[ViewVC] Diff of: radiance/ray/src/common/image.c

Comparing ray/src/common/image.c (file contents):
Revision 1.13 by greg, Mon Oct 15 14:17:05 1990 UTC vs.
Revision 2.45 by greg, Tue Feb 6 02:08:12 2018 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1986 Regents of the University of California */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ LBL";
2	>	static const char RCSid[] = "$Id$";
3		#endif
6	–
4		/*
5		* image.c - routines for image generation.
6		*
7	<	* 10/17/85
7	>	* External symbols declared in view.h
8		*/
9
10	<	#include "standard.h"
10	>	#include "copyright.h"
11
12	+	#include <ctype.h>
13	+	#include "rtio.h"
14	+	#include "rtmath.h"
15	+	#include "paths.h"
16		#include "view.h"
17
18	+
19	+	#define FEQ(x,y) (fabs((x)-(y)) <= FTINY)
20	+	#define VEQ(v,w) (FEQ((v)[0],(w)[0]) && FEQ((v)[1],(w)[1]) \
21	+	&& FEQ((v)[2],(w)[2]))
22	+
23		VIEW stdview = STDVIEW; /* default view parameters */
24
25	+	static gethfunc gethview;
26
27	+
28		char *
29	<	setview(v) /* set hvec and vvec, return message on error */
30	<	register VIEW *v;
29	>	setview( /* set hvec and vvec, return message on error */
30	>	VIEW *v
31	>	)
32		{
33		static char ill_horiz[] = "illegal horizontal view size";
34		static char ill_vert[] = "illegal vertical view size";
35
36	<	if (normalize(v->vdir) == 0.0) /* normalize direction */
36	>	if ((v->vfore < -FTINY) \| (v->vaft < -FTINY) \|\|
37	>	(v->vaft > FTINY) & (v->vaft <= v->vfore))
38	>	return("illegal fore/aft clipping plane");
39	>
40	>	if (v->vdist <= FTINY)
41	>	return("illegal view distance");
42	>	v->vdist = normalize(v->vdir); / normalize direction */
43	>	if (v->vdist == 0.0)
44		return("zero view direction");
45
46	+	if (normalize(v->vup) == 0.0) /* normalize view up */
47	+	return("zero view up vector");
48	+
49		fcross(v->hvec, v->vdir, v->vup); /* compute horiz dir */
50
51		if (normalize(v->hvec) == 0.0)
52	<	return("illegal view up vector");
52	>	return("view up parallel to view direction");
53
54		fcross(v->vvec, v->hvec, v->vdir); /* compute vert dir */
55
#	Line 52 \| Line 71 \| *register VIEW v;**
71		v->hn2 = 2.0 * tan(v->horiz*(PI/180.0/2.0));
72		v->vn2 = 2.0 * tan(v->vert*(PI/180.0/2.0));
73		break;
74	+	case VT_CYL: /* cylindrical panorama */
75	+	if (v->horiz > 360.0+FTINY)
76	+	return(ill_horiz);
77	+	if (v->vert >= 180.0-FTINY)
78	+	return(ill_vert);
79	+	v->hn2 = v->horiz * (PI/180.0);
80	+	v->vn2 = 2.0 * tan(v->vert*(PI/180.0/2.0));
81	+	break;
82		case VT_ANG: /* angular fisheye */
83		if (v->horiz > 360.0+FTINY)
84		return(ill_horiz);
