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root/radiance/ray/src/rt/RpictSimulManager.cpp
Revision: 2.14
Committed: Fri Jan 24 19:08:01 2025 UTC (3 months ago) by greg
Branch: MAIN
Changes since 2.13: +2 -9 lines
Log Message: 
fix(rxpict): Eliminated spurious warning about missed pixels and image bottom

File Contents

# User Rev Content
1 greg 2.1 #ifndef lint
2 greg 2.14 static const char RCSid[] = "$Id: RpictSimulManager.cpp,v 2.13 2025/01/10 19:09:12 greg Exp $";
3 greg 2.1 #endif
4     /*
5     * RpictSimulManager.cpp
6     *
7     * Rpict simulation manager implementation
8     *
9     * Created by Greg Ward on 07/11/2024.
10     */
11    
12 greg 2.9 #define DEBUG 1 // XXX temporary!
13    
14 greg 2.1 #include <ctype.h>
15     #include "platform.h"
16     #include "RpictSimulManager.h"
17     #include "depthcodec.h"
18     #include "random.h"
19    
20     /************* Imported globals from rxpmain.c *************/
21    
22     extern VIEW ourview; /* viewing parameters */
23     extern int hres, vres; /* current image resolution */
24    
25     extern int psample; /* pixel sample size */
26     extern double maxdiff; /* max. sample difference */
27     extern double dstrpix; /* square pixel distribution */
28    
29     extern double mblur; /* motion blur parameter */
30    
31     extern double dblur; /* depth-of-field blur parameter */
32    
33     // Assign a pixel value (& depth) from rendered ray value
34     bool
35     PixelAccess::SetPixel(int x, int y, const RAY *rp)
36     {
37     if (!rp) return false;
38    
39     COLOR col;
40     float zv = 0; // get depth if needed
41     if (DepthType())
42     zv = raydistance(rp);
43    
44     switch (ColorSpace()) {
45     case RDTscolor: // keeping rendered spectrum?
46     case RDTscolr:
47     return SetPixel(x, y, rp->rcol, zv);
48     case RDTrgb:
49     case RDTrgbe:
50     case RDTxyz:
51     case RDTxyze:
52     scolor_out(col, primp, rp->rcol);
53     return SetPixel(x, y, col, zv);
54     default:
55 greg 2.2 error(INTERNAL, "botched color space type in SetPixel()");
56 greg 2.1 }
57     return false;
58     }
59    
60     // Set color space after non-empty initialization
61     bool
62     PixelAccess::SetColorSpace(RenderDataType cs, RGBPRIMP pr)
63     {
64     if (!dtyp) return false;
65    
66     if (!(cs = RDTcolorT(cs)))
67     cs = RDTcolorT(dtyp);
68     else if (RDTcommonE(cs) ^ RDTcommonE(dtyp))
69     return false;
70    
71     if (NCSAMP == 3) {
72     if (cs == RDTscolr) cs = RDTrgbe;
73     else if (cs == RDTscolor) cs = RDTrgb;
74     }
75     switch (cs) {
76     case RDTxyze:
77     case RDTxyz:
78     primp = xyzprims;
79     break;
80     case RDTrgbe:
81     case RDTrgb:
82     primp = pr ? pr : stdprims;
83     break;
84 greg 2.2 case RDTscolr:
85     case RDTscolor:
86 greg 2.1 primp = NULL;
87     break;
88 greg 2.2 default:
89     error(INTERNAL, "botched color space type in SetColorSpace()");
90 greg 2.1 }
91     dtyp = RDTnewCT(dtyp, cs);
92     return true;
93     }
94    
95     /*
96     * Set up rendering frame (call after octree loaded)
97     * Overall dimensions may be adjusted for view,
98     * optional pixel aspect ratio and tile grid
99     * Increments frameNo if >0
100     */
101     bool
102     RpictSimulManager::NewFrame(const VIEW &v, int xydim[2], double *ap, const int *tgrid)
103     {
104     double pasp = 1.;
105    
106     if (!xydim) return false;
107     if (!ap) ap = &pasp;
108 greg 2.12 if (&v == &vw) {
109     pvw.type = 0;
110     } else {
111     pvw = vw; // save previous view for motion blur
112     vw = v;
113     }
114 greg 2.1 const char * verr = setview(&vw);
115     if (verr) {
116     error(WARNING, verr);
117     vw = pvw;
118     return false;
119     }
120     const double va = viewaspect(&vw);
121     normaspect(va, ap, &xydim[0], &xydim[1]);
122     // set up tiling?
123     if (tgrid && (tgrid[0] > 0) & (tgrid[1] > 0) & (tgrid[0]*tgrid[1] > 1)) {
124     if ((8*tgrid[0] >= xydim[0]) | (8*tgrid[1] >= xydim[1])) {
125     error(WARNING, "Excessive tiling for image size");
126     return false;
127     }
128     xydim[0] -= xydim[0] % (tgsize[0] = tgrid[0]);
129     xydim[1] -= xydim[1] % (tgsize[1] = tgrid[1]);
130     *ap = va * xydim[0] / xydim[1];
131     } else
132     tgsize[0] = tgsize[1] = 1;
133    
134     if (vw.vaft > FTINY) rtFlags |= RTlimDist;
135     else rtFlags &= ~RTlimDist;
136     hvres[0] = xydim[0]; hvres[1] = xydim[1];
137     thvres[0] = hvres[0]/tgsize[0]; // presumed tile width
138     thvres[1] = hvres[1]/tgsize[1]; // ...and height
139     frameNo += (frameNo > 0); // caller may override after
140     return true;
141     }
142    
143     // Call-back for rendered pixel
144     int
145     RpictSimulManager::RtCall(RAY *r, void *cd)
146     {
147     RpictSimulManager * rsp = (RpictSimulManager *)cd;
148 greg 2.2 const int ty = (r->rno-1) / rsp->TWidth();
149     const int tx = r->rno-1 - (RNUMBER)ty*rsp->TWidth();
150 greg 2.1
151     if (ty >= rsp->THeight()) {
152     error(INTERNAL, "bad pixel calculation position in RtCall()");
153     return -1;
154     }
155     if (!rsp->doneMap.TestAndSet(tx, ty)) {
156     error(WARNING, "duplicate pixel calculation");
157     return 0;
158     }
159     return rsp->pacc.SetPixel(tx, ty, r);
160     }
161    
162     // Set up the specified tile (or entire image if NULL)
163     bool
164     RpictSimulManager::SetTile(const int ti[2])
165     {
166     tvw = vw; ptvw = pvw;
167    
168     if (ti) {
169     if ((ti[0] < 0) | (ti[0] >= tgsize[0]) |
170     (ti[1] < 0) | (ti[1] >= tgsize[1])) {
171     error(INTERNAL, "illegal tile specification in SetTile()");
172     return false;
173     }
174     const char * verr = cropview(&tvw,
175     (double)ti[0]/tgsize[0],
176     (double)ti[1]/tgsize[1],
177     (ti[0]+1.)/tgsize[0],
178     (ti[1]+1.)/tgsize[1]);
179     if (verr) {
180     sprintf(errmsg, "crop failure @ tile (%d,%d)/(%d,%d): %s",
181     ti[0], ti[1], tgsize[0], tgsize[1], verr);
182     error(USER, errmsg);
183     return false;
184     } // previous tile view for blur
185     if (!ptvw.type | (mblur <= FTINY) ||
186     cropview(&ptvw, (double)ti[0]/tgsize[0],
187     (double)ti[1]/tgsize[1],
188     (ti[0]+1.)/tgsize[0],
189     (ti[1]+1.)/tgsize[1]))
190     ptvw.type = 0;
191    
192     } else if ((tgsize[0] > 1) | (tgsize[1] > 1)) {
193     error(INTERNAL, "missing tile specification in SetTile()");
194     return false;
195     }
196     return doneMap.NewBitMap(TWidth(), THeight());
197     }
198    
199     #define pixjitter() (.5+dstrpix*(.5-frandom()))
200    
201     // Send the indicated pixel to ray tracer
202     bool
203     RpictSimulManager::ComputePixel(int x, int y)
204     {
205 greg 2.9 DCHECK(doneMap.OffBitMap(x,y),
206     CONSISTENCY, "illegal pixel index in ComputPixel()");
207 greg 2.1 int i;
208     FVECT rodir[2];
209     double hpos = (x+pixjitter())/TWidth();
210     double vpos = (y+pixjitter())/THeight();
211     double dlim = viewray(rodir[0], rodir[1], &tvw, hpos, vpos);
212     if (dlim < -FTINY) { // off view?
