*width)); }
if ( (jcol=icol-2) >= 0 ) { /* horz corner left of center */
horzcornval = getlongbit(bitmap,(jcol+irow*width));
if ( (irow-1) >= 0 ) /* upper diag above center */
topdiagval = getlongbit(bitmap,(jcol+(irow-1)*width)); }
break;
case 72: patternum=11; case 104:
hdirection = 2; vdirection = 1; /* directions to follow corner */
if ( (jrow=irow-2) >= 0 ) { /* vert corner above center pixel */
vertcornval = getlongbit(bitmap,(icol+jrow*width));
if ( (icol-1) >= 0 ) /* upper diag left of center */
topdiagval = getlongbit(bitmap,((icol-1)+jrow*width)); }
if ( (jcol=icol+2) < width ) { /* horz corner right of center */
horzcornval = getlongbit(bitmap,(jcol+irow*width));
if ( (irow+1) < height ) /* lower diag below center */
botdiagval = getlongbit(bitmap,(jcol+(irow+1)*width)); }
break;
case 80: patternum=11; case 208:
hdirection = -2; vdirection = 1; /* directions to follow corner */
if ( (jrow=irow-2) >= 0 ) { /* vert corner above center pixel */
vertcornval = getlongbit(bitmap,(icol+jrow*width));
if ( (icol+1) < width ) /* upper diag right of center */
topdiagval = getlongbit(bitmap,((icol+1)+jrow*width)); }
if ( (jcol=icol-2) >= 0 ) { /* horz corner left of center */
horzcornval = getlongbit(bitmap,(jcol+irow*width));
if ( (irow+1) < height ) /* lower diag below center */
botdiagval = getlongbit(bitmap,(jcol+(irow+1)*width)); }
break;
} /* --- end-of-switch(gridnum/2) --- */
cornval = vertcornval+horzcornval; /* 0=no corner bits, 1, 2=both */
diagval = topdiagval+botdiagval; /* 0=no diag bits, 1, 2=both */
/* -------------------------------------------------------------------------
Handle white center
-------------------------------------------------------------------------- */
if ( 1 && !iscenter ) { aaval = (patternum==11?51:64); goto end_of_job; }
/* -------------------------------------------------------------------------
Handle black center
-------------------------------------------------------------------------- */
if ( diagval > 1 ) aaval = ( patternum==24? 255:191 );
else {
hturn = aafollowline(rp,irow,icol,hdirection);
vturn = aafollowline(rp,irow,icol,vdirection);
if ( vturn*hdirection < 0 && hturn*vdirection < 0 )
aaval = ( patternum==24? 255:191 );
else aaval = grayscale-1; } /* actual corner */
/* -------------------------------------------------------------------------
Back to caller with grayscale antialiased value for pixel at irow,icol
-------------------------------------------------------------------------- */
end_of_job:
if ( aaval >= 0 ) /* have antialiasing result */
if ( msglevel>=99 && msgfp!=NULL ) fprintf(msgfp, /* diagnostic output */
"aapattern1124> irow,icol,grid#/2=%d,%d,%d, top,botdiag=%d,%d, "
"vert,horzcorn=%d,%d, v,hdir=%d,%d, v,hturn=%d,%d, aaval=%d\n",
irow,icol,gridnum/2, topdiagval,botdiagval, vertcornval,horzcornval,
vdirection,hdirection, vturn,hturn, aaval);
return ( aaval ); /* back with antialiased value */
} /* --- end-of-function aapattern1124() --- */
/* ==========================================================================
* Function: aapattern19 ( rp, irow, icol, gridnum, grayscale )
* Purpose: calculates anti-aliased value for pixel at irow,icol,
* whose surrounding 3x3 pixel grid is coded by gridnum
* (which must correspond to pattern #19).
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* irow (I) int containing row, 0...height-1,
* of pixel to be antialiased
* icol (I) int containing col, 0...width-1,
* of pixel to be antialiased
* gridnum (I) int containing 0...511 corresponding to
* 3x3 pixel grid surrounding irow,icol
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 0...grayscale-1 for success, -1=any error
* --------------------------------------------------------------------------
* Notes: o Handles the four gridnum's
* (gridnum/2 shown to eliminate irrelevant low-order bit)
* --- --* *-- ***
* --- = 7 --* = 41 *-- = 148 --- = 224
* *** --* *-- ---
* ======================================================================= */
/* --- entry point --- */
int aapattern19 (raster *rp, int irow, int icol,
int gridnum, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int aaval = (-1); /* antialiased value returned */
int iscenter = gridnum&1; /* true if pixel at irow,icol black*/
int orientation = 1, /* 1=vertical, 2=horizontal */
jrow=irow, jcol=icol; /* middle pixel of *** line */
int turn1=0,turn2=0, aafollowline(); /* follow *** line till it turns */
/* -------------------------------------------------------------------------
Initialization and calculation of antialiased value
-------------------------------------------------------------------------- */
/* --- check input -- */
if ( iscenter ) goto end_of_job; /* we only antialias white pixels */
/* --- set params --- */
switch ( gridnum/2 ) { /* check pattern#19 orientation */
default: goto end_of_job; /* not a pattern#19 gridnum */
case 7: orientation=2; jrow++; break;
case 41: orientation=1; jcol++; break;
case 148: orientation=1; jcol--; break;
case 224: orientation=2; jrow--; break;
} /* --- end-of-switch(gridnum/2) --- */
/* --- get turns in both directions --- */
if ( (turn1 = aafollowline(rp,jrow,jcol,orientation)) == 0 ) goto end_of_job;
if ( (turn2 = aafollowline(rp,jrow,jcol,-orientation)) == 0) goto end_of_job;
if ( turn1*turn2 >= 0 ) goto end_of_job; /* both turns in same direction */
/* --- weight pixel --- */
aaval = grayscale / ( 3 + min2(abs(turn1),abs(turn2)) );
/* -------------------------------------------------------------------------
Back to caller with grayscale antialiased value for pixel at irow,icol
-------------------------------------------------------------------------- */
end_of_job:
if ( aaval >= 0 ) /* have antialiasing result */
if ( msglevel>=99 && msgfp!=NULL ) fprintf(msgfp, /* diagnostic output */
"aapattern19> irow,icol,grid#/2=%d,%d,%d, turn+%d,%d=%d,%d, aaval=%d\n",
irow,icol,gridnum/2, orientation,-orientation,turn1,turn2, aaval);
return ( aaval ); /* back with antialiased value */
} /* --- end-of-function aapattern19() --- */
/* ==========================================================================
* Function: aapattern20 ( rp, irow, icol, gridnum, grayscale )
* Purpose: calculates anti-aliased value for pixel at irow,icol,
* whose surrounding 3x3 pixel grid is coded by gridnum
* (which must correspond to pattern #20).