85		if (v->vert > 360.0+FTINY)
86		return(ill_vert);
87	<	v->hn2 = v->horiz / 90.0;
88	<	v->vn2 = v->vert / 90.0;
87	>	v->hn2 = v->horiz * (PI/180.0);
88	>	v->vn2 = v->vert * (PI/180.0);
89		break;
90		case VT_HEM: /* hemispherical fisheye */
91		if (v->horiz > 180.0+FTINY)
#	Line 68 \| Line 95 \| *register VIEW v;**
95		v->hn2 = 2.0 * sin(v->horiz*(PI/180.0/2.0));
96		v->vn2 = 2.0 * sin(v->vert*(PI/180.0/2.0));
97		break;
98	+	case VT_PLS: /* planispheric fisheye */
99	+	if (v->horiz >= 360.0-FTINY)
100	+	return(ill_horiz);
101	+	if (v->vert >= 360.0-FTINY)
102	+	return(ill_vert);
103	+	v->hn2 = 2.sin(v->horiz(PI/180.0/2.0)) /
104	+	(1.0 + cos(v->horiz*(PI/180.0/2.0)));
105	+	v->vn2 = 2.sin(v->vert(PI/180.0/2.0)) /
106	+	(1.0 + cos(v->vert*(PI/180.0/2.0)));
107	+	break;
108		default:
109		return("unknown view type");
110		}
111	<	if (v->type != VT_ANG) {
112	<	v->hvec[0] *= v->hn2;
113	<	v->hvec[1] *= v->hn2;
114	<	v->hvec[2] *= v->hn2;
111	>	if (v->type != VT_ANG && v->type != VT_PLS) {
112	>	if (v->type != VT_CYL) {
113	>	v->hvec[0] *= v->hn2;
114	>	v->hvec[1] *= v->hn2;
115	>	v->hvec[2] *= v->hn2;
116	>	}
117		v->vvec[0] *= v->vn2;
118		v->vvec[1] *= v->vn2;
119		v->vvec[2] *= v->vn2;
#	Line 86 \| Line 125 \| *register VIEW v;**
125		}
126
127
128	<	normaspect(va, ap, xp, yp) /* fix pixel aspect or resolution */
129	<	double va; /* view aspect ratio */
130	<	double ap; / pixel aspect in (or out if 0) */
131	<	int xp, yp; /* x and y resolution in (or out if ap!=0) /
128	>	void
129	>	normaspect( /* fix pixel aspect or resolution */
130	>	double va, /* view aspect ratio */
131	>	double ap, / pixel aspect in (or out if 0) */
132	>	int *xp,
133	>	int yp / x and y resolution in (or out if ap!=0) /
134	>	)
135		{
136		if (*ap <= FTINY)
137		ap = va xp / yp; /* compute pixel aspect */
#	Line 100 \| Line 142 \| int xp, yp; /* x and y resolution in (or out if *
142		}
143
144
145	<	viewray(orig, direc, v, x, y) /* compute ray origin and direction */
146	<	FVECT orig, direc;
147	<	register VIEW *v;
148	<	double x, y;
145	>	double
146	>	viewray( /* compute ray origin and direction */
147	>	FVECT orig,
148	>	FVECT direc,
149	>	VIEW *v,
150	>	double x,
151	>	double y
152	>	)
153		{
154		double d, z;
155
#	Line 112 \| Line 158 \| double x, y;
158
159		switch(v->type) {
160		case VT_PAR: /* parallel view */
161	<	orig[0] = v->vp[0] + xv->hvec[0] + yv->vvec[0];
162	<	orig[1] = v->vp[1] + xv->hvec[1] + yv->vvec[1];
163	<	orig[2] = v->vp[2] + xv->hvec[2] + yv->vvec[2];
161	>	orig[0] = v->vp[0] + v->vfore*v->vdir[0]
162	>	+ xv->hvec[0] + yv->vvec[0];
