[ViewVC] Diff of: radiance/ray/src/px/pinterp.c

Comparing ray/src/px/pinterp.c (file contents):
Revision 1.12 by greg, Thu Jan 4 14:25:56 1990 UTC vs.
Revision 1.30 by greg, Mon Oct 15 11:01:48 1990 UTC

#	Line 10 \| Line 10 \| static char SCCSid[] = "$SunId$ LBL";
10
11		#include "standard.h"
12
13	+	#include <fcntl.h>
14	+
15		#include "view.h"
16
17		#include "color.h"
18
19	<	#define pscan(y) (ourpict+(y)*ourview.hresolu)
20	<	#define zscan(y) (ourzbuf+(y)*ourview.hresolu)
19	>	#ifndef BSD
20	>	#define vfork fork
21	>	#endif
22
23	<	#define F_FORE 1 /* fill foreground */
24	<	#define F_BACK 2 /* fill background */
23	>	#define pscan(y) (ourpict+(y)*hresolu)
24	>	#define zscan(y) (ourzbuf+(y)*hresolu)
25
26	+	#define F_FORE 1 /* fill foreground */
27	+	#define F_BACK 2 /* fill background */
28	+
29	+	#define PACKSIZ 42 /* calculation packet size */
30	+
31	+	#define RTCOM "rtrace -h -ovl -fff %s"
32	+
33		#define ABS(x) ((x)>0?(x):-(x))
34
35	<	VIEW ourview = STDVIEW(512); /* desired view */
35	>	struct position {int x,y; float z;};
36
37	+	VIEW ourview = STDVIEW; /* desired view */
38	+	int hresolu = 512; /* horizontal resolution */
39	+	int vresolu = 512; /* vertical resolution */
40	+	double pixaspect = 1.0; /* pixel aspect ratio */
41	+
42		double zeps = .02; /* allowed z epsilon */
43
44		COLR ourpict; / output picture */
#	Line 31 \| Line 46 \| *float ourzbuf; /* corresponding z-buffer /*
46
47		char *progname;
48
49	<	VIEW theirview = STDVIEW(512); /* input view */
50	<	int gotview; /* got input view? */
51	<
52	<	int fill = F_FORE\|F_BACK; /* selected fill algorithm */
38	<	extern int backfill(); /* fill functions */
39	<	int (deffill)() = backfill; / selected fill function */
49	>	int fillo = F_FORE\|F_BACK; /* selected fill options */
50	>	int fillsamp = 0; /* sample separation (0 == inf) */
51	>	extern int backfill(), rcalfill(); /* fill functions */
52	>	int (fillfunc)() = backfill; / selected fill function */
53		COLR backcolr = BLKCOLR; /* background color */
54	+	double backz = 0.0; /* background z value */
55	+	int normdist = 1; /* normalized distance? */
56	+	double ourexp = -1; /* output picture exposure */
57
58	+	VIEW theirview = STDVIEW; /* input view */
59	+	int gotview; /* got input view? */
60	+	int thresolu, tvresolu; /* input resolution */
61	+	double theirexp; /* input picture exposure */
62		double theirs2ours[4][4]; /* transformation matrix */
63	<	int normdist = 1; /* normalized distance? */
63	>	int hasmatrix = 0; /* has transformation matrix */
64
65	+	int childpid = -1; /* id of fill process */
66	+	FILE psend, precv; /* pipes to/from fill calculation */
67	+	int queue[PACKSIZ][2]; /* pending pixels */
68	+	int queuesiz; /* number of pixels pending */
69
70	+
71		main(argc, argv) /* interpolate pictures */
72		int argc;
73		char *argv[];
#	Line 52 \| Line 77 \| *char argv[];**
77		int gotvfile = 0;
78		char *zfile = NULL;
79		char *err;
80	<	int i;
80	>	int i, rval;
81
82		progname = argv[0];
83
84	<	for (i = 1; i < argc && argv[i][0] == '-'; i++)
84	>	for (i = 1; i < argc && argv[i][0] == '-'; i++) {
85	>	rval = getviewopt(&ourview, argc-i, argv+i);
86	>	if (rval >= 0) {
87	>	i += rval;
88	>	continue;
89	>	}
90		switch (argv[i][1]) {
91		case 't': /* threshold */
92		check(2,1);
#	Line 70 \| Line 100 \| *char argv[];**
100		switch (argv[i][2]) {
101		case '0': /* none */
102		check(3,0);
103	<	fill = 0;
103	>	fillo = 0;
104		break;
105		case 'f': /* foreground */
106		check(3,0);
107	<	fill = F_FORE;
107	>	fillo = F_FORE;
108		break;
109		case 'b': /* background */
110		check(3,0);
111	<	fill = F_BACK;
111	>	fillo = F_BACK;
112		break;
113		case 'a': /* all */
114		check(3,0);
115	<	fill = F_FORE\|F_BACK;
115	>	fillo = F_FORE\|F_BACK;
116		break;
