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

Comparing ray/src/common/color.c (file contents):
Revision 2.3 by greg, Mon Jun 29 22:40:28 1992 UTC vs.
Revision 2.25 by greg, Fri Jun 30 15:00:32 2023 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1991 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		* color.c - routines for color calculations.
6		*
7	<	* 10/10/85
7	>	* Externals declared in color.h
8		*/
9
10	<	#include <stdio.h>
10	>	#include "copyright.h"
11
12	+	#include <stdio.h>
13	+	#include <stdlib.h>
14	+	#include <math.h>
15		#include "color.h"
16
17	+	#ifdef getc_unlocked /* avoid horrendous overhead of flockfile */
18	+	#undef getc
19	+	#undef putc
20	+	#undef ferror
21	+	#define getc getc_unlocked
22	+	#define putc putc_unlocked
23	+	#define ferror ferror_unlocked
24	+	#endif
25	+
26		#define MINELEN 8 /* minimum scanline length for encoding */
27	+	#define MAXELEN 0x7fff /* maximum scanline length for encoding */
28		#define MINRUN 4 /* minimum run length */
29
30
31	<	char *
32	<	tempbuffer(len) /* get a temporary buffer */
33	<	unsigned len;
31	>	void *
32	>	tempbuffer( /* get a temporary buffer */
33	>	unsigned int len
34	>	)
35		{
36	<	extern char malloc(), realloc();
37	<	static char *tempbuf = NULL;
27	<	static int tempbuflen = 0;
36	>	static void *tempbuf = NULL;
37	>	static unsigned int tempbuflen = 0;
38
39	<	if (len > tempbuflen) {
40	<	if (tempbuflen > 0)
41	<	tempbuf = realloc(tempbuf, len);
42	<	else
43	<	tempbuf = malloc(len);
44	<	tempbuflen = tempbuf==NULL ? 0 : len;
39	>	if (!len) { /* call to free */
40	>	if (tempbuflen) {
41	>	free(tempbuf);
42	>	tempbuf = NULL;
43	>	tempbuflen = 0;
44	>	}
45	>	return(NULL);
46		}
47	+	if (len <= tempbuflen) /* big enough already? */
48	+	return(tempbuf);
49	+	/* else free & reallocate */
50	+	if (tempbuflen)
51	+	free(tempbuf);
52	+	tempbuf = malloc(len);
53	+	tempbuflen = len*(tempbuf != NULL);
54		return(tempbuf);
55		}
56
57
58	<	fwritecolrs(scanline, len, fp) /* write out a colr scanline */
59	<	register COLR *scanline;
60	<	unsigned len;
61	<	register FILE *fp;
58	>	int
59	>	fwritecolrs( /* write out a colr scanline */
60	>	COLR *scanline,
61	>	int len,
62	>	FILE *fp
63	>	)
64		{
65	<	register int i, j, beg, cnt;
65	>	int i, j, beg, cnt = 1;
66		int c2;
67
68	<	if (len < MINELEN \| len > 0x7fff) /* OOBs, write out flat */
68	>	if ((len < MINELEN) \| (len > MAXELEN)) /* OOBs, write out flat */
69		return(fwrite((char *)scanline,sizeof(COLR),len,fp) - len);
70		/* put magic header */
71		putc(2, fp);
72		putc(2, fp);
73		putc(len>>8, fp);
74	<	putc(len&255, fp);
74	>	putc(len&0xff, fp);
75		/* put components seperately */
76		for (i = 0; i < 4; i++) {
77		for (j = 0; j < len; j += cnt) { /* find next run */
78		for (beg = j; beg < len; beg += cnt) {
79	<	for (cnt = 1; cnt < 127 && beg+cnt < len &&
79	>	for (cnt = 1; (cnt < 127) & (beg+cnt < len) &&
80		scanline[beg+cnt][i] == scanline[beg][i]; cnt++)
81		;
82		if (cnt >= MINRUN)
83		break; /* long enough */
84		}
85	<	if (beg-j > 1 && beg-j < MINRUN) {
85	>	if ((beg-j > 1) & (beg-j < MINRUN)) {
86		c2 = j+1;
87		while (scanline[c2++][i] == scanline[j][i])
88		if (c2 == beg) { /* short run */
#	Line 88 \| Line 108 \| *register FILE fp;**
108		return(ferror(fp) ? -1 : 0);
109		}
110
111	+	/*
112	+	* An old-format scanline is either a stream of valid RGBE or XYZE real
113	+	* pixels or at least one real pixel followed by some number of
114	+	* invalid real pixels of the form (1,1,1,n), where n is a count.
