/* This is a Optical-Character-Recognition program Copyright (C) 2000-2007 Joerg Schulenburg This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. see README for EMAIL-address */ #include #include #include "pgm2asc.h" #include "gocr.h" #include "progress.h" /* measure mean thickness as an criteria for big chars */ int mean_thickness( struct box *box2 ){ int mt=0, i, y, dx=box2->x1-box2->x0+1, dy; for (y=box2->y0+1; yy1; y++) { i=loop(box2->p,box2->x0+0,y,dx,JOB->cfg.cs,0,RI); i=loop(box2->p,box2->x0+i,y,dx,JOB->cfg.cs,1,RI); mt+=i; } dy = box2->y1 - box2->y0 - 1; if (dy) mt=(mt+dy/2)/dy; return mt; } /* ---- remove dust --------------------------------- What is dust? I think, this is a very small pixel cluster without neighbours. Of course not all dust clusters can be detected correct. This feature should be possible to switch off via option. -> may be, all clusters should be stored here? speed is very slow, I know, but I am happy that it is working well */ int remove_dust( job_t *job ){ /* new dust removing */ /* FIXME jb:remove pp */ pix *pp = &job->src.p; int i1,i,j,x,y,x0,x1,y0,y1,nC,sX,sY,sP, cs,vvv=job->cfg.verbose; struct box *box2; #define HISTSIZE 220 /* histogramm */ int histo[HISTSIZE]; cs=job->cfg.cs; sP=sX=sY=nC=0; /* * count number of black pixels within a box and store it in .dots * later .dots is re-used for number of objects belonging to the character * should be done in the flood-fill algorithm * volume of white pixels is estimated to big here (left/right rot) * ToDo: mean thickness of char lines? * or interval nesting (minP..maxP) to remove outriders */ j=0; for (i1=0;i1res.boxlist)) { box2 = (struct box *)list_get_current(&(job->res.boxlist)); if (!box2->num_frames) continue; if (box2->frame_vol[0]<0) continue; /* don't count inner holes */ j = abs(box2->frame_vol[0]); if ((box2->y1-box2->y0+1)>3) { nC++; /* only count potential chars v0.42 */ sX+=box2->x1 - box2->x0 + 1; sY+=box2->y1 - box2->y0 + 1; sP+=j; } if (jres.boxlist)); if (job->cfg.dust_size < 0 && nC > 0) { /* auto detection */ /* this formula is empirically, high resolution scans have bigger dust */ /* maximum allowed dustsize (min=4*7 ca. 32) * does not work for background pattern! */ job->cfg.dust_size = ( ( sX/nC ) * ( sY/nC ) + 16) / 32; if (vvv) fprintf(stderr, "# dust size detection, vol num" " #obj=%d maxDust=%d mpixel= %3d mxy= %2d %2d", nC, job->cfg.dust_size, sP/nC, sX/nC, sY/nC); /* we assume that for random dust applies histo[i+1]=nC) continue; /* v0.42 lot of pixels -> bg pattern < 3 */ if (i>=job->cfg.dust_size) break; /* maximum = mean size / 32 */ if (histo[i+1]==0) break; /* bad statistic */ if ((histo[i+2]+histo[i+3]) >=(histo[i] +histo[i+1])) break; /* no noise, but to late? */ if ( histo[i-1] > 1024*histo[i] && 2*histo[i+1] >=histo[i]) break; /* bg pattern */ } if (vvv) fprintf(stderr," break"); if (vvv) for (i1=0,j=i+1;j20) break; /* dont do excessive output */ } } job->cfg.dust_size=i-1; /* what is the statistic of random dust? * if we have p pixels on a x*y image we should have * (p/(x*y))^1 * (x*y) = p singlets * (p/(x*y))^2 * (x*y) = p^2/(x*y) doublets and * (p/(x*y))^3 * (x*y) = p^3/(x*y)^2 triplets */ if (vvv) fprintf(stderr,"\n# auto dust size = %d nC= %3d .. %3d" " avD= %2d %2d .. %2d %2d\n", job->cfg.dust_size, nC, job->res.numC, (job->res.sumX+job->res.numC/2)/job->res.numC, (job->res.sumY+job->res.numC/2)/job->res.numC, sX/nC, sY/nC); } if (job->cfg.dust_size) { i=0; if(vvv){ fprintf(stderr,"# remove dust of size %2d",job->cfg.dust_size); /* Warning: better use (1/(x*y))^2 as 1/((x*y)^2), * because (x*y)^2 may overflow */ fprintf(stderr," histo=%d,%d(?