163	>	orig[1] = v->vp[1] + v->vfore*v->vdir[1]
164	>	+ xv->hvec[1] + yv->vvec[1];
165	>	orig[2] = v->vp[2] + v->vfore*v->vdir[2]
166	>	+ xv->hvec[2] + yv->vvec[2];
167		VCOPY(direc, v->vdir);
168	<	return(0);
168	>	return(v->vaft > FTINY ? v->vaft - v->vfore : 0.0);
169		case VT_PER: /* perspective view */
121	–	VCOPY(orig, v->vp);
170		direc[0] = v->vdir[0] + xv->hvec[0] + yv->vvec[0];
171		direc[1] = v->vdir[1] + xv->hvec[1] + yv->vvec[1];
172		direc[2] = v->vdir[2] + xv->hvec[2] + yv->vvec[2];
173	<	normalize(direc);
174	<	return(0);
173	>	VSUM(orig, v->vp, direc, v->vfore);
174	>	d = normalize(direc);
175	>	return(v->vaft > FTINY ? (v->vaft - v->vfore)*d : 0.0);
176		case VT_HEM: /* hemispherical fisheye */
177		z = 1.0 - xxv->hn2 - yyv->vn2;
178		if (z < 0.0)
179	<	return(-1);
179	>	return(-1.0);
180		z = sqrt(z);
132	–	VCOPY(orig, v->vp);
181		direc[0] = zv->vdir[0] + xv->hvec[0] + y*v->vvec[0];
182		direc[1] = zv->vdir[1] + xv->hvec[1] + y*v->vvec[1];
183		direc[2] = zv->vdir[2] + xv->hvec[2] + y*v->vvec[2];
184	<	return(0);
184	>	VSUM(orig, v->vp, direc, v->vfore);
185	>	return(v->vaft > FTINY ? v->vaft - v->vfore : 0.0);
186	>	case VT_CYL: /* cylindrical panorama */
187	>	d = x * v->horiz * (PI/180.0);
188	>	z = cos(d);
189	>	x = sin(d);
190	>	direc[0] = zv->vdir[0] + xv->hvec[0] + y*v->vvec[0];
191	>	direc[1] = zv->vdir[1] + xv->hvec[1] + y*v->vvec[1];
192	>	direc[2] = zv->vdir[2] + xv->hvec[2] + y*v->vvec[2];
193	>	VSUM(orig, v->vp, direc, v->vfore);
194	>	d = normalize(direc);
195	>	return(v->vaft > FTINY ? (v->vaft - v->vfore)*d : 0.0);
196		case VT_ANG: /* angular fisheye */
197	<	x *= v->horiz/180.0;
198	<	y *= v->vert/180.0;
197	>	x = (1.0/180.0)v->horiz;
198	>	y = (1.0/180.0)v->vert;
199		d = xx + yy;
200		if (d > 1.0)
201	<	return(-1);
143	<	VCOPY(orig, v->vp);
144	<	if (d <= FTINY) {
145	<	VCOPY(direc, v->vdir);
146	<	return(0);
147	<	}
201	>	return(-1.0);
202		d = sqrt(d);
203		z = cos(PI*d);
204	<	d = sqrt(1 - z*z)/d;
204	>	d = d <= FTINY ? PI : sqrt(1.0 - z*z)/d;
205		x *= d;
206		y *= d;
207		direc[0] = zv->vdir[0] + xv->hvec[0] + y*v->vvec[0];
208		direc[1] = zv->vdir[1] + xv->hvec[1] + y*v->vvec[1];
209		direc[2] = zv->vdir[2] + xv->hvec[2] + y*v->vvec[2];
210	<	return(0);
210	>	VSUM(orig, v->vp, direc, v->vfore);
211	>	return(v->vaft > FTINY ? v->vaft - v->vfore : 0.0);
212	>	case VT_PLS: /* planispheric fisheye */
213	>	x *= sqrt(v->hn2);
214	>	y *= sqrt(v->vn2);
215	>	d = xx + yy;
216	>	z = (1. - d)/(1. + d);
217	>	x *= (1. + z);
218	>	y *= (1. + z);
219	>	direc[0] = zv->vdir[0] + xv->hvec[0] + y*v->vvec[0];