117	+	case 's': /* sample */
118	+	check(3,1);
119	+	fillsamp = atoi(argv[++i]);
120	+	break;
121		case 'c': /* color */
122		check(3,3);
123	<	deffill = backfill;
123	>	fillfunc = backfill;
124		setcolr(backcolr, atof(argv[i+1]),
125		atof(argv[i+2]), atof(argv[i+3]));
126		i += 3;
127		break;
128	+	case 'z': /* z value */
129	+	check(3,1);
130	+	fillfunc = backfill;
131	+	backz = atof(argv[++i]);
132	+	break;
133	+	case 'r': /* rtrace */
134	+	check(3,1);
135	+	fillfunc = rcalfill;
136	+	calstart(RTCOM, argv[++i]);
137	+	break;
138		default:
139		goto badopt;
140		}
#	Line 101 \| Line 145 \| *char argv[];**
145		break;
146		case 'x': /* x resolution */
147		check(2,1);
148	<	ourview.hresolu = atoi(argv[++i]);
148	>	hresolu = atoi(argv[++i]);
149		break;
150		case 'y': /* y resolution */
151		check(2,1);
152	<	ourview.vresolu = atoi(argv[++i]);
152	>	vresolu = atoi(argv[++i]);
153		break;
154	<	case 'v': /* view */
155	<	switch (argv[i][2]) {
156	<	case 't': /* type */
157	<	check(4,0);
158	<	ourview.type = argv[i][3];
159	<	break;
116	<	case 'p': /* point */
117	<	check(3,3);
118	<	ourview.vp[0] = atof(argv[++i]);
119	<	ourview.vp[1] = atof(argv[++i]);
120	<	ourview.vp[2] = atof(argv[++i]);
121	<	break;
122	<	case 'd': /* direction */
123	<	check(3,3);
124	<	ourview.vdir[0] = atof(argv[++i]);
125	<	ourview.vdir[1] = atof(argv[++i]);
126	<	ourview.vdir[2] = atof(argv[++i]);
127	<	break;
128	<	case 'u': /* up */
129	<	check(3,3);
130	<	ourview.vup[0] = atof(argv[++i]);
131	<	ourview.vup[1] = atof(argv[++i]);
132	<	ourview.vup[2] = atof(argv[++i]);
133	<	break;
134	<	case 'h': /* horizontal */
135	<	check(3,1);
136	<	ourview.horiz = atof(argv[++i]);
137	<	break;
138	<	case 'v': /* vertical */
139	<	check(3,1);
140	<	ourview.vert = atof(argv[++i]);
141	<	break;
142	<	case 'f': /* file */
143	<	check(3,1);
144	<	gotvfile = viewfile(argv[++i], &ourview);
145	<	if (gotvfile < 0) {
146	<	perror(argv[i]);
147	<	exit(1);
148	<	} else if (gotvfile == 0) {
149	<	fprintf(stderr, "%s: bad view file\n",
150	<	argv[i]);
151	<	exit(1);
152	<	}
153	<	break;
154	<	default:
154	>	case 'p': /* pixel aspect */
155	>	check(2,1);
156	>	pixaspect = atof(argv[++i]);
157	>	break;
158	>	case 'v': /* view file */
159	>	if (argv[i][2] != 'f')
160		goto badopt;
161	+	check(3,1);
162	+	gotvfile = viewfile(argv[++i], &ourview, 0, 0);
163	+	if (gotvfile < 0) {
164	+	perror(argv[i]);
165	+	exit(1);
166	+	} else if (gotvfile == 0) {
167	+	fprintf(stderr, "%s: bad view file\n",
168	+	argv[i]);
169	+	exit(1);
170		}
171		break;
172		default:
#	Line 161 \| Line 175 \| *char argv[];**
175		progname, argv[i]);
176		goto userr;
177		}
178	+	}
179		/* check arguments */
180	<	if (argc-i < 2 \|\| (argc-i)%2)
180	>	if ((argc-i)%2)
181		goto userr;
182		/* set view */
183		if (err = setview(&ourview)) {
184		fprintf(stderr, "%s: %s\n", progname, err);
185		exit(1);
186		}
187	+	normaspect(viewaspect(&ourview), &pixaspect, &hresolu, &vresolu);
188		/* allocate frame */
189	<	ourpict = (COLR )malloc(ourview.hresoluourview.vresolu*sizeof(COLR));
190	<	ourzbuf = (float )calloc(ourview.hresoluourview.vresolu,sizeof(float));
191	<	if (ourpict == NULL \|\| ourzbuf == NULL) {
192	<	perror(progname);
177	<	exit(1);
178	<	}
189	>	ourpict = (COLR )malloc(hresoluvresolu*sizeof(COLR));
190	>	ourzbuf = (float )calloc(hresoluvresolu,sizeof(float));
191	>	if (ourpict == NULL \|\| ourzbuf == NULL)
192	>	syserror();
193		/* get input */
194		for ( ; i < argc; i += 2)
195		addpicture(argv[i], argv[i+1]);
196		/* fill in spaces */
197	<	if (fill&F_BACK)
198	<	backpicture();
197	>	if (fillo&F_BACK)
198	>	backpicture(fillfunc, fillsamp);
199		else
200	<	fillpicture();
200	>	fillpicture(fillfunc);
201	>	/* close calculation */
202	>	caldone();
