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  1. /*    Copyright (C) 1998-2003 XIAO, Gang of Universite de Nice - Sophia Antipolis
  2.  *
  3.  *  This program is free software; you can redistribute it and/or modify
  4.  *  it under the terms of the GNU General Public License as published by
  5.  *  the Free Software Foundation; either version 2 of the License, or
  6.  *  (at your option) any later version.
  7.  *
  8.  *  This program is distributed in the hope that it will be useful,
  9.  *  but WITHOUT ANY WARRANTY; without even the implied warranty of
  10.  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  11.  *  GNU General Public License for more details.
  12.  *
  13.  *  You should have received a copy of the GNU General Public License
  14.  *  along with this program; if not, write to the Free Software
  15.  *  Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
  16.  */
  17.  
  18.     /* automatic selection of math rendering method */
  19.  
  20. void exec_instex(char *p);
  21. void calc_instexst(char *p);
  22.  
  23. struct {
  24.     char src[124], name[128];
  25.     int size;
  26. } oldinstex[100];
  27. int oldtexcnt=0;
  28.  
  29.     /* check whether the same tex source has already been produced */
  30. int instex_ready(char *p, char *n)
  31. {
  32.     int i;
  33.     char *cl, buf[MAX_LINELEN+1];
  34.    
  35.     if(strlen(p)>=124) return 0;
  36.     cl=getvar("instex_color"); if(cl!=NULL && *cl!=0) return 0;
  37.     mystrncpy(buf,p,sizeof(buf)); tex_nospace(buf);
  38.     for(i=0;i<oldtexcnt;i++) {
  39.       if(oldinstex[i].size==current_tex_size &&
  40.        strcmp(oldinstex[i].src,buf)==0) {
  41.         ovlstrcpy(n,oldinstex[i].name); return 1;
  42.       }
  43.     }
  44.     if(strlen(n)>=128 || oldtexcnt>=100) return 0;
  45.     ovlstrcpy(oldinstex[oldtexcnt].src,buf);
  46.     ovlstrcpy(oldinstex[oldtexcnt].name,n);
  47.     oldinstex[oldtexcnt].size=current_tex_size;
  48.     oldtexcnt++; return 0;
  49. }
  50.  
  51.     /* returns NULL if instex can use static */
  52. char *instex_check_static(char *p)
  53. {
  54.     char *f;
  55.     if(instex_usedynamic) return p;
  56.     for(f=strchr(p,'$');
  57.     f!=NULL && *(f+1)!='(' && *(f+1)!='[' && *(f+1)!='_' && !isalnum(*(f+1));
  58.     f=strchr(f+2,'$'));
  59.     if(f==NULL) f=strstr(m_file.name,"sessions/");
  60.     return f;
  61. }
  62.  
  63. char tnames[]="sqrt int integrate sum prod product \
  64. Int Sum Prod conj abs";
  65.  
  66.     /* Intelligent insertion of math formulas, kernel */
  67. void __insmath(char *p)
  68. {
  69.     char *f, *pp, *pe, *p1, buf[MAX_LINELEN+1], nbuf[256];
  70.     int ts, n, rawmathready;
  71.  