=%d),%d(?=%d),...\n# ...", histo[1],histo[2],histo[1]*histo[1]/(pp->x*pp->y), histo[3], histo[1]*histo[1]/(pp->x*pp->y) *histo[1]/(pp->x*pp->y)); } i = 0; for_each_data(&(job->res.boxlist)) { box2 = (struct box *)list_get_current(&(job->res.boxlist)); x0=box2->x0;x1=box2->x1;y0=box2->y0;y1=box2->y1; /* box */ j=abs(box2->frame_vol[0]); if(j<=job->cfg.dust_size) /* remove this tiny object */ { /* here we should distinguish dust and i-dots, * may be we should sort out dots to a seperate dot list and * after line detection decide, which is dust and which not * dust should be removed to make recognition easier (ToDo) */ #if 0 if(get_bw((3*x0+x1)/4,(x0+3*x1)/4,y1+y1-y0+1,y1+8*(y1-y0+1),pp,cs,1)) continue; /* this idea was to simple, see kscan003.jpg sample */ #endif /* remove from average */ job->res.numC--; job->res.sumX-=x1-x0+1; job->res.sumY-=y1-y0+1; /* remove pixels (should only be done with dust) */ for(x=x0;x<=x1;x++) for(y=y0;y<=y1;y++){ put(pp,x,y,0,255&~7); } /* remove from list */ list_del(&(job->res.boxlist),box2); /* free memory */ free_box(box2); i++; /* count as dust particle */ continue; } } end_for_each(&(job->res.boxlist)); if(vvv)fprintf(stderr," %3d cluster removed, nC= %3d\n",i,job->res.numC); } /* reset dots to 0 and remove white pixels (new) */ i=0; for_each_data(&(job->res.boxlist)) { box2 = ((struct box *)list_get_current(&(job->res.boxlist))); if (box2->frame_vol[0]<0) continue; /* for black areas only */ x0=box2->x0;x1=box2->x1;y0=box2->y0;y1=box2->y1; /* box */ if (x1-x0>16 && y1-y0>30) /* only on large enough chars */ for(x=x0+1;x<=x1-1;x++) for(y=y0+1;y<=y1-1;y++){ if( pixel_atp(pp,x ,y )>=cs && pixel_atp(pp,x-1,y ) res.boxlist)); if (vvv) fprintf(stderr,"# ... %3d white pixels removed, cs=%d nC= %3d\n", i,cs,job->res.numC); return 0; } /* ---- smooth big chars --------------------------------- * Big chars often do not have smooth borders, which let fail * the engine. Here we smooth the borders of big chars (>7x16). * Smoothing is important for b/w scans, where we often have * comb like pattern on a vertikal border. I also received * samples with lot of white pixels (sample: 04/02/25). * ToDo: obsolete if vector code is complete */ int smooth_borders( job_t *job ){ pix *pp = &job->src.p; int ii=0,x,y,x0,x1,y0,y1,dx,dy,cs,i0,i1,i2,i3,i4,n1,n2, cn[8],cm,vvv=job->cfg.verbose; /* dust found */ struct box *box2; cs=job->cfg.cs; n1=n2=0; if(vvv){ fprintf(stderr,"# smooth big chars 7x16 cs=%d",cs); } /* filter for each big box */ for_each_data(&(job->res.boxlist)) { n2++; /* count boxes */ box2 = (struct box *)list_get_current(&(job->res.boxlist)); /* do not touch small characters! but how we define small characters? */ if (box2->x1-box2->x0+1<7 || box2->y1-box2->y0+1<16 ) continue; if (box2->c==PICTURE) continue; if (mean_thickness(box2)<3) continue; n1++; /* count boxes matching big-char criteria */ x0=box2->x0; y0=box2->y0; x1=box2->x1; y1=box2->y1; dx=x1-x0+1; dy=y1-y0-1; /* out_x(box2); * dont change to much! only change if absolutely sure! * ....... 