213 greg 2.8 pacc.SetPixel(x, y, scblack);
214 greg 2.1 doneMap.Set(x, y);
215     return true;
216     }
217     if (ptvw.type) { // add motion blur if requested
218     FVECT rorg2, rdir2;
219     double dlim2 = viewray(rorg2, rdir2, &ptvw, hpos, vpos);
220     if (dlim2 >= -FTINY) {
221     const double d = mblur*(.5-frandom());
222     dlim = (1.-d)*dlim + d*dlim2;
223     for (i = 3; i--; ) {
224     rodir[0][i] = (1.-d)*rodir[0][i] + d*rorg2[i];
225     rodir[1][i] = (1.-d)*rodir[1][i] + d*rdir2[i];
226     }
227     if (normalize(rodir[1]) == 0)
228     return false;
229     }
230     }
231     // depth-of-field blur if any
232     if (!jitteraperture(rodir[0], rodir[1], &tvw, dblur))
233     return false;
234     // include aft clipping distance?
235     for (i = (dlim > FTINY)*3; i--; )
236     rodir[1][i] *= dlim;
237    
238 greg 2.2 return EnqueueRay(rodir[0], rodir[1], (RNUMBER)y*TWidth()+x+1);
239 greg 2.1 }
240    
241     // Check if neighbor differences are below pixel sampling threshold
242     bool
243 greg 2.10 RpictSimulManager::BelowSampThresh(const int x, const int y, const int noff[4][2]) const
244 greg 2.1 {
245     SCOLOR pval[4];
246     float dist[4];
247     int i, j;
248    
249     for (i = 4; i--; ) { // get pixels from tile store
250 greg 2.10 const int px = x + noff[i][0];
251     const int py = y + noff[i][1];
252 greg 2.1 if (!doneMap.Check(px, py) ||
253     !pacc.GetPixel(px, py, pval[i], &dist[i]))
254     return false;
255     }
256 greg 2.10 // do pairwise comparisons
257     for (i = (pacc.DepthType() != RDTnone)*4; --i > 0; )
258     for (j = i; j--; )
259     if ((dist[i] - dist[j] > maxdiff*dist[j]) |
260 greg 2.1 (dist[j] - dist[i] > maxdiff*dist[i]))
261     return false;
262 greg 2.10 if (pacc.NC() > 3) {
263     for (i = 4; --i; )
264     for (j = i; j--; )
265     if (sbigsdiff(pval[i], pval[j], maxdiff))
266     return false;
267     } else {
268     for (i = 4; --i; )
269     for (j = i; j--; )
270     if (bigdiff(pval[i], pval[j], maxdiff))
271 greg 2.1 return false;
272 greg 2.10 }
273     return true;
274 greg 2.1 }
275    
276     // Fill an interior square patch with interpolated values
277     void
278 greg 2.2 RpictSimulManager::FillSquare(const int x, const int y, const int noff[4][2])
279 greg 2.1 {
280     SCOLOR pval[4];
281     float dist[4];
282     int i, j;
283     // assumes 4 corners are valid!
284 greg 2.9 for (i = 4; i--; ) {
285     DCHECK(!doneMap.Check(x+noff[i][0], y+noff[i][1]),
286     CONSISTENCY, "inclusion of bad pixel in FillSquare()");
287 greg 2.1 pacc.GetPixel(x+noff[i][0], y+noff[i][1], pval[i], &dist[i]);
288 greg 2.9 }
289 greg 2.1 i = abs(noff[1][0]-noff[0][0]);
290 greg 2.2 j = abs(noff[1][1]-noff[0][1]); // i==j for diamond fill
291     const int slen = (i > j) ? i : j;
292 greg 2.1 const bool spectr = (pacc.NC() > 3);
293 greg 2.2 for (i = slen+1 + (i==j)*slen; i--; ) {
294     const double c1 = (i>slen ? i-slen-.5 : (double)i)/slen;
295     for (j = slen + (i<=slen); j--; ) {
296     const double c2 = (j + (i>slen)*.5)/slen;
297 greg 2.1 const int px = int(x + (1.-c1)*(1.-c2)*noff[0][0] +
298     c1*(1.-c2)*noff[1][0] +
299     (1.-c1)*c2*noff[2][0] +
300     c1*c2*noff[3][0] + .5);
301     const int py = int(y + (1.-c1)*(1.-c2)*noff[0][1] +
302     c1*(1.-c2)*noff[1][1] +
303     (1.-c1)*c2*noff[2][1] +
304     c1*c2*noff[3][1] + .5);
305     if (!doneMap.TestAndSet(px, py))
306     continue;
307     float zval = 0;
308     if (pacc.DepthType())
309     zval = (1.-c1)*(1.-c2)*dist[0] + c1*(1.-c2)*dist[1] +
310     (1.-c1)*c2*dist[2] + c1*c2*dist[3];
311     if (spectr) { // XXX assumes pacc.NC() == NCSAMP
312     SCOLOR ipval, tpval;
313     copyscolor(ipval, pval[0]);
314     scalescolor(ipval, (1.-c1)*(1.-c2));
315     copyscolor(tpval, pval[1]);
316     scalescolor(tpval, c1*(1.-c2));
317     saddscolor(ipval, tpval);
318     copyscolor(tpval, pval[2]);
319     scalescolor(tpval, (1.-c1)*c2);
320     saddscolor(ipval, tpval);
321     copyscolor(tpval, pval[3]);
322     scalescolor(tpval, c1*c2);
323     saddscolor(ipval, tpval);
324     pacc.SetPixel(px, py, ipval, zval);
325     } else { // tristimulus interpolation
326     COLOR ipval, tpval;
327     copycolor(ipval, pval[0]);
328     scalecolor(ipval, (1.-c1)*(1.-c2));
329     copycolor(tpval, pval[1]);
330     scalecolor(tpval, c1*(1.-c2));
331     addcolor(ipval, tpval);
332     copycolor(tpval, pval[2]);
333     scalecolor(tpval, (1.-c1)*c2);
334     addcolor(ipval, tpval);
335     copycolor(tpval, pval[3]);
336     scalecolor(tpval, c1*c2);
337     addcolor(ipval, tpval);
338     pacc.SetPixel(px, py, ipval, zval);
339     }
