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#include "maskApi.h" |
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#include <math.h> |
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#include <stdlib.h> |
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uint umin( uint a, uint b ) { return (a<b) ? a : b; } |
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uint umax( uint a, uint b ) { return (a>b) ? a : b; } |
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void rleInit( RLE *R, siz h, siz w, siz m, uint *cnts ) { |
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R->h=h; R->w=w; R->m=m; R->cnts=(m==0)?0:malloc(sizeof(uint)*m); |
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siz j; if(cnts) for(j=0; j<m; j++) R->cnts[j]=cnts[j]; |
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} |
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void rleFree( RLE *R ) { |
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free(R->cnts); R->cnts=0; |
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} |
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void rlesInit( RLE **R, siz n ) { |
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siz i; *R = (RLE*) malloc(sizeof(RLE)*n); |
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for(i=0; i<n; i++) rleInit((*R)+i,0,0,0,0); |
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} |
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void rlesFree( RLE **R, siz n ) { |
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siz i; for(i=0; i<n; i++) rleFree((*R)+i); free(*R); *R=0; |
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} |
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void rleEncode( RLE *R, const byte *M, siz h, siz w, siz n ) { |
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siz i, j, k, a=w*h; uint c, *cnts; byte p; |
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cnts = malloc(sizeof(uint)*(a+1)); |
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for(i=0; i<n; i++) { |
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const byte *T=M+a*i; k=0; p=0; c=0; |
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for(j=0; j<a; j++) { if(T[j]!=p) { cnts[k++]=c; c=0; p=T[j]; } c++; } |
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cnts[k++]=c; rleInit(R+i,h,w,k,cnts); |
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} |
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free(cnts); |
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} |
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void rleDecode( const RLE *R, byte *M, siz n ) { |
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siz i, j, k; for( i=0; i<n; i++ ) { |
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byte v=0; for( j=0; j<R[i].m; j++ ) { |
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for( k=0; k<R[i].cnts[j]; k++ ) *(M++)=v; v=!v; }} |
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} |
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void rleMerge( const RLE *R, RLE *M, siz n, int intersect ) { |
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uint *cnts, c, ca, cb, cc, ct; int v, va, vb, vp; |
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siz i, a, b, h=R[0].h, w=R[0].w, m=R[0].m; RLE A, B; |
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if(n==0) { rleInit(M,0,0,0,0); return; } |
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if(n==1) { rleInit(M,h,w,m,R[0].cnts); return; } |
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cnts = malloc(sizeof(uint)*(h*w+1)); |
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for( a=0; a<m; a++ ) cnts[a]=R[0].cnts[a]; |
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for( i=1; i<n; i++ ) { |
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B=R[i]; if(B.h!=h||B.w!=w) { h=w=m=0; break; } |
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rleInit(&A,h,w,m,cnts); ca=A.cnts[0]; cb=B.cnts[0]; |
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v=va=vb=0; m=0; a=b=1; cc=0; ct=1; |
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while( ct>0 ) { |
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c=umin(ca,cb); cc+=c; ct=0; |
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ca-=c; if(!ca && a<A.m) { ca=A.cnts[a++]; va=!va; } ct+=ca; |
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cb-=c; if(!cb && b<B.m) { cb=B.cnts[b++]; vb=!vb; } ct+=cb; |
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vp=v; if(intersect) v=va&&vb; else v=va||vb; |
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if( v!=vp||ct==0 ) { cnts[m++]=cc; cc=0; } |
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} |
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rleFree(&A); |
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} |
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rleInit(M,h,w,m,cnts); free(cnts); |
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} |
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void rleArea( const RLE *R, siz n, uint *a ) { |
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siz i, j; for( i=0; i<n; i++ ) { |
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a[i]=0; for( j=1; j<R[i].m; j+=2 ) a[i]+=R[i].cnts[j]; } |
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} |
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void rleIou( RLE *dt, RLE *gt, siz m, siz n, byte *iscrowd, double *o ) { |
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siz g, d; BB db, gb; int crowd; |
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db=malloc(sizeof(double)*m*4); rleToBbox(dt,db,m); |
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gb=malloc(sizeof(double)*n*4); rleToBbox(gt,gb,n); |
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bbIou(db,gb,m,n,iscrowd,o); free(db); free(gb); |
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for( g=0; g<n; g++ ) for( d=0; d<m; d++ ) if(o[g*m+d]>0) { |
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crowd=iscrowd!=NULL && iscrowd[g]; |