1 2 3 * ex: .?##### 0 * 4 * ....... 7 6 5 * we should also avoid removing lines by sytematic remove * from left end to the right, so we concern also about distance>1 */ for(x=box2->x0;x<=box2->x1;x++) for(y=box2->y0;y<=box2->y1;y++){ /* filter out high frequencies */ /* this is a very primitive solution, only for learning */ cn[0]=getpixel(pp,x-1,y); cn[4]=getpixel(pp,x+1,y); /* horizontal */ cn[2]=getpixel(pp,x,y-1); cn[6]=getpixel(pp,x,y+1); /* vertical */ cn[1]=getpixel(pp,x-1,y-1); cn[3]=getpixel(pp,x+1,y-1); /* diagonal */ cn[7]=getpixel(pp,x-1,y+1); cn[5]=getpixel(pp,x+1,y+1); cm=getpixel(pp,x,y); /* check for 5 other and 3 same surrounding pixels */ for (i0=0;i0<8;i0++) if ((cn[i0 ]=5 && i3>=3 && i4>=3) { /* change only on borders */ ii++; /* white : black */ put(pp,x,y,7,((cmx0,y-box2->y0,i0,i1,i2,i3,i3,cm,getpixel(pp,x,y),cs); #endif } } #if 0 /* debugging */ out_x(box2); #endif } end_for_each(&(job->res.boxlist)); if(vvv)fprintf(stderr," ... %3d changes in %d of %d\n",ii,n1,n2); return 0; } /* test if a corner of box1 is within box2 */ int box_nested( struct box *box1, struct box *box2){ /* box1 in box2, +1..-1 frame for pixel-patterns */ if ( ( ( box1->x0>=box2->x0-1 && box1->x0<=box2->x1+1 ) || ( box1->x1>=box2->x0-1 && box1->x1<=box2->x1+1 ) ) && ( ( box1->y0>=box2->y0-1 && box1->y0<=box2->y1+1 ) || ( box1->y1>=box2->y0-1 && box1->y1<=box2->y1+1 ) ) ) return 1; return 0; } /* test if box1 is within box2 */ int box_covered( struct box *box1, struct box *box2){ /* box1 in box2, +1..-1 frame for pixel-patterns */ if ( ( box1->x0>=box2->x0-1 && box1->x1<=box2->x1+1 ) && ( box1->y0>=box2->y0-1 && box1->y1<=box2->y1+1 ) ) return 1; return 0; } /* ---- remove pictures ------------------------------------------ * may be, not deleting or moving to another list is much better! * should be renamed to remove_pictures and border boxes */ int remove_pictures( job_t *job){ struct box *box4,*box2; int j=0, j2=0, num_del=0; if (job->cfg.verbose) fprintf(stderr, "# "__FILE__" L%d: remove pictures\n# ...", __LINE__); /* ToDo: output a list for picture handle scripts */ j=0; j2=0; if(job->cfg.verbose) for_each_data(&(job->res.boxlist)) { box4 = (struct box *)list_get_current(&(job->res.boxlist)); if (box4->c==PICTURE) j++; else j2++; } end_for_each(&(job->res.boxlist)); if (job->cfg.verbose) fprintf(stderr," status: pictures= %d other= %d nC= %d\n# ...", j, j2, job->res.numC); /* remove table frames */ if (job->res.numC > 8) for_each_data(&(job->res.boxlist)) { box2 = (struct box *)list_get_current(&(job->res.boxlist)); if (box2->c==PICTURE && box2->x1-box2->x0+1>box2->p->x/2 /* big table? */ && box2->y1-box2->y0+1>box2->p->y/2 ){ j=0; /* count boxes nested with the picture */ for_each_data(&(job->res.boxlist)) { box4 = (struct box *)list_get_current(&(job->res.boxlist)); if( box4 != box2 ) /* not count itself */ if (box_nested(box4,box2)) j++; /* box4 in box2 */ } end_for_each(&(job->res.boxlist)); if( j>8 ){ /* remove box if more than 8 chars are within box */ list_del(&(job->res.boxlist), box2); /* does not work proper ?! */ free_box(box2); num_del++; } } } end_for_each(&(job->res.boxlist)); if (job->cfg.verbose) fprintf(stderr, " deleted= %d pictures (table frames)\n# ...", num_del); num_del=0; /* remove dark-border-boxes (typical for hard copy of book site, * or spam random border) */ if (job->res.numC > 1) /* dont remove the only char */ for_each_data(&(job->res.boxlist)) { box2 = (struct box *)list_get_current(&(job->res.boxlist)); if (box2->c!