340     }
341     }
342     }
343    
344     // helper function to set up quincunx sampling
345     static void
346 greg 2.8 SetQuincunx(ABitMap2 *bmp2, int noff[4][2], const int spc, bool odd, int x0, int y)
347 greg 2.1 {
348 greg 2.8 if (odd) { // order neighbors CCW
349 greg 2.1 noff[0][0] = spc>>1; noff[0][1] = 0;
350     noff[1][0] = 0; noff[1][1] = spc>>1;
351     noff[2][0] = -(spc>>1); noff[2][1] = 0;
352     noff[3][0] = 0; noff[3][1] = -(spc>>1);
353     } else {
354     noff[0][0] = spc>>1; noff[0][1] = spc>>1;
355     noff[1][0] = -(spc>>1); noff[1][1] = spc>>1;
356     noff[2][0] = -(spc>>1); noff[2][1] = -(spc>>1);
357     noff[3][0] = spc>>1; noff[3][1] = -(spc>>1);
358     }
359 greg 2.8 int nsteps; // non-negative range
360     if (x0 < -(spc>>1)) {
361     nsteps = (spc-1 - x0 - (spc>>1))/spc;
362     x0 += nsteps*spc;
363     }
364     if (y < 0) { // get past y==0
365     nsteps = ((spc>>1)-1 - y)/(spc>>1);
366     y += nsteps*(spc>>1);
367     odd ^= nsteps&1;
368     }
369     while (y < bmp2->Height()) {
370     for (int x = x0 + odd*(spc>>1); x < bmp2->Width(); x += spc)
371     bmp2->Set(x, y);
372     y += spc>>1;
373     odd = !odd;
374     }
375 greg 2.1 }
376    
377     // Render (or finish rendering) current tile
378     bool
379 greg 2.8 RpictSimulManager::RenderRect(const int x0, const int y0)
380 greg 2.1 {
381     if (!tvw.type || !Ready()) {
382     error(INTERNAL, "need octree and view for RenderRect()");
383     return false;
384     }
385     ABitMap2 doneSamples = doneMap;
386     int sp2 = ceil(log2((TWidth()>THeight() ? TWidth() : THeight()) - 1.));
387     int layer = 0;
388     int x, y;
389     while (sp2 > 0) {
390     ABitMap2 sampMap(TWidth(), THeight());
391     int noff[4][2];
392     if ((prCB != NULL) & (barPix == NULL))
393     (*prCB)(100.*doneMap.SumTotal()/doneMap.Width()/doneMap.Height());
394 greg 2.8 SetQuincunx(&sampMap, noff, 1<<sp2, layer&1, x0, y0);
395 greg 2.1 sampMap -= doneSamples; // avoid resampling pixels
396     // Are we into adaptive sampling realm?
397 greg 2.9 if (noff[0][0]*noff[0][0] + noff[0][1]*noff[0][1] < psample*psample) {
398 greg 2.2 if (FlushQueue() < 0) // need results to check thresholds
399 greg 2.1 return false;
400     ABitMap2 fillMap = sampMap;
401     for (x = y = 0; sampMap.Find(&x, &y); x++)
402     if (BelowSampThresh(x, y, noff))
403     sampMap.Reset(x, y);
404     // spread sampling to neighbors...
405     const ABitMap2 origSampMap = sampMap;
406 greg 2.2 for (x = 4; x--; ) {
407 greg 2.1 ABitMap2 stamp = origSampMap;
408 greg 2.10 stamp.Shift(noff[x][0] + noff[(x+1)&3][0],
409     noff[x][1] + noff[(x+1)&3][1]);
410 greg 2.1 sampMap |= stamp;
411     } // ...but don't resample what's done
412     sampMap -= doneSamples;
413     // interpolate smooth regions
414     fillMap -= sampMap;
415 greg 2.10 fillMap -= doneSamples;
416 greg 2.1 for (x = y = 0; fillMap.Find(&x, &y); x++)
417     FillSquare(x, y, noff);
418     doneSamples |= doneMap;
419     } // compute required ray samples
420     for (x = y = 0; sampMap.Find(&x, &y); x++)
421 greg 2.13 if (!ComputePixel(x, y)) {
422     sprintf(errmsg, "ComputePixel(%d,%d) failed", x, y);
423     error(WARNING, errmsg);
424 greg 2.1 return false;
425 greg 2.13 }
426 greg 2.1 doneSamples |= sampMap; // samples now done or at least queued
427     sp2 -= layer++ & 1; // next denser sampling
428     }
429 greg 2.14 if (FlushQueue() < 0) // compute stragglers
430 greg 2.1 return false;
431     if ((prCB != NULL) & (barPix == NULL))
432     (*prCB)(100.);
433     return true;
434     }
435    
436     /*
437     * Render the specified tile in frame
438     * Tile pixels are contiguous unless ystride != 0
439     * Tiles numbered from upper-left at (0,0)
440     * Pixel type influenced by this->prims assignment
441     */
442     bool
443     RpictSimulManager::RenderTile(COLORV *rp, int ystride, float *zp, const int *tile)
444     {
445     if (!rp | (GetWidth() <= 0) | (GetHeight() <= 0) | !vw.type)
446     return false;
447     if (!ystride) // contiguous rows?
448     ystride = TWidth();
449     pacc.Init(rp, ystride, zp);
450     if (prims == xyzprims)
451     pacc.SetColorSpace(RDTxyz);
452     else if (prims)
453     pacc.SetColorSpace(RDTrgb, prims);
454 greg 2.8
455 greg 2.10 return SetTile(tile) && RenderRect();
456 greg 2.1 }
457    
458     // Same but store as common-exponent COLR or SCOLR
459     bool
460     RpictSimulManager::RenderTile(COLRV *bp, int ystride, float *zp, const int *tile)
461     {
462     if (!bp | (GetWidth() <= 0) | (GetHeight() <= 0) | !vw.type)
463     return false;
464     if (!ystride) // contiguous rows?