115	+	* These can themselves be repeated to create a multibyte repeat
116	+	* count, with the least significant byte first (little-endian order.)
117	+	* Repeat counts are limited by the size of an int; if a repetition
118	+	* leads to an overrun, the rest of the the repetition will be
119	+	* silently ignored.
120	+	*/
121	+	static int
122	+	oldreadcolrs( /* read in an old-style colr scanline */
123	+	COLR *scanline,
124	+	int len,
125	+	FILE *fp
126	+	)
127	+	{
128	+	int rshift = 0;
129	+	int i;
130	+
131	+	while (len > 0) {
132	+	scanline[0][RED] = getc(fp);
133	+	scanline[0][GRN] = getc(fp);
134	+	scanline[0][BLU] = getc(fp);
135	+	scanline[0][EXP] = i = getc(fp);
136	+	if (i == EOF)
137	+	return(-1);
138	+	if (scanline[0][GRN] == 1 &&
139	+	(scanline[0][RED] == 1) &
140	+	(scanline[0][BLU] == 1)) {
141	+	i = scanline[0][EXP] << rshift;
142	+	while (i--) {
143	+	copycolr(scanline[0], scanline[-1]);
144	+	if (--len <= 0)
145	+	return(0);
146	+	scanline++;
147	+	}
148	+	rshift += 8;
149	+	} else {
150	+	scanline++;
151	+	len--;
152	+	rshift = 0;
153	+	}
154	+	}
155	+	return(0);
156	+	}
157
158	<	freadcolrs(scanline, len, fp) /* read in an encoded colr scanline */
159	<	register COLR *scanline;
160	<	int len;
161	<	register FILE *fp;
158	>	/*
159	>	* There are two scanline formats: old and new. The old format
160	>	* compresses runs of RGBE or XYZE four-byte real pixels; the new
161	>	* format breaks the pixels into R, G, B, and E lines (or XYZE lines)
162	>	* which are individually run-length encoded.
163	>	*
164	>	* An old-format scanline always begins with a valid real pixel; at
165	>	* least one of the RGB (or XYZ) values will have its high-order bit
166	>	* set. A new-format scanline begins with four bytes which are not a
167	>	* valid real pixel: (2, 2, lenhigh, lenlow) where lenhigh is always
168	>	* less than 128 and hence never has a high-order bit set.
169	>	*
170	>	* A new-format scanline is broken into its RGBE or XYZE components.
171	>	* Each is output and run-length encoded separately so that a scanline
172	>	* is broken into four records. In turn, each record is organized
173	>	* into chunks of up to 128 characters, which begin with a count byte.
174	>	* If the count byte is greater than 128, the following data byte is
175	>	* repeated (count-128) times. If not, the count byte is followed by
176	>	* that many data bytes.