203		/* add to header */
204		printargs(argc, argv, stdout);
205		if (gotvfile) {
206	<	printf(VIEWSTR);
206	>	fputs(VIEWSTR, stdout);
207		fprintview(&ourview, stdout);
208	<	printf("\n");
208	>	putc('\n', stdout);
209		}
210	<	printf("\n");
210	>	if (pixaspect < .99 \|\| pixaspect > 1.01)
211	>	fputaspect(pixaspect, stdout);
212	>	if (ourexp > 0 && (ourexp < .995 \|\| ourexp > 1.005))
213	>	fputexpos(ourexp, stdout);
214	>	putc('\n', stdout);
215		/* write picture */
216		writepicture();
217		/* write z file */
#	Line 201 \| Line 221 \| *char argv[];**
221		exit(0);
222		userr:
223		fprintf(stderr,
224	<	"Usage: %s [view opts][-t zthresh][-z zout][-fT][-n] pfile zspec ..\n",
224	>	"Usage: %s [view opts][-t eps][-z zout][-fT][-n] pfile zspec ..\n",
225		progname);
226		exit(1);
227		#undef check
#	Line 211 \| Line 231 \| userr:
231		headline(s) /* process header string */
232		char *s;
233		{
234	<	static char *altname[] = {"rview","rpict","pinterp",VIEWSTR,NULL};
234	>	static char *altname[] = {VIEWSTR,"rpict","rview","pinterp",NULL};
235		register char **an;
236
237	<	printf("\t%s", s);
237	>	putc('\t', stdout);
238	>	fputs(s, stdout);
239
240	+	if (isexpos(s)) {
241	+	theirexp *= exposval(s);
242	+	return;
243	+	}
244		for (an = altname; *an != NULL; an++)
245		if (!strncmp(an, s, strlen(an))) {
246	<	if (sscanview(&theirview, s+strlen(*an)) == 0)
246	>	if (sscanview(&theirview, s+strlen(*an)) > 0)
247		gotview++;
248		break;
249		}
#	Line 229 \| Line 254 \| *addpicture(pfile, zspec) / add picture to output /*
254		char pfile, zspec;
255		{
256		extern double atof();
257	<	FILE pfp, zfp;
257	>	FILE *pfp;
258	>	int zfd;
259		char *err;
260		COLR *scanin;
261	<	float zin, zlast;
262	<	int *plast;
261	>	float *zin;
262	>	struct position *plast;
263		int y;
264		/* open picture file */
265		if ((pfp = fopen(pfile, "r")) == NULL) {
266		perror(pfile);
267		exit(1);
268		}
269	<	/* get header and view */
270	<	printf("%s:\n", pfile);
269	>	/* get header with exposure and view */
270	>	theirexp = 1.0;
271		gotview = 0;
272	+	printf("%s:\n", pfile);
273		getheader(pfp, headline);
274	<	if (!gotview \|\| fgetresolu(&theirview.hresolu, &theirview.vresolu, pfp)
274	>	if (!gotview \|\| fgetresolu(&thresolu, &tvresolu, pfp)
275		!= (YMAJOR\|YDECR)) {
276		fprintf(stderr, "%s: picture view error\n", pfile);
277		exit(1);
278		}
279	+	if (ourexp <= 0)
280	+	ourexp = theirexp;
281	+	else if (ABS(theirexp-ourexp) > .01*ourexp)
282	+	fprintf(stderr, "%s: different exposure (warning)\n", pfile);
283		if (err = setview(&theirview)) {
284		fprintf(stderr, "%s: %s\n", pfile, err);
285		exit(1);
286		}
287		/* compute transformation */
288	<	pixform(theirs2ours, &theirview, &ourview);
288	>	hasmatrix = pixform(theirs2ours, &theirview, &ourview);
289		/* allocate scanlines */
290	<	scanin = (COLR )malloc(theirview.hresolusizeof(COLR));
291	<	zin = (float )malloc(theirview.hresolusizeof(float));
292	<	plast = (int *)calloc(theirview.hresolu, sizeof(int));
293	<	zlast = (float *)calloc(theirview.hresolu, sizeof(float));
294	<	if (scanin == NULL \|\| zin == NULL \|\| plast == NULL \|\| zlast == NULL) {
264	<	perror(progname);
265	<	exit(1);
266	<	}
290	>	scanin = (COLR )malloc(thresolusizeof(COLR));
291	>	zin = (float )malloc(thresolusizeof(float));
292	>	plast = (struct position *)calloc(thresolu, sizeof(struct position));
293	>	if (scanin == NULL \|\| zin == NULL \|\| plast == NULL)
294	>	syserror();
295		/* get z specification or file */
296	<	if ((zfp = fopen(zspec, "r")) == NULL) {
296	>	if ((zfd = open(zspec, O_RDONLY)) == -1) {
297		double zvalue;
298		register int x;
299		if (!isfloat(zspec) \|\| (zvalue = atof(zspec)) <= 0.0) {
300		perror(zspec);
301		exit(1);
302		}
303	<	for (x = 0; x < theirview.hresolu; x++)
