[ViewVC] Diff of: radiance/ray/src/px/x11image.c

Comparing ray/src/px/x11image.c (file contents):
Revision 2.52 by gwlarson, Mon Aug 17 18:00:11 1998 UTC vs.
Revision 2.67 by greg, Sat Apr 10 03:02:20 2004 UTC

#	Line 1 \| Line 1
1	–	/* Copyright (c) 1998 Silicon Graphics, Inc. */
2	–
1		#ifndef lint
2	<	static char SCCSid[] = "$SunId$ SGI";
2	>	static const char RCSid[] = "$Id";
3		#endif
6	–
4		/*
5		* x11image.c - driver for X-windows
6		*
#	Line 21 \| Line 18 \| static char SCCSid[] = "$SunId$ SGI";
18
19		#include "standard.h"
20
21	+	#include <string.h>
22		#include <signal.h>
23	+	#include <unistd.h>
24	+	#include <sys/types.h>
25	+	#include <sys/wait.h>
26		#include <X11/Xlib.h>
27		#include <X11/cursorfont.h>
28		#include <X11/Xutil.h>
29		#include <X11/Xatom.h>
30
30	–	#undef NOPROTO
31	–	#define NOPROTO 1
31		#include "color.h"
32		#include "tonemap.h"
33	+	#include "clrtab.h"
34		#include "view.h"
35		#include "x11raster.h"
36		#include "random.h"
37	–	#include "resolu.h"
37
38		#define FONTNAME "8x13" /* text font we'll use */
39
#	Line 91 \| Line 90 \| *RESOLU inpres; / input resolution and ordering /*
90		int xmax, ymax; /* picture dimensions */
91		int width, height; /* window size */
92		char fname = NULL; / input file name */
93	<	FILE fin = stdin; / input file */
93	>	FILE fin = NULL; / input file */
94		long scanpos = NULL; / scan line positions in file */
95		int cury = 0; /* current scan location */
96
#	Line 109 \| Line 108 \| *unsigned char ourdata; /* our image data /*
108
109		struct {
110		int xmin, ymin, xsiz, ysiz;
111	<	} box = {0, 0, 0, 0}; /* current box */
111	>	} bbox = {0, 0, 0, 0}; /* current bbox */
112
113		char geometry = NULL; / geometry specification */
114
#	Line 122 \| Line 121 \| char errmsg[128];
121
122		BYTE clrtab[256][3]; /* global color map */
123
125	–	extern long ftell();
124
127	–	extern char *getenv();
128	–
125		Display *thedisplay;
126		Atom closedownAtom, wmProtocolsAtom;
127
128		int sigrecv;
129
130	<	int onsig() { sigrecv++; }
130	>	void onsig(int i) { sigrecv++; }
131
132	+	typedef void doboxf_t(COLR scn, int n, void );
133
134	<	main(argc, argv)
135	<	int argc;
136	<	char *argv[];
134	>	static gethfunc headline;
135	>	static void init(int argc, char **argv);
136	>	static void quiterr(char *err);
137	>	static int viscmp(XVisualInfo v1, XVisualInfo v2);
138	>	static void getbestvis(void);
139	>	static void getras(void);
140	>	static void getevent(void);
141	>	static int traceray(int xpos, int ypos);
142	>	static int docom(XKeyPressedEvent *ekey);
143	>	static void moveimage(XButtonPressedEvent *ebut);
144	>	static void getbox(XButtonPressedEvent *ebut);
145	>	static void trackrays(XButtonPressedEvent *ebut);
146	>	static void revbox(int x0, int y0, int x1, int y1);
147	>	static doboxf_t colavg;
148	>	static doboxf_t addfix;
149	>	static int avgbox(COLOR cavg);
150	>	static int dobox(doboxf_t f, void p);
151	>	static void make_tonemap(void);
152	>	static void tmap_colrs(COLR *scn, int len);
153	>	static void getmono(void);
154	>	static void add2icon(int y, COLR *scan);
155	>	static void getfull(void);
156	>	static void getgrey(void);
157	>	static void getmapped(void);
158	>	static void scale_rcolors(XRASTER *xr, double sf);
159	>	static int getscan(int y);
160	>
161	>
162	>	int
163	>	main(int argc, char *argv[])
164		{
141	–	int headline();
165		int i;
166		int pid;
167
168		progname = argv[0];
169	+	fin = stdin;
170
171		for (i = 1; i < argc; i++)
172		if (argv[i][0] == '-')
#	Line 250 \| Line 274 \| userr:
274		}