=PICTURE) continue; // ToDo: PICTUREs set already? if ( box2->x1-box2->x0+1 > box2->p->x/2 && box2->y1-box2->y0+1 > box2->p->y/2 ) continue; j=0; if (box2->x0==0) j++; if (box2->y0==0) j++; /* on border? */ if (box2->x1==box2->p->x-1) j++; if (box2->y1==box2->p->y-1) j++; if (j>2){ /* ToDo: check corner pixel */ int cs=job->cfg.cs; j=0; if (getpixel(box2->p,box2->x0,box2->y0)p,box2->x1,box2->y0)p,box2->x0,box2->y1)p,box2->x1,box2->y1)2) { list_del(&(job->res.boxlist), box2); free_box(box2); num_del++; } } } end_for_each(&(job->res.boxlist)); if (job->cfg.verbose) fprintf(stderr, " deleted= %d pictures (on border)\n# ...", num_del); num_del=0; j=0; j2=0; if(job->cfg.verbose) for_each_data(&(job->res.boxlist)) { box4 = (struct box *)list_get_current(&(job->res.boxlist)); if( box4->c==PICTURE ) j++; else j2++; } end_for_each(&(job->res.boxlist)); if (job->cfg.verbose) fprintf(stderr," status: pictures= %d other= %d nC= %d\n# ...", j, j2, job->res.numC); for(j=1;j;){ j=0; /* this is only because list_del does not work */ /* can be slow on gray images */ for_each_data(&(job->res.boxlist)) { box2 = (struct box *)list_get_current(&(job->res.boxlist)); if( box2->c==PICTURE && box2->num_ac==0) for(j=1;j;){ /* let it grow to max before leave */ j=0; box4=NULL; /* find boxes nested with the picture and remove */ /* its for pictures build by compounds */ for_each_data(&(job->res.boxlist)) { box4 = (struct box *)list_get_current(&(job->res.boxlist)); if( box4!=box2 /* not destroy self */ && (box4->num_ac==0) /* dont remove barcodes etc. */ && (/* box4->c==UNKNOWN || */ box4->c==PICTURE) ) /* dont remove valid chars */ if( /* box4 in box2, +1..-1 frame for pixel-patterns */ box_nested(box4,box2) /* or box2 in box4 */ || box_nested(box2,box4) /* same? */ ) if ( box4->x1-box4->x0+1>2*job->res.avX || box4->x1-box4->x0+1res.avX/2 || box4->y1-box4->y0+1>2*job->res.avY || box4->y1-box4->y0+1res.avY/2 || box_covered(box4,box2) ) /* box4 completely within box2 */ /* dont remove chars! see rotate45.fig */ { /* do not remove boxes in inner loop (bug?) ToDo: check why! */ /* instead we leave inner loop and mark box4 as valid */ if( box4->x0x0 ) box2->x0=box4->x0; if( box4->x1>box2->x1 ) box2->x1=box4->x1; if( box4->y0y0 ) box2->y0=box4->y0; if( box4->y1>box2->y1 ) box2->y1=box4->y1; j=1; /* mark box4 as valid */ break; /* and leave inner loop */ } } end_for_each(&(job->res.boxlist)); if (j!=0 && box4!=NULL) { /* check for valid box4 */ /* ToDo: melt */ list_del(&(job->res.boxlist), box4); /* does not work proper ?! */ free_box(box4); /* break; ToDo: necessary to leave after del??? */ num_del++; } } } end_for_each(&(job->res.boxlist)); } if (job->cfg.verbose) fprintf(stderr, " deleted= %d nested pictures\n# ...", num_del); /* output a list for picture handle scripts */ j=0; j2=0; if(job->cfg.verbose) for_each_data(&(job->res.boxlist)) { box4 = (struct box *)list_get_current(&(job->res.boxlist)); if( box4->c==PICTURE ) { fprintf(stderr," found picture at %4d %4d size %4d %4d\n# ...", box4->x0, box4->y0, box4->x1-box4->x0+1, box4->y1-box4->y0+1 ); j++; } else j2++; } end_for_each(&(job->res.boxlist)); if (job->cfg.verbose) fprintf(stderr," status: pictures= %d other= %d nC= %d\n", j, j2, job->res.numC); return 0; } /* ---- remove melted serifs --------------------------------- v0.2.5 >>v<< ##########.