465     ystride = TWidth();
466     pacc.Init(bp, ystride, zp);
467     if (prims == xyzprims)
468     pacc.SetColorSpace(RDTxyze);
469     else if (prims)
470     pacc.SetColorSpace(RDTrgbe, prims);
471    
472 greg 2.10 return SetTile(tile) && RenderRect();
473 greg 2.1 }
474    
475     // Same but also use 16-bit encoded depth buffer
476     bool
477     RpictSimulManager::RenderTile(COLRV *bp, int ystride, short *dp, const int *tile)
478     {
479     if (!bp | (GetWidth() <= 0) | (GetHeight() <= 0) | !vw.type)
480     return false;
481     if (!ystride) // contiguous rows?
482     ystride = TWidth();
483     pacc.Init(bp, ystride, dp);
484     if (prims == xyzprims)
485     pacc.SetColorSpace(RDTxyze);
486     else if (prims)
487     pacc.SetColorSpace(RDTrgbe, prims);
488    
489 greg 2.10 return SetTile(tile) && RenderRect();
490 greg 2.1 }
491    
492 greg 2.4 // Back to float color with 16-bit depth
493     bool
494     RpictSimulManager::RenderTile(COLORV *rp, int ystride, short *dp, const int *tile)
495     {
496     if (!rp | (GetWidth() <= 0) | (GetHeight() <= 0) | !vw.type)
497     return false;
498     if (!ystride) // contiguous rows?
499     ystride = TWidth();
500     pacc.Init(rp, ystride, dp);
501     if (prims == xyzprims)
502     pacc.SetColorSpace(RDTxyz);
503     else if (prims)
504     pacc.SetColorSpace(RDTrgb, prims);
505    
506 greg 2.10 return SetTile(tile) && RenderRect();
507 greg 2.4 }
508    
509 greg 2.1 // Allocate a new render bar
510     void
511     RpictSimulManager::NewBar(int ht)
512     {
513     delete [] barPix;
514     delete [] barDepth;
515     if (ht > GetHeight()) ht = GetHeight();
516     if ((ht <= 0) | (GetWidth() <= 0)) {
517     doneMap.NewBitMap(0,0);
518     pacc.Init();
519     barPix = NULL; barDepth = NULL;
520     return;
521     }
522     thvres[0] = GetWidth();
523     thvres[1] = ht;
524     const int NC = prims ? 3 : NCSAMP;
525     barPix = new COLORV [ht*thvres[0]*NC];
526     barDepth = new float [ht*thvres[0]];
527     pacc.Init(barPix + (ht-1)*thvres[0]*NC,
528     -thvres[0], barDepth + (ht-1)*thvres[0]);
529     if (prims == xyzprims)
530     pacc.SetColorSpace(RDTxyz);
531     else if (prims)
532     pacc.SetColorSpace(RDTrgb, prims);
533    
534     doneMap.NewBitMap(TWidth(), THeight());
535     }
536    
537     // Shift render bar area the specified amount down the frame
538     bool
539 greg 2.3 RpictSimulManager::LowerBar(int v, int ytop)
540 greg 2.1 {
541     if (!barPix | !barDepth | (v > THeight()) | !tvw.type)
542     return false;
543 greg 2.3 if (v <= 0) return !v;
544     if ((ytop -= v) <= 0)
545     return true;
546 greg 2.2 tvw.voff -= double(v)/THeight();
547     ptvw.voff -= double(v)/THeight();
548 greg 2.1 if (v == THeight()) {
549     doneMap.ClearBitMap();
550     return true;
551     }
552     const int NC = pacc.NC();
553     doneMap.Shift(0, v, false); // lift finished pixel samples
554     memmove(barPix, barPix + NC*TWidth()*v,
555     sizeof(COLORV)*NC*TWidth()*(THeight()-v));
556     memmove(barDepth, barDepth + TWidth()*v,
557     sizeof(float)*TWidth()*(THeight()-v));
558 greg 2.9 if (ytop < THeight()) // mark what we won't do as finished
559 greg 2.3 doneMap.ClearRect(0, 0, TWidth(), THeight()-ytop, true);
560 greg 2.1 return true;
561     }
562    
563     // Continue rendering from the specified position
564     bool
565     RpictSimulManager::RenderBelow(int ytop, const int vstep, FILE *pfp, const int dt, FILE *dfp)
566     {
567     if (ytop <= 0)
568     return true;
569     ptvw = pvw; // set starting bar's view
570     tvw = vw;
571     const char * verr = cropview(&tvw, 0., double(ytop-THeight())/GetHeight(),
572     1., double(ytop)/GetHeight());
573     if (verr) {
574     sprintf(errmsg, "illegal render bar below y=%d: %s", ytop, verr);
575     error(INTERNAL, errmsg);
576     return false;
577     }
578     if (!ptvw.type | (mblur <= FTINY) ||
579     cropview(&ptvw, 0., double(ytop-THeight())/GetHeight(),
580     1., double(ytop)/GetHeight()))
581     ptvw.type = 0;
582 greg 2.9 // update spectral sampling
583 greg 2.11 int rv = setspectrsamp(CNDX, WLPART);
584     if (rv < 0) {
585 greg 2.1 error(USER, "unsupported spectral sampling");
586     return false;
587     }
588 greg 2.11 if (!rv & (RDTcolorT(dt) != RDTscolor) & (RDTcolorT(dt) != RDTscolr))
589     error(WARNING, "spectral range incompatible with color output");
590 greg 2.1 COLORV ** parr = NULL; // set up tiny source drawing
591     float ** zarr = NULL;
592     if (!ptvw.type && directvis && dblur <= FTINY) {
593     parr = new COLORV * [THeight()];
594     zarr = new float * [THeight()];
595     for (int n = THeight(); n-- > 0; ) {
596     parr[THeight()-1-n] = barPix + pacc.NC()*TWidth()*n;
597     zarr[THeight()-1-n] = barDepth + TWidth()*n;
598     }
599     ourview = vw; hres = GetWidth(); vres = GetHeight();
600     init_drawsources(psample);
601     }
602     int lastOut = ytop; // render down frame
603     while (ytop > 0) {
604     if (prCB)
605     (*prCB)(100.*(GetHeight()-ytop)/GetHeight());
606 greg 2.8 if (!RenderRect(0, THeight()-ytop)) // render this bar
607 greg 2.1 return false;
608     int nlines = lastOut - ytop + THeight();
609     if (nlines > ytop)
610     nlines = ytop;
611     else if (parr) // drawing sources?
612     drawsources(parr, prims, zarr,
613     0, hres, lastOut-nlines, nlines);
614    
615     if (dfp) { // write out depth scanlines?