220	>	direc[1] = zv->vdir[1] + xv->hvec[1] + y*v->vvec[1];
221	>	direc[2] = zv->vdir[2] + xv->hvec[2] + y*v->vvec[2];
222	>	VSUM(orig, v->vp, direc, v->vfore);
223	>	return(v->vaft > FTINY ? v->vaft - v->vfore : 0.0);
224		}
225	<	return(-1);
225	>	return(-1.0);
226		}
227
228
229	<	viewpixel(xp, yp, zp, v, p) /* find image location for point */
230	<	double xp, yp, *zp;
231	<	register VIEW *v;
232	<	FVECT p;
229	>	int
230	>	viewloc( /* find image location for point */
231	>	FVECT ip,
232	>	VIEW *v,
233	>	FVECT p
234	>	) /* returns: Good=1, Bad=0, Behind=-1, OutOfFrame=2, Behind+OOF=-2 */
235		{
236	<	double d;
236	>	double d, d2;
237		FVECT disp;
238
239	<	disp[0] = p[0] - v->vp[0];
171	<	disp[1] = p[1] - v->vp[1];
172	<	disp[2] = p[2] - v->vp[2];
239	>	VSUB(disp, p, v->vp);
240
241		switch (v->type) {
242		case VT_PAR: /* parallel view */
243	<	if (zp != NULL)
177	<	*zp = DOT(disp,v->vdir);
243	>	ip[2] = DOT(disp,v->vdir) - v->vfore;
244		break;
245		case VT_PER: /* perspective view */
246		d = DOT(disp,v->vdir);
247	<	if (zp != NULL) {
248	<	*zp = sqrt(DOT(disp,disp));
249	<	if (d < 0.0)
184	<	zp = -zp;
185	<	}
186	<	if (d < 0.0) /* fold pyramid */
247	>	ip[2] = VLEN(disp);
248	>	if (d < -FTINY) { /* fold pyramid */
249	>	ip[2] = -ip[2];
250		d = -d;
251	<	if (d > FTINY) {
252	<	d = 1.0/d;
253	<	disp[0] *= d;
254	<	disp[1] *= d;
255	<	disp[2] *= d;
256	<	}
251	>	} else if (d <= FTINY)
252	>	return(0); /* at infinite edge */
253	>	d = 1.0/d;
254	>	disp[0] *= d;
255	>	disp[1] *= d;
256	>	disp[2] *= d;
257	>	if (ip[2] < 0.0) d = -d;
258	>	ip[2] = (1.0 - v->vfored);
259		break;
260		case VT_HEM: /* hemispherical fisheye */
261		d = normalize(disp);
262	<	if (zp != NULL) {
263	<	if (DOT(disp,v->vdir) < 0.0)
264	<	*zp = -d;
265	<	else
266	<	*zp = d;
202	<	}
262	>	if (DOT(disp,v->vdir) < 0.0)
263	>	ip[2] = -d;
264	>	else
265	>	ip[2] = d;
266	>	ip[2] -= v->vfore;
267		break;
268	+	case VT_CYL: /* cylindrical panorama */
269	+	d = DOT(disp,v->hvec);
270	+	d2 = DOT(disp,v->vdir);
271	+	ip[0] = 180.0/PI * atan2(d,d2) / v->horiz + 0.5 - v->hoff;
272	+	d = dd + d2d2;
273	+	if (d <= FTINY*FTINY)
274	+	return(0); /* at pole */
275	+	d = 1.0/sqrt(d);
276	+	ip[1] = DOT(disp,v->vvec)*d/v->vn2 + 0.5 - v->voff;
277	+	ip[2] = VLEN(disp);
278	+	ip[2] = (1.0 - v->vfored);
279	+	goto gotall;
280		case VT_ANG: /* angular fisheye */
281	<	d = normalize(disp);
282	<	if (zp != NULL)
283	<	*zp = d;
208	<	*xp = 0.5 - v->hoff;
209	<	*yp = 0.5 - v->voff;
281	>	ip[0] = 0.5 - v->hoff;
282	>	ip[1] = 0.5 - v->voff;