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* irow (I) int containing row, 0...height-1,
* of pixel to be antialiased
* icol (I) int containing col, 0...width-1,
* of pixel to be antialiased
* gridnum (I) int containing 0...511 corresponding to
* 3x3 pixel grid surrounding irow,icol
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 0...grayscale-1 for success, -1=any error
* --------------------------------------------------------------------------
* Notes: o Handles the eight gridnum's
* (gridnum/2 shown to eliminate irrelevant low-order bit)
* --- --- --* -*-
* --* = 14 *-- = 19 --* = 42 --* = 73
* **- -** -*- --*
*
* -*- -** *-- **-
* *-- = 84 *-- = 112 *-- = 146 --* = 200
* *-- --- -*- ---
* ======================================================================= */
/* --- entry point --- */
int aapattern20 (raster *rp, int irow, int icol,
int gridnum, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int aaval = (-1); /* antialiased value returned */
int iscenter = gridnum&1; /* true if pixel at irow,icol black*/
int direction = 1, /* direction to follow ** line */
jrow1=irow, jcol1=icol, /* coords of * */
jrow2=irow, jcol2=icol; /* coords of adjacent ** pixel */
int turn1=0,turn2=0, aafollowline(); /* follow *,** lines till turns */
/* -------------------------------------------------------------------------
Initialization and calculation of antialiased value
-------------------------------------------------------------------------- */
/* --- check input -- */
if ( 1 ) goto end_of_job; /* don't want this one */
if ( iscenter ) goto end_of_job; /* we only antialias white pixels */
/* --- set params --- */
switch ( gridnum/2 ) { /* check pattern#20 orientation */
default: goto end_of_job; /* not a pattern#20 gridnum */
case 14: direction=-2; jcol1++; jrow2++; break;
case 19: direction=2; jcol1--; jrow2++; break;
case 42: direction=1; jrow1++; jcol2++; break;
case 73: direction=-1; jrow1--; jcol2++; break;
case 84: direction=-1; jrow1--; jcol2--; break;
case 112: direction=2; jcol1--; jrow2--; break;
case 146: direction=1; jrow1++; jcol2--; break;
case 200: direction=-2; jcol1++; jrow2--; break;
} /* --- end-of-switch(gridnum/2) --- */
/* --- get turns in both directions --- */
if ( (turn1=aafollowline(rp,jrow1,jcol1,-direction)) == 0 ) goto end_of_job;
if ( (turn2=aafollowline(rp,jrow2,jcol2,direction)) == 0 ) goto end_of_job;
if ( turn1*turn2 >= 0 ) goto end_of_job; /* both turns in same direction */
/* --- weight pixel --- */
aaval = grayscale / ( 3 + min2(abs(turn1),abs(turn2)) );
/* -------------------------------------------------------------------------
Back to caller with grayscale antialiased value for pixel at irow,icol
-------------------------------------------------------------------------- */
end_of_job:
if ( aaval >= 0 ) /* have antialiasing result */
if ( msglevel>=99 && msgfp!=NULL ) fprintf(msgfp, /* diagnostic output */
"aapattern20> irow,icol,grid#/2=%d,%d,%d, turn%d,%d=%d,%d, aaval=%d\n",
irow,icol,gridnum/2, -direction,direction,turn1,turn2, aaval);
return ( aaval ); /* back with antialiased value */
} /* --- end-of-function aapattern20() --- */
/* ==========================================================================
* Function: aapattern39 ( rp, irow, icol, gridnum, grayscale )
* Purpose: calculates anti-aliased value for pixel at irow,icol,
* whose surrounding 3x3 pixel grid is coded by gridnum
* (which must correspond to pattern #39).
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* irow (I) int containing row, 0...height-1,
* of pixel to be antialiased
* icol (I) int containing col, 0...width-1,
* of pixel to be antialiased
* gridnum (I) int containing 0...511 corresponding to
* 3x3 pixel grid surrounding irow,icol
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 0...grayscale-1 for success, -1=any error
* --------------------------------------------------------------------------
* Notes: o Handles the eight gridnum's
* (gridnum/2 shown to eliminate irrelevant low-order bit)
* --- --- --* -**
* --* = 15 *-- = 23 --* = 43 --* = 105
* *** *** -** --*
*
* **- *** *-- ***
* *-- = 212 *-- = 240 *-- = 150 --* = 232
* *-- --- **- ---
* ======================================================================= */
/* --- entry point --- */
int aapattern39 (raster *rp, int irow, int icol,
int gridnum, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int aaval = (-1); /* antialiased value returned */
int iscenter = gridnum&1; /* true if pixel at irow,icol black*/
int direction = 1, /* direction to follow ** line */
jrow1=irow, jcol1=icol, /* coords of * */
jrow2=irow, jcol2=icol; /* coords of adjacent ** pixel */
int turn1=0,turn2=0, aafollowline(); /* follow *,** lines till turns */
/* -------------------------------------------------------------------------
Initialization and calculation of antialiased value
-------------------------------------------------------------------------- */
/* --- check input -- */
if ( iscenter ) goto end_of_job; /* we only antialias white pixels */
/* --- set params --- */
switch ( gridnum/2 ) { /* check pattern#39 orientation */
default: goto end_of_job; /* not a pattern#39 gridnum */
case 15: direction=-2; jcol1++; jrow2++; break;
case 23: direction=2; jcol1--; jrow2++; break;
case 43: direction=1; jrow1++; jcol2++; break;
case 105: direction=-1; jrow1--; jcol2++; break;
case 212: direction=-1; jrow1--; jcol2--; break;
case 240: direction=2; jcol1--; jrow2--; break;
case 150: direction=1; jrow1++; jcol2--; break;
case 232: direction=-2; jcol1++; jrow2--; break;
} /* --- end-of-switch(gridnum/2) --- */
/* --- get turns directions (tunr1==1 signals inside corner) --- */
if ( (turn1=aafollowline(rp,jrow1,jcol1,-direction)) == 1 )
{ aaval=0; goto end_of_job; }
if ( 1 ) goto end_of_job; /* stop here for now */
if ( (turn2=aafollowline(rp,jrow2,jcol2,direction)) == 0 ) goto end_of_job;
if ( turn1*turn2 >= 0 ) goto end_of_job; /* both turns in same direction */
/* --- weight pixel --- */
aaval = grayscale / ( 3 + min2(abs(turn1),abs(turn2)) );
/* -------------------------------------------------------------------------
Back to caller with grayscale antialiased value for pixel at irow,icol
-------------------------------------------------------------------------- */
end_of_job:
if ( aaval >= 0 ) /* have antialiasing result */
if ( msglevel>=99 && msgfp!=NULL ) fprintf(msgfp, /* diagnostic output */
"aapattern39> irow,icol,grid#/2=%d,%d,%d, turn%d,%d=%d,%d, aaval=%d\n",
irow,icol,gridnum/2, -direction,direction,turn1,turn2, aaval);
return ( aaval ); /* back with antialiased value */
} /* --- end-of-function aapattern39() --- */
/* ==========================================================================
* Function: aafollowline ( rp, irow, icol, direction )
* Purpose: starting with pixel at irow,icol, moves in
* specified direction looking for a "turn"
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster containing pixel image
* irow (I) int containing row, 0...height-1,
* of first pixel
* icol (I) int containing col, 0...width-1,
* of first pixel
* direction (I) int containing +1 to follow line up/north
* (decreasing irow), -1 to follow line
* down/south (increasing irow), +2 to follow
* line right/east (increasing icol),
* -2 to follow line left/west (decreasing icol)
* --------------------------------------------------------------------------
* Returns: ( int ) #rows or #cols traversed prior to turn,
* or 0 if no turn detected (or for any error).
* Sign is + if turn direction is right/east or
* up/north, or is - if left/west or down/south.
* --------------------------------------------------------------------------
* Notes: o Here are some examples illustrating turn detection in
* +2 (right/east) direction. Turns in other directions
* are detected similarly/symmetrically. * denotes black
* bits (usually fg), - denotes white bits (usually bg),
* and ? denotes "don't care" bit (won't affect outcome).