616     const float * dp = barDepth + TWidth()*(ytop-lastOut);
617     if (RDTdepthT(dt) == RDTdshort) {
618     for (int n = TWidth()*nlines; n-- > 0; dp++)
619     if (putint(depth2code(*dp, pacc.refDepth), 2, dfp) == EOF)
620     error(SYSTEM, "cannot write 16-bit depth buffer");
621     } else if (putbinary(dp, sizeof(float), TWidth()*nlines, dfp)
622     != TWidth()*nlines)
623     error(SYSTEM, "cannot write raw depth buffer");
624     }
625     COLORV * bpos = barPix + pacc.NC()*TWidth()*(ytop-lastOut);
626     while (nlines-- > 0) { // write pixel scanlines
627     switch (RDTcolorT(dt)) {
628     case RDTrgbe:
629     case RDTxyze:
630     if (fwritescan((COLOR *)bpos, TWidth(), pfp) < 0)
631     error(SYSTEM, "cannot write RGBE/XYZE output");
632     break;
633     case RDTscolr:
634     if (fwritesscan(bpos, pacc.NC(), TWidth(), pfp) < 0)
635     error(SYSTEM, "cannot write SCOLOR output");
636     break;
637     case RDTrgb:
638     case RDTxyz:
639     case RDTscolor:
640     if (putbinary(bpos, sizeof(COLORV)*pacc.NC(), TWidth(), pfp)
641     != TWidth())
642     error(SYSTEM, "cannot write SCOLOR output");
643     break;
644     default:
645 greg 2.2 error(INTERNAL, "botched output color type in RenderBelow()");
646 greg 2.1 break;
647     }
648     bpos += pacc.NC()*TWidth();
649     --lastOut;
650     } // flush each scan bar
651     if (fflush(pfp) == EOF || (dfp && fflush(dfp) == EOF))
652     error(SYSTEM, "output write error");
653     // advance down the frame
654 greg 2.3 if (lastOut > 0 && !LowerBar(vstep, ytop))
655 greg 2.1 return false;
656     ytop -= vstep;
657     }
658     delete [] parr;
659     delete [] zarr;
660     if (prCB)
661     (*prCB)(100.);
662     return true;
663     }
664    
665 greg 2.5 // Open new output picture file (and optional depth file)
666 greg 2.1 RenderDataType
667 greg 2.5 RpictSimulManager::NewOutput(FILE *pdfp[2], const char *pfname,
668     RenderDataType dt, const char *dfname)
669 greg 2.1 {
670 greg 2.5 pdfp[0] = pdfp[1] = NULL;
671 greg 2.1 if (!RDTcolorT(dt))
672 greg 2.9 error(INTERNAL, "missing color output type in NewOutput()");
673 greg 2.1 if (NCSAMP == 3) {
674     if (RDTcolorT(dt) == RDTscolr)
675     dt = RDTnewCT(dt, prims==xyzprims ? RDTxyze : RDTrgbe);
676     else if (RDTcolorT(dt) == RDTscolor)
677     dt = RDTnewCT(dt, prims==xyzprims ? RDTxyz : RDTrgb);
678     }
679     if (!RDTdepthT(dt) ^ !dfname)
680 greg 2.5 error(INTERNAL, "depth output requires file name and type in NewOutput()");
681     int fd = 1;
682 greg 2.1 if (pfname) { // open picture output file
683     if (pfname[0] == '!') {
684     error(INTERNAL, "writing picture to a command not supported");
685     return RDTnone;
686     }
687 greg 2.12 fd = open(pfname, O_RDWR|O_CREAT|O_EXCL, 0666);
688 greg 2.1 }
689     if (fd < 0) {
690     if ((frameNo <= 0) | (errno != EEXIST)) {
691     sprintf(errmsg, "cannot open picture file '%s'", pfname);
692     error(SYSTEM, errmsg);
693     }
694 greg 2.9 return RDTnone; // may be expected in sequence run
695 greg 2.1 }
696     if (fd == 1)
697 greg 2.5 pdfp[0] = stdout;
698 greg 2.12 else if (!(pdfp[0] = fdopen(fd, "w+")))
699 greg 2.1 error(SYSTEM, "failure calling fdopen()");
700 greg 2.5 SET_FILE_BINARY(pdfp[0]); // write picture header
701     if ((pdfp[0] != stdout) | (frameNo <= 1)) {
702     newheader("RADIANCE", pdfp[0]);
703 greg 2.12 fputs(GetHeadStr(), pdfp[0]);
704 greg 2.1 }
705 greg 2.5 fputs(VIEWSTR, pdfp[0]); fprintview(&vw, pdfp[0]); fputc('\n', pdfp[0]);
706 greg 2.1 if (frameNo > 0)
707 greg 2.5 fprintf(pdfp[0], "FRAME=%d\n", frameNo);
708 greg 2.1 double pasp = viewaspect(&vw) * GetWidth() / GetHeight();
709 greg 2.2 if ((0.99 > pasp) | (pasp > 1.01))
710 greg 2.5 fputaspect(pasp, pdfp[0]);
711     fputnow(pdfp[0]);
712 greg 2.1 switch (RDTcolorT(dt)) { // set primaries and picture format
713     case RDTrgbe:
714     if (!prims | (prims == xyzprims)) prims = stdprims;
715 greg 2.5 fputprims(prims, pdfp[0]);
716     fputformat(COLRFMT, pdfp[0]);
717 greg 2.1 break;
718     case RDTxyze:
719     prims = xyzprims;
720 greg 2.5 fputformat(CIEFMT, pdfp[0]);
721 greg 2.1 break;
722     case RDTscolr:
723     prims = NULL;
724 greg 2.5 fputwlsplit(WLPART, pdfp[0]);
725     fputncomp(NCSAMP, pdfp[0]);
726     fputformat(SPECFMT, pdfp[0]);
727 greg 2.1 break;
728     case RDTrgb:
729     if (!prims | (prims == xyzprims)) prims = stdprims;
730 greg 2.5 fputprims(prims, pdfp[0]);
731     fputncomp(3, pdfp[0]);
732     fputendian(pdfp[0]);
733     fputformat("float", pdfp[0]);
734 greg 2.1 break;
735     case RDTxyz:
736     prims = xyzprims;
737 greg 2.5 fputprims(prims, pdfp[0]);
738     fputncomp(3, pdfp[0]);
739     fputendian(pdfp[0]);
740     fputformat("float", pdfp[0]);
741 greg 2.1 break;
742     case RDTscolor:
743     prims = NULL;
744 greg 2.5 fputwlsplit(WLPART, pdfp[0]);
745     fputncomp(NCSAMP, pdfp[0]);
746     fputendian(pdfp[0]);
747     fputformat("float", pdfp[0]);
748 greg 2.1 break;
749 greg 2.9 default:; // pro forma - caught this above
750 greg 2.1 }
751 greg 2.9 fputc('\n', pdfp[0]); // flush picture header
752 greg 2.5 if (fflush(pdfp[0]) == EOF) {
753     sprintf(errmsg, "cannot write header to picture '%s'", pfname);
754     error(SYSTEM, errmsg);
755     fclose(pdfp[0]);
756     pdfp[0] = NULL;
757     return RDTnone;
758     }
759 greg 2.6 if (dfname) { // open depth output
760 greg 2.1 if (dfname[0] == '!')