283	>	ip[2] = normalize(disp) - v->vfore;
284		d = DOT(disp,v->vdir);
285		if (d >= 1.0-FTINY)
286	<	return;
286	>	goto gotall;
287		if (d <= -(1.0-FTINY)) {
288	<	*xp += 180.0/v->horiz;
289	<	*yp += 180.0/v->vert;
216	<	return;
288	>	ip[0] += 180.0/v->horiz;
289	>	goto gotall;
290		}
291	<	d = acos(d)/PI / sqrt(1.0 - d*d);
292	<	xp += DOT(disp,v->hvec)d*180.0/v->horiz;
293	<	yp += DOT(disp,v->vvec)d*180.0/v->vert;
294	<	return;
291	>	d = (180.0/PI)acos(d) / sqrt(1.0 - dd);
292	>	ip[0] += DOT(disp,v->hvec)*d/v->horiz;
293	>	ip[1] += DOT(disp,v->vvec)*d/v->vert;
294	>	goto gotall;
295	>	case VT_PLS: /* planispheric fisheye */
296	>	ip[0] = 0.5 - v->hoff;
297	>	ip[1] = 0.5 - v->voff;
298	>	ip[2] = normalize(disp) - v->vfore;
299	>	d = DOT(disp,v->vdir);
300	>	if (d >= 1.0-FTINY)
301	>	goto gotall;
302	>	if (d <= -(1.0-FTINY))
303	>	return(0);
304	>	ip[0] += DOT(disp,v->hvec)/((1. + d)*sqrt(v->hn2));
305	>	ip[1] += DOT(disp,v->vvec)/((1. + d)*sqrt(v->vn2));
306	>	goto gotall;
307	>	default:
308	>	return(0);
309		}
310	<	*xp = DOT(disp,v->hvec)/v->hn2 + 0.5 - v->hoff;
311	<	*yp = DOT(disp,v->vvec)/v->vn2 + 0.5 - v->voff;
310	>	ip[0] = DOT(disp,v->hvec)/v->hn2 + 0.5 - v->hoff;
311	>	ip[1] = DOT(disp,v->vvec)/v->vn2 + 0.5 - v->voff;
312	>	gotall: /* compute return value */
313	>	return( (1 - 2(ip[2] <= 0.0)) (1 +
314	>	((0.0 >= ip[0]) \| (ip[0] >= 1.0) \| (0.0 >= ip[1]) \| (ip[1] >= 1.0))) );
315		}
316
317
318	+	void
319	+	pix2loc( /* compute image location from pixel pos. */
320	+	RREAL loc[2],
321	+	RESOLU *rp,
322	+	int px,
323	+	int py
324	+	)
325	+	{
326	+	int x, y;
327	+
328	+	if (rp->rt & YMAJOR) {
329	+	x = px;
330	+	y = py;
331	+	} else {
332	+	x = py;
333	+	y = px;
334	+	}
335	+	if (rp->rt & XDECR)
336	+	x = rp->xr-1 - x;
337	+	if (rp->rt & YDECR)
338	+	y = rp->yr-1 - y;
339	+	loc[0] = (x+.5)/rp->xr;
340	+	loc[1] = (y+.5)/rp->yr;
341	+	}
342	+
343	+
344	+	void
345	+	loc2pix( /* compute pixel pos. from image location */
346	+	int pp[2],
347	+	RESOLU *rp,
348	+	double lx,
349	+	double ly
350	+	)
351	+	{
352	+	int x, y;
353	+
354	+	x = (int)(lx*rp->xr + .5 - (lx < 0.0));
355	+	y = (int)(ly*rp->yr + .5 - (ly < 0.0));
356	+
357	+	if (rp->rt & XDECR)
358	+	x = rp->xr-1 - x;
359	+	if (rp->rt & YDECR)
360	+	y = rp->yr-1 - y;
361	+	if (rp->rt & YMAJOR) {
362	+	pp[0] = x;
363	+	pp[1] = y;
364	+	} else {
365	+	pp[0] = y;
366	+	pp[1] = x;
367	+	}
368	+	}
369	+
370	+
371		int
372	<	getviewopt(v, ac, av) /* process view argument */
373	<	register VIEW *v;
374	<	int ac;
375	<	register char *av[];
372	>	getviewopt( /* process view argument */
