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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. #include <errno.h>
  19. #include "flydraw.h"
  20.  
  21. /* Tikz things */
  22.  
  23. static char *tikz_color (int the_color)
  24. {
  25.   static char buf[50];
  26.   int r=gdImageRed(image,the_color);
  27.   int g=gdImageGreen(image,the_color);
  28.   int b=gdImageBlue(image,the_color);
  29.   sprintf(buf, "{rgb,255:red,%i;green,%i;blue,%i}",r,g,b);
  30.   return buf;
  31. }
  32.  
  33. static char *tikz_options (int the_color, int the_fill)
  34. {
  35.   static char buf[100];
  36.   if (the_color == gdBrushed)
  37.     the_color = tikz_brushColor;
  38.   sprintf (buf, "draw=%s,cap=round",tikz_color(the_color));
  39.   if (the_color != tikz_brushColor) strcat(buf, ",thin");
  40.   if (the_fill == -1 || the_fill == 2) strcat(buf, ",dashed");
  41.   if (the_fill == 1 || the_fill == 2)
  42.     sprintf(buf+strlen(buf), ",fill=%s", tikz_color(the_color));
  43.   return buf;
  44. }
  45.  
  46. #define flip(y) (sizey-1-(y))
  47.  
  48. /* bug in gdImageFillToBorder */
  49.  
  50. void patchgdImageFillToBorder (gdImagePtr im, int x, int y, int border, int color)
  51. {
  52.   if(x>=im->sx || x<0 || y>=im->sy || y<0) return;
  53.   gdImageFillToBorder(im,x,y,border,color);
  54. }
  55.  
  56. void patchgdImageFill (gdImagePtr im, int x, int y, int color)
  57. {
  58.   if(x>=im->sx || x<0 || y>=im->sy || y<0) return;
  59.   gdImageFill(im,x,y,color);
  60. }
  61.  
  62. #define DASHPIXELS 8
  63.  
  64. void myDashedLine(gdImagePtr im, int x1, int y1, int x2, int y2, int color){
  65.   /**
  66.    * emulates gdImageDashedLine with gdImageSetStyle and gdImageLine
  67.    * GK: As gdImageDashedLine is slightly broken in latest libgd libraries,
  68.    * GK: I implemented an emulation named "myDashedLine"
  69.    **/
  70.  
  71.   int styleDashed[DASHPIXELS],i;
  72.   for (i=0; i< DASHPIXELS/2; i++) styleDashed[i]=color;
  73.   for (; i< DASHPIXELS; i++) styleDashed[i]=gdTransparent;
  74.   gdImageSetStyle(im, styleDashed, DASHPIXELS);
  75.   gdImageLine(im, x1, y1, x2, y2, gdStyled);
  76. }
  77.  
  78.  
  79. /* File opening: with security */
  80. FILE *open4read(char *n)
  81. {
  82.   char *p, *p1, *p2, namebuf[2048];
  83.   int t;
  84.   FILE *f;
  85.   n=find_word_start(n);
  86.   if(*n==0) return NULL;
  87.   p=getenv("flydraw_filebase");
  88.   p1=n+strlen(n)-4;if(p1<n || strcasecmp(p1,".gif")!=0) t=1; else t=0;
  89.   if(p!=NULL && *p!=0) {
  90.     char pbuf[MAX_LINELEN+1];
  91.     snprintf(pbuf,sizeof(pbuf),"%s",p);
  92.     p=find_word_start(pbuf); if(strstr(p,"..")!=NULL) return NULL;
  93.     if(*n=='/' || strstr(n,"..")!=NULL) return NULL;
  94.     /* prohibit unusual file/dir names */
  95.     for(p1=p;*p1;p1++)
  96.       if(!isalnum(*p1) && !isspace(*p1) && strchr("~_-/.",*p1)==NULL)
  97.         return NULL;
  98.     for(p1=n;*p1;p1++)
  99.       if(!isalnum(*p1) && !isspace(*p1) && strchr("~_-/.",*p1)==NULL)
  100.         return NULL;
  101.     f=NULL;
  102.     for(p1=p; *p1; p1=find_word_start(p2)) {
  103.       p2=find_word_end(p1);
  104.       if(*p2) *p2++=0;
  105.       snprintf(namebuf,sizeof(namebuf),"%s/%s",p1,n);
  106.       f=fopen(namebuf,"r"); if(f!=NULL) goto imgtype;
  107.     }
  108.     p1=getenv("w_wims_session");
  109.     if(p1!=NULL && strncmp(n,"insert",6)==0) {
  110.       snprintf(namebuf,sizeof(namebuf),"../s2/%s/%s",p1,n);
  111.       f=fopen(namebuf,"r");
  112.     }
  113.   }
  114.   else {
  115.     snprintf(namebuf,sizeof(namebuf),"%s",n);
  116.     f=fopen(namebuf,"r");
  117.   }
  118.   imgtype:
  119.   if(t && f!=NULL) {
  120.     char tbuf[1024],sbuf[4096];
  121.     fclose(f); f=NULL;
  122.     p1=getenv("TMPDIR"); if(p1==NULL || *p1==0) p1=".";
  123.     snprintf(tbuf,sizeof(tbuf),"%s/drawfile_.gif",p1);
  124.     snprintf(sbuf,sizeof(sbuf),"convert %s %s",namebuf,tbuf);
  125.     if (system(sbuf)) fly_error("system_failed");
  126.       f=fopen(tbuf,"r");
  127.   }
  128.   return f;
  129. }
  130.  
  131. /* Does nothing; just a comment. */
  132. void obj_comment(objparm *pm)
  133. {
  134.   return;
  135. }
  136.  
  137. /* define image size */
  138. void obj_size(objparm *pm)
  139. {
  140.   sizex=rint(pm->pd[0]); sizey=rint(pm->pd[1]);
  141.   if(sizex<0 || sizey<0 || sizex>MAX_SIZE || sizey>MAX_SIZE) {
  142.     fly_error("bad_size"); return;
  143.   }
  144.   if(image!=NULL) {
  145.     fly_error("size_already_defined"); return;
  146.   }
  147.   image=gdImageCreate(sizex,sizey);
  148.   if(tikz_file) fprintf(tikz_file,"\\clip (0,0) rectangle (%i, %i);\n", sizex, sizey);
  149.   if(image==NULL) fly_error("image_creation_failure");
  150.   else {
  151.     color_white=gdImageColorAllocate(image,255,255,255);
  152.     color_black=gdImageColorAllocate(image,0,0,0);
  153.     color_bounder=gdImageColorAllocate(image,1,2,3);
  154.     color_frame=gdImageColorAllocate(image,254,254,254);
  155.   }
  156. }
  157.  
  158. /* new image */
  159. void obj_new(objparm *pm)
  160. {
  161.   if(image) {
  162.     gdImageDestroy(image);image=NULL;
  163.   }
  164.   if(pm->pcnt>=2) { obj_size(pm); gdImageRectangle(image,0,0,sizex-1,sizey-1,color_frame);}
  165.   else sizex=sizey=0;
  166.   saved=0;
  167. }
  168.  
  169. /* new image */
  170. void obj_existing(objparm *pm)
  171. {
  172.   FILE *inf;
  173.   char *pp;
  174.  
  175.   if(image) {
  176.     gdImageDestroy(image);image=NULL;
  177.   }
  178.   pp=find_word_start(pm->str);*find_word_end(pp)=0;
  179.   inf=open4read(pp);
  180.   if(inf==NULL) {
  181.     fly_error("file_not_exist"); return;
  182.   }
  183.   image=gdImageCreateFromGif(inf); fclose(inf);
  184.   if(image==NULL) {
  185.     fly_error("bad_gif"); return;
  186.   }
  187.   sizex=image->sx; sizey=image->sy;
  188.   saved=0;
  189. }
  190. /* tikzfile */
  191. void obj_tikzfile(objparm *pm)
  192. {
  193.   char *p;
  194.   if(tikz_file){
  195.     fprintf(tikz_file,"\\end{tikzpicture}\n");
  196.     fclose(tikz_file);
  197.   }
  198.   p=find_word_start(pm->str); *find_word_end(p)=0;
  199.   snprintf(tikzfilename,sizeof(tikzfilename),"%s",p);
  200.   tikz_file=fopen(tikzfilename,"w");
  201.   if(!tikz_file)
  202.     fly_error("tikz_nopen");
  203.   fprintf(tikz_file,"\\begin{tikzpicture}\[x=0.02cm, y=0.02cm]\n");
  204. }
  205.  
  206. /* segment */
  207. void obj_line(objparm *pm)
  208. {
  209.   scale(pm->pd,pm->p,2);
  210.   if(pm->fill==-1 || pm->fill==2 )
  211.     myDashedLine(image,pm->p[0],pm->p[1],pm->p[2],pm->p[3],pm->color[0]);
  212.   else
  213.     gdImageLine(image,pm->p[0],pm->p[1],pm->p[2],pm->p[3],pm->color[0]);
  214.   if (tikz_file)
  215.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  216.       tikz_options(pm->color[0],pm->fill),pm->p[0],flip(pm->p[1]),pm->p[2],flip(pm->p[3]));
  217.   if(vimg_enable) vimg_line(scale_buf[0],scale_buf[1],scale_buf[2],scale_buf[3]);
  218. }
  219.  
  220. void _obj_arrow(objparm *pm, int twoside)
  221. {
  222.   int l,xx,yy;
  223.   gdPoint ii[3];
  224.   double dx,dy,length,dd[6];
  225.   scale(pm->pd,pm->p,2);
  226.   xx=ii[0].x=pm->p[2];yy=ii[0].y=pm->p[3];
  227.   l=pm->pd[4];if(l<0) l=0; if(l>200) l=200;
  228.   scale2(pm->pd[0]-pm->pd[2],pm->pd[1]-pm->pd[3],&dx,&dy);
  229.   length=sqrt(dx*dx+dy*dy);
  230.   if(length<3 || l<5) goto stem;
  231.   dd[0]=l*dx/length; dd[1]=l*dy/length;
  232.   #define fat 0.27
  233.   dd[2]=dd[0]+dd[1]*fat; dd[3]=dd[1]-dd[0]*fat;
  234.   dd[4]=dd[0]-dd[1]*fat; dd[5]=dd[1]+dd[0]*fat;
  235.   ii[1].x=rint(dd[2])+ii[0].x; ii[1].y=rint(dd[3])+ii[0].y;
  236.   ii[2].x=rint(dd[4])+ii[0].x; ii[2].y=rint(dd[5])+ii[0].y;
  237.   gdImageFilledPolygon(image, ii,3,pm->color[0]);
  238.   if(tikz_file)
  239.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i) -- (%i, %i) -- cycle;\n",
  240.       tikz_options(pm->color[0],1),ii[0].x,flip(ii[0].y),ii[1].x,flip(ii[1].y),ii[2].x,flip(ii[2].y));
  241.   if(vimg_enable) vimg_polyline(scale_buf,3,1);
  242.   xx=rint(dd[0])+ii[0].x;yy=rint(dd[1])+ii[0].y;
  243.   if(twoside) {
  244.     ii[0].x=pm->p[0]; ii[0].y=pm->p[1];
  245.     ii[1].x=-rint(dd[2])+ii[0].x; ii[1].y=-rint(dd[3])+ii[0].y;
  246.     ii[2].x=-rint(dd[4])+ii[0].x; ii[2].y=-rint(dd[5])+ii[0].y;
  247.     gdImageFilledPolygon(image, ii,3,pm->color[0]);
  248.   if(tikz_file)
  249.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i) -- (%i, %i) -- cycle;\n",
  250.       tikz_options(pm->color[0],1),ii[0].x,flip(ii[0].y),ii[1].x,flip(ii[1].y),ii[2].x,flip(ii[2].y));
  251.   }
  252.   stem: if(pm->fill==-1 || pm->fill==2)
  253.     myDashedLine(image,pm->p[0],pm->p[1],xx,yy,pm->color[0]);
  254.   else
  255.     gdImageLine(image,pm->p[0],pm->p[1],xx,yy,pm->color[0]);
  256.   if(tikz_file)
  257.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  258.       tikz_options(pm->color[0],pm->fill),pm->p[0],flip(pm->p[1]),xx,flip(yy));
  259.   if(vimg_enable) vimg_line(scale_buf[0],scale_buf[1],scale_buf[2],scale_buf[3]);
  260. }
  261.  