761 greg 2.5 pdfp[1] = popen(dfname+1, "w");
762 greg 2.1 else
763 greg 2.12 pdfp[1] = fopen(dfname, "w+");
764 greg 2.5 if (!pdfp[1]) {
765 greg 2.1 sprintf(errmsg, "cannot open depth output '%s'", dfname);
766     error(SYSTEM, errmsg);
767 greg 2.5 fclose(pdfp[0]);
768     pdfp[0] = NULL;
769 greg 2.1 return RDTnone;
770     }
771 greg 2.5 SET_FILE_BINARY(pdfp[1]);
772 greg 2.1 }
773     if (RDTdepthT(dt) == RDTdshort) { // write header for 16-bit depth?
774 greg 2.5 newheader("RADIANCE", pdfp[1]);
775 greg 2.12 fputs(GetHeadStr(), pdfp[1]);
776 greg 2.5 fputs(VIEWSTR, pdfp[1]); fprintview(&vw, pdfp[1]); fputc('\n', pdfp[1]);
777     fputs(DEPTHSTR, pdfp[1]); fputs(dunit, pdfp[1]); fputc('\n', pdfp[1]);
778     fputformat(DEPTH16FMT, pdfp[1]);
779     fputc('\n', pdfp[1]); // end-of-info
780     if (fflush(pdfp[1]) == EOF) {
781     sprintf(errmsg, "cannot write header to '%s'", dfname);
782     error(SYSTEM, errmsg);
783     fclose(pdfp[0]); fclose(pdfp[1]);
784     pdfp[0] = pdfp[1] = NULL;
785     return RDTnone;
786     }
787 greg 2.1 }
788 greg 2.5 return dt; // ready to roll
789     }
790    
791     /*
792     * Render and write a frame to the named file
793     * Include any header lines set prior to call
794     * Picture file must not exist
795     * Write pixels to stdout if !pfname
796     * Write depth to a command if dfname[0]=='!'
797     */
798     RenderDataType
799     RpictSimulManager::RenderFrame(const char *pfname, RenderDataType dt, const char *dfname)
800     {
801     FILE *pdfp[2];
802     // prepare output file(s)
803     dt = NewOutput(pdfp, pfname, dt, dfname);
804     if (dt == RDTnone)
805     return RDTnone;
806 greg 2.6 // add resolution string(s)
807     fprtresolu(GetWidth(), GetHeight(), pdfp[0]);
808     if (RDTdepthT(dt) == RDTdshort)
809     fprtresolu(GetWidth(), GetHeight(), pdfp[1]);
810 greg 2.5
811 greg 2.10 const int bheight = (psample > 1) ? int(8*psample+.99) : 16;
812 greg 2.8 const int vstep = bheight >> (psample > 1);
813 greg 2.1
814     NewBar(bheight); // render frame if we can
815 greg 2.5 if (!RenderBelow(GetHeight(), vstep, pdfp[0], dt, pdfp[1])) {
816     fclose(pdfp[0]);
817     if (pdfp[1]) (dfname[0] == '!') ? pclose(pdfp[1]) : fclose(pdfp[1]);
818 greg 2.1 return RDTnone;
819     }
820     NewBar(); // clean up and return
821 greg 2.5 if (pdfp[0] != stdout)
822     fclose(pdfp[0]);
823     if (pdfp[1]) {
824 greg 2.1 if (dfname[0] == '!') {
825 greg 2.5 int status = pclose(pdfp[1]);
826 greg 2.1 if (status) {
827     sprintf(errmsg, "depth output (%s) error status: %d",
828     dfname, status);
829     error(USER, errmsg);
830     return RDTnone;
831     }
832     } else
833 greg 2.5 fclose(pdfp[1]);
834 greg 2.1 }
835     return dt;
836     }
837    
838     // passed struct for header line callback
839 greg 2.5 static struct HeaderInfo {
840 greg 2.1 char fmt[MAXFMTLEN];
841     char depth_unit[32];
842     int ncomp;
843     RGBPRIMS prims;
844     VIEW vw;
845     bool gotWL;
846     bool gotprims;
847     bool gotview;
848     bool endianMatch;
849    
850     HeaderInfo() {
851     strcpy(fmt, "MISSING");
852     depth_unit[0] = '\0';
853     ncomp = 3;
854     vw = stdview;
855     gotWL = false;
856     gotprims = false;
857     gotview = false;
858     endianMatch = true;
859     }
860 greg 2.5 } hinfo; // XXX single copy to hold custom primitives
861 greg 2.1
862     // helper function checks header line and records req. info.