######## <-y0 ################### like X VW etc. ...###.......###... <-y ...###......###.... j1 j2 j3 - can generate new boxes if two characters were glued */ int remove_melted_serifs( pix *pp ){ int x,y,j1,j2,j3,j4,i2,i3,i,ii,ni,cs,x0,x1,xa,xb,y0,y1,vvv=JOB->cfg.verbose; struct box *box2, *box3; progress_counter_t *pc = NULL; cs=JOB->cfg.cs; i=0; ii=0; ni=0; for_each_data(&(JOB->res.boxlist)) { ni++; } end_for_each(&(JOB->res.boxlist)); pc = open_progress(ni,"remove_melted_serifs"); ni = 0; if(vvv){ fprintf(stderr,"# searching melted serifs ..."); } for_each_data(&(JOB->res.boxlist)) { box2 = (struct box *)list_get_current(&(JOB->res.boxlist)); if (box2->c != UNKNOWN) continue; /* dont try on pictures */ x0=box2->x0; x1=box2->x1; y0=box2->y0; y1=box2->y1; /* box */ /* upper serifs */ for(j1=x0;j1+4x1+1) break; y =loop(pp,j1,y0+1,x1-x0,cs,1,RI); if(y>x) x=y; if(j1+x>x1+1) break; /* measure mean thickness of serif */ for(j2=j3=j4=0,i2=j1;i2y1-y0) break; i3+=loop(pp,j1,y0+i3,y1-y0,cs,1,DO); if(8*i3>y1-y0) break; if(8*i3j3)j3=i3; j3 = j3 + loop(pp,j3,y ,x1-j3,cs,1,RI); i3 = loop(pp,j3,y ,x1-j3,cs,0,RI); if(i3<2 || j3>=j1+x){j1+=x;continue;} j3 += i3/2; if(x>5) { i++; /* snip! */ for(y=0;y<(y1-y0+1+4)/8;y++)put(pp,j2,y0+y,255,128+64); /* clear highest bit */ if(vvv&4){ fprintf(stderr,"\n"); //out_x(box2); fprintf(stderr,"# melted serifs corrected on %d %d j1=%d j3=%d", j2-x0, y, j1-x0, j3-x0); } for(xb=0,xa=0;xa<(x1-x0+4)/8;xa++){ /* detect vertical gap */ i3=y1; if(box2->m3>y0 && 2*y1>box2->m3+box2->m4) i3=box2->m3; /* some IJ */ if( loop(pp,j2-xa,i3,i3-y0,cs,0,UP) > (y1-y0+1)/2 && loop(pp,j2,(y0+y1)/2,xa+1,cs,0,LE) >=xa ){ xb=-xa; break; } if( loop(pp,j2+xa,i3,i3-y0,cs,0,UP) > (y1-y0+1)/2 && loop(pp,j2,(y0+y1)/2,xa+1,cs,0,RI) >=xa ){ xb= xa; break; } } if( get_bw(j2 ,j2 ,y0,(y0+y1)/2,pp,cs,1) == 0 && get_bw(j2+xb,j2+xb,(y0+y1)/2,i3,pp,cs,1) == 0 ) { /* divide */ box3=malloc_box(box2); box3->x1=j2-1; box2->x0=j2+1; x1=box2->x1; cut_box(box2); /* cut vectors outside the box */ cut_box(box3); box3->num=JOB->res.numC; list_ins(&(JOB->res.boxlist),box2,box3); JOB->res.numC++; ii++; /* insert box3 before box2 */ if(vvv&4) fprintf(stderr," => splitted"); j1=x0=box2->x0; x=0; /* hopefully ok, UVW */ } } j1+=x; } /* same on lower serifs -- change this later to better function // #### ### // #### v ### # <-y // #################### <-y1 // j1 j2 j3 */ for(j1=x0;j1x1+1) break; y =loop(pp,j1,y1-1,x1-x0,cs,1,RI); if(y>x) x=y; if(j1+x>x1+1) break; /* measure mean thickness of serif */ for(j2=j3=j4=0,i2=j1;i2y1-y0) break; i3+=loop(pp,j1,y1-i3,y1-y0,cs,1,UP); if(8*i3>y1-y0) break; if(8*i3j3)j3=i3; j3 = j3 + loop(pp,j3,y ,x1-j3,cs,1,RI); i3 = loop(pp,j3,y,x1-j3,cs,0,RI); if(i3<2 || j3>=j1+x){j1+=x;continue;} j3 += i3/2; /* y =y1-(y1-y0+1+4)/8; */ if(x>5) { i++; /* snip! */ for(i3=0;i3<(y1-y0+1+4)/8;i3++) put(pp,j2,y1-i3,255,128+64); /* clear highest bit */ if(vvv&4){ fprintf(stderr,"\n"); //out_x(box2); fprintf(stderr,"# melted