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if(dt[d].h!=gt[g].h || dt[d].w!=gt[g].w) { o[g*m+d]=-1; continue; } |
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siz ka, kb, a, b; uint c, ca, cb, ct, i, u; int va, vb; |
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ca=dt[d].cnts[0]; ka=dt[d].m; va=vb=0; |
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cb=gt[g].cnts[0]; kb=gt[g].m; a=b=1; i=u=0; ct=1; |
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while( ct>0 ) { |
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c=umin(ca,cb); if(va||vb) { u+=c; if(va&&vb) i+=c; } ct=0; |
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ca-=c; if(!ca && a<ka) { ca=dt[d].cnts[a++]; va=!va; } ct+=ca; |
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cb-=c; if(!cb && b<kb) { cb=gt[g].cnts[b++]; vb=!vb; } ct+=cb; |
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} |
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if(i==0) u=1; else if(crowd) rleArea(dt+d,1,&u); |
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o[g*m+d] = (double)i/(double)u; |
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} |
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} |
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void rleNms( RLE *dt, siz n, uint *keep, double thr ) { |
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siz i, j; double u; |
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for( i=0; i<n; i++ ) keep[i]=1; |
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for( i=0; i<n; i++ ) if(keep[i]) { |
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for( j=i+1; j<n; j++ ) if(keep[j]) { |
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rleIou(dt+i,dt+j,1,1,0,&u); |
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if(u>thr) keep[j]=0; |
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} |
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} |
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} |
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void bbIou( BB dt, BB gt, siz m, siz n, byte *iscrowd, double *o ) { |
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double h, w, i, u, ga, da; siz g, d; int crowd; |
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for( g=0; g<n; g++ ) { |
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BB G=gt+g*4; ga=G[2]*G[3]; crowd=iscrowd!=NULL && iscrowd[g]; |
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for( d=0; d<m; d++ ) { |
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BB D=dt+d*4; da=D[2]*D[3]; o[g*m+d]=0; |
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w=fmin(D[2]+D[0],G[2]+G[0])-fmax(D[0],G[0]); if(w<=0) continue; |
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h=fmin(D[3]+D[1],G[3]+G[1])-fmax(D[1],G[1]); if(h<=0) continue; |
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i=w*h; u = crowd ? da : da+ga-i; o[g*m+d]=i/u; |
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} |
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} |
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} |
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void bbNms( BB dt, siz n, uint *keep, double thr ) { |
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siz i, j; double u; |
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for( i=0; i<n; i++ ) keep[i]=1; |
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for( i=0; i<n; i++ ) if(keep[i]) { |
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for( j=i+1; j<n; j++ ) if(keep[j]) { |
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bbIou(dt+i*4,dt+j*4,1,1,0,&u); |
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if(u>thr) keep[j]=0; |
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} |
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} |
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} |
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void rleToBbox( const RLE *R, BB bb, siz n ) { |
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siz i; for( i=0; i<n; i++ ) { |
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uint h, w, x, y, xs, ys, xe, ye, cc, t; siz j, m; |
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h=(uint)R[i].h; w=(uint)R[i].w; m=R[i].m; |
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m=((siz)(m/2))*2; xs=w; ys=h; xe=ye=0; cc=0; |
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if(m==0) { bb[4*i+0]=bb[4*i+1]=bb[4*i+2]=bb[4*i+3]=0; continue; } |
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for( j=0; j<m; j++ ) { |
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cc+=R[i].cnts[j]; t=cc-j%2; y=t%h; x=(t-y)/h; |
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xs=umin(xs,x); xe=umax(xe,x); ys=umin(ys,y); ye=umax(ye,y); |
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} |
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bb[4*i+0]=xs; bb[4*i+2]=xe-xs+1; |
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bb[4*i+1]=ys; bb[4*i+3]=ye-ys+1; |
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} |
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} |
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void rleFrBbox( RLE *R, const BB bb, siz h, siz w, siz n ) { |
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siz i; for( i=0; i<n; i++ ) { |
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double xs=bb[4*i+0], xe=xs+bb[4*i+2]; |
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double ys=bb[4*i+1], ye=ys+bb[4*i+3]; |
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double xy[8] = {xs,ys,xs,ye,xe,ye,xe,ys}; |
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rleFrPoly( R+i, xy, 4, h, w ); |
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} |
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} |
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int uintCompare(const void *a, const void *b) { |
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uint c=*((uint*)a), d=*((uint*)b); return c>d?1:c<d?-1:0; |