* Arrow --> points to start pixel denoted by irow,icol.
*
* *??? -??? turn=0 (no turn) is returned
* -->*??? or -->-??? because the start pixel isn't
* *??? -??? on an edge to begin with
*
* ---- **-- turn=0 returned because the
* -->***- or -->***- line ends abruptly without
* ---- ---- turning (even the second case)
*
* ---* ---* turn=0 returned because the
* -->***- or -->**** line forms a Y or T rather
* ---* ---* than turning
*
* ***- **** turn=+3 returned
* -->***- or -->***- (outside corner)
* ---- ----
*
* ***** ****- turn=-4 returned
* -->***** or -->****- (inside corner)
* ----* ----*
*
* ----* ----* turn=+4 returned
* -->****- or -->***** (outside or inside corner)
* ----- -----
* ======================================================================= */
/* --- entry point --- */
int aafollowline (raster *rp, int irow, int icol, int direction)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
pixbyte *bitmap = rp->pixmap; /* local rp->pixmap ptr */
int width=rp->width, height=rp->height; /* width, height of raster */
int drow=0, dcol=0, /* delta row,col to follow line */
jrow=irow, jcol=icol; /* current row,col following line */
int bitval=1, /* value of rp bit at irow,icol */
fgval=1, bgval=0, /* "fg" is whatever bitval is */
bitminus=0, bitplus=0; /* value of left/down, right/up bit*/
int isline=1, isedge=0; /*isline signals one-pixel wide line*/
int turn = 0, /* detected turn back to caller */
maxturn = maxfollow; /* don't follow more than max pixels*/
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- check input --- */
if ( irow<0 || irow>=height /* irow out-of-bounds */
|| icol<0 || icol>=width ) goto end_of_job; /* icol out-of-bounds */
/* --- adjust maxturn for magstep --- */
if ( 1 ) /* guard */
if ( magstep > 1 && magstep <= 10 ) /* sanity check */
maxturn *= magstep; /* factor in magnification */
/* --- starting bit -- see if we're following a fg (usual), or bg line --- */
bitval = getlongbit(bitmap,(icol+irow*width)); /* starting pixel (bg or fg)*/
fgval = bitval; bgval = (1-bitval); /* define "fg" as whatever bitval is*/
/* --- set drow,dcol corresponding to desired direction --- */
switch ( direction ) { /* determine drow,dcol for direction*/
default: goto end_of_job; /* unrecognized direction arg */
case 1: drow = (-1); break; /* follow line up/north */
case -1: drow = 1; break; /* down/south */
case 2: dcol = 1; break; /* right/east */
case -2: dcol = (-1); break; } /* left/west */
/* --- set bitminus and bitplus --- */
if ( drow == 0 ) { /* we're following line right/left */
if ( irow < height ) /* there's a pixel below current */
bitminus = getlongbit(bitmap,(icol+(irow+1)*width)); /* get it */
if ( irow > 0 ) /* there's a pixel above current */
bitplus = getlongbit(bitmap,(icol+(irow-1)*width)); } /* get it */
if ( dcol == 0 ) { /* we're following line up/down */
if ( icol < width ) /* there's a pixel to the right */
bitplus = getlongbit(bitmap,(icol+1+irow*width)); /* get it */
if ( icol > 0 ) /* there's a pixel to the left */
bitminus = getlongbit(bitmap,(icol-1+irow*width)); } /* get it */
/* --- check for lack of line to follow --- */
if ( bitval == bitplus /* starting pixel same as above */
&& bitval == bitminus ) /* and below (or right and left) */
goto end_of_job; /* so there's no line to follow */
/* --- set isline and isedge (already initted for isline) --- */
if ( bitval == bitplus ) /* starting pixel same as above */
{ isedge = (-1); isline = 0; } /* so we're at an edge below */
if ( bitval == bitminus ) /* starting pixel same as below */
{ isedge = 1; isline = 0; } /* so we're at an edge above */
/* -------------------------------------------------------------------------
follow line
-------------------------------------------------------------------------- */
while ( 1 ) { /* until turn found (or max) */
/* --- local allocations and declarations --- */
int dbitval=0, /* value of bit at jrow,jcol */
dbitminus=0, dbitplus=0; /* value of left/down, right/up bit*/
/* --- bump pixel count and indexes; check for max or end-of-raster --- */
turn++; /* bump #pixels followed */
jrow += drow; jcol += dcol; /* indexes of next pixel to check */
if ( turn > maxturn /* already followed max #pixels */
|| jrow<0 || jrow>=height /* or jrow past end-of-raster */
|| jcol<0 || jcol>=width ) /* or jcol past end-of-raster */
{ turn = 0; goto end_of_job; } /* so quit without finding a turn */
/* --- set current bit (dbitval) --- */
dbitval = getlongbit(bitmap,(jcol+jrow*width)); /*value of jrow,jcol bit*/
/* --- set dbitminus and dbitplus --- */
if ( drow == 0 ) { /* we're following line right/left */
if ( irow < height ) /* there's a pixel below current */
dbitminus = getlongbit(bitmap,(jcol+(irow+1)*width)); /* get it */
if ( irow > 0 ) /* there's a pixel above current */
dbitplus = getlongbit(bitmap,(jcol+(irow-1)*width)); } /* get it */
if ( dcol == 0 ) { /* we're following line up/down */
if ( icol < width ) /* there's a pixel to the right */
dbitplus = getlongbit(bitmap,(icol+1+jrow*width)); /* get it */
if ( icol > 0 ) /* there's a pixel to the left */
dbitminus = getlongbit(bitmap,(icol-1+jrow*width)); } /* get it */
/* --- first check for abrupt end-of-line, or for T or Y --- */
if ( isline != 0 ) /* abrupt end or T,Y must be a line*/
if ( ( bgval == dbitval /* end-of-line if pixel flips to bg*/
&& bgval == dbitplus /* and bg same as above pixel */
&& bgval == dbitminus ) /* and below (or right and left) */
|| ( fgval == dbitplus /* T or Y if fg same as above pixel*/
&& fgval == dbitminus ) ) /* and below (or right and left) */
{ turn = 0; goto end_of_job; } /* so we're at a T or Y */
/* --- check for turning line --- */
if ( isline != 0 ) { /* turning line must be a line */
if ( fgval == dbitminus ) /* turning down */
{ turn = -turn; goto end_of_job; } /* so return negative turn */
else if ( fgval == dbitplus ) /* turning up */
goto end_of_job; } /* so return positive turn */
/* --- check for inside corner at edge --- */
if ( isedge != 0 ) { /* inside corner must be a edge */
if ( isedge < 0 && fgval == bitminus ) /* corner below */
{ turn = -turn; goto end_of_job; } /* so return negative turn */
if ( isedge > 0 && fgval == bitplus ) /* corner above */
goto end_of_job; } /* so return positive turn */
/* --- check for abrupt end at edge --- */
if ( isedge != 0 /* abrupt edge end must be an edge */
&& fgval == dbitval ) /* and line must not end */
if ( (isedge < 0 && bgval == bitplus) /* abrupt end above */
|| (isedge > 0 && bgval == bitminus) ) /* or abrupt end below */
{ turn = 0; goto end_of_job; } /* so edge ended abruptly */
/* --- check for outside corner at edge --- */
if ( isedge != 0 /* outside corner must be a edge */
&& bgval == dbitval ) { /* and line must end */
if ( isedge > 0 ) turn = -turn; /* outside turn down from edge above*/
goto end_of_job; }
} /* --- end-of-while(1) --- */
/* -------------------------------------------------------------------------
Back to caller with #rows or #cols traversed, and direction of detected turn
-------------------------------------------------------------------------- */
end_of_job:
if ( msglevel>=99 && msgfp!=NULL ) /* debugging/diagnostic output */
fprintf(msgfp,"aafollowline> irow,icol,direction=%d,%d,%d, turn=%d\n",
irow,icol,direction,turn);
return ( turn );
} /* --- end-of-function aafollowline() --- */
/* ==========================================================================
* Function: aagridnum ( rp, irow, icol )
* Purpose: calculates gridnum, 0-511 (see Notes below),
* for 3x3 grid centered at irow,icol
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster containing
* bitmap image (to be anti-aliased)
* irow (I) int containing row, 0...height-1,
* at center of 3x3 grid
* icol (I) int containing col, 0...width-1,
* at center of 3x3 grid
* --------------------------------------------------------------------------
* Returns: ( int ) 0-511 grid number, or -1=any error
* --------------------------------------------------------------------------
* Notes: o Input gridnum is a 9-bit int, 0-511, coding a 3x3 pixel grid
* whose bit positions (and corresponding values) in gridnum are
* 876 256 128 64
* 504 = 32 1 16
* 321 8 4 2
* Thus, for example (*=pixel set/black, -=pixel not set/white),
* *-- *-- -** (note that 209 is the
* -*- = 259 *-- = 302 -** = 209 inverse, set<-->unset,
* --* *** --- of 302)
* o A set pixel is considered black, an unset pixel considered
* white.