  262. /* Arrow */
  263. void obj_arrow(objparm *pm)
  264. {
  265.   _obj_arrow(pm,0);
  266. }
  267.  
  268. /* 2-sided arrow */
  269. void obj_arrow2(objparm *pm)
  270. {
  271.    _obj_arrow(pm,1);
  272. }
  273.  
  274. void _obj_arrows(objparm *pm, int twoside)
  275. {
  276.   #define fat 0.27
  277.   int i,l,xx,yy;
  278.   gdPoint ii[3];
  279.   double dx,dy,length,dd[6];
  280.   l=pm->pd[0];if(l<0) l=0; if(l>200) l=200;
  281.   scale(pm->pd+1,pm->p+1,pm->pcnt/2);
  282.   for (i=1;i<pm->pcnt;i+=4){
  283.     xx=ii[0].x=pm->p[i+2];yy=ii[0].y=pm->p[i+3];
  284.     scale2(pm->pd[i]-pm->pd[i+2],pm->pd[i+1]-pm->pd[i+3],&dx,&dy);
  285.     length=sqrt(dx*dx+dy*dy);
  286.     if(length<3 || l<5) goto stem;
  287.     dd[0]=l*dx/length; dd[1]=l*dy/length;
  288.     dd[2]=dd[0]+dd[1]*fat; dd[3]=dd[1]-dd[0]*fat;
  289.     dd[4]=dd[0]-dd[1]*fat; dd[5]=dd[1]+dd[0]*fat;
  290.     ii[1].x=rint(dd[2])+ii[0].x; ii[1].y=rint(dd[3])+ii[0].y;
  291.     ii[2].x=rint(dd[4])+ii[0].x; ii[2].y=rint(dd[5])+ii[0].y;
  292.     gdImageFilledPolygon(image, ii,3,pm->color[0]);
  293.     if(tikz_file)
  294.   fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i) -- (%i, %i) -- cycle;\n",
  295.         tikz_options(pm->color[0],1),ii[0].x,flip(ii[0].y),ii[1].x,flip(ii[1].y),ii[2].x,flip(ii[2].y));
  296.       xx=rint(dd[0])+ii[0].x;yy=rint(dd[1])+ii[0].y;
  297.       if(twoside) {
  298.   ii[0].x=pm->p[i]; ii[0].y=pm->p[i+1];
  299.   ii[1].x=-rint(dd[2])+ii[0].x; ii[1].y=-rint(dd[3])+ii[0].y;
  300.   ii[2].x=-rint(dd[4])+ii[0].x; ii[2].y=-rint(dd[5])+ii[0].y;
  301.   gdImageFilledPolygon(image, ii,3,pm->color[0]);
  302.   if(tikz_file)
  303.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i) -- (%i, %i) -- cycle;\n",
  304.         tikz_options(pm->color[0],1),ii[0].x,flip(ii[0].y),ii[1].x,flip(ii[1].y),ii[2].x,flip(ii[2].y));
  305.       }
  306.     stem: if(pm->fill==-1 || pm->fill==2)
  307.   myDashedLine(image,pm->p[i],pm->p[i+1],xx,yy,pm->color[0]);
  308.       else
  309.   gdImageLine(image,pm->p[i],pm->p[i+1],xx,yy,pm->color[0]);
  310.       if(tikz_file)
  311.   fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  312.     tikz_options(pm->color[0],pm->fill),pm->p[i],flip(pm->p[i+1]),xx,flip(yy));
  313.     }
  314. }
  315.  
  316. /* Arrows */
  317. void obj_arrows(objparm *pm)
  318. {
  319.   _obj_arrows(pm,0);
  320. }
  321.  
  322. /* 2-sided arrows */
  323. void obj_arrows2(objparm *pm)
  324. {
  325.    _obj_arrows(pm,1);
  326. }
  327.  
  328. /* horizontal line */
  329. void obj_hline(objparm *pm)
  330. {
  331.   scale(pm->pd,pm->p,1);
  332.   if(pm->fill==-1 || pm->fill==2)
  333.     myDashedLine(image,0,pm->p[1],sizex,pm->p[1],pm->color[0]);
  334.   else
  335.     gdImageLine(image,0,pm->p[1],sizex,pm->p[1],pm->color[0]);
  336.   if (tikz_file)
  337.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  338.       tikz_options(pm->color[0],pm->fill),0,flip(pm->p[1]),sizex,flip(pm->p[1]));
  339. }
  340.  
  341. static void line_extend(int x1, int y1, int x2, int y2, int* xend, int *yend)
  342. {
  343.   double t1, t2, t3;
  344.   if (x2 != x1){t1 = (x2 > x1) ? sizex : 0; t1 = (t1 - x1)/(x2 - x1);}
  345.   else t1 = INFINITY;
  346.   if (y2 != y1){t2 = (y2 > y1) ? sizey : 0; t2 = (t2 - y1)/(y2 - y1);}
  347.   else t2 = INFINITY;
  348.   t3 = (t1 < t2) ? t1 : t2;
  349.   *xend = x1+t3*(x2-x1);
  350.   *yend = y1+t3*(y2-y1);
  351. }
  352.  
  353. /* halfline */
  354. void obj_halfline(objparm *pm)
  355. {
  356.   int xend,yend;
  357.   scale(pm->pd,pm->p,2);
  358.   line_extend(pm->p[0],pm->p[1],pm->p[2],pm->p[3],&xend,&yend);
  359.   if(pm->fill==-1 || pm->fill==2)
  360.     myDashedLine(image,pm->p[0],pm->p[1],xend,yend,pm->color[0]);
  361.   else
  362.     gdImageLine(image,pm->p[0],pm->p[1],xend,yend,pm->color[0]);
  363.   if (tikz_file)
  364.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  365.       tikz_options(pm->color[0],pm->fill),
  366.       pm->p[0],flip(pm->p[1]),xend,flip(yend));
  367. }
  368.  
  369. void obj_fullline(objparm *pm)
  370. {
  371.   int xstart,ystart,xend,yend;
  372.   scale(pm->pd,pm->p,2);
  373.   line_extend(pm->p[0],pm->p[1],pm->p[2],pm->p[3],&xend,&yend);
  374.   line_extend(pm->p[2],pm->p[3],pm->p[0],pm->p[1],&xstart,&ystart);
  375.   if(pm->fill==-1 || pm->fill==2)
  376.     myDashedLine(image,xstart,ystart,xend,yend,pm->color[0]);
  377.   else
  378.     gdImageLine(image,xstart,ystart,xend,yend,pm->color[0]);
  379.   if (tikz_file)
  380.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  381.       tikz_options(pm->color[0],pm->fill),xstart,flip(ystart),xend,flip(yend));
  382. }
  383.  
  384. void obj_fulllines(objparm *pm)
  385. {
  386.   int i,xstart,ystart,xend,yend;
  387.   scale(pm->pd,pm->p,pm->pcnt/2);
  388.   if (tikz_file)
  389.       fprintf(tikz_file, "\\draw\[%s]",tikz_options(pm->color[0],pm->fill));
  390.   for (i=0;i<pm->pcnt;i+=4){
  391.     line_extend(pm->p[i],pm->p[i+1],pm->p[i+2],pm->p[i+3],&xend,&yend);
  392.     line_extend(pm->p[i+2],pm->p[i+3],pm->p[i],pm->p[i+1],&xstart,&ystart);
  393.     if(pm->fill==-1 || pm->fill==2)
  394.       myDashedLine(image,xstart,ystart,xend,yend,pm->color[0]);
  395.     else
  396.       gdImageLine(image,xstart,ystart,xend,yend,pm->color[0]);
  397.     if (tikz_file)
  398.       fprintf(tikz_file, "(%i,%i)--(%i, %i)",xstart,flip(ystart),xend,flip(yend));
  399.   }
  400.   if (tikz_file)
  401.       fprintf(tikz_file, ";\n");
  402. }
  403.  
  404. /* vertical line */
  405. void obj_vline(objparm *pm)
  406. {
  407.   scale(pm->pd,pm->p,1);
  408.   if(pm->fill==-1 || pm->fill==2)
  409.     myDashedLine(image,pm->p[0],0,pm->p[0],sizey,pm->color[0]);
  410.   else
  411.     gdImageLine(image,pm->p[0],0,pm->p[0],sizey,pm->color[0]);
  412.   if (tikz_file)
  413.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  414.       tikz_options(pm->color[0],pm->fill),pm->p[0],0,pm->p[0],sizey);
  415. }
  416.  
  417. /* dashed line */
  418. void obj_dline(objparm *pm)
  419. {
  420.   scale(pm->pd,pm->p,2);
  421.   myDashedLine(image,pm->p[0],pm->p[1],pm->p[2],pm->p[3], pm->color[0]);
  422.   if (tikz_file)
  423.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  424.       tikz_options(pm->color[0],-1),
  425.       pm->p[0],flip(pm->p[1]),pm->p[2],flip(pm->p[3]));
  426. }
  427.  
  428. /* parallel lines.
  429.  * x1,y1,x2,y2,xv,yv,n,color */
  430. void obj_parallel(objparm *pm)
  431. {
  432.   int i, n, xi,yi;
  433.   double xv,yv;
  434.   n=pm->pd[6]; if(n<0) return; if(n>256) n=256;
  435.   scale(pm->pd,pm->p,3);
  436.   scale2(pm->pd[4],pm->pd[5],&xv,&yv);
  437.   if (tikz_file)
  438.     fprintf(tikz_file, "\\draw\[%s]", tikz_options(pm->color[0],pm->fill));
  439.   for(i=0;i<n;i++) {
  440.     xi=rint(i*xv); yi=rint(i*yv);
  441.     if(pm->fill==-1 || pm->fill==2)
  442.       myDashedLine(image,pm->p[0]+xi,pm->p[1]+yi,pm->p[2]+xi,pm->p[3]+yi,
  443.         pm->color[0]);
  444.     else
  445.       gdImageLine(image,pm->p[0]+xi,pm->p[1]+yi,pm->p[2]+xi,pm->p[3]+yi,
  446.         pm->color[0]);
  447.     if (tikz_file)
  448.       fprintf(tikz_file, "(%i,%i)--(%i, %i)",
  449.         pm->p[0]+xi,flip(pm->p[1]+yi),pm->p[2]+xi,flip(pm->p[3]+yi));
  450.     if(vimg_enable) vimg_line(scale_buf[0]+i*(scale_buf[4]-transx),
  451.       scale_buf[1]+i*(scale_buf[5]-transy),
  452.       scale_buf[2]+i*(scale_buf[4]-transx),
  453.       scale_buf[3]+i*(scale_buf[5]-transy));
  454.   }
  455.  if(tikz_file) fprintf(tikz_file,";\n");
  456. }
  457.  
  458. /* rectangle */
  459. void obj_rect(objparm *pm)
  460. {
  461.   int x1,y1,x2,y2;
  462.   scale(pm->pd,pm->p,2);
  463.   x1=min(pm->p[0],pm->p[2]); x2=max(pm->p[0],pm->p[2]);
  464.   y1=min(pm->p[1],pm->p[3]); y2=max(pm->p[1],pm->p[3]);
  465.   if(pm->fill!=0){
  466.     if(pm->fill==-1 || pm->fill==2){
  467.       myDashedLine(image,x1,y1,x1,y2,pm->color[0]);
  468.       myDashedLine(image,x1,y2,x2,y2,pm->color[0]);
  469.       myDashedLine(image,x2,y2,x2,y1,pm->color[0]);
  470.       myDashedLine(image,x2,y1,x1,y1,pm->color[0]);
  471.     }
  472.     if(pm->fill==1 || pm->fill==2)
  473.       gdImageFilledRectangle(image,x1,y1,x2,y2,pm->color[0]);
  474.   }
  475.   else
  476.     gdImageRectangle(image,x1,y1,x2,y2,pm->color[0]);
  477.   if(tikz_file)
  478.     fprintf(tikz_file,
  479.       "\\draw\[%s] (%i,%i) rectangle (%i,%i);\n",
  480.       tikz_options(pm->color[0],pm->fill),x1,flip(y1),x2,flip(y2));
  481.   if(vimg_enable) vimg_rect(scale_buf[0],scale_buf[1],scale_buf[2],scale_buf[3]);
  482. }
  483.  