177	>	*/
178	>	int
179	>	freadcolrs( /* read in an encoded colr scanline */
180	>	COLR *scanline,
181	>	int len,
182	>	FILE *fp
183	>	)
184		{
185	<	register int i, j;
186	<	int code;
185	>	int i, j;
186	>	int code, val;
187		/* determine scanline type */
188	<	if (len < MINELEN \| len > 0x7fff)
188	>	if ((len < MINELEN) \| (len > MAXELEN))
189		return(oldreadcolrs(scanline, len, fp));
190		if ((i = getc(fp)) == EOF)
191		return(-1);
#	Line 109 \| Line 197 \| *register FILE fp;**
197		scanline[0][BLU] = getc(fp);
198		if ((i = getc(fp)) == EOF)
199		return(-1);
200	<	if (scanline[0][GRN] != 2 \|\| scanline[0][BLU] & 128) {
200	>	if ((scanline[0][GRN] != 2) \| ((scanline[0][BLU] & 0x80) != 0)) {
201		scanline[0][RED] = 2;
202		scanline[0][EXP] = i;
203		return(oldreadcolrs(scanline+1, len-1, fp));
#	Line 122 \| Line 210 \| *register FILE fp;**
210		if ((code = getc(fp)) == EOF)
211		return(-1);
212		if (code > 128) { /* run */
213	<	scanline[j++][i] = getc(fp);
214	<	for (code &= 127; --code; j++)
215	<	scanline[j][i] = scanline[j-1][i];
216	<	} else /* non-run */
213	>	code &= 127;
214	>	if ((val = getc(fp)) == EOF)
215	>	return -1;
216	>	if (j + code > len)
217	>	return -1; /* overrun */
218		while (code--)
219	<	scanline[j++][i] = getc(fp);
220	<	}
221	<	return(feof(fp) ? -1 : 0);
222	<	}
223	<
224	<
225	<	oldreadcolrs(scanline, len, fp) /* read in an old colr scanline */
226	<	register COLR *scanline;
227	<	int len;
139	<	register FILE *fp;
140	<	{
141	<	int rshift;
142	<	register int i;
143	<
144	<	rshift = 0;
145	<
146	<	while (len > 0) {
147	<	scanline[0][RED] = getc(fp);
148	<	scanline[0][GRN] = getc(fp);
149	<	scanline[0][BLU] = getc(fp);
150	<	scanline[0][EXP] = getc(fp);
151	<	if (feof(fp) \|\| ferror(fp))
152	<	return(-1);
153	<	if (scanline[0][RED] == 1 &&
154	<	scanline[0][GRN] == 1 &&
155	<	scanline[0][BLU] == 1) {
156	<	for (i = scanline[0][EXP] << rshift; i > 0; i--) {
157	<	copycolr(scanline[0], scanline[-1]);
158	<	scanline++;
159	<	len--;
160	<	}
161	<	rshift += 8;
162	<	} else {
163	<	scanline++;
164	<	len--;
165	<	rshift = 0;
219	>	scanline[j++][i] = val;
220	>	} else { /* non-run */
221	>	if (j + code > len)
222	>	return -1; /* overrun */
223	>	while (code--) {
224	>	if ((val = getc(fp)) == EOF)
225	>	return -1;
226	>	scanline[j++][i] = val;
227	>	}
228		}
229	<	}
229	>	}
230		return(0);
231		}
232
233
234	<	fwritescan(scanline, len, fp) /* write out a scanline */
235	<	register COLOR *scanline;
236	<	int len;
237	<	FILE *fp;
234	>	int
235	>	fwritescan( /* write out a scanline */
236	>	COLOR *scanline,
237	>	int len,
238	>	FILE *fp
239	>	)
240		{
241		COLR *clrscan;
242		int n;
243	<	register COLR *sp;
243	>	COLR *sp;
244		/* get scanline buffer */
245		if ((sp = (COLR )tempbuffer(lensizeof(COLR))) == NULL)
246		return(-1);
#	Line 194 \| Line 258 \| *FILE fp;**
258		}
259
260
261	<	freadscan(scanline, len, fp) /* read in a scanline */