* ======================================================================= */
/* --- entry point --- */
int aagridnum (raster *rp, int irow, int icol)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
pixbyte *bitmap = rp->pixmap; /* local rp->pixmap ptr */
int width=rp->width, height=rp->height, /* width, height of raster */
imap = icol + irow*width; /* pixel index = icol + irow*width */
int bitval=0, /* value of rp bit at irow,icol */
nnbitval=0, nebitval=0, eebitval=0, sebitval=0, /*adjacent vals*/
ssbitval=0, swbitval=0, wwbitval=0, nwbitval=0, /*compass pt names*/
gridnum = (-1); /* grid# 0-511 for above 9 bits */
/* -------------------------------------------------------------------------
check input
-------------------------------------------------------------------------- */
if ( irow<0 || irow>=height /* irow out-of-bounds */
|| icol<0 || icol>=width ) goto end_of_job; /* icol out-of-bounds */
/* -------------------------------------------------------------------------
get the 9 bits comprising the 3x3 grid centered at irow,icol
-------------------------------------------------------------------------- */
/* --- get center bit --- */
bitval = getlongbit(bitmap,imap); /* value of rp input bit at imap */
/* --- get 8 surrounding bits --- */
if ( irow > 0 ) /* nn (north) bit available */
nnbitval = getlongbit(bitmap,imap-width); /* nn bit value */
if ( irow < height-1 ) /* ss (south) bit available */
ssbitval = getlongbit(bitmap,imap+width); /* ss bit value */
if ( icol > 0 ) /* ww (west) bit available */
{ wwbitval = getlongbit(bitmap,imap-1); /* ww bit value */
if ( irow > 0 ) /* nw bit available */
nwbitval = getlongbit(bitmap,imap-width-1); /* nw bit value */
if ( irow < height-1 ) /* sw bit available */
swbitval = getlongbit(bitmap,imap+width-1); } /* sw bit value */
if ( icol < width-1 ) /* ee (east) bit available */
{ eebitval = getlongbit(bitmap,imap+1); /* ee bit value */
if ( irow > 0 ) /* ne bit available */
nebitval = getlongbit(bitmap,imap-width+1); /* ne bit value */
if ( irow < height-1 ) /* se bit available */
sebitval = getlongbit(bitmap,imap+width+1); } /* se bit value */
/* --- set gridnum --- */
gridnum = 0; /* clear all bits */
if ( bitval ) gridnum = 1; /* set1bit(gridnum,0); */
if ( nwbitval ) gridnum += 256; /* set1bit(gridnum,8); */
if ( nnbitval ) gridnum += 128; /* set1bit(gridnum,7); */
if ( nebitval ) gridnum += 64; /* set1bit(gridnum,6); */
if ( wwbitval ) gridnum += 32; /* set1bit(gridnum,5); */
if ( eebitval ) gridnum += 16; /* set1bit(gridnum,4); */
if ( swbitval ) gridnum += 8; /* set1bit(gridnum,3); */
if ( ssbitval ) gridnum += 4; /* set1bit(gridnum,2); */
if ( sebitval ) gridnum += 2; /* set1bit(gridnum,1); */
/* -------------------------------------------------------------------------
Back to caller with gridnum coding 3x3 grid centered at irow,icol
-------------------------------------------------------------------------- */
end_of_job:
return ( gridnum );
} /* --- end-of-function aagridnum() --- */
/* ==========================================================================
* Function: aapatternnum ( gridnum )
* Purpose: Looks up the pattern number 1...51
* corresponding to the 3x3 pixel grid coded by gridnum 0=no
* pixels set (white) to 511=all pixels set (black).
* --------------------------------------------------------------------------
* Arguments: gridnum (I) int containing 0-511 coding a 3x3 pixel grid
* (see Notes below)
* --------------------------------------------------------------------------
* Returns: ( int ) 1 to 51, or -1=error
* --------------------------------------------------------------------------
* Notes: o Input gridnum is a 9-bit int, 0-511, coding a 3x3 pixel grid
* whose bit positions (and corresponding values) in gridnum are
* 876 256 128 64
* 504 = 32 1 16
* 321 8 4 2
* Thus, for example (*=pixel set/black, -=pixel not set/white),
* *-- *-- -** (note that 209 is the
* -*- = 259 *-- = 302 -** = 209 inverse, set<-->unset,
* --* *** --- of 302)
* o A set pixel is considered black, an unset pixel considered
* white.
* o Ignoring whether the center pixel is set or unset, and
* taking rotation, reflection and inversion (set<-->unset)
* symmetries into account, there are 32 unique pixel patterns.
* If inversions are listed separately, there are 51 patterns.
* o Here are the 51 unique patterns, with ? always denoting the
* undetermined center pixel. At the upper-left corner of each
* pattern is the "pattern index number" assigned to it in this
* function. At the upper-right is the pattern's multiplicity,
* i.e., the number of different patterns obtained by rotations
* and reflection of the illustrated one. Inverse patters are
* illustrated immediately beneath the original (the first three
* four-pixel patterns have identical inverses).