  484. /* square */
  485. void obj_square(objparm *pm)
  486. {
  487.   int w,h;
  488.   scale(pm->pd,pm->p,1);
  489.   w=rint(pm->pd[2]); h=rint(pm->pd[2]);
  490.   if(pm->fill!=0){
  491.     if(pm->fill==-1 || pm->fill==2){
  492.       myDashedLine(image,pm->p[0],pm->p[1],pm->p[0]+w,pm->p[1],pm->color[0]);
  493.       myDashedLine(image,pm->p[0]+w,pm->p[1],pm->p[0]+w,pm->p[1]+h,pm->color[0]);
  494.       myDashedLine(image,pm->p[0]+w,pm->p[1]+h,pm->p[0],pm->p[1]+h,pm->color[0]);
  495.       myDashedLine(image,pm->p[0],pm->p[1]+h,pm->p[0],pm->p[1],pm->color[0]);
  496.     }
  497.     if(pm->fill==1 || pm->fill==2)
  498.     gdImageFilledRectangle(image,pm->p[0],pm->p[1],
  499.         pm->p[0]+w,pm->p[1]+h,pm->color[0]);
  500.   }
  501.   else
  502.     gdImageRectangle(image,pm->p[0],pm->p[1],
  503.                pm->p[0]+w,pm->p[1]+h,pm->color[0]);
  504.   if(tikz_file){
  505.     fprintf(tikz_file,
  506.       "\\draw\[%s] (%i,%i) rectangle (%i,%i);\n",
  507.       tikz_options(pm->color[0],pm->fill),pm->p[0],flip(pm->p[1]),
  508.       pm->p[0]+w,flip(pm->p[1]+h));
  509.   }
  510.   if(vimg_enable) vimg_rect(scale_buf[0],scale_buf[1],
  511.                       scale_buf[0]+pm->pd[2],scale_buf[1]+pm->pd[2]);
  512. }
  513.  
  514. /* triangle */
  515. void obj_triangle(objparm *pm)
  516. {
  517.   scale(pm->pd,pm->p,3);
  518.   int i,n=2;
  519.   if(pm->fill!=0){
  520.     if(pm->fill==-1 || pm->fill==2){
  521.       for(i=0;i<n;i+=1)
  522.         myDashedLine(image,pm->p[2*i],pm->p[2*i+1],pm->p[2*i+2],pm->p[2*i+3],pm->color[0]);
  523.       myDashedLine(image,pm->p[2*n],pm->p[2*n+1],pm->p[0],pm->p[1],pm->color[0]);
  524.     }
  525.     if(pm->fill==1 || pm->fill==2)
  526.       gdImageFilledPolygon(image,(gdPointPtr) pm->p,3,pm->color[0]);
  527.   }
  528.   else
  529.     gdImagePolygon(image,(gdPointPtr) pm->p,3,pm->color[0]);
  530.   if (tikz_file)
  531.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i) -- (%i, %i) -- cycle;\n",
  532.       tikz_options(pm->color[0],pm->fill),pm->p[0],flip(pm->p[1]),pm->p[2],flip(pm->p[3]),pm->p[4],flip(pm->p[5]));
  533.   if(vimg_enable) vimg_polyline(scale_buf,3,1);
  534. }
  535.  
  536. /* polygon */
  537. void obj_poly(objparm *pm)
  538. {
  539.   int cnt,i;
  540.   cnt=(pm->pcnt)/2;
  541.   scale(pm->pd,pm->p,cnt);
  542.   if(pm->fill==1 || pm->fill==2)
  543.     gdImageFilledPolygon(image,(gdPointPtr) pm->p,cnt,pm->color[0]);
  544.   else
  545.     gdImagePolygon(image,(gdPointPtr) pm->p,cnt,pm->color[0]);
  546.   if(tikz_file){
  547.     fprintf(tikz_file,"\\draw\[%s] (%i,%i) --",tikz_options(pm->color[0],pm->fill),pm->p[0],flip(pm->p[1]));
  548.     for (i= 1; i<cnt; i++)
  549.         fprintf(tikz_file,"(%i,%i)--", pm->p[2*i],flip(pm->p[2*i+1]));
  550.     fprintf(tikz_file," cycle;\n");
  551.   }
  552.   if(vimg_enable) vimg_polyline(scale_buf,cnt,1);
  553. }
  554.  
  555. /* rays */
  556. void obj_rays(objparm *pm)
  557. {
  558.   int i, n;
  559.   n=(pm->pcnt)/2;
  560.   scale(pm->pd,pm->p,n);
  561.   if (tikz_file)
  562.     fprintf(tikz_file, "\\draw\[%s]",tikz_options(pm->color[0],pm->fill));
  563.   for(i=2;i<2*n;i+=2) {
  564.     if(pm->fill==-1 || pm->fill==2)
  565.       myDashedLine(image,pm->p[0],pm->p[1],pm->p[i],pm->p[i+1],pm->color[0]);
  566.     else
  567.       gdImageLine(image,pm->p[0],pm->p[1],pm->p[i],pm->p[i+1],pm->color[0]);
  568.     if (tikz_file)
  569.       fprintf(tikz_file, "(%i,%i) -- (%i,%i)",
  570.         pm->p[0],flip(pm->p[1]),pm->p[i],flip(pm->p[i+1]));
  571.     if(vimg_enable) vimg_line(scale_buf[0],scale_buf[1],
  572.                         scale_buf[i],scale_buf[i+1]);
  573.   }
  574.   if (tikz_file) fprintf(tikz_file,";\n");
  575. }
  576. /* crosshair */
  577. void obj_crosshair(objparm *pm)
  578. {
  579.   scale(pm->pd,pm->p,2);
  580.   gdImageLine(image,pm->p[0]+width2,pm->p[1]+width2,pm->p[0]-width2,pm->p[1]-width2,pm->color[0]);
  581.   gdImageLine(image,pm->p[0]-width2,pm->p[1]+width2,pm->p[0]+width2,pm->p[1]-width2,pm->color[0]);
  582.   if (tikz_file){
  583.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  584.       tikz_options(pm->color[0],pm->fill),pm->p[0]+width2,flip(pm->p[1]+width2),pm->p[0]-width2,flip(pm->p[1]-width2));
  585.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i);\n",
  586.       tikz_options(pm->color[0],pm->fill),pm->p[0]-width2,flip(pm->p[1]+width2),pm->p[0]+width2,flip(pm->p[1]-width2));
  587.   }
  588. }
  589. /* crosshairs */
  590.  
  591. void obj_crosshairs(objparm *pm)
  592. {
  593.   int i, n;
  594.   n=(pm->pcnt)/2;
  595.   scale(pm->pd,pm->p,n);
  596.   if (tikz_file)
  597.       fprintf(tikz_file, "\\draw\[%s]",tikz_options(pm->color[0],pm->fill));
  598.   for(i=0;i<2*n;i+=2) {
  599.     gdImageLine(image,pm->p[i]+width2,pm->p[i+1]+width2,pm->p[i]-width2,pm->p[i+1]-width2,pm->color[0]);
  600.     gdImageLine(image,pm->p[i]-width2,pm->p[i+1]+width2,pm->p[i]+width2,pm->p[i+1]-width2,pm->color[0]);
  601.     if (tikz_file){
  602.       fprintf(tikz_file, "(%i, %i) -- (%i, %i) ",
  603.         pm->p[i]+width2,flip(pm->p[i+1]+width2),pm->p[i]-width2,flip(pm->p[i+1]-width2));
  604.       fprintf(tikz_file, "(%i, %i) -- (%i, %i)",
  605.         pm->p[i]-width2,flip(pm->p[i+1]+width2),pm->p[i]+width2,flip(pm->p[i+1]-width2));
  606.     }
  607.   }
  608.   if (tikz_file) fprintf(tikz_file,";\n");
  609. }
  610.  
  611.  
  612. /* segments */
  613. void obj_lines(objparm *pm)
  614. {
  615.  int i, n;
  616.  n=(pm->pcnt)/2;
  617.  scale(pm->pd,pm->p,n);
  618.  if (tikz_file){
  619.    fprintf(tikz_file,"\\draw\[%s] (%i,%i)",
  620.      tikz_options(pm->color[0],pm->fill),pm->p[0],flip(pm->p[1]));
  621.    for(i=2;i<2*n;i+=2)
  622.      fprintf(tikz_file, "--(%i,%i)",pm->p[i],flip(pm->p[i+1]));
  623.    fprintf(tikz_file, ";\n");
  624.  }
  625.  for(i=2;i<2*n;i+=2){
  626.   if(pm->fill==-1 || pm->fill==2 )
  627.     myDashedLine(image,pm->p[i-2],pm->p[i-1],pm->p[i],pm->p[i+1],pm->color[0]);
  628.   else
  629.     gdImageLine(image,pm->p[i-2],pm->p[i-1],pm->p[i],pm->p[i+1],pm->color[0]);
  630.   if(vimg_enable) vimg_polyline(scale_buf,n,0);
  631.   }
  632. }
  633. /*segments from x1,y1 to x2,y2, x3,y3 to x4,y4, etc */
  634. void obj_segments(objparm *pm)
  635. {
  636.   int i, n;
  637.   n=(pm->pcnt)/4;
  638.   scale(pm->pd,pm->p,2*n);
  639.   if (tikz_file)
  640.     fprintf(tikz_file, "\\draw\[%s]",tikz_options(pm->color[0],pm->fill));
  641.   for(i=0;i<4*n;i+=4){
  642.     if(pm->fill==-1 || pm->fill==2)
  643.       myDashedLine(image,pm->p[i],pm->p[i+1],pm->p[i+2],pm->p[i+3],pm->color[0]);
  644.     else
  645.       gdImageLine(image,pm->p[i],pm->p[i+1],pm->p[i+2],pm->p[i+3],pm->color[0]);
  646.     if (tikz_file)
  647.       fprintf(tikz_file, "(%i,%i)--(%i,%i)",
  648.        pm->p[i],flip(pm->p[i+1]),pm->p[i+2],flip(pm->p[i+3]));
  649.   }
  650.   if(tikz_file) fprintf(tikz_file, ";\n");
  651. }
  652. /* segments */
  653. void obj_dlines(objparm *pm)
  654. {
  655.  int i, n;
  656.  n=(pm->pcnt)/2;
  657.  scale(pm->pd,pm->p,n);
  658.  if (tikz_file){
  659.    fprintf(tikz_file,"\\draw\[%s] (%i,%i)",
  660.      tikz_options(pm->color[0],pm->fill),pm->p[0],flip(pm->p[1]));
  661.    for(i=2;i<2*n;i+=2)
  662.      fprintf(tikz_file, "--(%i,%i)",pm->p[i],flip(pm->p[i+1]));
  663.    fprintf(tikz_file, ";\n");
  664.  }
  665.  for(i=2;i<2*n;i+=2)
  666.    myDashedLine(image,pm->p[i-2],pm->p[i-1],pm->p[i],pm->p[i+1],pm->color[0]);
  667.  if(vimg_enable) vimg_polyline(scale_buf,n,0);
  668. }
  669.  
  670. /* points */
  671. void obj_points(objparm *pm)
  672. {
  673.  int i, n;
  674.  n=(pm->pcnt)/2;
  675.  scale(pm->pd,pm->p,n);
  676.  for(i=0;i<2*n;i+=2) gdImageSetPixel(image,pm->p[i],pm->p[i+1],pm->color[0]);
  677.  if(tikz_file) {
  678.    fprintf(tikz_file, "\\draw\[%s]", tikz_options(pm->color[0],pm->fill));
  679.    for(i=0;i<2*n;i+=2)
  680.      fprintf(tikz_file,"(%i,%i)circle(1pt)",pm->p[i],flip(pm->p[i+1]));
  681.    fprintf(tikz_file,";\n");
  682.  }
  683. }
  684.  
  685. /* lattice.