  72.     ovlstrcpy(buf,p); strip_trailing_spaces(buf); singlespace(buf);
  73.     p1=getvar("insmath_slashsubst");
  74.     if(p1!=NULL && strstr(p1,"yes")!=NULL) slashsubst(buf); // substitute backslash parameters
  75.     f=instex_check_static(buf); //decide if image already exists
  76.     substit(buf);//substitute the variables
  77.     /* here replace .. by , : i=1 .. 5 -> i=1, 5 !*/
  78.     for(pp=strstr(buf,".."); pp!=NULL; pp=strstr(pp,"..")) {
  79.       if(*(pp+2)=='.' || *(pp+2)==',') {
  80.         do pp++; while(*pp=='.'); continue;
  81.       }
  82.       *pp=','; *(pp+1)=' ';
  83.     }
  84.     /* decide if it should be tex */
  85.     ts=0; if(strchr(buf,'\\') || strchr(buf,'}')) ts=1;
  86.     /* if not and if variable insmath_rawmath is there, do rawmath */
  87.     rawmathready=0;
  88.     if(!ts) { /* not tex, looking if rawmath is asked */
  89.       pp=getvar("insmath_rawmath");
  90.       if(pp!=NULL && strstr(pp,"yes")!=NULL) {
  91.         rawmath(buf); rawmathready=1;
  92.       }
  93.     }
  94.     if(ts) {
  95.          _replace_matrix (buf,"\\matrix{","matrix"); //could be done in any case if ts=1
  96.          _replace_matrix (buf,"\\pmatrix{","pmatrix");
  97.     }
  98. /* if ts=1 (it should be a tex formula)  or if there is a [ ,  ; ] matrix */
  99.     if(ts ||
  100.       (strchr(buf,'[')!=NULL && (strchr(buf,',')!=NULL || strchr(buf,';')!=NULL))) {
  101.       char alignbak[2048];
  102.       tex: instex_style="$$";
  103.       if(!ts) texmath(buf);
  104.          /* ts=0 but there is some computer matrix to transform
  105.           * done by texmath, but it does much more as replacing strings in tmathfn
  106.           * OK if buf contains " math computer-syntax" ; if not, the result may be bad
  107.         */
  108.       else {// seems tex : need to interpret names of variables as \x or \calB
  109.        if (mathalign_base < 2) { //to check
  110.         char *p1;
  111.         p1=find_word_start(buf);
  112.         if(*p1=='\\') {
  113.           int i;
  114.           char *pt;
  115.           for(i=1;isalnum(p1[i]);i++); /* find an alphanumeric string beginning by \\ */
  116.           if(p1[i]==0 && (pt=mathfont(p1))!=NULL) { /* find some mathfont as \calB */
  117.             _output_(pt); *p=0; return;
  118.           }
  119.         }
  120.        }
  121.       }
  122.       /* send to mathml */
  123.       if (mathalign_base == 2 && mathml(buf,0)) { *p=0 ; return;}
  124. /* end if mathml option in case ts=1 or "computer matrix" */
  125.  
  126. /* creating images*/
  127.       pp=getvar("ins_align");
  128.       if(pp!=NULL) mystrncpy(alignbak,pp,sizeof(alignbak));
  129.       setvar("ins_align","middle");
  130.       mystrncpy(ins_alt,buf,sizeof(ins_alt));
  131.       if(f==NULL) {
  132.         calc_instexst(buf); output("%s",buf);
  133.       }
  134.       else {
  135.         instex_usedynamic=1; exec_instex(buf); instex_usedynamic=0;
  136.       }
  137.       instex_style="";
  138.       if(alignbak[0]) setvar("ins_align",alignbak);
  139.       return;
  140.     }
  141.  
  142. /* end creating images
  143.  * we are now in the case where ts=0 and no need of tex for matrix */
  144.  
  145. /* find math variables */
  146.     for(pp=find_mathvar_start(buf); *pp; pp=find_mathvar_start(pe)) {
  147.       pe=find_mathvar_end(pp); n=pe-pp;
  148.       /* non alpha variable or too short or too long to be interpreted as tnames */
  149.       if(!isalpha(*pp) || n<3 || n>16) continue;
  150.       memmove(nbuf,pp,n); nbuf[n]=0;
  151.       if(wordchr(tnames,nbuf)!=NULL) goto tex;
  152.       /* find sqrt int integrate sum prod product Int Sum Prod conj abs,
  153.        * so must be texmath interpretated ; after going to tex, return in any case
  154.        */
  155.     }
  156. /* look for  /  to interpretate as quotients -
  157.  * extend the version by accepting something else than (
  158. */  
  159.     //for(pp=strchr(buf,'/'); pp!=NULL && *find_word_start(pp+1)!='('; pp=strchr(pp+1,'/'));
  160.     pp=strchr(buf,'/');
  161.     if(pp!=NULL) goto tex;  /* so a/4 can be reinterpreted as {a over 4 } ; transform also 5/(x+1) */
  162.     if(rawmathready) rawmath_easy=1;
  163.     for(pp=strchr(buf,'<'); pp!=NULL; pp=strchr(pp+1,'<'))
  164.       string_modify(buf,pp,pp+1,"&lt;");
  165.     for(pp=strchr(buf,'>'); pp!=NULL; pp=strchr(pp+1,'>'))
  166.       string_modify(buf,pp,pp+1,"&gt;");
  167. /* no tex has been introduced - so go to mathmlmath */
  168.     mathmlmath(buf); output("%s",buf);
  169.     rawmath_easy=0;
  170. }
  171.  