* -------------------------------------------------------------
* No pixels set:
* #1 1 (in this case, 1 signifies that rotation
* --- and reflection give no different grids)
* -?-
* ---
* Inverse, all eight pixels set
* #2 1 (the inverse multiplicity is always the same)
* ***
* *?*
* ***
* -------------------------------------------------------------
* One pixel set:
* #3 4 #4 4
* *-- -*-
* -?- -?-
* --- ---
* Inverse, seven pixels set:
* #5 4 #6 4
* -** *-*
* *?* *?*
* *** ***
* -------------------------------------------------------------
* Two pixels set:
* #7 8 #8 4 #9 8 10 2 11 4 12 2
* **- *-* *-- *-- -*- -*-
* -?- -?- -?* -?- -?* -?-
* --- --- --- --* --- -*-
* Inverse, six pixels set:
* #13 8 14 4 15 8 16 2 17 4 18 2
* --* -*- -** -** *-* *-*
* *?* *?* *?- *?* *?- *?*
* *** *** *** **- *** *-*
* -------------------------------------------------------------
* Three pixels set:
* #19 4 20 8 21 8 22 8 23 8 24 4 25 4 26 4 27 4 28 4
* *** **- **- **- **- **- *-* *-* -*- -*-
* -?- -?* -?- -?- -?- *?- -?- -?- -?* -?*
* --- --- --* -*- *-- --- --* -*- -*- *--
* Inverse, five pixels set:
* #29 4 30 8 31 8 32 8 33 8 34 4 35 4 36 4 37 4 38 4
* --- --* --* --* --* --* -*- -*- *-* *-*
* *?* *?- *?* *?* *?* -?* *?* *?* *?- *?-
* *** *** **- *-* -** *** **- *-* *-* -**
* -------------------------------------------------------------
* Four pixels set (including inverses):
* #39 8 40 4 41 8 42 8 43 4 44 4 45 8 46 1
* *** **- **- *** *** **- **- *-*
* -?* -?- -?* -?- -?- -?* -?* -?-
* --- -** *-- --* -*- --* -*- *-*
*
* #47 8 48 4 49 4 50 8 51 1
* --- --- --* --* -*-
* *?* *?* *?- *?- *?*
* **- *-* **- *-* -*-
* ======================================================================= */
/* --- entry point --- */
int aapatternnum ( int gridnum )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int pattern = (-1); /*pattern#, 1-51, for input gridnum*/
/* ---
* pattern number corresponding to input gridnum/2 code
* ( gridnum/2 strips off gridnum's low bit because it's
* the same pattern whether or not center pixel is set )
* --- */
static int patternnum[] = {
1, 3, 4, 7, 3, 8, 7,19, 4, 7,11,24, 9,23,20,39, /* 0- 15 */
4, 9,11,20, 7,23,24,39,12,22,27,47,22,48,47,29, /* 16- 31 */
3, 8, 9,23,10,25,21,42, 7,19,20,39,21,42,44,34, /* 32- 47 */
9,26,28,41,21,50,49,30,22,43,45,33,40,32,31,13, /* 48- 63 */
4, 9,12,22, 9,26,22,43,11,20,27,47,28,41,45,33, /* 64- 79 */
11,28,27,45,20,41,47,33,27,45,51,35,45,36,35,14, /* 80- 95 */
7,23,22,48,21,50,40,32,24,39,47,29,49,30,31,13, /* 96-111 */
20,41,45,36,44,38,31,15,47,33,35,14,31,15,16, 5, /* 112-127 */
3,10, 9,21, 8,25,23,42, 9,21,28,49,26,50,41,30, /* 128-143 */
7,21,20,44,19,42,39,34,22,40,45,31,43,32,33,13, /* 144-159 */
8,25,26,50,25,46,50,37,23,42,41,30,50,37,38,17, /* 160-175 */
23,50,41,38,42,37,30,17,48,32,36,15,32,18,15, 6, /* 176-191 */
7,21,22,40,23,50,48,32,20,44,45,31,41,38,36,15, /* 192-207 */
24,49,47,31,39,30,29,13,47,31,35,16,33,15,14, 5, /* 208-223 */
19,42,43,32,42,37,32,18,39,34,33,13,30,17,15, 6, /* 224-239 */
39,30,33,15,34,17,13, 6,29,13,14, 5,13, 6, 5, 2, /* 240-255 */
-1 } ; /* --- end-of-patternnum[] --- */
/* -------------------------------------------------------------------------
look up pattern number for gridnum
-------------------------------------------------------------------------- */
/* --- first check input --- */
if ( gridnum<0 || gridnum>511 ) goto end_of_job; /* gridnum out of bounds */
/* --- look up pattern number, 1-51, corresponding to input gridnum --- */
pattern = patternnum[gridnum/2]; /* /2 strips off gridnum's low bit */
if ( pattern<1 || pattern>51 ) pattern = (-1); /* some internal error */
end_of_job:
return ( pattern ); /* back to caller with pattern# */
} /* --- end-of-function aapatternnum() --- */
/* ==========================================================================
* Function: aalookup ( gridnum )
* Purpose: Looks up the grayscale value 0=white to 255=black
* corresponding to the 3x3 pixel grid coded by gridnum 0=no
* pixels set (white) to 511=all pixels set (black).
* --------------------------------------------------------------------------
* Arguments: gridnum (I) int containing 0-511 coding a 3x3 pixel grid
* --------------------------------------------------------------------------
* Returns: ( int ) 0=white to 255=black, or -1=error
* --------------------------------------------------------------------------
* Notes: o Input gridnum is a 9-bit int, 0-511, coding a 3x3 pixel grid
* o A set pixel is considered black, an unset pixel considered
* white. Likewise, the returned grayscale is 255 for black,
* 0 for white. You'd more typically want to use 255-grayscale
* so that 255 is white and 0 is black.
* o The returned number is the (lowpass) antialiased grayscale
* for the center pixel (gridnum bit 0) of the grid.