  686.  * x0,y0,xv1,yv1,xv2,yv2,n1,n2,color */
  687. void obj_lattice(objparm *pm)
  688. {
  689.  int n1,n2,i1,i2,xi1,yi1,xi2,yi2;
  690.  double xv1,xv2,yv1,yv2;
  691.  n1=pm->pd[6];n2=pm->pd[7]; if(n1<0 || n2<0) return;
  692.  if(n1>256) n1=256;
  693.  if(n2>256) n2=256;
  694.  scale(pm->pd,pm->p,1);
  695.  scale2(pm->pd[2],pm->pd[3],&xv1,&yv1);
  696.  scale2(pm->pd[4],pm->pd[5],&xv2,&yv2);
  697.  if(tikz_file)
  698.    fprintf(tikz_file,"\\draw[%s]", tikz_options(pm->color[0],0));
  699.  for(i1=0;i1<n1;i1++) {
  700.    xi1=rint(i1*xv1)+pm->p[0]; yi1=rint(i1*yv1)+pm->p[1];
  701.    for(i2=0;i2<n2;i2++) {
  702.      xi2=i2*xv2+xi1;yi2=i2*yv2+yi1;
  703.      gdImageSetPixel(image,xi2,yi2,pm->color[0]);
  704.      if(tikz_file) fprintf(tikz_file,"(%i,%i)circle(1pt)",xi2,flip(yi2));
  705.    }
  706.  }
  707.  if(tikz_file) fprintf(tikz_file,";\n");
  708. }
  709.  
  710. /* arc */
  711. void obj_arc(objparm *pm)
  712. {
  713.   scale(pm->pd,pm->p,1);
  714.   pm->p[2]=rint(pm->pd[2]*xscale); pm->p[3]=rint(pm->pd[3]*yscale);
  715.   gdImageArc(image,pm->p[0],pm->p[1],pm->p[2],pm->p[3],
  716.            rint(pm->pd[4]),rint(pm->pd[5]),pm->color[0]);
  717.   if(tikz_file) {
  718.     pm->pd[4]-=360*rint(pm->pd[4]/360);
  719.     pm->pd[5]-=360*rint(pm->pd[5]/360);
  720.     if(pm->pd[4]>pm->pd[5]) pm->pd[5]+=360;
  721.     fprintf(tikz_file,
  722.     "\\draw\[%s, domain=%f:%f] plot ({%i+%f*cos(\\x)}, {%i+%f*sin(\\x)});\n",
  723.     tikz_options(pm->color[0],pm->fill),
  724.       pm->pd[4],pm->pd[5],pm->p[0],pm->p[2]*0.5,flip(pm->p[1]),pm->p[3]*(-0.5));
  725.   }
  726.   /*FIXME echelle mauvaise*/
  727.   if(vimg_enable) vimg_arc(scale_buf[0],scale_buf[1],
  728.                      0.5*pm->pd[2],0.5*pm->pd[3],pm->pd[4],pm->pd[5]);
  729. }
  730.  
  731. void obj_angle(objparm *pm)
  732. {
  733.   const double DEG=M_PI/180;
  734.   double dpts[6];
  735.   int pts[6], wx=rint(2*pm->pd[2]*xscale), wy=rint(2*pm->pd[2]*yscale);
  736.   dpts[0]=pm->pd[0];
  737.   dpts[1]=pm->pd[1];
  738.   dpts[2]=pm->pd[0]+pm->pd[2]*cos(DEG*pm->pd[3]);
  739.   dpts[3]=pm->pd[1]+pm->pd[2]*sin(DEG*pm->pd[3]);
  740.   dpts[4]=pm->pd[0]+pm->pd[2]*cos(DEG*pm->pd[4]);
  741.   dpts[5]=pm->pd[1]+pm->pd[2]*sin(DEG*pm->pd[4]);
  742.   scale(dpts, pts, 3);
  743.   gdImageLine(image,pts[0],pts[1],pts[2],pts[3],pm->color[0]);
  744.   gdImageLine(image,pts[0],pts[1],pts[4],pts[5],pm->color[0]);
  745.   gdImageArc(image,pts[0],pts[1],wx,wy,rint(pm->pd[3]),rint(pm->pd[4]),pm->color[0]);
  746.   if(tikz_file) {
  747.     fprintf(tikz_file, "\\draw\[%s, domain=%f:%f] plot ({%i+%f*cos(\\x)}, {%i+%f*sin(\\x)});\n",
  748.       tikz_options(pm->color[0],pm->fill),pm->pd[3],pm->pd[4],pts[0],wx*0.5,flip(pts[1]),wy*(-0.5));
  749.     fprintf(tikz_file, "\\draw\[%s] (%i, %i) -- (%i, %i) (%i, %i) -- (%i, %i);\n",
  750.         tikz_options(pm->color[0],pm->fill),pts[0],flip(pts[1]),pts[2],flip(pts[3]),pts[0],flip(pts[1]),pts[4],flip(pts[5]));
  751.   }
  752. }
  753. /* Ellipse: centre 0,1, width 2, hight 3, color 4,5,6 */
  754. void obj_ellipse(objparm *pm)
  755. {
  756.   scale(pm->pd,pm->p,1);
  757.   pm->p[2]=pm->pd[2]*xscale; pm->p[3]=pm->pd[3]*yscale;
  758.   if(pm->fill==1 || pm->fill==2) {
  759.     gdImageArc(image,pm->p[0],pm->p[1],pm->p[2],pm->p[3],0,360,
  760.              color_bounder);
  761.     patchgdImageFillToBorder(image,pm->p[0],pm->p[1],
  762.                     color_bounder,pm->color[0]);
  763.   }
  764.   gdImageArc(image,pm->p[0],pm->p[1],rint(pm->p[2]),rint(pm->p[3]),0,360,pm->color[0]);
  765.   if(tikz_file) fprintf(tikz_file,"\\draw\[%s] (%i,%i) ellipse (%i and %i);\n\n",
  766.     tikz_options(pm->color[0],pm->fill),pm->p[0],flip(pm->p[1]),(int) rint(0.5*pm->p[2]),(int) rint(0.5*pm->p[3]));
  767.   if(vimg_enable) vimg_ellipse(scale_buf[0],scale_buf[1],0.5*pm->pd[2],0.5*pm->pd[3]);
  768. }
  769.  
  770. /* Circle radius in pixels*/
  771. void obj_circle(objparm *pm)
  772. {
  773.   scale(pm->pd,pm->p,1);
  774.   pm->p[2]=rint(pm->pd[2]); pm->p[3]=rint(pm->pd[2]);
  775.   if(pm->fill==1 || pm->fill==2) {
  776.     gdImageArc(image,pm->p[0],pm->p[1],pm->p[2],pm->p[3],0,360,
  777.              color_bounder);
  778.     patchgdImageFillToBorder(image,pm->p[0],pm->p[1],
  779.                     color_bounder,pm->color[0]);
  780.   }
  781.   gdImageArc(image,pm->p[0],pm->p[1],pm->p[2],pm->p[3],0,360,pm->color[0]);
  782.   if(tikz_file) fprintf(tikz_file, "\\draw\[%s] (%i, %i) circle (%i);\n",
  783.       tikz_options(pm->color[0],pm->fill),pm->p[0],flip(pm->p[1]),(int) rint(pm->pd[2]/2.));
  784. }
  785. /* Circle, radius in xrange */
  786. void obj_circles(objparm *pm)
  787. {
  788.   int i, n;
  789.   n=(pm->pcnt)/3;
  790.   for (i=0; i<n; ++i) scale(pm->pd+3*i, pm->p+3*i, 1);
  791.   if (tikz_file) fprintf(tikz_file,"\\draw\[%s]",tikz_options(pm->color[0],pm->fill));
  792.   for(i=0;i<3*n;i+=3){
  793.     if(pm->fill==1 || pm->fill==2) {
  794.       gdImageArc(image,pm->p[i],pm->p[i+1],
  795.         rint(2*pm->pd[i+2]*xscale),rint(2*pm->pd[i+2]*xscale),0,360,
  796.           color_bounder);
  797.       patchgdImageFillToBorder(image,pm->p[i],pm->p[i+1],
  798.                     color_bounder,pm->color[0]);
  799.     }
  800.     gdImageArc(image,pm->p[i],pm->p[i+1],
  801.         rint(2*pm->pd[i+2]*xscale),rint(2*pm->pd[i+2]*xscale),0,360,pm->color[0]);
  802.     if (tikz_file){
  803.       fprintf(tikz_file, "(%i, %i) circle (%i and %i)",
  804.         pm->p[i],flip(pm->p[i+1]),(int) rint(pm->pd[i+2]*xscale),(int) rint(pm->pd[i+2]*xscale));
  805.     }
  806.   }
  807.   if (tikz_file) fprintf(tikz_file,";\n");
  808. }
  809. /* ellipse, width in xrange,height in yrange */
  810. void obj_ellipses(objparm *pm)
  811. {
  812.   int i, n;
  813.   n=(pm->pcnt)/4;
  814.   for (i=0; i<n; ++i) scale(pm->pd+4*i, pm->p+4*i, 1);
  815.   if (tikz_file) fprintf(tikz_file,"\\draw\[%s]",tikz_options(pm->color[0],pm->fill));
  816.   for(i=0;i<4*n;i+=4){
  817.     if(pm->fill==1 || pm->fill==2){
  818.       gdImageArc(image,pm->p[i],pm->p[i+1],
  819.         rint(pm->pd[i+2]*xscale),rint(pm->pd[i+2]*xscale),0,360,
  820.         color_bounder);
  821.       patchgdImageFillToBorder(image,pm->p[i],pm->p[i+1],
  822.         color_bounder,pm->color[0]);
  823.     } else
  824.       gdImageArc(image,pm->p[i],pm->p[i+1],rint(pm->pd[i+2]*xscale),rint(pm->pd[i+3]*yscale),0,360,pm->color[0]);
  825.     if (tikz_file){
  826.       fprintf(tikz_file, "(%i, %i) circle (%i and %i)",
  827.         pm->p[i],flip(pm->p[i+1]),(int) rint(pm->pd[i+2]*xscale/2),(int) rint(pm->pd[i+3]*yscale/2));
  828.     }
  829.   }
  830.   if (tikz_file) fprintf(tikz_file,";\n");
  831. }
  832. typedef enum tikz_fill_options {grid, dot, hatch, diamond} tfo;
  833. int compar(const void *a, const void *b) {return *(int *)b - *(int *)a;}
  834.  
  835. static void tikz_fill(int x, int y, int nx, int ny, int wall, int the_color, tfo opt)
  836. {
  837.   int numpix=sizex*sizey, top = 0, a, c, cy, lx=0, rx=0, seed, nt,ct=0;
  838.   int *stack = xmalloc(numpix*sizeof(int));
  839.   int *stack2 = xmalloc(numpix*sizeof(int));
  840.   if (nx==0) nx=1;
  841.   if (ny==0) ny=1;
  842.   nt = abs(nx*ny);
  843.   seed = gdImageGetPixel(image,x,y);
  844.   char *check = xmalloc(numpix);
  845.   while (numpix--) check[numpix]=0;
  846.   a=x+y*sizex;
  847.   check[a]=1;
  848.   stack[top++]=a;
  849.   while(top)
  850.     {
  851.       a = stack[--top];
  852.       x = a%sizex; y = a/sizex;
  853.       c = gdImageGetPixel(image,x,y);
  854.       if ((wall && (c == wall))||(!wall && c!=seed))
  855.         continue;
  856.       if (x>0 && !check[a-1]) {check[a-1]=1; stack[top++]=a-1;}
  857.       if (x+1<sizex && !check[a+1]) {check[a+1]=1; stack[top++]=a+1;}
  858.       if (y>0 && !check[a-sizex]) {check[a-sizex]=1; stack[top++]=a-sizex;}
  859.       if (y+1<sizey && !check[a+sizex]) {check[a+sizex]=1; stack[top++]=a+sizex;}
  860.       switch(opt)
  861.   {
  862.   case grid: if(((x%nx)!=(nx/2))&&((y%ny)!=(ny/2))) continue; break;
  863.   case dot: if(x%nx!=nx/2||y%ny!=ny/2) continue; break;
  864.   case hatch: if((ny*x-nx*y+nt)%nt) continue; break;
  865.   case diamond: if((ny*x+nx*y)%nt && (ny*x-nx*y+nt)%nt)continue;
  866.   default: break;
  867.   }
  868.       stack2[ct++]=a;
  869.     }
  870.   free(stack);
  871.   free(check);
  872.   if (ct==0) return;
  873.   fprintf(tikz_file,"\\draw\[%s]", tikz_options(the_color,1));
  874.   qsort(stack2, ct, sizeof(int), compar);
  875.   cy=-1;
  876.   while (ct--)
  877.     {
  878.       a = stack2[ct];
  879.       x = a%sizex; y = a/sizex;
  880.       if (y != cy || x != rx+1)
  881.       {
  882.   if (cy >= 0)
  883.     fprintf(tikz_file,
  884.       "(%.2f,%.2f)rectangle(%.2f,%.2f)",
  885.       lx-0.0,flip(cy-0.0),rx+0.0,flip(cy+0.0));
  886.   cy = y;
  887.   lx = rx = x;
  888.       }
  889.       else
  890.   rx++;
  891.     }
  892.   fprintf(tikz_file,
  893.     "(%.2f,%.2f)rectangle(%.2f,%.2f);\n",
  894.      lx-0.0,flip(cy-0.0),rx+0.0,flip(cy+0.0));
  895.   free(stack2);
  896. }
  897. void obj_dashed(objparm *pm){ dashed=1;}
  898. void obj_filled(objparm *pm){ filled=1;}
  899. void obj_noreset(objparm *pm){ noreset=1;}
  900. void obj_reset(objparm *pm){ noreset=0;dashed=0;filled=0;}
  901.  