373	>	VIEW *v,
374	>	int ac,
375	>	char *av[]
376	>	)
377		{
378	<	#define check(c,n) if ((av[0][c]&&av[0][c]!=' ') \|\| n>=ac) return(-1)
379	<	extern double atof();
378	>	#define check(c,l) if ((av[0][c]&&av[0][c]!=' ') \|\| \
379	>	badarg(ac-1,av+1,l)) return(-1)
380
381		if (ac <= 0 \|\| av[0][0] != '-' \|\| av[0][1] != 'v')
382		return(-1);
#	Line 240 \| Line 384 \| *register char av[];**
384		case 't': /* type */
385		if (!av[0][3] \|\| av[0][3]==' ')
386		return(-1);
387	<	check(4,0);
387	>	check(4,"");
388		v->type = av[0][3];
389		return(0);
390		case 'p': /* point */
391	<	check(3,3);
391	>	check(3,"fff");
392		v->vp[0] = atof(av[1]);
393		v->vp[1] = atof(av[2]);
394		v->vp[2] = atof(av[3]);
395		return(3);
396		case 'd': /* direction */
397	<	check(3,3);
397	>	check(3,"fff");
398		v->vdir[0] = atof(av[1]);
399		v->vdir[1] = atof(av[2]);
400		v->vdir[2] = atof(av[3]);
401	+	v->vdist = 1.;
402		return(3);
403		case 'u': /* up */
404	<	check(3,3);
404	>	check(3,"fff");
405		v->vup[0] = atof(av[1]);
406		v->vup[1] = atof(av[2]);
407		v->vup[2] = atof(av[3]);
408		return(3);
409		case 'h': /* horizontal size */
410	<	check(3,1);
410	>	check(3,"f");
411		v->horiz = atof(av[1]);
412		return(1);
413		case 'v': /* vertical size */
414	<	check(3,1);
414	>	check(3,"f");
415		v->vert = atof(av[1]);
416		return(1);
417	+	case 'o': /* fore clipping plane */
418	+	check(3,"f");
419	+	v->vfore = atof(av[1]);
420	+	return(1);
421	+	case 'a': /* aft clipping plane */
422	+	check(3,"f");
423	+	v->vaft = atof(av[1]);
424	+	return(1);
425		case 's': /* shift */
426	<	check(3,1);
426	>	check(3,"f");
427		v->hoff = atof(av[1]);
428		return(1);
429		case 'l': /* lift */
430	<	check(3,1);
430	>	check(3,"f");
431		v->voff = atof(av[1]);
432		return(1);
433		default:
#	Line 285 \| Line 438 \| *register char av[];**
438
439
440		int
441	<	sscanview(vp, s) /* get view parameters from string */
442	<	VIEW *vp;
443	<	register char *s;
441	>	sscanview( /* get view parameters from string */
442	>	VIEW *vp,
443	>	char *s
444	>	)
445		{
446		int ac;
447		char *av[4];
448		int na;
449		int nvopts = 0;
450
451	<	while (*s == ' ')
452	<	s++;
451	>	while (isspace(*s))
452	>	if (!*s++)
453	>	return(0);
454		while (*s) {
455		ac = 0;
456		do {
457	<	av[ac++] = s;
458	<	while (s && s != ' ')
457	>	if (ac \|\| *s == '-')
458	>	av[ac++] = s;
459	>	while (s && !isspace(s))
460		s++;
461	<	while (*s == ' ')
461	>	while (isspace(*s))
462		s++;
463		} while (*s && ac < 4);
464		if ((na = getviewopt(vp, ac, av)) >= 0) {
#	Line 316 \| Line 472 \| *register char s;**
472		}