* ======================================================================= */
/* --- entry point --- */
int aalookup ( int gridnum )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int grayscale = (-1); /*returned grayscale, init for error*/
int pattern = (-1), aapatternnum(); /*pattern#, 1-51, for input gridnum*/
int iscenter = gridnum&1; /*low-order bit set for center pixel*/
/* --- gray scales --- */
#define WHT 0
#define LGT 64
#define GRY 128
#define DRK 192
#define BLK 255
#if 1
/* ---
* modified aapnm() grayscales (second try)
* --- */
/* --- grayscale for each pattern when center pixel set/black --- */
static int grayscale1[] = { -1, /* [0] index not used */
BLK,BLK,BLK,BLK,242,230,BLK,BLK,BLK,160, /* 1-10 */
/* BLK,BLK,BLK,BLK,242,230,BLK,BLK,BLK,BLK, */ /* 1-10 */
BLK,BLK,217,230,217,230,204,BLK,BLK,166, /* 11-20 */
BLK,BLK,BLK,BLK,BLK,BLK,178,166,204,191, /* 21-30 */
204,BLK,204,191,217,204,BLK,191,178,BLK, /* 31-40 */
178,BLK,BLK,178,191,BLK,191,BLK,178,BLK,204, /* 41-51 */
-1 } ; /* --- end-of-grayscale1[] --- */
/* --- grayscale for each pattern when center pixel not set/white --- */
static int grayscale0[] = { -1, /* [0] index not used */
WHT,WHT,WHT,WHT,WHT,WHT,WHT,WHT,WHT,WHT, /* 1-10 */
64,WHT,WHT,128,115,128,WHT,WHT,WHT, 64, /* 11-20 */
/* 51,WHT,WHT,128,115,128,WHT,WHT,WHT, 64, */ /* 11-20 */
WHT,WHT,WHT, 64,WHT,WHT, 76, 64,102, 89, /* 21-30 */
102,WHT,102,WHT,115,102,WHT, 89, 76,WHT, /* 31-40 */
76,WHT,WHT, 76, 89,WHT, 89,WHT, 76,WHT,102, /* 41-51 */
-1 } ; /* --- end-of-grayscale0[] --- */
#endif
#if 0
/* ---
* modified aapnm() grayscales (first try)
* --- */
/* --- grayscale for each pattern when center pixel set/black --- */
static int grayscale1[] = { -1, /* [0] index not used */
BLK,BLK,BLK,BLK,242,230,GRY,BLK,BLK,BLK, /* 1-10 */
/* BLK,BLK,BLK,BLK,242,230,BLK,BLK,BLK,BLK, */ /* 1-10 */
BLK,BLK,217,230,217,230,204,BLK,BLK,166, /* 11-20 */
BLK,BLK,BLK,BLK,BLK,BLK,BLK,166,204,191, /* 21-30 */
/* BLK,BLK,BLK,BLK,BLK,BLK,178,166,204,191, */ /* 21-30 */
204,BLK,204,BLK,217,204,BLK,191,GRY,BLK, /* 31-40 */
/* 204,BLK,204,191,217,204,BLK,191,178,BLK, */ /* 31-40 */
178,BLK,BLK,178,191,BLK,BLK,BLK,178,BLK,204, /* 41-51 */
/* 178,BLK,BLK,178,191,BLK,191,BLK,178,BLK,204, */ /* 41-51 */
-1 } ; /* --- end-of-grayscale1[] --- */
/* --- grayscale for each pattern when center pixel not set/white --- */
static int grayscale0[] = { -1, /* [0] index not used */
WHT,WHT,WHT,WHT,WHT,WHT,WHT,WHT,WHT,WHT, /* 1-10 */
GRY,WHT,WHT,128,115,128,WHT,WHT,WHT,GRY, /* 11-20 */
/* 51,WHT,WHT,128,115,128,WHT,WHT,WHT, 64, */ /* 11-20 */
WHT,WHT,WHT,GRY,WHT,WHT, 76, 64,102, 89, /* 21-30 */
/* WHT,WHT,WHT, 64,WHT,WHT, 76, 64,102, 89, */ /* 21-30 */
102,WHT,102,WHT,115,102,WHT, 89,GRY,WHT, /* 31-40 */
/* 102,WHT,102,WHT,115,102,WHT, 89, 76,WHT, */ /* 31-40 */
76,WHT,WHT,GRY, 89,WHT, 89,WHT, 76,WHT,102, /* 41-51 */
/* 76,WHT,WHT, 76, 89,WHT, 89,WHT, 76,WHT,102, */ /* 41-51 */
-1 } ; /* --- end-of-grayscale0[] --- */
#endif
#if 0
/* ---
* these grayscales _exactly_ correspond to the aapnm() algorithm
* --- */
/* --- grayscale for each pattern when center pixel set/black --- */
static int grayscale1[] = { -1, /* [0] index not used */
BLK,BLK,BLK,BLK,242,230,BLK,BLK,BLK,BLK, /* 1-10 */
BLK,BLK,217,230,217,230,204,BLK,BLK,166, /* 11-20 */
BLK,BLK,BLK,BLK,BLK,BLK,178,166,204,191, /* 21-30 */
204,BLK,204,191,217,204,BLK,191,178,BLK, /* 31-40 */
178,BLK,BLK,178,191,BLK,191,BLK,178,BLK,204, /* 41-51 */
-1 } ; /* --- end-of-grayscale1[] --- */
/* --- grayscale for each pattern when center pixel not set/white --- */
static int grayscale0[] = { -1, /* [0] index not used */
WHT,WHT,WHT,WHT,WHT,WHT,WHT,WHT,WHT,WHT, /* 1-10 */
51,WHT,WHT,128,115,128,WHT,WHT,WHT, 64, /* 11-20 */
WHT,WHT,WHT, 64,WHT,WHT, 76, 64,102, 89, /* 21-30 */
102,WHT,102,WHT,115,102,WHT, 89, 76,WHT, /* 31-40 */
76,WHT,WHT, 76, 89,WHT, 89,WHT, 76,WHT,102, /* 41-51 */
-1 } ; /* --- end-of-grayscale0[] --- */
#endif
/* -------------------------------------------------------------------------
look up grayscale for gridnum
-------------------------------------------------------------------------- */
/* --- first check input --- */
if ( gridnum<0 || gridnum>511 ) goto end_of_job; /* gridnum out of bounds */
/* --- look up pattern number, 1-51, corresponding to input gridnum --- */
pattern = aapatternnum(gridnum); /* look up pattern number */
if ( pattern<1 || pattern>51 ) goto end_of_job; /* some internal error */
if ( ispatternnumcount ) { /* counts being accumulated */
if (iscenter) patternnumcount1[pattern] += 1; /* bump diagnostic count */
else patternnumcount0[pattern] += 1; }
/* --- look up grayscale for this pattern --- */
grayscale = ( iscenter? grayscale1[pattern] : grayscale0[pattern] );
end_of_job:
return ( grayscale ); /* back to caller with grayscale */
} /* --- end-of-function aalookup() --- */
/* ==========================================================================
* Function: aalowpasslookup ( rp, bytemap, grayscale )
* Purpose: calls aalookup() for each pixel in rp->bitmap
* to create anti-aliased bytemap
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* bytemap (O) intbyte * to bytemap, calculated
* by calling aalookup() for each pixel
* in rp->bitmap
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 1=success, 0=any error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int aalowpasslookup (raster *rp, intbyte *bytemap, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int width=rp->width, height=rp->height, /* width, height of raster */
icol = 0, irow = 0, imap = (-1); /* width, height, bitmap indexes */
int bgbitval=0 /*, fgbitval=1*/; /* background, foreground bitval */
int bitval=0, /* value of rp bit at irow,icol */
aabyteval=0; /* antialiased (or unchanged) value*/
int gridnum=0, aagridnum(), /* grid# for 3x3 grid at irow,icol */
aalookup(); /* table look up antialiased value*/
/* -------------------------------------------------------------------------
generate bytemap by table lookup for each pixel of bitmap
-------------------------------------------------------------------------- */
for ( irow=0; irow=0 && aabyteval<=255 ) /* check for success */
bytemap[imap] = (intbyte)(aabyteval); /* init antialiased pixel */
} /* --- end-of-for(irow,icol) --- */
ispatternnumcount = 0; /* accumulate counts only once */
/* -------------------------------------------------------------------------
Back to caller with gray-scale anti-aliased bytemap
-------------------------------------------------------------------------- */
/*end_of_job:*/
return ( 1 );
} /* --- end-of-function aalowpasslookup() --- */
/* ==========================================================================
* Function: aasupsamp ( rp, aa, sf, grayscale )
* Purpose: calculates a supersampled anti-aliased bytemap
* for rp->bitmap, with each byte 0...grayscale-1
* --------------------------------------------------------------------------
* Arguments: rp (I) raster * to raster whose bitmap
* is to be anti-aliased
* aa (O) address of raster * to supersampled bytemap,
* calculated by supersampling rp->bitmap
* sf (I) int containing supersampling shrinkfactor
* grayscale (I) int containing number of grayscales
* to be calculated, 0...grayscale-1
* (should typically be given as 256)
* --------------------------------------------------------------------------
* Returns: ( int ) 1=success, 0=any error
* --------------------------------------------------------------------------
* Notes: o If the center point of the box being averaged is black,
* then the entire "average" is forced black (grayscale-1)
* regardless of the surrounding points. This is my attempt
* to avoid a "washed-out" appearance of thin (one-pixel-wide)
* lines, which would otherwise turn from black to a gray shade.