  902. /* flood fill */
  903. void obj_fill(objparm *pm)
  904. {
  905.   scale(pm->pd,pm->p,1);
  906.   if (tikz_file) tikz_fill(pm->p[0],pm->p[1],1,1,0,pm->color[0],grid);
  907.   patchgdImageFill(image,pm->p[0],pm->p[1],pm->color[0]);
  908. }
  909.  
  910. /* flood fill to border*/
  911. void obj_fillb(objparm *pm)
  912. {
  913.   scale(pm->pd,pm->p,1);
  914.   if (tikz_file) tikz_fill(pm->p[0],pm->p[1],1,1,pm->color[0],pm->color[1],grid);
  915.   patchgdImageFillToBorder(image,pm->p[0],pm->p[1],pm->color[0],pm->color[1]);
  916. }
  917.  
  918. gdImagePtr himg;
  919.  
  920. int makehatchimage(int x, int y, int px, int py, int col)
  921. {
  922.   int c1,c2,r,g,b;
  923.   gdImagePtr saveimg;
  924.   himg=gdImageCreate(x,y);
  925.   c1=gdImageGetPixel(image,px,py);
  926.   r=gdImageRed(image,c1); g=gdImageGreen(image,c1); b=gdImageBlue(image,c1);
  927.   if(r>=255) r--; else r++; if(g>=255) g--; else g++; if(b>=255) b--; else b++;
  928.   c1=gdImageColorAllocate(himg,r,g,b);
  929.   r=gdImageRed(image,col); g=gdImageGreen(image,col); b=gdImageBlue(image,col);
  930.   c2=gdImageColorAllocate(himg,r,g,b);
  931.   if(width>1) {
  932.     savew=-1; saveimg=image;
  933.     image=himg; c2=widthcolor(width,c2); image=saveimg;
  934.     c2=gdBrushed; savew=-1;
  935.   }
  936.   return c2;
  937. }
  938.  
  939. /* flood fill with hatching */
  940. void obj_hatchfill(objparm *pm)
  941. {
  942.   int nx,ny,ax,ay, dir, c;
  943.   scale(pm->pd,pm->p,1);
  944.   nx=pm->pd[2]; ny=pm->pd[3]; ax=abs(nx); ay=abs(ny);
  945.   if(nx==0 && ny==0) {fly_error("bad displacement vector"); return;}
  946.   if((nx>0 && ny>0) || (nx<0 && ny<0)) dir=1; else dir=-1;
  947.   if(ax==0) {ax=100; dir=2;}
  948.   if(ay==0) {ay=100; dir=3;}
  949.   c=makehatchimage(ax,ay,pm->p[0],pm->p[1],pm->color[0]);
  950.   switch(dir) {
  951.     case -1: {
  952.       gdImageLine(himg,0,ay-1,ax-1,0,c);
  953.       if(width>1) {
  954.         gdImageLine(himg,-ax,ay-1,-1,0,c);
  955.         gdImageLine(himg,ax,ay-1,2*ax-1,0,c);
  956.         gdImageLine(himg,0,-1,ax-1,-ay,c);
  957.         gdImageLine(himg,0,2*ay-1,ax-1,ay,c);
  958.       }
  959.       break;
  960.     }
  961.     case 1: {
  962.       gdImageLine(himg,0,0,ax-1,ay-1,c);
  963.       if(width>1) {
  964.         gdImageLine(himg,-ax,0,-1,ay-1,c);
  965.         gdImageLine(himg,ax,0,2*ax-1,ay-1,c);
  966.         gdImageLine(himg,0,-ay,ax-1,-1,c);
  967.         gdImageLine(himg,0,ay,ax-1,2*ay-1,c);
  968.       }
  969.       break;
  970.     }
  971.     case 2: gdImageLine(himg,0,ay/2,ax-1,ay/2,c); break;
  972.     case 3: gdImageLine(himg,ax/2,0,ax/2,ay-1,c); break;
  973.   }
  974.   if (tikz_file) tikz_fill(pm->p[0],pm->p[1],nx,ny,0,pm->color[0],hatch);
  975.   gdImageSetTile(image,himg);
  976.   patchgdImageFill(image,pm->p[0],pm->p[1],gdTiled);
  977.   gdImageDestroy(himg);
  978.   if(tiled) gdImageSetTile(image,tileimg);
  979. }
  980.  
  981. /* flood fill with grid */
  982. void obj_gridfill(objparm *pm)
  983. {
  984.   int nx,ny, c;
  985.   scale(pm->pd,pm->p,1);
  986.   nx=pm->pd[2]; ny=pm->pd[3]; nx=abs(nx); ny=abs(ny);
  987.   if(nx==0 && ny==0) {fly_error("bad grid size"); return;}
  988.   c=makehatchimage(nx,ny,pm->p[0],pm->p[1],pm->color[0]);
  989.   if (tikz_file) tikz_fill(pm->p[0],pm->p[1],nx,ny,0,pm->color[0],grid);
  990.   gdImageLine(himg,0,ny/2,nx-1,ny/2,c); gdImageLine(himg,nx/2,0,nx/2,ny-1,c);
  991.   gdImageSetTile(image,himg);
  992.   patchgdImageFill(image,pm->p[0],pm->p[1],gdTiled);
  993.   gdImageDestroy(himg);
  994.   if(tiled) gdImageSetTile(image,tileimg);
  995. }
  996.  
  997. /* flood fill with double hatching */
  998. void obj_diafill(objparm *pm)
  999. {
  1000.   int nx,ny, c;
  1001.   scale(pm->pd,pm->p,1);
  1002.   nx=pm->pd[2]; ny=pm->pd[3]; nx=abs(nx); ny=abs(ny);
  1003.   if(nx==0 && ny==0) {fly_error("bad grid size"); return;}
  1004.   c=makehatchimage(nx,ny,pm->p[0],pm->p[1],pm->color[0]);
  1005.   if (tikz_file) tikz_fill(pm->p[0],pm->p[1],nx,ny,0,pm->color[0],diamond);
  1006.   gdImageLine(himg,0,0,nx-1,ny-1,c); gdImageLine(himg,0,ny-1,nx-1,0,c);
  1007.   gdImageSetTile(image,himg);
  1008.   patchgdImageFill(image,pm->p[0],pm->p[1],gdTiled);
  1009.   gdImageDestroy(himg);
  1010.   if(tiled) gdImageSetTile(image,tileimg);
  1011. }
  1012.  
  1013. /* flood fill with dots */
  1014. void obj_dotfill(objparm *pm)
  1015. {
  1016.   int nx,ny, c;
  1017.   scale(pm->pd,pm->p,1);
  1018.   nx=pm->pd[2]; ny=pm->pd[3]; nx=abs(nx); ny=abs(ny);
  1019.   if(nx==0 && ny==0) {fly_error("bad grid size"); return;}
  1020.   c=makehatchimage(nx,ny,pm->p[0],pm->p[1],pm->color[0]);
  1021.   if (tikz_file) tikz_fill(pm->p[0],pm->p[1],nx,ny,0,pm->color[0],dot);
  1022.   gdImageSetPixel(himg,nx/2,ny/2,c);
  1023.   gdImageSetTile(image,himg);
  1024.   patchgdImageFill(image,pm->p[0],pm->p[1],gdTiled);
  1025.   gdImageDestroy(himg);
  1026.   if(tiled) gdImageSetTile(image,tileimg);
  1027. }
  1028.  
  1029. struct {
  1030.   char *name;
  1031.   gdFontPtr *fpt;
  1032.   char *ftikz;
  1033. } fonttab[]={
  1034.   {"tiny",  &gdFontTiny,"0.3"},
  1035.   {"small", &gdFontSmall,"0.5"},
  1036.   {"medium",&gdFontMediumBold,"0.7"},
  1037.   {"large", &gdFontLarge,"0.9"},
  1038.   {"giant", &gdFontGiant,"1"},
  1039.   {"huge",  &gdFontGiant,"1"}
  1040. };
  1041.  
  1042. #define fonttab_no (sizeof(fonttab)/sizeof(fonttab[0]))
  1043.  
  1044. /* string */
  1045. void obj_string(objparm *pm)
  1046. {
  1047.   char *pp, *pe, *p2;
  1048.   int i;
  1049.   pp=pm->str; pe=strchr(pp,','); if(pe==NULL) {
  1050.     fly_error("too_few_parms"); return;
  1051.   }
  1052.   *pe++=0; pp=find_word_start(pp); *find_word_end(pp)=0;
  1053.   pe=find_word_start(pe); strip_trailing_spaces(pe);
  1054.   if(*pp) {
  1055.     for(i=0;i<fonttab_no && strcmp(pp,fonttab[i].name)!=0; i++);
  1056.     if(i>=fonttab_no) i=1;
  1057.   }
  1058.   else i=1;
  1059.   scale(pm->pd,pm->p,1);
  1060.   if(*pe=='"') {
  1061.     p2=strchr(pe+1,'"');
  1062.     if(p2 && *(p2+1)==0) {*p2=0; pe++;}
  1063.   }
  1064.   if(pm->fill){
  1065.     gdImageStringUp(image,*(fonttab[i].fpt),pm->p[0],pm->p[1], (unsigned char*) pe,
  1066.         pm->color[0]);
  1067.     if(tikz_file) fprintf(tikz_file,"\\draw (%i,%i) node[scale=%s,rotate=90,color=%s,anchor=north west,inner sep=0pt] {\\(%s\\)};\n",
  1068.       pm->p[0],flip(pm->p[1]),fonttab[i].ftikz,tikz_color(pm->color[0]),(unsigned char*) pe);
  1069.   }
  1070.   else {
  1071.     gdImageString(image,*(fonttab[i].fpt),pm->p[0],pm->p[1], (unsigned char*) pe,
  1072.         pm->color[0]);
  1073.     if(tikz_file) fprintf(tikz_file,"\\draw (%i,%i) node[scale=%s,color=%s,anchor=north west,inner sep=0pt] {\\(%s\\)};\n",
  1074.       pm->p[0],flip(pm->p[1]),fonttab[i].ftikz,tikz_color(pm->color[0]),(unsigned char*) pe);
  1075.   }
  1076. }
  1077. /*FIXME; giant does not exist in tikz and ... samething as huge */
  1078. /* point */
  1079. void obj_point(objparm *pm)
  1080. {
  1081.   scale(pm->pd,pm->p,1);
  1082.   gdImageSetPixel(image,pm->p[0],pm->p[1],pm->color[0]);
  1083.   if(tikz_file) fprintf(tikz_file,"\\draw[%s] (%i,%i) circle (1pt);\n",
  1084.     tikz_options(pm->color[0],0),pm->p[0],flip(pm->p[1]));
  1085. }
  1086.  