275
276
277	<	headline(s) /* get relevant info from header */
278	<	char *s;
277	>	static int
278	>	headline( /* get relevant info from header */
279	>	char *s,
280	>	void *p
281	>	)
282		{
283		char fmt[32];
284
#	Line 261 \| Line 288 \| *char s;**
288		wrongformat = strcmp(fmt, COLRFMT);
289		else if (isview(s) && sscanview(&ourview, s) > 0)
290		gotview++;
291	+	return(0);
292		}
293
294
295	<	init(argc, argv) /* get data and open window */
296	<	int argc;
297	<	char **argv;
295	>	static void
296	>	init( /* get data and open window */
297	>	int argc,
298	>	char **argv
299	>	)
300		{
301		XSetWindowAttributes ourwinattr;
302		XClassHint xclshints;
#	Line 380 \| Line 410 \| char argv;**
410		} /* end of init */
411
412
413	<	quiterr(err) /* print message and exit */
414	<	char *err;
413	>	static void
414	>	quiterr( /* print message and exit */
415	>	char *err
416	>	)
417		{
418		register int es;
419		int cs;
420
421	<	if (es = err != NULL)
421	>	if ( (es = err != NULL) )
422		fprintf(stderr, "%s: %s: %s\n", progname,
423		fname==NULL?"<stdin>":fname, err);
424		if (thedisplay != NULL)
425		XCloseDisplay(thedisplay);
426	<	if (parent < 0 & sigrecv == 0)
426	>	if ((parent < 0) & (sigrecv == 0))
427		kill(getppid(), SIGCONT);
428		while (parent > 0 && wait(&cs) != -1) { /* wait for any children */
429		if (es == 0)
#	Line 403 \| Line 435 \| *char err;**
435
436
437		static int
438	<	viscmp(v1,v2) /* compare visual to see which is better, descending */
439	<	register XVisualInfo v1, v2;
438	>	viscmp( /* compare visual to see which is better, descending */
439	>	register XVisualInfo *v1,
440	>	register XVisualInfo *v2
441	>	)
442		{
443		int bad1 = 0, bad2 = 0;
444		register int *rp;
#	Line 416 \| Line 450 \| *register XVisualInfo v1, v2;*
450		return(-1);
451		if (v1->depth == 32 && v2->depth == 24)
452		return(1);
453	<	return(0);
453	>	/* go for maximum depth otherwise */
454	>	return(v2->depth - v1->depth);
455		}
456		/* don't be too greedy */
457		if (maxcolors <= 1<<v1->depth && maxcolors <= 1<<v2->depth)
458		return(v1->depth - v2->depth);
459		return(v2->depth - v1->depth);
460		}
461	<	/* prefer Pseudo when < 24-bit */
461	>	/* prefer Pseudo when < 15-bit */
462		if ((v1->class == TrueColor \|\| v1->class == DirectColor) &&
463	<	v1->depth < 24)
463	>	v1->depth < 15)
464		bad1 = 1;
465		if ((v2->class == TrueColor \|\| v2->class == DirectColor) &&
466	<	v2->depth < 24)
466	>	v2->depth < 15)
467		bad2 = -1;
468		if (bad1 \| bad2)
469		return(bad1+bad2);
#	Line 443 \| Line 478 \| *register XVisualInfo v1, v2;*
478		}
479
480
481	<	getbestvis() /* get the best visual for this screen */
481	>	static void
482	>	getbestvis(void) /* get the best visual for this screen */
483		{
484		#ifdef DEBUG
485		static char vistype[][12] = {
#	Line 495 \| Line 531 \| static char vistype[][12] = {
531		if (viscmp(&xvi[i],&ourvis) > 0)
532		quiterr("inadequate visuals on this screen");
533		/* OK, we'll use it */
534	<	copystruct(&ourvis, &xvi[i]);
534	>	ourvis = xvi[i];
535		#ifdef DEBUG
536		fprintf(stderr, "Selected visual type %s, depth %d\n",
537		vistype[ourvis.class], ourvis.depth);
#	Line 525 \| Line 561 \| static char vistype[][12] = {
561		}
562
563
564	<	getras() /* get raster file */
564	>	static void
565	>	getras(void) /* get raster file */
566		{
530	–	XVisualInfo vinfo;
531	–
567		if (maxcolors <= 2) { /* monochrome */
568		ourdata = (unsigned char )malloc(ymax((xmax+7)/8));
569		if (ourdata == NULL)
#	Line 538 \| Line 573 \| *getras() / get raster file /*
573		if (ourras == NULL)