303	>	for (x = 0; x < thresolu; x++)
304		zin[x] = zvalue;
305		}
306		/* load image */
307	<	for (y = theirview.vresolu-1; y >= 0; y--) {
308	<	if (freadcolrs(scanin, theirview.hresolu, pfp) < 0) {
307	>	for (y = tvresolu-1; y >= 0; y--) {
308	>	if (freadcolrs(scanin, thresolu, pfp) < 0) {
309		fprintf(stderr, "%s: read error\n", pfile);
310		exit(1);
311		}
312	<	if (zfp != NULL
313	<	&& fread(zin,sizeof(float),theirview.hresolu,zfp)
286	<	< theirview.hresolu) {
312	>	if (zfd != -1 && read(zfd,(char )zin,thresolusizeof(float))
313	>	< thresolu*sizeof(float)) {
314		fprintf(stderr, "%s: read error\n", zspec);
315		exit(1);
316		}
317	<	addscanline(y, scanin, zin, plast, zlast);
317	>	addscanline(y, scanin, zin, plast);
318		}
319		/* clean up */
320		free((char *)scanin);
321		free((char *)zin);
322		free((char *)plast);
296	–	free((char *)zlast);
323		fclose(pfp);
324	<	if (zfp != NULL)
325	<	fclose(zfp);
324	>	if (zfd != -1)
325	>	close(zfd);
326		}
327
328
#	Line 306 \| Line 332 \| *register VIEW vw1, vw2;*
332		{
333		double m4t[4][4];
334
335	+	if (vw1->type != VT_PER && vw1->type != VT_PAR)
336	+	return(0);
337	+	if (vw2->type != VT_PER && vw2->type != VT_PAR)
338	+	return(0);
339		setident4(xfmat);
340	<	xfmat[0][0] = vw1->vhinc[0];
341	<	xfmat[0][1] = vw1->vhinc[1];
342	<	xfmat[0][2] = vw1->vhinc[2];
343	<	xfmat[1][0] = vw1->vvinc[0];
344	<	xfmat[1][1] = vw1->vvinc[1];
345	<	xfmat[1][2] = vw1->vvinc[2];
340	>	xfmat[0][0] = vw1->hvec[0];
341	>	xfmat[0][1] = vw1->hvec[1];
342	>	xfmat[0][2] = vw1->hvec[2];
343	>	xfmat[1][0] = vw1->vvec[0];
344	>	xfmat[1][1] = vw1->vvec[1];
345	>	xfmat[1][2] = vw1->vvec[2];
346		xfmat[2][0] = vw1->vdir[0];
347		xfmat[2][1] = vw1->vdir[1];
348		xfmat[2][2] = vw1->vdir[2];
#	Line 320 \| Line 350 \| *register VIEW vw1, vw2;*
350		xfmat[3][1] = vw1->vp[1];
351		xfmat[3][2] = vw1->vp[2];
352		setident4(m4t);
353	<	m4t[0][0] = vw2->vhinc[0]/vw2->vhn2;
354	<	m4t[1][0] = vw2->vhinc[1]/vw2->vhn2;
355	<	m4t[2][0] = vw2->vhinc[2]/vw2->vhn2;
356	<	m4t[3][0] = -DOT(vw2->vp,vw2->vhinc)/vw2->vhn2;
357	<	m4t[0][1] = vw2->vvinc[0]/vw2->vvn2;
358	<	m4t[1][1] = vw2->vvinc[1]/vw2->vvn2;
359	<	m4t[2][1] = vw2->vvinc[2]/vw2->vvn2;
360	<	m4t[3][1] = -DOT(vw2->vp,vw2->vvinc)/vw2->vvn2;
353	>	m4t[0][0] = vw2->hvec[0]/vw2->hn2;
354	>	m4t[1][0] = vw2->hvec[1]/vw2->hn2;
355	>	m4t[2][0] = vw2->hvec[2]/vw2->hn2;
356	>	m4t[3][0] = -DOT(vw2->vp,vw2->hvec)/vw2->hn2;
357	>	m4t[0][1] = vw2->vvec[0]/vw2->vn2;
358	>	m4t[1][1] = vw2->vvec[1]/vw2->vn2;
359	>	m4t[2][1] = vw2->vvec[2]/vw2->vn2;
360	>	m4t[3][1] = -DOT(vw2->vp,vw2->vvec)/vw2->vn2;
361		m4t[0][2] = vw2->vdir[0];
362		m4t[1][2] = vw2->vdir[1];
363		m4t[2][2] = vw2->vdir[2];
364		m4t[3][2] = -DOT(vw2->vp,vw2->vdir);
365		multmat4(xfmat, xfmat, m4t);
366	+	return(1);
367		}
368
369
370	<	addscanline(y, pline, zline, lasty, lastyz) /* add scanline to output */
370	>	addscanline(y, pline, zline, lasty) /* add scanline to output */
371		int y;
372		COLR *pline;
373		float *zline;
374	<	int lasty; / input/output */
344	<	float lastyz; / input/output */
374	>	struct position lasty; / input/output */
375		{
376		extern double sqrt();
377	<	double pos[3];
378	<	int lastx = 0;
349	<	double lastxz = 0;
350	<	double zt;
351	<	int xpos, ypos;
377	>	FVECT pos;
378	>	struct position lastx, newpos;
379		register int x;
380
381	<	for (x = theirview.hresolu-1; x >= 0; x--) {
382	<	pos[0] = x - .5*(theirview.hresolu-1);
383	<	pos[1] = y - .5*(theirview.vresolu-1);
381	>	lastx.z = 0;
382	>	for (x = thresolu-1; x >= 0; x--) {
383	>	pos[0] = (x+.5)/thresolu;
384	>	pos[1] = (y+.5)/tvresolu;
385		pos[2] = zline[x];
386	<	if (theirview.type == VT_PER) {
387	<	if (normdist) /* adjust for eye-ray distance */
360	<	pos[2] /= sqrt( 1.