  1087. /* copy an image file */
  1088. void obj_copy(objparm *pm)
  1089. {
  1090.   char *pp;
  1091.   FILE *inf;
  1092.   gdImagePtr insimg;
  1093.  
  1094.   pp=find_word_start(pm->str);*find_word_end(pp)=0;
  1095.   inf=open4read(pp);
  1096.   if(inf==NULL) {
  1097.     fly_error("file_does_not_exist"); return;
  1098.   }
  1099.   insimg=gdImageCreateFromGif(inf); fclose(inf);
  1100.   if(insimg==NULL) {
  1101.     fly_error("bad_gif"); return;
  1102.   }
  1103.   scale(pm->pd,pm->p,1);
  1104.   if(pm->pd[2]<0 && pm->pd[3]<0 && pm->pd[4]<0 && pm->pd[5]<0)
  1105.     gdImageCopy(image,insimg,pm->p[0],pm->p[1],0,0,
  1106.             insimg->sx,insimg->sy);
  1107.   else
  1108.     gdImageCopy(image,insimg,pm->p[0],pm->p[1],pm->pd[2],pm->pd[3],
  1109.             pm->pd[4]-pm->pd[2],pm->pd[5]-pm->pd[3]);
  1110.   if(tikz_file) fprintf(tikz_file,
  1111.     "\\node[anchor=north west,inner sep=0pt] at (%i,%i) {\\includegraphics\[width=.05\\linewidth]{%s}};\n",
  1112.       pm->p[0],flip(pm->p[1]),pm->str);
  1113.     gdImageDestroy(insimg);
  1114. /*FIXME position non correcte; on ne peut pas utiliser une image gif */
  1115. }
  1116.  
  1117. /* copy an image file, with resizing */
  1118. void obj_copyresize(objparm *pm)
  1119. {
  1120.   char *pp;
  1121.   FILE *inf;
  1122.   gdImagePtr insimg;
  1123.  
  1124.   pp=find_word_start(pm->str);*find_word_end(pp)=0;
  1125.   inf=open4read(pp);
  1126.   if(inf==NULL) {
  1127.     fly_error("file_not_found"); return;
  1128.   }
  1129.   insimg=gdImageCreateFromGif(inf); fclose(inf);
  1130.   if(insimg==NULL) {
  1131.     fly_error("bad_gif"); return;
  1132.   }
  1133.   scale(pm->pd+4,pm->p+4,2);
  1134.   if(pm->pd[0]<0 && pm->pd[1]<0 && pm->pd[2]<0 && pm->pd[3]<0)
  1135.     gdImageCopyResized(image,insimg,pm->p[4],pm->p[5],0,0,
  1136.                  pm->p[6]-pm->p[4]+1,pm->p[7]-pm->p[5]+1,
  1137.                  insimg->sx,insimg->sy);
  1138.   else
  1139.     gdImageCopyResized(image,insimg,pm->p[4],pm->p[5],pm->pd[0],pm->pd[1],
  1140.                  pm->p[6]-pm->p[4]+1,pm->p[7]-pm->p[5]+1,
  1141.                  pm->pd[2]-pm->pd[0]+1,pm->pd[3]-pm->pd[1]+1);
  1142.   gdImageDestroy(insimg);
  1143. }
  1144.  
  1145. /* set brush or tile */
  1146. void obj_setbrush(objparm *pm)
  1147. {
  1148.   char *pp;
  1149.   FILE *inf;
  1150.   gdImagePtr insimg;
  1151.  
  1152.   pp=find_word_start(pm->str); *find_word_end(pp)=0;
  1153.   inf=open4read(pp); if(inf==NULL) {
  1154.     fly_error("file_not_found"); return;
  1155.   }
  1156.   insimg=gdImageCreateFromGif(inf); fclose(inf);
  1157.   if(insimg==NULL) {
  1158.     fly_error("bad_gif"); return;
  1159.   }
  1160.   if(pm->fill) {
  1161.     gdImageSetTile(image,insimg); tiled=1; tileimg=insimg;
  1162.   }
  1163.   else {
  1164.     gdImageSetBrush(image,insimg);brushed=1; brushimg=insimg;
  1165.   }
  1166. }
  1167.  
  1168. /* kill brush */
  1169. void obj_killbrush(objparm *pm)
  1170. {
  1171.   if(brushimg) gdImageDestroy(brushimg);
  1172.   brushed=0; brushimg=NULL;
  1173. }
  1174.  
  1175. /* kill tile */
  1176. void obj_killtile(objparm *pm)
  1177. {
  1178.   if(tileimg) gdImageDestroy(tileimg);
  1179.   tiled=0; tileimg=NULL;
  1180. }
  1181.  
  1182. /* set style */
  1183. void obj_setstyle(objparm *pm)
  1184. {
  1185.   int i,t;
  1186.   t=pm->pcnt/3; if(t<=0) {
  1187.     fly_error("too_few_parms"); return;
  1188.   }
  1189.   for(i=0;i<t;i++) {
  1190.     if(pm->pd[3*i]<0 || pm->pd[3*i+1]<0 || pm->pd[3*i+2]<0)
  1191.       pm->p[i]=gdTransparent;
  1192.     else
  1193.       pm->p[i]=getcolor(pm->pd[3*i],pm->pd[3*i+1],pm->pd[3*i+2]);
  1194.   }
  1195.   gdImageSetStyle(image,pm->p,t); styled=1;
  1196. }
  1197.  
  1198. /* kill style */
  1199. void obj_killstyle(objparm *pm)
  1200. {
  1201.   styled=0;
  1202. }
  1203.  
  1204. /* set transparent */
  1205. void obj_transp(objparm *pm)
  1206. {
  1207.   gdImageColorTransparent(image,pm->color[0]);
  1208. }
  1209.  
  1210. /* set interlace */
  1211. void obj_interlace(objparm *pm)
  1212. {
  1213.   gdImageInterlace(image,1);
  1214. }
  1215.  
  1216. /* set linewidth */
  1217. void obj_linewidth(objparm *pm)
  1218. {
  1219.   if(pm->pd[0]<1 || pm->pd[0]>255) fly_error("bad_parms");
  1220.   width=pm->pd[0];
  1221.   if(tikz_file) fprintf(tikz_file,"\\pgfsetlinewidth{%fpt}\n",width*0.7);
  1222. }
  1223.  
  1224. /* set crosshairsize */
  1225. void obj_crosshairsize(objparm *pm)
  1226. {
  1227.   if(pm->pd[0]<1 || pm->pd[0]>255) fly_error("bad_parms");
  1228.   else width2=pm->pd[0];
  1229. }
  1230.  
  1231. /* set x range */
  1232. void obj_xrange(objparm *pm)
  1233. {
  1234.   double dd;
  1235.   dd=pm->pd[1]-pm->pd[0];
  1236.   xstart=pm->pd[0]; xscale=sizex/dd;
  1237. }
  1238.  
  1239. /* set y range */
  1240. void obj_yrange(objparm *pm)
  1241. {
  1242.   double dd;
  1243.   dd=pm->pd[1]-pm->pd[0];
  1244.   ystart=pm->pd[1]; yscale=-sizey/dd;
  1245. }
  1246.  
  1247. /* set x et y range */
  1248. void obj_range(objparm *pm)
  1249. {
  1250.   double d1,d2;
  1251.   d1=pm->pd[1]-pm->pd[0]; d2=pm->pd[3]-pm->pd[2];
  1252.   xstart=pm->pd[0]; xscale=(sizex-1)/d1;
  1253.   ystart=pm->pd[3]; yscale=-(sizey-1)/d2;
  1254. }
  1255.  
  1256. /* set t range */
  1257. void obj_trange(objparm *pm)
  1258. {
  1259.   /*double dd;
  1260.   dd=pm->pd[1]-pm->pd[0];*/
  1261.   tstart=pm->pd[0]; tend=pm->pd[1];
  1262.   tranged=1;
  1263. }
  1264.  
  1265. /* set tstep (plotting step) */
  1266. void obj_tstep(objparm *pm)
  1267. {
  1268.   int dd;
  1269.   dd=pm->pd[0];
  1270.   if(dd<3) {
  1271.     fly_error("bad_step"); return;
  1272.   }
  1273.   if(dd>2000) dd=2000;
  1274.   tstep=dd;
  1275. }
  1276.  
  1277. /* set plotjump (plot jump break threashold) */
  1278. void obj_plotjump(objparm *pm)
  1279. {
  1280.   int dd;
  1281.   dd=pm->pd[0];
  1282.   if(dd<3) dd=3;
  1283.   if(dd>MAX_SIZE) dd=MAX_SIZE;
  1284.   plotjump=dd;
  1285. }
  1286.  
  1287. /* plot a curve, either parametric or explicit */
  1288. void _obj_plot(objparm *pm,int dash)
  1289. {
  1290.   int i,j,n,dist,xx,yy,varpos;
  1291.   char p1[MAX_LINELEN+1], p2[MAX_LINELEN+1];
  1292.   char *varn, *pp;
  1293.   double dc[2],t,v;
  1294.   int ic[2],oc[2];
  1295.  
  1296.   n=itemnum(pm->str);
  1297.   if(n<1) {
  1298.     fly_error("bad_parms"); return;
  1299.   }
  1300.   fnd_item(pm->str,1,p1); fnd_item(pm->str,2,p2);
  1301.   if(n==1 && !tranged) v=sizex/xscale/tstep;
  1302.   else v=(tend-tstart)/tstep;
  1303.   if(n==1) varn="x"; else varn="t";
  1304.   for(pp=varchr(p1,varn); pp; pp=varchr(pp,varn)) {
  1305.     string_modify(p1,pp,pp+strlen(varn),EV_T);
  1306.     pp+=strlen(EV_T);
  1307.   }
  1308.   for(pp=varchr(p2,varn); pp; pp=varchr(pp,varn)) {
  1309.     string_modify(p2,pp,pp+strlen(varn),EV_T);
  1310.       pp+=strlen(EV_T);
  1311.   }
  1312.   varpos=eval_getpos(EV_T);
  1313.   if(varpos<0) return; /* unknown error */
  1314.   evalue_compile(p1); evalue_compile(p2);
  1315.   if(vimg_enable) vimg_plotstart();
  1316.   if (tikz_file) fprintf(tikz_file,"\%\%begin plot\n\\draw\[%s]",
  1317.     tikz_options(pm->color[0],-dash));
  1318.   for(i=j=0;i<=tstep;i++) {
  1319.     if(n==1) {
  1320.       if(tranged) t=tstart+i*v; else t=xstart+i*v;
  1321.       eval_setval(varpos,t); dc[0]=t; dc[1]=strevalue(p1);
  1322.     }
  1323.     else {
  1324.       t=tstart+i*v; eval_setval(varpos,t);
  1325.       dc[0]=strevalue(p1); dc[1]=strevalue(p2);
  1326.     }
  1327.     if(!isfinite(dc[0]) || !isfinite(dc[1])) ic[0]=ic[1]=-BOUND;
  1328.     else scale(dc,ic,1);
  1329.     if(vimg_enable) vimg_plot1 (scale_buf[0],scale_buf[1]);
  1330.     if(j==0) {
  1331.       gdImageSetPixel(image,ic[0],ic[1],pm->color[0]); j++;
  1332.       if (tikz_file)
  1333.         fprintf(tikz_file,"(%i,%i)rectangle(%i,%i)",
  1334.           ic[0],flip(ic[1]),ic[0]+1,flip(ic[1]+1));
  1335.     }
  1336.     else {
  1337.       xx=ic[0]-oc[0]; yy=ic[1]-oc[1];
  1338.       dist=sqrt(xx*xx+yy*yy);
  1339.       if(dist>0){
  1340.         if(dist>plotjump || dist==1) {
  1341.           gdImageSetPixel(image,ic[0],ic[1],pm->color[0]);
  1342.           if (tikz_file)
  1343.             fprintf(tikz_file,"(%i,%i)rectangle(%i,%i)",
  1344.               ic[0],flip(ic[1]),ic[0]+1,flip(ic[1]+1));
  1345.         }
  1346.         else {
  1347.           if (dash==1)
  1348.             myDashedLine(image,oc[0],oc[1],ic[0],ic[1],pm->color[0]);
  1349.           else
  1350.             gdImageLine(image,oc[0],oc[1],ic[0],ic[1],pm->color[0]);
  1351.           if (tikz_file)
  1352.             fprintf(tikz_file, "(%i,%i)--(%i,%i)",
  1353.                 oc[0],flip(oc[1]),ic[0],flip(ic[1]));
  1354.         }
  1355.       }
  1356.     }
  1357.     memmove(oc,ic,sizeof(oc));
  1358.   }
  1359.   if (tikz_file) fprintf(tikz_file,";\n\%\%end plot\n");
  1360.   if(vimg_enable) vimg_plotend();
  1361. }
  1362.  