473
474
475	<	fprintview(vp, fp) /* write out view parameters */
476	<	register VIEW *vp;
477	<	FILE *fp;
475	>	void
476	>	fprintview( /* write out view parameters */
477	>	VIEW *vp,
478	>	FILE *fp
479	>	)
480		{
481		fprintf(fp, " -vt%c", vp->type);
482		fprintf(fp, " -vp %.6g %.6g %.6g", vp->vp[0], vp->vp[1], vp->vp[2]);
483	<	fprintf(fp, " -vd %.6g %.6g %.6g", vp->vdir[0], vp->vdir[1], vp->vdir[2]);
483	>	fprintf(fp, " -vd %.6g %.6g %.6g", vp->vdir[0]*vp->vdist,
484	>	vp->vdir[1]*vp->vdist,
485	>	vp->vdir[2]*vp->vdist);
486		fprintf(fp, " -vu %.6g %.6g %.6g", vp->vup[0], vp->vup[1], vp->vup[2]);
487		fprintf(fp, " -vh %.6g -vv %.6g", vp->horiz, vp->vert);
488	+	fprintf(fp, " -vo %.6g -va %.6g", vp->vfore, vp->vaft);
489		fprintf(fp, " -vs %.6g -vl %.6g", vp->hoff, vp->voff);
490		}
491
492
493	<	static VIEW hview; / view from header */
494	<	static int gothview; /* success indicator */
495	<	static char *altname[] = {NULL,"rpict","rview","pinterp",VIEWSTR,NULL};
493	>	char *
494	>	viewopt( /* translate to minimal view string */
495	>	VIEW *vp
496	>	)
497	>	{
498	>	static char vwstr[128];
499	>	char *cp = vwstr;
500
501	+	*cp = '\0';
502	+	if (vp->type != stdview.type) {
503	+	sprintf(cp, " -vt%c", vp->type);
504	+	cp += strlen(cp);
505	+	}
506	+	if (!VEQ(vp->vp,stdview.vp)) {
507	+	sprintf(cp, " -vp %.6g %.6g %.6g",
508	+	vp->vp[0], vp->vp[1], vp->vp[2]);
509	+	cp += strlen(cp);
510	+	}
511	+	if (!FEQ(vp->vdist,stdview.vdist) \|\| !VEQ(vp->vdir,stdview.vdir)) {
512	+	sprintf(cp, " -vd %.6g %.6g %.6g",
513	+	vp->vdir[0]*vp->vdist,
514	+	vp->vdir[1]*vp->vdist,
515	+	vp->vdir[2]*vp->vdist);
516	+	cp += strlen(cp);
517	+	}
518	+	if (!VEQ(vp->vup,stdview.vup)) {
519	+	sprintf(cp, " -vu %.6g %.6g %.6g",
520	+	vp->vup[0], vp->vup[1], vp->vup[2]);
521	+	cp += strlen(cp);
522	+	}
523	+	if (!FEQ(vp->horiz,stdview.horiz)) {
524	+	sprintf(cp, " -vh %.6g", vp->horiz);
525	+	cp += strlen(cp);
526	+	}
527	+	if (!FEQ(vp->vert,stdview.vert)) {
528	+	sprintf(cp, " -vv %.6g", vp->vert);
529	+	cp += strlen(cp);
530	+	}
531	+	if (!FEQ(vp->vfore,stdview.vfore)) {
532	+	sprintf(cp, " -vo %.6g", vp->vfore);
533	+	cp += strlen(cp);
534	+	}
535	+	if (!FEQ(vp->vaft,stdview.vaft)) {
536	+	sprintf(cp, " -va %.6g", vp->vaft);
537	+	cp += strlen(cp);
538	+	}
539	+	if (!FEQ(vp->hoff,stdview.hoff)) {
540	+	sprintf(cp, " -vs %.6g", vp->hoff);
541	+	cp += strlen(cp);
542	+	}
543	+	if (!FEQ(vp->voff,stdview.voff)) {
544	+	sprintf(cp, " -vl %.6g", vp->voff);
545	+	cp += strlen(cp);
546	+	}
547	+	return(vwstr);
548	+	}
549
337	–	static