361	<	+ pos[0]pos[0]theirview.vhn2
362	<	+ pos[1]pos[1]theirview.vvn2 );
363	<	pos[0] *= pos[2];
364	<	pos[1] *= pos[2];
365	<	}
366	<	multp3(pos, pos, theirs2ours);
367	<	if (pos[2] <= 0)
386	>	if (movepixel(pos) < 0) {
387	>	lasty[x].z = lastx.z = 0; /* mark invalid */
388		continue;
369	–	if (ourview.type == VT_PER) {
370	–	pos[0] /= pos[2];
371	–	pos[1] /= pos[2];
389		}
390	<	pos[0] += .5*ourview.hresolu;
391	<	pos[1] += .5*ourview.vresolu;
392	<	if (pos[0] < 0 \|\| (xpos = pos[0]) >= ourview.hresolu
376	<	\|\| pos[1] < 0 \|\| (ypos = pos[1]) >= ourview.vresolu)
377	<	continue;
390	>	newpos.x = pos[0] * hresolu;
391	>	newpos.y = pos[1] * vresolu;
392	>	newpos.z = zline[x];
393		/* add pixel to our image */
394	<	zt = 2.zepszline[x];
395	<	addpixel(xpos, ypos,
396	<	(fill&F_FORE && ABS(zline[x]-lastxz) <= zt)
397	<	? lastx - xpos : 1,
398	<	(fill&F_FORE && ABS(zline[x]-lastyz[x]) <= zt)
399	<	? lasty[x] - ypos : 1,
400	<	pline[x], pos[2]);
401	<	lastx = xpos;
387	<	lasty[x] = ypos;
388	<	lastxz = lastyz[x] = zline[x];
394	>	if (pos[0] >= 0 && newpos.x < hresolu
395	>	&& pos[1] >= 0 && newpos.y < vresolu) {
396	>	addpixel(&newpos, &lastx, &lasty[x], pline[x], pos[2]);
397	>	lasty[x].x = lastx.x = newpos.x;
398	>	lasty[x].y = lastx.y = newpos.y;
399	>	lasty[x].z = lastx.z = newpos.z;
400	>	} else
401	>	lasty[x].z = lastx.z = 0; /* mark invalid */
402		}
403		}
404
405
406	<	addpixel(xstart, ystart, width, height, pix, z) /* fill in area for pixel */
407	<	int xstart, ystart;
395	<	int width, height;
406	>	addpixel(p0, p1, p2, pix, z) /* fill in pixel parallelogram */
407	>	struct position p0, p1, *p2;
408		COLR pix;
409		double z;
410		{
411	<	register int x, y;
412	<	/* make width and height positive */
413	<	if (width < 0) {
414	<	width = -width;
415	<	xstart = xstart-width+1;
416	<	} else if (width == 0)
417	<	width = 1;
418	<	if (height < 0) {
419	<	height = -height;
420	<	ystart = ystart-height+1;
421	<	} else if (height == 0)
422	<	height = 1;
423	<	/* fill pixel(s) within rectangle */
424	<	for (y = ystart; y < ystart+height; y++)
425	<	for (x = xstart; x < xstart+width; x++)
426	<	if (zscan(y)[x] <= 0
427	<	\|\| zscan(y)[x]-z > zeps*zscan(y)[x]) {
411	>	double zt = 2.zepsp0->z; /* threshold */
412	>	int s1x, s1y, s2x, s2y; /* step sizes */
413	>	int l1, l2, c1, c2; /* side lengths and counters */
414	>	int p1isy; /* p0p1 along y? */
415	>	int x1, y1; /* p1 position */
416	>	register int x, y; /* final position */
417	>
418	>	/* compute vector p0p1 */
419	>	if (fillo&F_FORE && ABS(p1->z-p0->z) <= zt) {
420	>	s1x = p1->x - p0->x;
421	>	s1y = p1->y - p0->y;
422	>	l1 = ABS(s1x);
423	>	if (p1isy = (ABS(s1y) > l1))
424	>	l1 = ABS(s1y);
425	>	} else {
426	>	l1 = s1x = s1y = 1;
427	>	p1isy = -1;
428	>	}
429	>	/* compute vector p0p2 */
430	>	if (fillo&F_FORE && ABS(p2->z-p0->z) <= zt) {
431	>	s2x = p2->x - p0->x;
432	>	s2y = p2->y - p0->y;
433	>	if (p1isy == 1)
434	>	l2 = ABS(s2x);
435	>	else {
436	>	l2 = ABS(s2y);
437	>	if (p1isy != 0 && ABS(s2x) > l2)
438	>	l2 = ABS(s2x);
439	>	}
440	>	} else
441	>	l2 = s2x = s2y = 1;
442	>	/* fill the parallelogram */
443	>	for (c1 = l1; c1-- > 0; ) {
444	>	x1 = p0->x + c1*s1x/l1;
445	>	y1 = p0->y + c1*s1y/l1;
446	>	for (c2 = l2; c2-- > 0; ) {
447	>	x = x1 + c2*s2x/l2;