863     static int
864     head_check(char *s, void *p)
865     {
866     HeaderInfo * hp = (HeaderInfo *)p;
867     int rval;
868    
869     if (isncomp(s)) {
870     hp->ncomp = ncompval(s);
871     return 1;
872     }
873     if (iswlsplit(s)) {
874     hp->gotWL = wlsplitval(WLPART, s);
875     return 1;
876     }
877     if (isprims(s)) {
878     hp->gotprims = primsval(hp->prims, s);
879     return 1;
880     }
881     if (isview(s)) {
882     hp->gotview |= (sscanview(&hp->vw, s) > 0);
883     return 1;
884     }
885     if (!strncmp(s, DEPTHSTR, LDEPTHSTR)) {
886     strlcpy(hp->depth_unit, s+LDEPTHSTR, sizeof(hp->depth_unit));
887     char * cp = hp->depth_unit;
888     while (*cp) cp++;
889     while (cp > hp->depth_unit && isspace(cp[-1])) cp--;
890     *cp = '\0';
891     return 1;
892     }
893     if ((rval = isbigendian(s)) >= 0) {
894     hp->endianMatch = (rval == nativebigendian());
895     return 1;
896     }
897     if (formatval(hp->fmt, s))
898     return 1;
899     return 0;
900     }
901    
902 greg 2.5 // Reopen output file(s), leaving pointers at end of (each) header
903 greg 2.1 RenderDataType
904 greg 2.5 RpictSimulManager::ReopenOutput(FILE *pdfp[2], const char *pfname, const char *dfname)
905 greg 2.1 {
906 greg 2.5 extern const char HDRSTR[];
907    
908     if (!pfname || pfname[0] == '!') {
909     pdfp[0] = pdfp[1] = NULL;
910 greg 2.1 return RDTnone;
911 greg 2.5 }
912 greg 2.1 RenderDataType dt = RDTnone;
913 greg 2.5 pdfp[1] = NULL;
914     pdfp[0] = fopen(pfname, "r+");
915     if (!pdfp[0]) {
916 greg 2.1 sprintf(errmsg, "cannot reopen output picture '%s'", pfname);
917     error(SYSTEM, errmsg);
918     return RDTnone;
919     }
920 greg 2.5 SET_FILE_BINARY(pdfp[0]); // read header information
921     if (getheader(pdfp[0], head_check, &hinfo) < 0) {
922     fclose(pdfp[0]);
923     pdfp[0] = NULL;
924 greg 2.1 return RDTnone;
925     }
926     if (!hinfo.gotview) {
927     sprintf(errmsg, "missing view for '%s'", pfname);
928     error(USER, errmsg);
929 greg 2.5 fclose(pdfp[0]);
930     pdfp[0] = NULL;
931 greg 2.1 return RDTnone;
932     }
933     if (hinfo.ncomp < 3) {
934     sprintf(errmsg, "bad # components (%d) in '%s'", hinfo.ncomp, pfname);
935     error(USER, errmsg);
936 greg 2.5 fclose(pdfp[0]);
937     pdfp[0] = NULL;
938 greg 2.1 return RDTnone;
939     }
940 greg 2.5 // set rendering/output space
941 greg 2.1 if (!strcmp(hinfo.fmt, COLRFMT)) {
942 greg 2.5 prims = hinfo.prims; // XXX static array
943 greg 2.1 int n = 8*hinfo.gotprims;
944     while (n--)
945     if (!FABSEQ(hinfo.prims[0][n], stdprims[0][n]))
946     break;
947     if (n < 0)
948     prims = stdprims;
949     dt = RDTnewCT(dt, RDTrgbe);
950     } else if (!strcmp(hinfo.fmt, CIEFMT)) {
951     prims = xyzprims;
952     dt = RDTnewCT(dt, RDTxyze);
953     } else if (!strcmp(hinfo.fmt, SPECFMT)) {
954     if ((hinfo.ncomp <= 3) | (hinfo.ncomp > MAXCSAMP)) {
955     sprintf(errmsg, "incompatible sample count (%d) in '%s'",
956     hinfo.ncomp, pfname);
957     error(USER, errmsg);
958 greg 2.5 fclose(pdfp[0]);
959     pdfp[0] = NULL;
960 greg 2.1 return RDTnone;
961     }
962 greg 2.5 NCSAMP = hinfo.ncomp; // overrides global setting
963 greg 2.1 prims = NULL;
964     dt = RDTnewCT(dt, RDTscolr);
965     } else if (!strcmp(hinfo.fmt, "float")) {
966     if (!hinfo.endianMatch) {
967     sprintf(errmsg, "incompatible byte ordering in '%s'", pfname);
968     error(USER, errmsg);
969 greg 2.5 fclose(pdfp[0]);
970     pdfp[0] = NULL;
971 greg 2.1 return RDTnone;
972     }
973     if (hinfo.ncomp == 3) {
974 greg 2.5 prims = hinfo.prims; // custom primaries?
975 greg 2.1 int n = 8*hinfo.gotprims;
976     while (n--)
977     if (!FABSEQ(hinfo.prims[0][n], stdprims[0][n]))
978     break;
979 greg 2.5 if (n < 0) // standard primaries?
980 greg 2.1 prims = stdprims;
981     else if (hinfo.gotprims) { // or check if XYZ
982     for (n = 8; n--; )
983     if (!FABSEQ(prims[0][n], xyzprims[0][n]))
984     break;
985     if (n < 0)
986     prims = xyzprims;
987     }
988     if (prims == xyzprims)
989     dt = RDTnewCT(dt, RDTxyz);
990     else
991     dt = RDTnewCT(dt, RDTrgb);
992     } else {
993     NCSAMP = hinfo.ncomp; // overrides global setting
994     prims = NULL;
995     dt = RDTnewCT(dt, RDTscolor);
996     }
997 greg 2.5 } else {
998     sprintf(errmsg, "unknown format (%s) for '%s'", hinfo.fmt, pfname);
999     error(USER, errmsg);
1000     fclose(pdfp[0]);
1001     pdfp[0] = NULL;
1002     return RDTnone;
1003     }
1004 greg 2.12 if (hinfo.gotview) { // header view overrides
1005     pvw = vw;
1006     vw = hinfo.vw;
1007     }
1008 greg 2.5 if (!dfname) // no depth file?
1009     return dt;
1010    
1011     if (dfname[0] == '!') {
1012     error(USER, "depth data cannot be reloaded from command");
1013     fclose(pdfp[0]);
1014     pdfp[0] = NULL;
1015     return RDTnone;
1016     }
1017     pdfp[1] = fopen(dfname, "r+");
1018     if (!pdfp[1]) {
1019     sprintf(errmsg, "cannot reopen depth file '%s'", dfname);
1020     error(SYSTEM, errmsg);
1021     fclose(pdfp[0]);
1022     pdfp[0] = NULL;
1023     return RDTnone;
1024     }
1025     SET_FILE_BINARY(pdfp[1]);
1026     int n, len = strlen(HDRSTR);
1027 greg 2.12 char buf[32]; // sniff for 16-bit header
1028 greg 2.7 if (getbinary(buf, 1, len+1, pdfp[1]) < len+1) {
1029 greg 2.5 sprintf(errmsg, "empty depth file '%s'", dfname);
1030     error(SYSTEM, errmsg);
1031     fclose(pdfp[0]); fclose(pdfp[1]);
1032     pdfp[0] = pdfp[1] = NULL;
1033     return RDTnone;
1034     }
1035     for (n = 0; n < len; n++)
1036     if (buf[n] != HDRSTR[n])
1037 greg 2.12 break; // not a Radiance header
1038 greg 2.7 rewind(pdfp[1]);
1039 greg 2.5 if ((n < len) | !isprint(buf[len]))
1040     return RDTnewDT(dt, RDTdfloat);
1041    
1042 greg 2.12 HeaderInfo dinfo; // thinking it's 16-bit encoded
1043 greg 2.5 if (getheader(pdfp[1], head_check, &dinfo) < 0)
1044     sprintf(errmsg, "bad header in encoded depth file '%s'",
1045     dfname);
1046     else if (strcmp(dinfo.fmt, DEPTH16FMT))
1047     sprintf(errmsg, "wrong format (%s) for depth file '%s'",
1048     dinfo.fmt, dfname);
1049     else if (!SetReferenceDepth(dinfo.depth_unit))
1050     sprintf(errmsg, "bad/missing reference depth (%s) in '%s'",
1051     dinfo.depth_unit, dfname);
1052     else
1053     errmsg[0] = '\0';
1054    
1055     if (errmsg[0]) {
1056     error(USER, errmsg);
1057     fclose(pdfp[1]); fclose(pdfp[0]);
1058     pdfp[0] = pdfp[1] = NULL;
1059     return RDTnone;
1060     }
1061     return RDTnewDT(dt, RDTdshort);
1062     }
1063    
1064     // Resume partially finished rendering
1065     // Picture file must exist
1066     RenderDataType
1067     RpictSimulManager::ResumeFrame(const char *pfname, const char *dfname)
1068     {
1069     FILE *pdfp[2];
1070    
1071     RenderDataType dt = ReopenOutput(pdfp, pfname, dfname);
1072     if (dt == RDTnone)
1073     return RDTnone;
1074    
1075     int bytesPer = 0; // figure out how far we got...