  172. /* the following is not used in modules : no insmath_logic=yes somewhere */
  173.  
  174. char *andor[]={"and","or","not","is","isnot"};
  175. #define andorcnt (sizeof(andor)/sizeof(andor[0]))
  176. char *andorlang[andorcnt], andorlangbuf[1024];
  177. int andorlangcnt=-1;
  178.  
  179.     /* Processing logic statements in math formulas */
  180. void _mathlogic(char *p, void _put(char *pp))
  181. {
  182.     char *p1, *p2, *ps;
  183.     int i;
  184.     if(strstr(p,"qzis")==NULL) {
  185.       for(i=0;i<andorcnt && varchr(p,andor[i])==NULL; i++);
  186.       if(i>=andorcnt) {
  187.         _put(p); return;
  188.       }
  189.     }
  190.     if(andorlangcnt<0) {
  191.       char buf[MAX_LINELEN+1];
  192.       accessfile(buf,"r","bases/sys/andor.%s",lang);
  193.       mystrncpy(andorlangbuf,find_word_start(buf),sizeof(andorlangbuf));
  194.       for(i=0,p1=andorlangbuf;i<andorcnt;i++,p1=find_word_start(p2)) {
  195.         p2=strchr(p1,',');
  196.         if(p2==NULL) p2=p1+strlen(p1); else *p2++=0;
  197.         strip_trailing_spaces(p1);
  198.         if(*p1) andorlang[i]=p1; else break;
  199.     }
  200.     andorlangcnt=i;
  201.     }
  202.     for(ps=p, p1=find_mathvar_start(p); *p1; p1=find_mathvar_start(p2)) {
  203.       p2=find_mathvar_end(p1);
  204.       if(!isalpha(*p1)) continue;
  205.       if(strncmp(p1,"qzis",4)==0) {
  206.         char *p3, *p4, *p5;
  207.         int tt;
  208.         p4=find_word_start(p2);
  209.         if(*p4!='(') continue;
  210.         if(strncmp(p1+4,"not",3)==0) {tt=4; p3=p1+7;}
  211.         else {tt=3; p3=p1+4;}
  212.         if(!isalpha(*p3)) continue;
  213.         p4++; p5=find_matching(p4,')');
  214.         if(*p5!=')') continue;
  215.         *p5=0; *p2=0; p2=p5+1;
  216.        
  217.        
  218.         continue;
  219.       }
  220.       for(i=0;i<andorlangcnt;i++) if(strncmp(p1,andor[i],p2-p1)==0) break;
  221.       if(i<andorlangcnt) {
  222.         *p1=0; ps=find_word_start(ps); if(*ps) _put(ps);
  223.         output(" %s ",andorlang[i]); ps=p2;
  224.       }
  225.     }
  226.     ps=find_word_start(ps); if(*ps) _put(ps);
  227. }
  228.  
  229.     /* Intelligent insertion of math formulas */
  230. void insmath(char *p)
  231. {
  232.     char *pt;
  233.     if(!outputing) goto end;
  234.     pt=getvar("insmath_logic");
  235.     if(pt==NULL || strstr(pt,"yes")==NULL) {
  236.       __insmath(p);
  237.       end: *p=0; return;
  238.     }
  239.     _mathlogic(p,__insmath);
  240. }
  241.