448	>	if (x < 0 \|\| x >= hresolu)
449	>	continue;
450	>	y = y1 + c2*s2y/l2;
451	>	if (y < 0 \|\| y >= vresolu)
452	>	continue;
453	>	if (zscan(y)[x] <= 0 \|\| zscan(y)[x]-z
454	>	> zeps*zscan(y)[x]) {
455		zscan(y)[x] = z;
456		copycolr(pscan(y)[x], pix);
457		}
458	+	}
459	+	}
460		}
461
462
463	<	backpicture() /* background fill algorithm */
463	>	movepixel(pos) /* reposition image point */
464	>	FVECT pos;
465		{
466	+	FVECT pt, direc;
467	+
468	+	if (hasmatrix) {
469	+	pos[0] += theirview.hoff - .5;
470	+	pos[1] += theirview.voff - .5;
471	+	if (theirview.type == VT_PER) {
472	+	if (normdist) /* adjust for eye-ray distance */
473	+	pos[2] /= sqrt( 1.
474	+	+ pos[0]pos[0]theirview.hn2
475	+	+ pos[1]pos[1]theirview.vn2 );
476	+	pos[0] *= pos[2];
477	+	pos[1] *= pos[2];
478	+	}
479	+	multp3(pos, pos, theirs2ours);
480	+	if (pos[2] <= 0)
481	+	return(-1);
482	+	if (ourview.type == VT_PER) {
483	+	pos[0] /= pos[2];
484	+	pos[1] /= pos[2];
485	+	}
486	+	pos[0] += .5 - ourview.hoff;
487	+	pos[1] += .5 - ourview.voff;
488	+	return(0);
489	+	}
490	+	if (viewray(pt, direc, &theirview, pos[0], pos[1]) < 0)
491	+	return(-1);
492	+	pt[0] += direc[0]*pos[2];
493	+	pt[1] += direc[1]*pos[2];
494	+	pt[2] += direc[2]*pos[2];
495	+	viewpixel(&pos[0], &pos[1], &pos[2], &ourview, pt);
496	+	if (pos[2] <= 0)
497	+	return(-1);
498	+	return(0);
499	+	}
500	+
501	+
502	+	backpicture(fill, samp) /* background fill algorithm */
503	+	int (*fill)();
504	+	int samp;
505	+	{
506		int *yback, xback;
507		int y;
508		COLR pfill;
509		register int x, i;
510		/* get back buffer */
511	<	yback = (int )malloc(ourview.hresolusizeof(int));
512	<	if (yback == NULL) {
513	<	perror(progname);
514	<	return;
433	<	}
434	<	for (x = 0; x < ourview.hresolu; x++)
511	>	yback = (int )malloc(hresolusizeof(int));
512	>	if (yback == NULL)
513	>	syserror();
514	>	for (x = 0; x < hresolu; x++)
515		yback[x] = -2;
516		/*
517		* Xback and yback are the pixel locations of suitable
#	Line 440 \| Line 520 \| *backpicture() / background fill algorithm /*
520		* that there is no suitable background in this direction.
521		*/
522		/* fill image */
523	<	for (y = 0; y < ourview.vresolu; y++) {
523	>	for (y = 0; y < vresolu; y++) {
524		xback = -2;
525	<	for (x = 0; x < ourview.hresolu; x++)
525	>	for (x = 0; x < hresolu; x++)
526		if (zscan(y)[x] <= 0) { /* empty pixel */
527		/*
528		* First, find background from above or below.
529		* (farthest assigned pixel)
530		*/
531		if (yback[x] == -2) {
532	<	for (i = y+1; i < ourview.vresolu; i++)
532	>	for (i = y+1; i < vresolu; i++)
533		if (zscan(i)[x] > 0)
534		break;
535	<	if (i < ourview.vresolu
535	>	if (i < vresolu
536		&& (y <= 0 \|\| zscan(y-1)[x] < zscan(i)[x]))
537		yback[x] = i;
538		else
#	Line 462 \| Line 542 \| *backpicture() / background fill algorithm /*
542		* Next, find background from left or right.
543		*/
544		if (xback == -2) {
545	<	for (i = x+1; i < ourview.hresolu; i++)
545	>	for (i = x+1; i < hresolu; i++)
546		if (zscan(y)[i] > 0)
547		break;
548	<	if (i < ourview.hresolu
548	>	if (i < hresolu
549		&& (x <= 0 \|\| zscan(y)[x-1] < zscan(y)[i]))
550		xback = i;
551		else
552		xback = x-1;
553		}
554		/*
555	<	* Check to see if we have no background for
556	<	* this pixel. If not, use background color.