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} |
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void rleFrPoly( RLE *R, const double *xy, siz k, siz h, siz w ) { |
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siz j, m=0; double scale=5; int *x, *y, *u, *v; uint *a, *b; |
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x=malloc(sizeof(int)*(k+1)); y=malloc(sizeof(int)*(k+1)); |
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for(j=0; j<k; j++) x[j]=(int)(scale*xy[j*2+0]+.5); x[k]=x[0]; |
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for(j=0; j<k; j++) y[j]=(int)(scale*xy[j*2+1]+.5); y[k]=y[0]; |
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for(j=0; j<k; j++) m+=umax(abs(x[j]-x[j+1]),abs(y[j]-y[j+1]))+1; |
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u=malloc(sizeof(int)*m); v=malloc(sizeof(int)*m); m=0; |
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for( j=0; j<k; j++ ) { |
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int xs=x[j], xe=x[j+1], ys=y[j], ye=y[j+1], dx, dy, t, d; |
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int flip; double s; dx=abs(xe-xs); dy=abs(ys-ye); |
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flip = (dx>=dy && xs>xe) || (dx<dy && ys>ye); |
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if(flip) { t=xs; xs=xe; xe=t; t=ys; ys=ye; ye=t; } |
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s = dx>=dy ? (double)(ye-ys)/dx : (double)(xe-xs)/dy; |
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if(dx>=dy) for( d=0; d<=dx; d++ ) { |
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t=flip?dx-d:d; u[m]=t+xs; v[m]=(int)(ys+s*t+.5); m++; |
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} else for( d=0; d<=dy; d++ ) { |
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t=flip?dy-d:d; v[m]=t+ys; u[m]=(int)(xs+s*t+.5); m++; |
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} |
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} |
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free(x); free(y); k=m; m=0; double xd, yd; |
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x=malloc(sizeof(int)*k); y=malloc(sizeof(int)*k); |
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for( j=1; j<k; j++ ) if(u[j]!=u[j-1]) { |
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xd=(double)(u[j]<u[j-1]?u[j]:u[j]-1); xd=(xd+.5)/scale-.5; |
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if( floor(xd)!=xd || xd<0 || xd>w-1 ) continue; |
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yd=(double)(v[j]<v[j-1]?v[j]:v[j-1]); yd=(yd+.5)/scale-.5; |
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if(yd<0) yd=0; else if(yd>h) yd=h; yd=ceil(yd); |
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x[m]=(int) xd; y[m]=(int) yd; m++; |
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} |
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k=m; a=malloc(sizeof(uint)*(k+1)); |
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for( j=0; j<k; j++ ) a[j]=(uint)(x[j]*(int)(h)+y[j]); |
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a[k++]=(uint)(h*w); free(u); free(v); free(x); free(y); |
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qsort(a,k,sizeof(uint),uintCompare); uint p=0; |
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for( j=0; j<k; j++ ) { uint t=a[j]; a[j]-=p; p=t; } |
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b=malloc(sizeof(uint)*k); j=m=0; b[m++]=a[j++]; |
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while(j<k) if(a[j]>0) b[m++]=a[j++]; else { |
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j++; if(j<k) b[m-1]+=a[j++]; } |
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rleInit(R,h,w,m,b); free(a); free(b); |
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} |
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char* rleToString( const RLE *R ) { |
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siz i, m=R->m, p=0; long x; int more; |
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char *s=malloc(sizeof(char)*m*6); |
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for( i=0; i<m; i++ ) { |
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x=(long) R->cnts[i]; if(i>2) x-=(long) R->cnts[i-2]; more=1; |
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while( more ) { |
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char c=x & 0x1f; x >>= 5; more=(c & 0x10) ? x!=-1 : x!=0; |
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if(more) c |= 0x20; c+=48; s[p++]=c; |
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} |
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} |
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s[p]=0; return s; |
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} |
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void rleFrString( RLE *R, char *s, siz h, siz w ) { |
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siz m=0, p=0, k; long x; int more; uint *cnts; |
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while( s[m] ) m++; cnts=malloc(sizeof(uint)*m); m=0; |
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while( s[p] ) { |
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x=0; k=0; more=1; |
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while( more ) { |
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char c=s[p]-48; x |= (c & 0x1f) << 5*k; |
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more = c & 0x20; p++; k++; |
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if(!more && (c & 0x10)) x |= -1 << 5*k; |
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} |
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if(m>2) x+=(long) cnts[m-2]; cnts[m++]=(uint) x; |
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} |
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rleInit(R,h,w,m,cnts); free(cnts); |
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} |
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