* ======================================================================= */
/* --- entry point --- */
int aasupsamp (raster *rp, raster **aa, int sf, int grayscale)
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int status = 0; /* 1=success, 0=failure to caller */
int rpheight=rp->height, rpwidth=rp->width, /*bitmap raster dimensions*/
heightrem=0, widthrem=0, /* rp+rem is a multiple of shrinkf */
aaheight=0, aawidth=0, /* supersampled dimensions */
aapixsz=8; /* output pixels are 8-bit bytes */
int maxaaval=(-9999), /* max grayscale val set in matrix */
isrescalemax=1; /* 1=rescale maxaaval to grayscale */
int irp=0,jrp=0, iaa=0,jaa=0, iwt=0,jwt=0; /*indexes, i=width j=height*/
raster *aap=NULL, *new_raster(); /* raster for supersampled image */
raster *aaweights(); /* get weight matrix applied to rp */
static raster *aawts = NULL; /* aaweights() resultant matrix */
static int prevshrink = NOVALUE, /* shrinkfactor from previous call */
sumwts = 0; /* sum of weights */
static int blackfrac = 40, /* force black if this many pts are */
/*grayfrac = 20,*/
maxwt = 10, /* max weight in weight matrix */
minwtfrac=10, maxwtfrac=70; /* force light pts white, dark black*/
int type_raster(), type_bytemap(); /* debugging display routines */
int delete_raster(); /* delete old rasters */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- check args --- */
if ( aa == NULL ) goto end_of_job; /* no ptr for return output arg */
*aa = NULL; /* init null ptr for error return */
if ( rp == NULL /* no ptr to input arg */
|| sf < 1 /* invalid shrink factor */
|| grayscale < 2 ) goto end_of_job; /* invalid grayscale */
/* --- get weight matrix (or use current one) --- */
if ( sf != prevshrink ) /* have new shrink factor */
{ if ( aawts != NULL ) /* have unneeded weight matrix */
delete_raster(aawts); /* so free it */
sumwts = 0; /* reinitialize sum of weights */
aawts = aaweights(sf,sf); /* get new weight matrix */
if ( aawts != NULL ) /* got weight matrix okay*/
for ( jwt=0; jwt maxwt ) /* don't overweight center pts */
{ wt = maxwt; /* scale it back */
setpixel(aawts,jwt,iwt,wt); } /* and replace it in matrix */
sumwts += wt; } /* add weight to sum */
prevshrink = sf; } /* save new shrink factor */
if ( msgfp!=NULL && msglevel>=999 )
{ fprintf(msgfp,"aasupsamp> sf=%d, sumwts=%d weights=...\n", sf,sumwts);
type_bytemap((intbyte *)aawts->pixmap,grayscale,
aawts->width,aawts->height,msgfp); }
/* --- calculate supersampled height,width and allocate output raster */
heightrem = rpheight%sf; /* remainder after division... */
widthrem = rpwidth%sf; /* ...by shrinkfactor */
aaheight = 1+(rpheight+sf-(heightrem+1))/sf; /* ss height */
aawidth = 1+(rpwidth+sf-(widthrem+1))/sf; /* ss width */
if ( msgfp!=NULL && msglevel>=999 )
{ fprintf(msgfp,"aasupsamp> rpwid,ht=%d,%d wd,htrem=%d,%d aawid,ht=%d,%d\n",
rpwidth,rpheight, widthrem,heightrem, aawidth,aaheight);
fprintf(msgfp,"aasupsamp> dump of original bitmap image...\n");
type_raster(rp,msgfp); } /* ascii image of rp raster */
if ( (aap = new_raster(aawidth,aaheight,aapixsz)) /* alloc output raster*/
== NULL ) goto end_of_job; /* quit if alloc fails */
/* -------------------------------------------------------------------------
Step through rp->bitmap, applying aawts to each "submatrix" of bitmap
-------------------------------------------------------------------------- */
for ( jaa=0,jrp=(-(heightrem+1)/2); jrppixmap point */
int rpval = 0; /* rp->pixmap value at i,j */
if ( i>=0 && i=0 && j 0 ) /*normalize and rescale non-zero val*/
{ int aafrac = (100*aaval)/sumwts; /* weighted percent of black points */
/*if((100*nrp)/mrp >=blackfrac)*/ /* many black interior pts */
if( aafrac >= maxwtfrac ) /* high weight of sampledblack pts */
aaval = grayscale-1; /* so set supersampled pt black */
else if( aafrac <= minwtfrac ) /* low weight of sampledblack pts */
aaval = 0; /* so set supersampled pt white */
else /* rescale calculated weight */
aaval = ((sumwts/2 - 1) + (grayscale-1)*aaval)/sumwts; }
maxaaval = max2(maxaaval,aaval); /* largest aaval so far */
if ( msgfp!=NULL && msglevel>=999 )
fprintf(msgfp,"aasupsamp> jrp,irp=%d,%d jaa,iaa=%d,%d"
" mrp,nrp=%d,%d aaval=%d\n",
jrp,irp, jaa,iaa, mrp,nrp, aaval);
if ( jaa=9 ) /* emit error if out-of-bounds */
fprintf(msgfp,"aasupsamp> Error: aaheight,aawidth=%d,%d jaa,iaa=%d,%d\n",
aaheight,aawidth, jaa,iaa);
iaa++; /* bump aa col index */
} /* --- end-of-for(irp) --- */
jaa++; /* bump aa row index */
} /* --- end-of-for(jrp) --- */
/* --- rescale supersampled image so darkest points become black --- */
if ( isrescalemax ) /* flag set to rescale maxaaval */
{
double scalef = ((double)(grayscale-1))/((double)maxaaval);
for ( jaa=0; jaa= blackfrac ) /* high weight of sampledblack pts */
aaval = grayscale-1; /* so set supersampled pt black */
else if( 0&&aafrac <= minwtfrac ) /* low weight of sampledblack pts */
aaval = 0; /* so set supersampled pt white */
setpixel(aap,jaa,iaa,aaval); } /* replace rescaled val in raster */
} /* --- end-of-if(isrescalemax) --- */
*aa = aap; /* return supersampled image*/
status = 1; /* set successful status */
if ( msgfp!=NULL && msglevel>=999 )
{ fprintf(msgfp,"aasupsamp> anti-aliased image...\n");
type_bytemap((intbyte *)aap->pixmap,grayscale,
aap->width,aap->height,msgfp); fflush(msgfp); }
/* -------------------------------------------------------------------------
Back to caller with gray-scale anti-aliased bytemap
-------------------------------------------------------------------------- */
end_of_job:
return ( status );
} /* --- end-of-function aasupsamp() --- */
/* ==========================================================================
* Function: aacolormap ( bytemap, nbytes, colors, colormap )
* Purpose: searches bytemap, returning a list of its discrete values
* in ascending order in colors[], and returning an "image"
* of bytemap (where values are replaced by colors[]
* indexes) in colormap[].
* --------------------------------------------------------------------------
* Arguments: bytemap (I) intbyte * to bytemap containing
* grayscale values (usually 0=white
* through 255=black) for which colors[]
* and colormap[] will be constructed.