555	>	* If we have no background for this pixel,
556	>	* use the given fill function.
557		*/
558	<	if (xback < 0 && yback[x] < 0) {
559	<	(*deffill)(x,y);
480	<	continue;
481	<	}
558	>	if (xback < 0 && yback[x] < 0)
559	>	goto fillit;
560		/*
561		* Compare, and use the background that is
562		* farther, unless one of them is next to us.
563	+	* If the background is too distant, call
564	+	* the fill function.
565		*/
566		if ( yback[x] < 0
567		\|\| (xback >= 0 && ABS(x-xback) <= 1)
568		\|\| ( ABS(y-yback[x]) > 1
569		&& zscan(yback[x])[x]
570	<	< zscan(y)[xback] ) )
570	>	< zscan(y)[xback] ) ) {
571	>	if (samp > 0 && ABS(x-xback) >= samp)
572	>	goto fillit;
573		copycolr(pscan(y)[x],pscan(y)[xback]);
574	<	else
574	>	zscan(y)[x] = zscan(y)[xback];
575	>	} else {
576	>	if (samp > 0 && ABS(y-yback[x]) > samp)
577	>	goto fillit;
578		copycolr(pscan(y)[x],pscan(yback[x])[x]);
579	+	zscan(y)[x] = zscan(yback[x])[x];
580	+	}
581	+	continue;
582	+	fillit:
583	+	(*fill)(x,y);
584	+	if (fill == rcalfill) { /* use it */
585	+	clearqueue();
586	+	xback = x;
587	+	yback[x] = y;
588	+	}
589		} else { /* full pixel */
590		yback[x] = -2;
591		xback = -2;
#	Line 500 \| Line 595 \| *backpicture() / background fill algorithm /*
595		}
596
597
598	<	fillpicture() /* paint in empty pixels with default */
598	>	fillpicture(fill) /* paint in empty pixels using fill */
599	>	int (*fill)();
600		{
601		register int x, y;
602
603	<	for (y = 0; y < ourview.vresolu; y++)
604	<	for (x = 0; x < ourview.hresolu; x++)
603	>	for (y = 0; y < vresolu; y++)
604	>	for (x = 0; x < hresolu; x++)
605		if (zscan(y)[x] <= 0)
606	<	(*deffill)(x,y);
606	>	(*fill)(x,y);
607		}
608
609
#	Line 515 \| Line 611 \| *writepicture() / write out picture /*
611		{
612		int y;
613
614	<	fputresolu(YMAJOR\|YDECR, ourview.hresolu, ourview.vresolu, stdout);
615	<	for (y = ourview.vresolu-1; y >= 0; y--)
616	<	if (fwritecolrs(pscan(y), ourview.hresolu, stdout) < 0) {
617	<	perror(progname);
522	<	exit(1);
523	<	}
614	>	fputresolu(YMAJOR\|YDECR, hresolu, vresolu, stdout);
615	>	for (y = vresolu-1; y >= 0; y--)
616	>	if (fwritecolrs(pscan(y), hresolu, stdout) < 0)
617	>	syserror();
618		}
619
620
#	Line 529 \| Line 623 \| *char fname;**
623		{
624		extern double sqrt();
625		int donorm = normdist && ourview.type == VT_PER;
626	<	FILE *fp;
626	>	int fd;
627		int y;
628		float *zout;
629
630	<	if ((fp = fopen(fname, "w")) == NULL) {
630	>	if ((fd = open(fname, O_WRONLY\|O_CREAT\|O_TRUNC, 0666)) == -1) {
631		perror(fname);
632		exit(1);
633		}
634		if (donorm
635	<	&& (zout = (float )malloc(ourview.hresolusizeof(float))) == NULL) {
636	<	perror(progname);
637	<	exit(1);
544	<	}
545	<	for (y = ourview.vresolu-1; y >= 0; y--) {
635	>	&& (zout = (float )malloc(hresolusizeof(float))) == NULL)
636	>	syserror();
637	>	for (y = vresolu-1; y >= 0; y--) {
638		if (donorm) {
639		double vx, yzn2;
640		register int x;
641	<	yzn2 = y - .5*(ourview.vresolu-1);
642	<	yzn2 = 1. + yzn2yzn2ourview.vvn2;
643	<	for (x = 0; x < ourview.hresolu; x++) {
644	<	vx = x - .5*(ourview.hresolu-1);
641	>	yzn2 = (y+.5)/vresolu + ourview.voff - .5;
642	>	yzn2 = 1. + yzn2yzn2ourview.vn2;
643	>	for (x = 0; x < hresolu; x++) {
644	>	vx = (x+.5)/hresolu + ourview.hoff - .5;
645		zout[x] = zscan(y)[x]
646	<	* sqrt(vxvxourview.vhn2 + yzn2);
646	>	* sqrt(vxvxourview.hn2 + yzn2);
647		}
648		} else
649		zout = zscan(y);
650	<	if (fwrite(zout, sizeof(float), ourview.hresolu, fp)
651	<	< ourview.hresolu) {