  1363. void obj_plot(objparm *pm) { _obj_plot( pm,0) ;}
  1364. void obj_dplot(objparm *pm) { _obj_plot( pm,1) ; }
  1365.  
  1366. /* set levelcurve granularity */
  1367. void obj_levelstep(objparm *pm)
  1368. {
  1369.   int dd;
  1370.   dd=pm->pd[0];
  1371.   if(dd<1) return;
  1372.   if(dd>16) dd=16;
  1373.   lstep=dd;
  1374. }
  1375.  
  1376. /* level curve */
  1377. void obj_levelcurve(objparm *pm)
  1378. {
  1379.   char fn[MAX_LINELEN+1],tc[MAX_LINELEN+1];
  1380.   int n,i;
  1381.   double d;
  1382.   leveldata *ld;
  1383.  
  1384.   ld=xmalloc(sizeof(leveldata)+16);
  1385.   ld->xname="x"; ld->yname="y";
  1386.   ld->xsize=sizex; ld->ysize=sizey; ld->datacnt=0;
  1387.   ld->xrange[0]=xstart; ld->xrange[1]=sizex/xscale+xstart;
  1388.   ld->yrange[0]=sizey/yscale+ystart; ld->yrange[1]=ystart;
  1389.   ld->grain=lstep;
  1390.   fnd_item(pm->str,1,fn); ld->fn=fn;
  1391.   n=itemnum(pm->str);
  1392.   if(n<=1) {ld->levelcnt=1; ld->levels[0]=0;}
  1393.   else {
  1394.     if(n>LEVEL_LIM+1) n=LEVEL_LIM+1;
  1395.     for(i=0;i<n-1;i++) {
  1396.       fnd_item(pm->str,i+2,tc);
  1397.       d=strevalue(tc);
  1398.       if(isfinite(d)) ld->levels[i]=d; else ld->levels[i]=0;
  1399.     }
  1400.     ld->levelcnt=n-1;
  1401.   }
  1402.   levelcurve(ld);
  1403.   if (tikz_file)
  1404.     fprintf(tikz_file,"\%\%begin levelcurve\n\\draw\[%s]"
  1405.       ,tikz_options(pm->color[0],1));
  1406.   for(i=0;i<ld->datacnt;i++) {
  1407.     gdImageSetPixel(image,ld->xdata[i],ld->ydata[i],pm->color[0]);
  1408.     if (tikz_file)
  1409.       fprintf(tikz_file,
  1410.         "(%i,%i)rectangle(%i,%i)",
  1411.         ld->xdata[i],flip(ld->ydata[i]),ld->xdata[i]+1,flip(ld->ydata[i]+1));
  1412.   }
  1413.   if (tikz_file) fprintf(tikz_file,";\n\%\%end levelcurve\n");
  1414.   free(ld);
  1415. }
  1416.  
  1417. /* set animation step */
  1418. void obj_animstep(objparm *pm)
  1419. {
  1420.   animstep=pm->pd[0];
  1421.   setvar("animstep",pm->pd[0]);
  1422. }
  1423.  
  1424. /* Starts a line counting */
  1425. void obj_linecount(objparm *pm)
  1426. {
  1427.   linecnt=pm->pd[0];
  1428. }
  1429.  
  1430. /* marks end of execution */
  1431. void obj_end(objparm *pm)
  1432. {
  1433.   fly_error("successful_end_of_execution");
  1434. }
  1435.  
  1436. /* output */
  1437. void obj_output(objparm *pm)
  1438. {
  1439.   char *p, namebuf[1024];
  1440.   p=find_word_start(pm->str); *find_word_end(p)=0;
  1441.   snprintf(namebuf,sizeof(namebuf),"%s",imagefilename);
  1442.   snprintf(imagefilename,sizeof(imagefilename),"%s",p);
  1443.   output();
  1444.   snprintf(imagefilename,sizeof(imagefilename),"%s",namebuf);
  1445. }
  1446.  
  1447. /* vimgfile */
  1448. void obj_vimgfile(objparm *pm)
  1449. {
  1450.   char *p;
  1451.   p=find_word_start(pm->str); *find_word_end(p)=0;
  1452.   snprintf(vimgfilename,sizeof(vimgfilename),"%s",p);
  1453.   if(vimg_ready) vimg_close();
  1454. }
  1455.  
  1456. /* vimg enable/disable */
  1457. void obj_vimg(objparm *pm)
  1458. {
  1459.   vimg_enable=pm->pd[0];
  1460.   if(vimg_enable>0 && vimg_ready==0) vimg_init();
  1461. }
  1462.  
  1463. /* Set affine transformation */
  1464. void obj_affine(objparm *pm)
  1465. {
  1466.   int i;
  1467.   for(i=0;i<4;i++) matrix[i]=pm->pd[i];
  1468.   transx=pm->pd[4]; transy=pm->pd[5];
  1469.   transform=1;
  1470. }
  1471.  
  1472. /* Set affine transformation */
  1473. void obj_rotation(objparm *pm)
  1474. {
  1475.   double r;
  1476.   r=M_PI*pm->pd[0]/180;
  1477.   matrix[0]=matrix[3]=cos(r);
  1478.   matrix[1]=-sin(r); matrix[2]=sin(r);
  1479.   transform=1;
  1480. }
  1481.  
  1482. /* Set linear transformation */
  1483. void obj_linear(objparm *pm)
  1484. {
  1485.   int i;
  1486.   for(i=0;i<4;i++) matrix[i]=pm->pd[i];
  1487.   transform=1;
  1488. }
  1489.  
  1490. /* Set translation transformation */
  1491. void obj_translation(objparm *pm)
  1492. {
  1493.   transx=pm->pd[0]; transy=pm->pd[1];
  1494. }
  1495.  
  1496. /* kill affine transformation */
  1497. void obj_killaffine(objparm *pm)
  1498. {
  1499.   matrix[0]=matrix[3]=1;
  1500.   matrix[1]=matrix[2]=transx=transy=0;
  1501.   transform=0;
  1502. }
  1503.  
  1504. /* kill affine transformation */
  1505. void obj_killlinear(objparm *pm)
  1506. {
  1507.   matrix[0]=matrix[3]=1;
  1508.   matrix[1]=matrix[2]=0;
  1509.   transform=0;
  1510. }
  1511.  
  1512. /* kill affine transformation */
  1513. void obj_killtranslation(objparm *pm)
  1514. {
  1515.   transx=transy=0;
  1516. }
  1517.  
  1518. /***** Les modifs de Jean-Christophe Leger Fev 2006 *****/
  1519.  
  1520. /* arguments: un numero de matrice entre 1 et JC_NB_MATRICES, une liste de 4 nombres reels pour la matrice */
  1521. void obj_setmatrix(objparm *pm)
  1522. {
  1523.   int nummatrix = (int) (pm->pd[0]);
  1524.   if((nummatrix < 1) ||(nummatrix>JC_NB_MATRICES)) {
  1525.     fly_error("bad_matrix_number");
  1526.     return;
  1527.   }
  1528.   matrices_pavage[nummatrix][0] = pm->pd[1];
  1529.   matrices_pavage[nummatrix][1] = pm->pd[2];
  1530.   matrices_pavage[nummatrix][2] = pm->pd[3];
  1531.   matrices_pavage[nummatrix][3] = pm->pd[4];
  1532. }
  1533.  
  1534. /* arguments: un numero de matrice entre 1 et JC_NB_MATRICES */
  1535. void obj_resetmatrix(objparm *pm)
  1536. {
  1537.   int nummatrix = (int) (pm->pd[0]);
  1538.   if((nummatrix < 1) ||(nummatrix>JC_NB_MATRICES)) {
  1539.     fly_error("bad_matrix_number");
  1540.     return;
  1541.   }
  1542.   matrices_pavage[nummatrix][0] = 1;
  1543.   matrices_pavage[nummatrix][1] = 0;
  1544.   matrices_pavage[nummatrix][2] = 0;
  1545.   matrices_pavage[nummatrix][3] = 1;
  1546.  
  1547. }
  1548. /* arguments: un numero de vecteur entre 1 et JC_NB_MATRICES, une liste de 2 nombres reels pour le vecteur */
  1549. void obj_setvector(objparm *pm)
  1550. {
  1551.   int nummatrix = (int) (pm->pd[0]);
  1552.   if((nummatrix < 1) ||(nummatrix>JC_NB_MATRICES)) {
  1553.     fly_error("bad_vector_number");
  1554.     return;
  1555.   }
  1556.   vecteurs_pavage[nummatrix][0] = pm->pd[1];
  1557.   vecteurs_pavage[nummatrix][1] = pm->pd[2];
  1558. }
  1559.  
  1560. /* arguments: un numero de matrice entre 1 et JC_NB_MATRICES */
  1561. void obj_resetvector(objparm *pm)
  1562. {
  1563.   int nummatrix = (int) (pm->pd[0]);
  1564.   if((nummatrix < 1) ||(nummatrix>JC_NB_MATRICES)) {
  1565.     fly_error("bad_vector_number");
  1566.     return;
  1567.   }
  1568.   vecteurs_pavage[nummatrix][0] = 0;
  1569.   vecteurs_pavage[nummatrix][1] = 0;
  1570. }
  1571.  
  1572. /* arguments: un numero de vecteur entre 1 et JC_NB_MATRICES, une liste de 6 nombres reels pour la matrice et le vecteur */
  1573. void obj_settransform(objparm *pm)
  1574. {
  1575.   int nummatrix = (int) (pm->pd[0]);
  1576.   if((nummatrix < 1) ||(nummatrix>JC_NB_MATRICES)) {
  1577.     fly_error("bad_vector_number");
  1578.     return;
  1579.   }
  1580.   matrices_pavage[nummatrix][0] = pm->pd[1];
  1581.   matrices_pavage[nummatrix][1] = pm->pd[2];
  1582.   matrices_pavage[nummatrix][2] = pm->pd[3];
  1583.   matrices_pavage[nummatrix][3] = pm->pd[4];
  1584.   vecteurs_pavage[nummatrix][0] = pm->pd[5];
  1585.   vecteurs_pavage[nummatrix][1] = pm->pd[6];
  1586. }
  1587.  
  1588.  
  1589. /* arguments: un numero de matrice entre 1 et JC_NB_MATRICES */
  1590. void obj_resettransform(objparm *pm)
  1591. {
  1592.   int nummatrix = (int) (pm->pd[0]);
  1593.   if((nummatrix < 1) ||(nummatrix>JC_NB_MATRICES)) {
  1594.     fly_error("bad_vector_number");
  1595.     return;
  1596.   }
  1597.   vecteurs_pavage[nummatrix][0] = 0;
  1598.   vecteurs_pavage[nummatrix][1] = 0;
  1599.   matrices_pavage[nummatrix][0] = 1;
  1600.   matrices_pavage[nummatrix][1] = 0;
  1601.   matrices_pavage[nummatrix][2] = 0;
  1602.   matrices_pavage[nummatrix][3] = 1;
  1603. }
  1604.  
  1605. /* arguments: une liste de 6 nombres reels pour les coordonnees de l'origine et des vecteurs de base */
  1606. void obj_setparallelogram(objparm *pm)
  1607. {
  1608.   int i;
  1609.   for(i=0;i<6;i++)  parallogram_fonda[i]=pm->pd[i];
  1610. }
  1611.  