* nbytes (I) int containing #bytes in bytemap
* (usually just #rows * #cols)
* colors (O) intbyte * (to be interpreted as ints)
* returning a list of the discrete/different
* values in bytemap, in ascending value order,
* and with gamma correction applied
* colormap (O) intbyte * returning a bytemap "image",
* i.e., in one-to-one pixel correspondence
* with bytemap, but where the values have been
* replaced with corresponding colors[] indexes.
* --------------------------------------------------------------------------
* Returns: ( int ) #colors in colors[], or 0 for any error
* --------------------------------------------------------------------------
* Notes: o
* ======================================================================= */
/* --- entry point --- */
int aacolormap ( intbyte *bytemap, int nbytes,
intbyte *colors, intbyte *colormap )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
int ncolors = 0, /* #different values in bytemap */
igray, grayscale = 256; /* bytemap contains intbyte's */
intbyte *bytevalues = NULL; /* 1's where bytemap contains value*/
int ibyte; /* bytemap/colormap index */
int isscale = 0, /* true to scale largest val to 255*/
isgamma = 1; /* true to apply gamma correction */
int maxcolors = 0; /* maximum ncolors */
/* -------------------------------------------------------------------------
Accumulate colors[] from values occurring in bytemap
-------------------------------------------------------------------------- */
/* --- initialization --- */
if ( (bytevalues = (intbyte *)malloc(grayscale)) /*alloc bytevalues*/
== NULL ) goto end_of_job; /* signal error if malloc() failed */
memset(bytevalues,0,grayscale); /* zero out bytevalues */
/* --- now set 1's at offsets corresponding to values found in bytemap --- */
for ( ibyte=0; ibyte0 && ncolors>=maxcolors ) /* too many color indexes */
bytevalues[igray] = (intbyte)(maxcolors-1); /*so scale back to max*/
ncolors++; } /* and bump #colors */
/* --- rescale colors so largest, colors[ncolors-1], is black --- */
if ( isscale ) /* only rescale if requested */
if ( ncolors > 1 ) /* and if not a "blank" raster */
if ( colors[ncolors-1] > 0 ) /*and at least one pixel non-white*/
{
/* --- multiply each colors[] by factor that scales largest to 255 --- */
double scalefactor = ((double)(grayscale-1))/((double)colors[ncolors-1]);
for ( igray=1; igray5) colors[igray] = min2(grayscale-1,colors[igray]+2*igray); }
} /* --- end-of-if(isscale) --- */
/* --- apply gamma correction --- */
if ( isgamma /* only gamma correct if requested */
&& gammacorrection > 0.0001 ) /* and if we have gamma correction */
if ( ncolors > 1 ) /* and if not a "blank" raster */
if ( colors[ncolors-1] > 0 ) /*and at least one pixel non-white*/
{
for ( igray=1; igray0 && ncolors>maxcolors ) /* too many color indexes */
ncolors = maxcolors; /* return maximum to caller */
return ( ncolors ); /* back with #colors, or 0=error */
} /* --- end-of-function aacolormap() --- */
/* ==========================================================================
* Function: aaweights ( width, height )
* Builds "canonical" weight matrix, width x height, in a raster
* (see Notes below for discussion).
* --------------------------------------------------------------------------
* Arguments: width (I) int containing width (#cols) of returned
* raster/matrix of weights
* height (I) int containing height (#rows) of returned
* raster/matrix of weights
* --------------------------------------------------------------------------
* Returns: ( raster * ) ptr to raster containing width x height
* weight matrix, or NULL for any error
* --------------------------------------------------------------------------
* Notes: o For example, given width=7, height=5, builds the matrix
* 1 2 3 4 3 2 1
* 2 4 6 8 6 4 2
* 3 6 9 12 9 6 3
* 2 4 6 8 6 4 2
* 1 2 3 4 3 2 1
* If an even dimension given, the two center numbers stay
* the same, e.g., 123321 for the top row if width=6.
* o For an odd square n x n matrix, the sum of all n^2
* weights will be ((n+1)/2)^4.
* o The largest weight (in the allocated pixsz=8 raster) is 255,
* so the largest square matrix is 31 x 31. Any weight that
* tries to grow beyond 255 is held constant at 255.
* o A new_raster(), pixsz=8, is allocated for the caller.
* To avoid memory leaks, be sure to delete_raster() when done.
* ======================================================================= */
/* --- entry point --- */
raster *aaweights ( int width, int height )
{
/* -------------------------------------------------------------------------
Allocations and Declarations
-------------------------------------------------------------------------- */
raster *new_raster(), *weights=NULL; /* raster of weights returned */
int irow=0, icol=0, /* height, width indexes */
weight = 0; /*running weight, as per Notes above*/
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- allocate raster for weights --- */
if ( (weights = new_raster(width,height,8)) /* allocate 8-bit byte raster */
== NULL ) goto end_of_job; /* return NULL error if failed */
/* -------------------------------------------------------------------------
Fill weight matrix, as per Notes above
-------------------------------------------------------------------------- */
for ( irow=0; irowpixsz, /* #bits per image pixel */
black1=1, black8=255, /* black for 1-bit, 8-bit pixels */
black = (pixsz==1? black1:black8), /* black value for our image */
scalefactor = (black1+black8-black), /* only scale 1-bit images */
iscenter = 0; /* set true if center pixel black */
/* --- grid dimensions and indexes --- */
int wtheight = weights->height, /* #rows in weight matrix */
wtwidth = weights->width, /* #cols in weight matrix */
imgheight = image->height, /* #rows in image */
imgwidth = image->width; /* #cols in image */
int wtrow, wtrow0 = wtheight/2, /* center row index for weights */
wtcol, wtcol0 = wtwidth/2, /* center col index for weights */
imgrow, imgrow0= ipixel/imgwidth, /* center row index for ipixel */
imgcol, imgcol0= ipixel-(imgrow0*imgwidth); /*center col for ipixel*/
/* --- rotated grid variables --- */
static int prevrotate = 0; /* rotate from previous call */
static double costheta = 1.0, /* cosine for previous rotate */
sintheta = 0.0; /* and sine for previous rotate */
double a = 1.0; /* default aspect ratio */
/* -------------------------------------------------------------------------
Initialization
-------------------------------------------------------------------------- */
/* --- refresh trig functions for rotate when it changes --- */
if ( rotate != prevrotate ) /* need new sine/cosine */
{ costheta = cos(((double)rotate)/57.29578); /*cos of rotate in radians*/
sintheta = sin(((double)rotate)/57.29578); /*sin of rotate in radians*/
prevrotate = rotate; } /* save current rotate as prev */
/* -------------------------------------------------------------------------
Calculate aapixel as weighted average over image points around ipixel
-------------------------------------------------------------------------- */
for ( wtrow=0; wtrow=0 && imgrow=0 && imgcol= 0 ) msglevel = newmsglevel;
if ( newmsgfp != NULL ) msgfp = newmsgfp;
return ( 1 );
} /* --- end-of-function mimetexsetmsg() --- */
#endif /* PART3 */
/* ---
* PART1
* ------ */
#if !defined(PARTS) || defined(PART1)
#ifdef DRIVER
/* ==========================================================================
* Function: main() driver for mimetex.c
* Purpose: emits a mime xbitmap or gif image of a LaTeX math expression
* entered either as
* (1) html query string from a browser (most typical), or
* (2) a query string from an html