574		goto fail;
575		getmono();
576	<	} else if (ourvis.class == TrueColor \| ourvis.class == DirectColor) {
577	<	ourdata = (unsigned char )malloc(sizeof(int4)xmax*ymax);
576	>	} else if ((ourvis.class == TrueColor) \| (ourvis.class == DirectColor)) {
577	>	int datsiz = ourvis.depth>16 ? sizeof(int32) : sizeof(int16);
578	>	ourdata = (unsigned char )malloc(datsizxmax*ymax);
579		if (ourdata == NULL)
580		goto fail;
581	<	ourras = make_raster(thedisplay, &ourvis, sizeof(int4)*8,
582	<	ourdata, xmax, ymax, 32);
581	>	ourras = make_raster(thedisplay, &ourvis, datsiz*8,
582	>	ourdata, xmax, ymax, datsiz*8);
583		if (ourras == NULL)
584		goto fail;
585		getfull();
#	Line 568 \| Line 604 \| fail:
604		}
605
606
607	<	getevent() /* process the next event */
607	>	static void
608	>	getevent(void) /* process the next event */
609		{
610		XEvent xev;
611
#	Line 585 \| Line 622 \| *getevent() / process the next event /*
622		map_rcolors(ourras, wind);
623		if (fast)
624		make_rpixmap(ourras, wind);
625	<	if (!sequential & parent < 0 & sigrecv == 0) {
625	>	if ((!sequential) & (parent < 0) & (sigrecv == 0)) {
626		kill(getppid(), SIGCONT);
627		sigrecv--;
628		}
#	Line 623 \| Line 660 \| *getevent() / process the next event /*
660		}
661
662
663	<	traceray(xpos, ypos) /* print requested pixel data */
664	<	int xpos, ypos;
663	>	static int
664	>	traceray( /* print requested pixel data */
665	>	int xpos,
666	>	int ypos
667	>	)
668		{
669	<	extern char *index();
630	<	FLOAT hv[2];
669	>	RREAL hv[2];
670		FVECT rorg, rdir;
671		COLOR cval;
672		register char *cp;
673
674	<	box.xmin = xpos; box.xsiz = 1;
675	<	box.ymin = ypos; box.ysiz = 1;
674	>	bbox.xmin = xpos; bbox.xsiz = 1;
675	>	bbox.ymin = ypos; bbox.ysiz = 1;
676		avgbox(cval);
677		scalecolor(cval, 1./exposure);
678		pix2loc(hv, &inpres, xpos-xoff, ypos-yoff);
#	Line 667 \| Line 706 \| int xpos, ypos;
706		}
707
708
709	<	docom(ekey) /* execute command */
710	<	XKeyPressedEvent *ekey;
709	>	static int
710	>	docom( /* execute command */
711	>	XKeyPressedEvent *ekey
712	>	)
713		{
714		char buf[80];
715		COLOR cval;
716		XColor cvx;
717		int com, n;
718		double comp;
719	<	FLOAT hv[2];
719	>	RREAL hv[2];
720
721		n = XLookupString(ekey, buf, sizeof(buf), NULL, NULL);
722		if (n == 0)
#	Line 698 \| Line 739 \| *XKeyPressedEvent ekey;**
739		sprintf(buf, "%.3f", intens(cval)/exposure);
740		break;
741		case 'l': /* luminance */
742	<	sprintf(buf, "%.0fL", luminance(cval)/exposure);
742	>	sprintf(buf, "%.1fL", luminance(cval)/exposure);
743		break;
744		case 'c': /* color */
745		comp = pow(2.0, (double)scale);
#	Line 709 \| Line 750 \| *XKeyPressedEvent ekey;**
750		break;
751		}
752		XDrawImageString(thedisplay, wind, ourgc,
753	<	box.xmin, box.ymin+box.ysiz, buf, strlen(buf));
753	>	bbox.xmin, bbox.ymin+bbox.ysiz, buf, strlen(buf));
754		return(0);
755		case 'i': /* identify (contour) */
756		if (ourras->pixels == NULL)
#	Line 771 \| Line 812 \| *XKeyPressedEvent ekey;**
812		sprintf(buf, "%+d", scale);
813		remap:
814		XDrawImageString(thedisplay, wind, ourgc,
815	<	box.xmin, box.ymin+box.ysiz, buf, strlen(buf));
815	>	bbox.xmin, bbox.ymin+bbox.ysiz, buf, strlen(buf));
816		XFlush(thedisplay);
817	<	free(ourdata);
817	>	/* free(ourdata); This is done in XDestroyImage()! */
818		free_raster(ourras);
819		getras();
820		/* fall through */
#	Line 795 \| Line 836 \| *XKeyPressedEvent ekey;**
836		free_rpixmap(ourras);
837		return(0);
838		case '0': /* recenter origin */
839	<	if (xoff == 0 & yoff == 0)