262	<	register COLOR *scanline;
263	<	int len;
264	<	FILE *fp;
261	>	int
262	>	freadscan( /* read in a scanline */
263	>	COLOR *scanline,
264	>	int len,
265	>	FILE *fp
266	>	)
267		{
268	<	register COLR *clrscan;
268	>	COLR *clrscan;
269
270		if ((clrscan = (COLR )tempbuffer(lensizeof(COLR))) == NULL)
271		return(-1);
#	Line 209 \| Line 275 \| *FILE fp;**
275		colr_color(scanline[0], clrscan[0]);
276		while (--len > 0) {
277		scanline++; clrscan++;
278	<	if (clrscan[0][RED] == clrscan[-1][RED] &&
279	<	clrscan[0][GRN] == clrscan[-1][GRN] &&
280	<	clrscan[0][BLU] == clrscan[-1][BLU] &&
281	<	clrscan[0][EXP] == clrscan[-1][EXP])
278	>	if (clrscan[0][GRN] == clrscan[-1][GRN] &&
279	>	(clrscan[0][RED] == clrscan[-1][RED]) &
280	>	(clrscan[0][BLU] == clrscan[-1][BLU]) &
281	>	(clrscan[0][EXP] == clrscan[-1][EXP]))
282		copycolor(scanline[0], scanline[-1]);
283		else
284		colr_color(scanline[0], clrscan[0]);
#	Line 221 \| Line 287 \| *FILE fp;**
287		}
288
289
290	<	setcolr(clr, r, g, b) /* assign a short color value */
291	<	register COLR clr;
292	<	double r, g, b;
290	>	void
291	>	setcolr( /* assign a short color value */
292	>	COLR clr,
293	>	double r,
294	>	double g,
295	>	double b
296	>	)
297		{
228	–	double frexp();
298		double d;
299		int e;
300
#	Line 240 \| Line 309 \| double r, g, b;
309
310		d = frexp(d, &e) * 256.0 / d;
311
312	<	clr[RED] = r * d;
313	<	clr[GRN] = g * d;
314	<	clr[BLU] = b * d;
312	>	if (r > 0.0)
313	>	clr[RED] = r * d;
314	>	else
315	>	clr[RED] = 0;
316	>	if (g > 0.0)
317	>	clr[GRN] = g * d;
318	>	else
319	>	clr[GRN] = 0;
320	>	if (b > 0.0)
321	>	clr[BLU] = b * d;
322	>	else
323	>	clr[BLU] = 0;
324	>
325		clr[EXP] = e + COLXS;
326		}
327
328
329	<	colr_color(col, clr) /* convert short to float color */
330	<	register COLOR col;
331	<	register COLR clr;
329	>	void
330	>	colr_color( /* convert short to float color */
331	>	COLOR col,
332	>	COLR clr
333	>	)
334		{
335		double f;
336
#	Line 264 \| Line 345 \| register COLR clr;
345		}
346
347
348	<	bigdiff(c1, c2, md) /* c1 delta c2 > md? */
349	<	register COLOR c1, c2;
350	<	double md;
348	>	int
349	>	bigdiff( /* c1 delta c2 > md? */
350	>	COLOR c1,
351	>	COLOR c2,
352	>	double md
353	>	)
354		{
355	<	register int i;
355	>	int i;
356
357		for (i = 0; i < 3; i++)
358		if (colval(c1,i)-colval(c2,i) > md*colval(c2,i) \|\|
359	<	colval(c2,i)-colval(c1,i) > md*colval(c1,i))
359	>	colval(c2,i)-colval(c1,i) > md*colval(c1,i))
360		return(1);
361		return(0);
362		}

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Comparing ray/src/common/color.c (file contents): Revision 2.3 by greg, Mon Jun 29 22:40:28 1992 UTC vs. Revision 2.25 by greg, Fri Jun 30 15:00:32 2023 UTC

Diff Legend

Comparing ray/src/common/color.c (file contents):
Revision 2.3 by greg, Mon Jun 29 22:40:28 1992 UTC vs.
Revision 2.25 by greg, Fri Jun 30 15:00:32 2023 UTC