1076     switch (RDTcolorT(dt)) {
1077     case RDTrgbe:
1078     case RDTxyze:
1079     break;
1080     case RDTscolr:
1081 greg 2.12 bytesPer = NCSAMP + 1; // XXX assumes no compression
1082 greg 2.5 break;
1083     case RDTrgb:
1084     case RDTxyz:
1085     bytesPer = sizeof(float)*3;
1086     break;
1087     case RDTscolor:
1088 greg 2.12 bytesPer = sizeof(float)*NCSAMP;
1089 greg 2.5 break;
1090     default:
1091 greg 2.12 sprintf(errmsg, "unknown format for '%s'", pfname);
1092 greg 2.1 error(USER, errmsg);
1093 greg 2.5 fclose(pdfp[0]);
1094     if (pdfp[1]) fclose(pdfp[1]);
1095     return RDTnone;
1096     }
1097     RESOLU res;
1098     if (!fgetsresolu(&res, pdfp[0]) || res.rt != PIXSTANDARD) {
1099     sprintf(errmsg, "missing/bad resolution for '%s'", pfname);
1100     error(USER, errmsg);
1101     fclose(pdfp[0]);
1102     if (pdfp[1]) fclose(pdfp[1]);
1103 greg 2.1 return RDTnone;
1104     }
1105 greg 2.12 frameNo = 0; // set up unreferenced frame
1106 greg 2.1 int hvdim[2] = {res.xr, res.yr};
1107     double noAdj = 0;
1108 greg 2.12 if (!NewFrame(vw, hvdim, &noAdj) ||
1109 greg 2.1 (hvdim[0] != res.xr) | (hvdim[1] != res.yr)) {
1110 greg 2.5 error(CONSISTENCY, "unexpected resolution change in ResumeFrame()");
1111     fclose(pdfp[0]);
1112     if (pdfp[1]) fclose(pdfp[1]);
1113 greg 2.1 return RDTnone;
1114     }
1115 greg 2.5 long dataStart = ftell(pdfp[0]); // picture starting point
1116 greg 2.1 if (dataStart < 0) {
1117     sprintf(errmsg, "cannot seek on '%s'", pfname);
1118     error(SYSTEM, errmsg);
1119 greg 2.5 fclose(pdfp[0]);
1120     if (pdfp[1]) fclose(pdfp[1]);
1121 greg 2.1 return RDTnone;
1122     }
1123     long doneScans = 0;
1124     if (bytesPer) { // fixed-width records?
1125 greg 2.5 fseek(pdfp[0], 0, SEEK_END);
1126     long dataEnd = ftell(pdfp[0]);
1127 greg 2.1 doneScans = (dataEnd - dataStart)/(bytesPer*GetWidth());
1128     if (dataEnd-dataStart > bytesPer*GetWidth()*doneScans)
1129 greg 2.5 fseek(pdfp[0], dataStart + bytesPer*GetWidth()*doneScans, SEEK_SET);
1130 greg 2.1 } else { // else get compressed scanlines
1131     COLR * scan = (COLR *)tempbuffer(sizeof(COLR)*GetWidth());
1132 greg 2.5 while (freadcolrs(scan, GetWidth(), pdfp[0]) >= 0)
1133 greg 2.1 ++doneScans;
1134 greg 2.5 if (!feof(pdfp[0])) {
1135 greg 2.1 sprintf(errmsg, "error reading compressed scanline from '%s'", pfname);
1136     error(USER, errmsg);
1137 greg 2.5 fclose(pdfp[0]);
1138     if (pdfp[1]) fclose(pdfp[1]);
1139 greg 2.1 return RDTnone;
1140     }
1141     }
1142     if (doneScans >= GetHeight()) { // nothing left to do?
1143     sprintf(errmsg, "output file '%s' is already complete", pfname);
1144     error(WARNING, errmsg);
1145 greg 2.5 fclose(pdfp[0]);
1146     if (pdfp[1]) fclose(pdfp[1]);
1147 greg 2.1 return dt;
1148     }
1149     if (!doneScans) {
1150     sprintf(errmsg, "restarting empty frame '%s'", pfname);
1151     error(WARNING, errmsg);
1152     }
1153 greg 2.5 long toSkip = 0;
1154 greg 2.6 switch (RDTdepthT(dt)) { // append depth file, too?
1155 greg 2.5 case RDTdfloat:
1156     toSkip = sizeof(float)*GetWidth()*doneScans;
1157     break;
1158     case RDTdshort:
1159     if (!fgetsresolu(&res, pdfp[1]) || (res.rt != PIXSTANDARD) |
1160     (res.xr != GetWidth()) | (res.yr != GetHeight())) {
1161     sprintf(errmsg, "missing/bad resolution for '%s'", dfname);
1162     error(USER, errmsg);
1163     fclose(pdfp[0]); fclose(pdfp[0]);
1164 greg 2.1 return RDTnone;
1165     }
1166 greg 2.5 toSkip = 2L*GetWidth()*doneScans;
1167     break;
1168     default:;
1169 greg 2.6 } // fseek() needed for output
1170     if (pdfp[1] && fseek(pdfp[1], toSkip, SEEK_CUR) < 0) {
1171 greg 2.5 sprintf(errmsg, "cannot seek on depth file '%s'", dfname);
1172     error(SYSTEM, errmsg);
1173     fclose(pdfp[0]); fclose(pdfp[1]);
1174     return RDTnone;
1175 greg 2.1 }
1176 greg 2.10 int bheight = (psample > 1) ? int(8*psample+.99) : 16;
1177 greg 2.1 if (bheight > GetHeight()-doneScans)
1178     bheight = GetHeight()-doneScans;
1179     int vstep = bheight >> (psample > 1);
1180     vstep += !vstep;
1181    
1182     NewBar(bheight); // render remainder if we can
1183 greg 2.5 if (!RenderBelow(GetHeight()-doneScans, vstep, pdfp[0], dt, pdfp[1])) {
1184     fclose(pdfp[0]);
1185     if (pdfp[1]) fclose(pdfp[1]);
1186 greg 2.1 return RDTnone;
1187     }
1188     NewBar(); // close up and return success
1189 greg 2.5 fclose(pdfp[0]);
1190     if (pdfp[1]) fclose(pdfp[1]);
1191 greg 2.1 return dt;
1192     }