650	>	if (write(fd, (char )zout, hresolusizeof(float))
651	>	< hresolu*sizeof(float)) {
652		perror(fname);
653		exit(1);
654		}
655		}
656		if (donorm)
657		free((char *)zout);
658	<	fclose(fp);
658	>	close(fd);
659		}
660
661
#	Line 584 \| Line 676 \| int x, y;
676		register BYTE *dest = pscan(y)[x];
677
678		copycolr(dest, backcolr);
679	+	zscan(y)[x] = backz;
680	+	}
681	+
682	+
683	+	calstart(prog, args) /* start fill calculation */
684	+	char prog, args;
685	+	{
686	+	char combuf[512];
687	+	int p0[2], p1[2];
688	+
689	+	if (childpid != -1) {
690	+	fprintf(stderr, "%s: too many calculations\n", progname);
691	+	exit(1);
692	+	}
693	+	sprintf(combuf, prog, args);
694	+	if (pipe(p0) < 0 \|\| pipe(p1) < 0)
695	+	syserror();
696	+	if ((childpid = vfork()) == 0) { /* fork calculation */
697	+	close(p0[1]);
698	+	close(p1[0]);
699	+	if (p0[0] != 0) {
700	+	dup2(p0[0], 0);
701	+	close(p0[0]);
702	+	}
703	+	if (p1[1] != 1) {
704	+	dup2(p1[1], 1);
705	+	close(p1[1]);
706	+	}
707	+	execl("/bin/sh", "sh", "-c", combuf, 0);
708	+	perror("/bin/sh");
709	+	_exit(127);
710	+	}
711	+	if (childpid == -1)
712	+	syserror();
713	+	close(p0[0]);
714	+	close(p1[1]);
715	+	if ((psend = fdopen(p0[1], "w")) == NULL)
716	+	syserror();
717	+	if ((precv = fdopen(p1[0], "r")) == NULL)
718	+	syserror();
719	+	queuesiz = 0;
720	+	}
721	+
722	+
723	+	caldone() /* done with calculation */
724	+	{
725	+	int pid;
726	+
727	+	if (childpid == -1)
728	+	return;
729	+	clearqueue();
730	+	fclose(psend);
731	+	fclose(precv);
732	+	while ((pid = wait(0)) != -1 && pid != childpid)
733	+	;
734	+	childpid = -1;
735	+	}
736	+
737	+
738	+	rcalfill(x, y) /* fill with ray-calculated pixel */
739	+	int x, y;
740	+	{
741	+	if (queuesiz >= PACKSIZ) /* flush queue if needed */
742	+	clearqueue();
743	+	/* add position to queue */
744	+	queue[queuesiz][0] = x;
745	+	queue[queuesiz][1] = y;
746	+	queuesiz++;
747	+	}
748	+
749	+
750	+	clearqueue() /* process queue */
751	+	{
752	+	FVECT orig, dir;
753	+	float fbuf[6];
754	+	register int i;
755	+
756	+	for (i = 0; i < queuesiz; i++) {
757	+	viewray(orig, dir, &ourview,
758	+	(queue[i][0]+.5)/hresolu,
759	+	(queue[i][1]+.5)/vresolu);
760	+	fbuf[0] = orig[0]; fbuf[1] = orig[1]; fbuf[2] = orig[2];
761	+	fbuf[3] = dir[0]; fbuf[4] = dir[1]; fbuf[5] = dir[2];
762	+	fwrite((char *)fbuf, sizeof(float), 6, psend);
763	+	}
764	+	/* flush output and get results */
765	+	fbuf[3] = fbuf[4] = fbuf[5] = 0.0; /* mark */
766	+	fwrite((char *)fbuf, sizeof(float), 6, psend);
767	+	if (fflush(psend) == EOF)
768	+	syserror();
769	+	for (i = 0; i < queuesiz; i++) {
770	+	if (fread((char *)fbuf, sizeof(float), 4, precv) < 4) {
771	+	fprintf(stderr, "%s: read error in clearqueue\n",
772	+	progname);
773	+	exit(1);
774	+	}
775	+	if (ourexp > 0 && ourexp != 1.0) {
776	+	fbuf[0] *= ourexp;
777	+	fbuf[1] *= ourexp;
778	+	fbuf[2] *= ourexp;
779	+	}
780	+	setcolr(pscan(queue[i][1])[queue[i][0]],
781	+	fbuf[0], fbuf[1], fbuf[2]);
782	+	zscan(queue[i][1])[queue[i][0]] = fbuf[3];
783	+	}
784	+	queuesiz = 0;
785	+	}
786	+
787	+
788	+	syserror() /* report error and exit */
789	+	{
790	+	perror(progname);
791	+	exit(1);
792		}

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Comparing ray/src/px/pinterp.c (file contents): Revision 1.12 by greg, Thu Jan 4 14:25:56 1990 UTC vs. Revision 1.30 by greg, Mon Oct 15 11:01:48 1990 UTC

Diff Legend

Comparing ray/src/px/pinterp.c (file contents):
Revision 1.12 by greg, Thu Jan 4 14:25:56 1990 UTC vs.
Revision 1.30 by greg, Mon Oct 15 11:01:48 1990 UTC