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#include "pcond.h" |
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/************** VEILING STUFF *****************/ |
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#define VADAPT 0.08 /* fraction of adaptation from veil */ |
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#define veilscan(y) (veilimg+(y)*fvxr) |
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|
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static FVECT *raydir = NULL; /* ray direction for each pixel */ |
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static float (*raydir)[3] = NULL; /* ray direction for each pixel */ |
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#define rdirscan(y) (raydir+(y)*fvxr) |
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compraydir() /* compute ray directions */ |
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{ |
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FVECT rorg; |
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FVECT rorg, rdir; |
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double h, v; |
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register int x, y; |
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|
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if (raydir != NULL) /* already done? */ |
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return; |
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raydir = (FVECT *)malloc(fvxr*fvyr*sizeof(FVECT)); |
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raydir = (float (*)[3])malloc(fvxr*fvyr*3*sizeof(float)); |
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if (raydir == NULL) |
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syserror("malloc"); |
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|
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case YDECR: case YDECR|XDECR: |
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v = 1. - (x+.5)/fvxr; break; |
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} |
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if (viewray(rorg, rdirscan(y)[x], &ourview, h, v) |
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< -FTINY) { |
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if (viewray(rorg, rdir, &ourview, h, v) |
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>= -FTINY) { |
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rdirscan(y)[x][0] = rdir[0]; |
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rdirscan(y)[x][1] = rdir[1]; |
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rdirscan(y)[x][2] = rdir[2]; |
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} else { |
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rdirscan(y)[x][0] = |
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rdirscan(y)[x][1] = |
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rdirscan(y)[x][2] = 0.0; |
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t2 = DOT(rdirscan(py)[px], |
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rdirscan(y)[x]); |
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if (t2 <= FTINY) continue; |
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/* use approximation instead |
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t2 = acos(t2); |
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t2 = 1./(t2*t2); |
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*/ |
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t2 = .5 / (1. - t2); |
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copycolor(ctmp, fovscan(y)[x]); |
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scalecolor(ctmp, t2); |
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addcolor(vsum, ctmp); |
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(1.-dx)*lv + dx*uv; |
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} |
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} |
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} |
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|
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|
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/****************** ACUITY STUFF *******************/ |
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|
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typedef struct scanbar { |
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short sampr; /* sample area size (power of 2) */ |
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short nscans; /* number of scanlines in this bar */ |
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int len; /* individual scanline length */ |
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struct scanbar *next; /* next higher resolution scanbar */ |
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int nread; /* number of scanlines loaded */ |
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/* followed by the scanline data */ |
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} SCANBAR; |
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|
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#define bscan(sb,y) ((COLOR *)((sb)+1)+((y)%(sb)->nscans)*(sb)->len) |
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|
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SCANBAR *rootbar; /* root scan bar (lowest resolution) */ |
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|
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float *inpacuD; /* input acuity data (cycles/degree) */ |
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|
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#define tsampr(x,y) inpacuD[(y)*fvxr+(x)] |
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|
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|
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double |
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hacuity(La) /* return visual acuity in cycles/degree */ |
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double La; |
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{ /* data due to S. Shaler (we should fit it!) */ |
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#define NPOINTS 20 |
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static float l10lum[NPOINTS] = { |
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-3.10503,-2.66403,-2.37703,-2.09303,-1.64403,-1.35803, |
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-1.07403,-0.67203,-0.38503,-0.10103,0.29397,0.58097,0.86497, |
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1.25697,1.54397,1.82797,2.27597,2.56297,2.84697,3.24897 |
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}; |
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static float resfreq[NPOINTS] = { |
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2.09,3.28,3.79,4.39,6.11,8.83,10.94,18.66,23.88,31.05,37.42, |
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37.68,41.60,43.16,45.30,47.00,48.43,48.32,51.06,51.09 |
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}; |
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double l10La; |
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register int i; |
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/* check limits */ |
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if (La <= 7.85e-4) |
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return(resfreq[0]); |
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if (La >= 1.78e3) |