  1612. /* arguments :aucun */
  1613. void obj_resetparallelogram(objparm *pm)
  1614. {
  1615.   parallogram_fonda[0]=0;
  1616.   parallogram_fonda[1]=0;
  1617.   parallogram_fonda[2]=100;
  1618.   parallogram_fonda[3]=0;
  1619.   parallogram_fonda[4]=0;
  1620.   parallogram_fonda[5]=100;
  1621. }
  1622.  
  1623. /* argument : la liste des numeros des matrices a faire agir, le nom du fichier de l'image a inclure */
  1624. void obj_multicopy(objparm *pm)
  1625. {
  1626.   char *pp,*pe,*cptr;
  1627.   FILE *inf;
  1628.   gdImagePtr insimg;
  1629.   int i,j;
  1630.   int imax,jmax;
  1631.   int c; /* la couleur reperee */
  1632.   int mat;
  1633.   int nummatrices[JC_NB_MATRICES];
  1634.   double pt[2]; /* les coordonnees math. du point repere dans le parallelogramme */
  1635.   double ptr[2]; /* les coordonnees math. du point transforme */
  1636.   int pti[2]; /* les coordonnees img du point a placer sur le canevas */
  1637.   int t;
  1638.   /* gestion palette de couleur de l'image a inserer */
  1639.   int colorMap[gdMaxColors];
  1640.   int comptmat=0; /* combien de matrices en tout ? */
  1641.  
  1642.   for (i=0; (i<gdMaxColors); i++) {
  1643.     colorMap[i] = (-1);
  1644.   }
  1645.  
  1646.   /* Gestion des parametres la liste est censee finir avec le nom du fichier */
  1647.   t=pm->pcnt-1; /* il faut enlever le nom de fichier ! c'est le nombre de parametres en plus */
  1648.   pp=find_word_start(pm->str);
  1649.   /* visiblement find_word_start n'arrive pas a trouver le dernier mot dans un contexte ou le nombre de parameters est variable
  1650.      * on cherche donc l'emplacement de la derniere virgule:
  1651.      * il y en a une car t>0, on retrouve ensuite le debut de mot
  1652.      */
  1653.   for(pe=pp;*pe!=0;pe++);/* trouve la fin de la chaine */
  1654.   if(t>0){
  1655.     for(cptr = pe; cptr > pp && *cptr != ','; cptr--);
  1656.     pp=find_word_start(cptr+1);
  1657.   }
  1658.   pe=find_word_end(pp);*pe=0; /* strip junk final */
  1659.   //      printf("pp contient %s\n",pp);
  1660.  
  1661.  
  1662.   inf=open4read(pp);
  1663.   if(inf==NULL) {
  1664.     fly_error("file_not_exist"); return;
  1665.   }
  1666.   insimg=gdImageCreateFromGif(inf); fclose(inf);
  1667.   if(insimg==NULL) {
  1668.     fly_error("bad_gif"); return;
  1669.   }
  1670.  
  1671.   /* On recupere les numeros des matrices/vecteurs a faire agir,
  1672.     * s'il n'y en a pas, on les fait toutes agir
  1673.   */
  1674.   for(i=0;i<t && i< JC_NB_MATRICES;i++) {
  1675.     if(pm->pd[i]>=1 && pm->pd[i]<=JC_NB_MATRICES){
  1676.       nummatrices[comptmat] = pm->pd[i];
  1677.       comptmat++;
  1678.     }
  1679.   }
  1680.   if(t<=0){
  1681.     for(i=0;i<JC_NB_MATRICES;i++) {
  1682.       nummatrices[i] = i+1;
  1683.     }
  1684.     comptmat=JC_NB_MATRICES;
  1685.   }
  1686.  
  1687.  
  1688.   imax = gdImageSX(insimg);
  1689.   jmax = gdImageSY(insimg);
  1690.  
  1691.   for(i=0;i<imax;i++){
  1692.     for(j=0;j<jmax;j++){
  1693.       int nc;
  1694.       c=gdImageGetPixel(insimg,i,j);
  1695.       /* Le code suivant est une copie du code dans gdImageCopy  Added 7/24/95: support transparent copies */
  1696.       if (gdImageGetTransparent(insimg) != c) {
  1697.         /* Have we established a mapping for this color? */
  1698.         if (colorMap[c] == (-1)) {
  1699.           /* If it's the same image, mapping is trivial, dans notre cas ca n'arrive jamais... */
  1700.           if (image == insimg) {
  1701.             nc = c;
  1702.           } else {
  1703.             /* First look for an exact match */
  1704.             nc = gdImageColorExact(image,
  1705.                    insimg->red[c], insimg->green[c],
  1706.                            insimg->blue[c]);
  1707.           }
  1708.           if (nc == (-1)) {
  1709.           /* No, so try to allocate it */
  1710.             nc = gdImageColorAllocate(image,
  1711.                              insimg->red[c], insimg->green[c],
  1712.                              insimg->blue[c]);
  1713.              /* If we're out of colors, go for the closest color */
  1714.             if (nc == (-1)) {
  1715.               nc = gdImageColorClosest(image,
  1716.                               insimg->red[c], insimg->green[c],
  1717.                               insimg->blue[c]);
  1718.             }
  1719.           }
  1720.           colorMap[c] = nc;
  1721.         }
  1722.  
  1723.         pt[0]= i*(parallogram_fonda[2])/(imax-1)+(jmax-j)*(parallogram_fonda[4])/(jmax-1)+parallogram_fonda[0];
  1724.         pt[1]= i*(parallogram_fonda[3])/(imax-1)+(jmax-j)*(parallogram_fonda[5])/(jmax-1)+parallogram_fonda[1];
  1725.         for(mat=0;mat<comptmat;mat++){
  1726.           double *matricecourante = matrices_pavage[nummatrices[mat]];
  1727.           double *vecteurcourant = vecteurs_pavage[nummatrices[mat]];
  1728.           ptr[0] = matricecourante[0]*pt[0]+matricecourante[1]*pt[1]+vecteurcourant[0];
  1729.           ptr[1] = matricecourante[2]*pt[0]+matricecourante[3]*pt[1]+vecteurcourant[1];
  1730.           scale(ptr,pti,1);
  1731.           gdImageSetPixel(image,pti[0],pti[1],colorMap[c]);
  1732.         }
  1733.       }
  1734.     }
  1735.   }
  1736.   gdImageDestroy(insimg);
  1737. }
  1738.  
  1739. /**** Fin modifs JC Fev 06 ******/
  1740.  
  1741. /* get color from value */
  1742. int calc_color(char *p, struct objtab *o)
  1743. {
  1744.   int k, cc[3];
  1745.   char buf[MAX_LINELEN+1];
  1746.   for(k=0;k<3;k++) {
  1747.     fnd_item(p,k+1,buf);
  1748.     cc[k]=strevalue(buf);
  1749.   }
  1750.   collapse_item(p,3);
  1751.   if(cc[0]==-1 && cc[1]==-1 && cc[2]==-255) {
  1752.  
  1753.     if(brushed && o->subst&1) return gdBrushed;
  1754.     else return color_black;
  1755.   }
  1756.   if(cc[0]==-1 && cc[1]==-255 && cc[2]==-1) {
  1757.     if(styled && o->subst&2)  return gdStyled;
  1758.     else return color_black;
  1759.   }
  1760.   if(cc[0]==-255 && cc[1]==-1 && cc[2]==-1) {
  1761.     if(tiled && o->fill_tag==1)  return gdTiled;
  1762.     else return color_black;
  1763.   }
  1764.   return getcolor(cc[0],cc[1],cc[2]);
  1765. }
  1766.  
  1767. /* Routine to parse parameters */
  1768. int parse_parms(char *p,objparm *pm,struct objtab *o)
  1769. {
  1770.   char buf[MAX_LINELEN+1];
  1771.   char *p1, *p2;
  1772.   int j,t,c,c1,c2;
  1773.  
  1774.   c=o->color_pos;c1=c2=0;
  1775.   pm->color[0]=pm->color[1]=0;
  1776.   if(c>0) c1=c;
  1777.   if(c<0) c2=-c;
  1778.   c=c1+c2;
  1779.   t=itemnum(p);if(t<o->required_parms+3*c) return -1;
  1780.   if(c1>0 && t>o->required_parms+3*c) t=o->required_parms+3*c;
  1781.   pm->pcnt=t-3*c;
  1782.   if(pm->pcnt>MAX_PARMS) pm->pcnt=MAX_PARMS;
  1783.   if(c2>0) {
  1784.     for(j=0;j<2 && j<c2; j++) pm->color[j]=calc_color(p,o);
  1785.   }
  1786.   snprintf(buf,sizeof(buf),"%s",p);
  1787.   for(j=0, p1=buf; j<pm->pcnt; j++, p1=p2) {
  1788.     p2=find_item_end(p1); if(*p2) *p2++=0;
  1789.     p1=find_word_start(p1);
  1790.     if(*p1) pm->pd[j]=strevalue(p1); else pm->pd[j]=0;
  1791.     if(!isfinite(pm->pd[j])) {
  1792.         if(j<o->required_parms) return -1;
  1793.         else {pm->pd[j]=0;break;}
  1794.     }
  1795.   }
  1796.   collapse_item(p,o->required_parms);
  1797.   if(c1>0) {
  1798.     for(j=0;j<c1 && j<2; j++) pm->color[j]=calc_color(p,o);
  1799.   }
  1800.   if(width>1 && o->subst&1 && pm->color[0]!=gdBrushed
  1801.       && pm->color[0]!=gdStyled && pm->color[0]!=gdTiled) {
  1802.     pm->color[1]=pm->color[0];
  1803.     pm->color[0]=widthcolor(width,pm->color[0]);
  1804.   }
  1805.   pm->fill=o->fill_tag;
  1806.   if(o->required_parms!=0){
  1807.     if(dashed) {
  1808.       if(pm->fill==1) pm->fill=2;
  1809.       if(pm->fill==0) pm->fill=-1;
  1810.        if(noreset==0) dashed=0;
  1811.     }
  1812.     if(filled) {
  1813.       if(pm->fill==-1) pm->fill=2;
  1814.       if(pm->fill==0) pm->fill=1;
  1815.       if(noreset==0) filled=0;
  1816.     }
  1817.   }
  1818.   ovlstrcpy(pm->str,p); return 0;
  1819. }
  1820.  
  1821. /* Create the struct objparm pm corresponding to the objparm p
  1822.  * Execute a command. Returns 0 if OK.
  1823.  */
  1824. int obj_main(char *p)
  1825. {
  1826.   int i;
  1827.   char *pp,*name,*pt;
  1828.   char tbuf2[MAX_LINELEN+1];
  1829.   struct objparm pm;
  1830.  
  1831.   p=find_word_start(p);
  1832.   if(*p==exec_prefix_char || *p==0) return 0; /* comment */
  1833.   name=p;
  1834.   pp=find_name_end(p);
  1835.   pt=find_word_start(pp); if(*pt=='=') *pt=' ';
  1836.   if(*pt==':' && *(pt+1)=='=') *pt=*(pt+1)=' ';
  1837.   pp=find_word_end(p);
  1838.   if(*pp!=0) {
  1839.     *(pp++)=0; pp=find_word_start(pp);
  1840.   }
  1841.   if(strlen(p)==1 || (strlen(p)==2 && isdigit(*(p+1)))) {
  1842.     setvar(p,strevalue(pp)); return 0;
  1843.   }
  1844.   /* search the number of the object */
  1845.   i=search_list(objtab,obj_no,sizeof(objtab[0]),name);
  1846.   if(i<0) {
  1847.     fly_error("bad_cmd"); return 1;
  1848.   }
  1849.   if(image==NULL && (objtab[i].color_pos || objtab[i].required_parms>2)) {
  1850.     fly_error("image_not_defined"); return 1;
  1851.   }
  1852.   ovlstrcpy(tbuf2,pp);
  1853.   if(objtab[i].color_pos || objtab[i].routine==obj_setstyle) {
  1854.     substit(tbuf2);
  1855.   }
  1856.   if(parse_parms(tbuf2,&pm,objtab+i)!=0) fly_error("bad_parms");
  1857.   else objtab[i].routine(&pm);
  1858.   return 0;
  1859. }
  1860.