338	–	gethview(s) /* get view from header */
339	–	char *s;
340	–	{
341	–	register char **an;
550
551	+	int
552	+	isview( /* is this a view string? */
553	+	char *s
554	+	)
555	+	{
556	+	static char *altname[]={NULL,VIEWSTR,"rpict","rview","rvu","rpiece","pinterp",NULL};
557	+	extern char *progname;
558	+	char *cp;
559	+	char **an;
560	+	/* add program name to list */
561	+	if (altname[0] == NULL) {
562	+	for (cp = progname; *cp; cp++)
563	+	;
564	+	while (cp > progname && !ISDIRSEP(cp[-1]))
565	+	cp--;
566	+	altname[0] = cp;
567	+	}
568	+	/* skip leading path */
569	+	cp = s;
570	+	while (cp && cp != ' ')
571	+	cp++;
572	+	while (cp > s && !ISDIRSEP(cp[-1]))
573	+	cp--;
574		for (an = altname; *an != NULL; an++)
575	<	if (!strncmp(an, s, strlen(an))) {
576	<	if (sscanview(hview, s+strlen(*an)) > 0)
577	<	gothview++;
347	<	return;
348	<	}
575	>	if (!strncmp(an, cp, strlen(an)))
576	>	return(1);
577	>	return(0);
578		}
579
580
581	+	struct myview {
582	+	VIEW *hv;
583	+	int ok;
584	+	};
585	+
586	+
587	+	static int
588	+	gethview( /* get view from header */
589	+	char *s,
590	+	void *v
591	+	)
592	+	{
593	+	if (isview(s) && sscanview(((struct myview*)v)->hv, s) > 0)
594	+	((struct myview*)v)->ok++;
595	+	return(0);
596	+	}
597	+
598	+
599		int
600	<	viewfile(fname, vp, xp, yp) /* get view from file */
601	<	char *fname;
602	<	VIEW *vp;
603	<	int xp, yp;
600	>	viewfile( /* get view from file */
601	>	char *fname,
602	>	VIEW *vp,
603	>	RESOLU *rp
604	>	)
605		{
606	<	extern char *progname;
606	>	struct myview mvs;
607		FILE *fp;
608
609	<	if ((fp = fopen(fname, "r")) == NULL)
609	>	if (fname == NULL \|\| !strcmp(fname, "-"))
610	>	fp = stdin;
611	>	else if ((fp = fopen(fname, "r")) == NULL)
612		return(-1);
613
614	<	altname[0] = progname;
615	<	hview = vp;
366	<	gothview = 0;
614	>	mvs.hv = vp;
615	>	mvs.ok = 0;
616
617	<	getheader(fp, gethview);
617	>	getheader(fp, gethview, &mvs);
618
619	<	if (xp != NULL && yp != NULL
620	<	&& fgetresolu(xp, yp, fp) == -1)
372	<	gothview = 0;
619	>	if (rp != NULL && !fgetsresolu(rp, fp))
620	>	mvs.ok = 0;
621
622		fclose(fp);
623
624	<	return(gothview);
624	>	return(mvs.ok);
625		}

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Comparing ray/src/common/image.c (file contents): Revision 1.13 by greg, Mon Oct 15 14:17:05 1990 UTC vs. Revision 2.45 by greg, Tue Feb 6 02:08:12 2018 UTC

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Comparing ray/src/common/image.c (file contents):
Revision 1.13 by greg, Mon Oct 15 14:17:05 1990 UTC vs.
Revision 2.45 by greg, Tue Feb 6 02:08:12 2018 UTC