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return(resfreq[NPOINTS-1]); |
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/* interpolate data */ |
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l10La = log10(La); |
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for (i = 0; i < NPOINTS-2 && l10lum[i+1] <= l10La; i++) |
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; |
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return( ( (l10lum[i+1] - l10La)*resfreq[i] + |
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(l10La - l10lum[i])*resfreq[i+1] ) / |
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(l10lum[i+1] - l10lum[i]) ); |
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#undef NPOINTS |
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} |
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|
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|
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COLOR * |
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getascan(sb, y) /* find/read scanline y for scanbar sb */ |
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register SCANBAR *sb; |
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int y; |
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{ |
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register COLOR *sl0, *sl1, *mysl; |
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register int i; |
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|
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if (y < sb->nread - sb->nscans) { |
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fprintf(stderr, "%s: internal - cannot backspace in getascan\n", |
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progname); |
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exit(1); |
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} |
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for ( ; y >= sb->nread; sb->nread++) { /* read as necessary */ |
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mysl = bscan(sb, sb->nread); |
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if (sb->sampr == 1) { |
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if (freadscan(mysl, sb->len, infp) < 0) { |
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fprintf(stderr, "%s: %s: scanline read error\n", |
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progname, infn); |
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exit(1); |
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} |
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} else { |
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sl0 = getascan(sb->next, 2*y); |
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sl1 = getascan(sb->next, 2*y+1); |
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for (i = 0; i < sb->len; i++) { |
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copycolor(mysl[i], sl0[2*i]); |
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addcolor(mysl[i], sl0[2*i+1]); |
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addcolor(mysl[i], sl1[2*i]); |
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addcolor(mysl[i], sl1[2*i+1]); |
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scalecolor(mysl[i], 0.25); |
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} |
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} |
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} |
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return(bscan(sb, y)); |
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} |
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|
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|
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acuscan(scln, y) /* get acuity-sampled scanline */ |
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COLOR *scln; |
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int y; |
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{ |
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double sr; |
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double dx, dy; |
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int ix, iy; |
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register int x; |
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/* compute foveal y position */ |
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iy = dy = (y+.5)/numscans(&inpres)*fvyr - .5; |
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if (iy >= fvyr-1) iy--; |
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dy -= (double)iy; |
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for (x = 0; x < scanlen(&inpres); x++) { |
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/* compute foveal x position */ |
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ix = dx = (x+.5)/scanlen(&inpres)*fvxr - .5; |
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if (ix >= fvxr-1) ix--; |
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dx -= (double)ix; |
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/* interpolate sample rate */ |
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sr = (1.-dy)*((1.-dx)*tsampr(ix,iy) + dx*tsampr(ix+1,iy)) + |
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dy*((1.-dx)*tsampr(ix,iy+1) + dx*tsampr(ix+1,iy+1)); |
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|
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acusample(scln[x], x, y, sr); /* compute sample */ |
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} |
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} |
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|
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|
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acusample(col, x, y, sr) /* interpolate sample at (x,y) using rate sr */ |
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COLOR col; |
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int x, y; |
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double sr; |
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{ |
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COLOR c1; |
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double d; |
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register SCANBAR *sb0; |
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|
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for (sb0 = rootbar; sb0->next != NULL && sb0->next->sampr > sr; |
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sb0 = sb0->next) |
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; |
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ascanval(col, x, y, sb0); |
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if (sb0->next == NULL) /* don't extrapolate highest */ |
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return; |
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ascanval(c1, x, y, sb0->next); |
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d = (sb0->sampr - sr)/(sb0->sampr - sb0->next->sampr); |
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scalecolor(col, 1.-d); |
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scalecolor(c1, d); |
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addcolor(col, c1); |
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} |
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|
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|
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ascanval(col, x, y, sb) /* interpolate scanbar at orig. coords (x,y) */ |