serifs corrected on %d %d j1=%d j3=%d",j2-x0,y-y0,j1-x0,j3-x0); } for(xb=0,xa=0;xa<(x1-x0+4)/8;xa++){ /* detect vertical gap */ if( loop(pp,j2-xa,y0,y1-y0,cs,0,DO) > (y1-y0+1)/2 && loop(pp,j2,(y0+y1)/2,xa+1,cs,0,LE) >=xa ){ xb=-xa; break; } if( loop(pp,j2+xa,y0,y1-y0,cs,0,DO) > (y1-y0+1)/2 && loop(pp,j2,(y0+y1)/2,xa+1,cs,0,RI) >=xa ){ xb= xa; break; } } if( get_bw(j2 ,j2 ,(y0+y1)/2,y1,pp,cs,1) == 0 && get_bw(j2+xb,j2+xb,y0,(y0+y1)/2,pp,cs,1) == 0 ) { /* divide */ box3=malloc_box(box2); box3->x1=j2-1; box2->x0=j2; x1=box2->x1; cut_box(box2); /* cut vectors outside the box */ cut_box(box3); box3->num=JOB->res.numC; list_ins(&(JOB->res.boxlist),box2,box3); JOB->res.numC++; ii++; /* box3,box2 in correct order??? */ if(vvv&4) fprintf(stderr," => splitted"); j1=x0=box2->x0; x=0; /* hopefully ok, NMK */ } } j1+=x; } progress(ni++,pc); } end_for_each(&(JOB->res.boxlist)); close_progress(pc); if(vvv)fprintf(stderr," %3d cluster corrected, %d new boxes\n",i,ii); return 0; } /* remove black borders often seen on bad scanned copies of books - dust around the border */ int remove_rest_of_dust() { int i1, i2, vvv = JOB->cfg.verbose, x0, x1, y0, y1, cnt=0; struct box *box2, *box4; progress_counter_t *pc = NULL; i1 = i2 = 0; /* counter for removed boxes */ if (vvv) fprintf(stderr, "# detect dust (avX,nC), ... "); /* remove fragments from border */ for_each_data(&(JOB->res.boxlist)) { box2 = (struct box *)list_get_current(&(JOB->res.boxlist)); if (box2->c == UNKNOWN) { x0 = box2->x0; x1 = box2->x1; y0 = box2->y0; y1 = box2->y1; /* box */ /* box in char ??? */ if ( 2 * JOB->res.numC * (y1 - y0 + 1) < 3 * JOB->res.sumY && ( y1 < box2->p->y/4 || y0 > 3*box2->p->y/4 ) /* not single line */ && JOB->res.numC > 1 /* do not remove everything */ && ( box2->m4 == 0 ) ) /* remove this */ { JOB->res.numC--; /* ToDo: dont count tiny pixels */ /* ToDo: res.sumX,Y must also be corrected */ i1++; list_del(&(JOB->res.boxlist), box2); free_box(box2); } } } end_for_each(&(JOB->res.boxlist)); pc = open_progress(JOB->res.boxlist.n,"remove_dust2"); for_each_data(&(JOB->res.boxlist)) { box2 = (struct box *)list_get_current(&(JOB->res.boxlist)); progress(cnt++,pc); if (box2->c == PICTURE) continue; x0 = box2->x0; x1 = box2->x1; y0 = box2->y0; y1 = box2->y1; /* box */ /* remove tiny box2 if to far away from bigger boxes */ /* ToDo: remove clouds of tiny pixels (count near small, compare with num bigger) */ /* 0.42: remove far away pixel? ToDo: do it at earlier? */ if (x1-x0+1<3 && y1-y0+1<3){ int xn, yn, xs, ys; int found=0; /* nearest bigger box */ /* search near bigger box */ for_each_data(&(JOB->res.boxlist)) { box4 = (struct box *)list_get_current(&(JOB->res.boxlist)); if (found || box4 == box2) continue; if (box4->x1-box4->x0+1<3 && box4->y1-box4->y0+1<3) continue; xs = box4->x1-box4->x0+1; ys = box4->y1-box4->y0+1; xn = abs((box4->x0+box4->x1)/2 - box2->x0); yn = abs((box4->y0+box4->y1)/2 - box2->y0); if (2*xn < 3*xs && 2*yn < 3*ys) { found=1; } } end_for_each(&(JOB->res.boxlist)); if (!found) { /* found nothing, box2 to far from big boxes */ i2++; list_del(&(JOB->res.boxlist), box2); free_box(box2); } } } end_for_each(&(JOB->res.boxlist)); close_progress(pc); if (vvv) fprintf(stderr, " %3d + %3d boxes deleted, nC= %d ?\n", i1, i2, JOB->res.numC); return 0; }