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COLOR col; |
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int x, y; |
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SCANBAR *sb; |
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{ |
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COLOR *sl0, *sl1, c1, c1y; |
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double dx, dy; |
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int ix, iy; |
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|
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ix = dx = (x+.5)/sb->sampr - .5; |
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if (ix >= sb->len-1) ix--; |
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dx -= (double)ix; |
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iy = dy = (y+.5)/sb->sampr - .5; |
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if (iy >= numscans(&inpres)/sb->sampr-1) iy--; |
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dy -= (double)iy; |
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/* get scanlines */ |
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sl0 = getascan(sb, iy); |
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sl1 = getascan(sb, iy+1); |
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/* 2D linear interpolation */ |
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copycolor(col, sl0[ix]); |
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scalecolor(col, 1.-dx); |
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copycolor(c1, sl0[ix+1]); |
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scalecolor(c1, dx); |
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addcolor(col, c1); |
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copycolor(c1y, sl1[ix]); |
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scalecolor(c1y, 1.-dx); |
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copycolor(c1, sl1[ix+1]); |
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scalecolor(c1, dx); |
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addcolor(c1y, c1); |
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scalecolor(col, 1.-dy); |
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scalecolor(c1y, dy); |
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addcolor(col, c1y); |
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} |
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|
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|
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SCANBAR * |
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sballoc(sr, ns, sl) /* allocate scanbar */ |
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int sr; /* sampling rate */ |
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int ns; /* number of scanlines */ |
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int sl; /* original scanline length */ |
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{ |
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register SCANBAR *sb; |
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|
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sb = (SCANBAR *)malloc(sizeof(SCANBAR)+(sl/sr)*ns*sizeof(COLOR)); |
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if (sb == NULL) |
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syserror("malloc"); |
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sb->nscans = ns; |
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sb->len = sl/sr; |
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sb->nread = 0; |
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if ((sb->sampr = sr) > 1) |
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sb->next = sballoc(sr/2, ns*2, sl); |
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else |
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sb->next = NULL; |
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return(sb); |
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} |
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|
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|
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initacuity() /* initialize variable acuity sampling */ |
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{ |
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FVECT diffx, diffy, cp; |
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double omega, maxsr; |
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register int x, y, i; |
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|
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compraydir(); /* compute ray directions */ |
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|
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inpacuD = (float *)malloc(fvxr*fvyr*sizeof(float)); |
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if (inpacuD == NULL) |
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syserror("malloc"); |
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maxsr = 1.; /* compute internal sample rates */ |
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for (y = 1; y < fvyr-1; y++) |
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for (x = 1; x < fvxr-1; x++) { |
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for (i = 0; i < 3; i++) { |
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diffx[i] = 0.5*fvxr/scanlen(&inpres) * |
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(rdirscan(y)[x+1][i] - |
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rdirscan(y)[x-1][i]); |
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diffy[i] = 0.5*fvyr/numscans(&inpres) * |
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(rdirscan(y+1)[x][i] - |
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rdirscan(y-1)[x][i]); |
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} |
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fcross(cp, diffx, diffy); |
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omega = 0.5 * sqrt(DOT(cp,cp)); |
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if (omega <= FTINY) |
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tsampr(x,y) = 1.; |
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else if ((tsampr(x,y) = PI/180. / sqrt(omega) / |
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hacuity(plum(fovscan(y)[x]))) > maxsr) |
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maxsr = tsampr(x,y); |
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} |
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/* copy perimeter (easier) */ |
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for (x = 1; x < fvxr-1; x++) { |
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tsampr(x,0) = tsampr(x,1); |
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tsampr(x,fvyr-1) = tsampr(x,fvyr-2); |
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} |
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for (y = 0; y < fvyr; y++) { |
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tsampr(y,0) = tsampr(y,1); |
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tsampr(y,fvxr-1) = tsampr(y,fvxr-2); |
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} |
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/* initialize with next power of two */ |
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rootbar = sballoc(2<<(int)(log(maxsr)/log(2.)), 2, scanlen(&inpres)); |
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} |