839	>	if ((xoff == 0) & (yoff == 0))
840		return(0);
841		xoff = yoff = 0;
842		XClearWindow(thedisplay, wind);
843		redraw(0, 0, width, height);
844		return(0);
845		case ' ': /* clear */
846	<	redraw(box.xmin, box.ymin, box.xsiz, box.ysiz);
846	>	redraw(bbox.xmin, bbox.ymin, bbox.xsiz, bbox.ysiz);
847		return(0);
848		default:
849		XBell(thedisplay, 0);
#	Line 811 \| Line 852 \| *XKeyPressedEvent ekey;**
852		}
853
854
855	<	moveimage(ebut) /* shift the image */
856	<	XButtonPressedEvent *ebut;
855	>	static void
856	>	moveimage( /* shift the image */
857	>	XButtonPressedEvent *ebut
858	>	)
859		{
860		XEvent e;
861		int mxo, myo;
#	Line 836 \| Line 879 \| *XButtonPressedEvent ebut;**
879		}
880
881
882	<	getbox(ebut) /* get new box */
883	<	XButtonPressedEvent *ebut;
882	>	static void
883	>	getbox( /* get new bbox */
884	>	XButtonPressedEvent *ebut
885	>	)
886		{
887		XEvent e;
888
889		XMaskEvent(thedisplay, ButtonReleaseMask\|ButtonMotionMask, &e);
890		while (e.type == MotionNotify) {
891	<	revbox(ebut->x, ebut->y, box.xmin = e.xmotion.x, box.ymin = e.xmotion.y);
891	>	revbox(ebut->x, ebut->y, bbox.xmin = e.xmotion.x, bbox.ymin = e.xmotion.y);
892		XMaskEvent(thedisplay,ButtonReleaseMask\|ButtonMotionMask,&e);
893	<	revbox(ebut->x, ebut->y, box.xmin, box.ymin);
893	>	revbox(ebut->x, ebut->y, bbox.xmin, bbox.ymin);
894		}
895	<	box.xmin = e.xbutton.x<0 ? 0 : (e.xbutton.x>=width ? width-1 : e.xbutton.x);
896	<	box.ymin = e.xbutton.y<0 ? 0 : (e.xbutton.y>=height ? height-1 : e.xbutton.y);
897	<	if (box.xmin > ebut->x) {
898	<	box.xsiz = box.xmin - ebut->x + 1;
899	<	box.xmin = ebut->x;
895	>	bbox.xmin = e.xbutton.x<0 ? 0 : (e.xbutton.x>=width ? width-1 : e.xbutton.x);
896	>	bbox.ymin = e.xbutton.y<0 ? 0 : (e.xbutton.y>=height ? height-1 : e.xbutton.y);
897	>	if (bbox.xmin > ebut->x) {
898	>	bbox.xsiz = bbox.xmin - ebut->x + 1;
899	>	bbox.xmin = ebut->x;
900		} else {
901	<	box.xsiz = ebut->x - box.xmin + 1;
901	>	bbox.xsiz = ebut->x - bbox.xmin + 1;
902		}
903	<	if (box.ymin > ebut->y) {
904	<	box.ysiz = box.ymin - ebut->y + 1;
905	<	box.ymin = ebut->y;
903	>	if (bbox.ymin > ebut->y) {
904	>	bbox.ysiz = bbox.ymin - ebut->y + 1;
905	>	bbox.ymin = ebut->y;
906		} else {
907	<	box.ysiz = ebut->y - box.ymin + 1;
907	>	bbox.ysiz = ebut->y - bbox.ymin + 1;
908		}
909		}
910
911
912	<	trackrays(ebut) /* trace rays as mouse moves */
913	<	XButtonPressedEvent *ebut;
912	>	static void
913	>	trackrays( /* trace rays as mouse moves */
914	>	XButtonPressedEvent *ebut
915	>	)
916		{
917		XEvent e;
918		unsigned long lastrept;
#	Line 883 \| Line 930 \| *XButtonPressedEvent ebut;**
930		}
931
932
933	<	revbox(x0, y0, x1, y1) /* draw box with reversed lines */
934	<	int x0, y0, x1, y1;
933	>	static void
934	>	revbox( /* draw bbox with reversed lines */
935	>	int x0,
936	>	int y0,
937	>	int x1,
938	>	int y1
939	>	)
940		{
941		revline(x0, y0, x1, y0);
942		revline(x0, y1, x1, y1);
#	Line 893 \| Line 945 \| int x0, y0, x1, y1;
945		}
946
947
948	<	int
949	<	colavg(scn, n, cavg)
950	<	register COLR *scn;
951	<	register int n;
952	<	COLOR cavg;
948	>	static void
949	>	colavg(
950	>	register COLR *scn,
951	>	register int n,
952	>	void *cavg
953	>	)
954		{
955		COLOR col;
956
957		while (n--) {
958	<	colr_color(col, scn++);
959	<	addcolor(cavg, col);
958	>	colr_color(col, *scn++);
959	>	addcolor((COLORV*)cavg, col);
960		}
961		}
962
963
964	<	int
965	<	avgbox(cavg) /* average color over current box */
966	<	COLOR cavg;
964	>	static int
965	>	avgbox( /* average color over current bbox */
966	>	COLOR cavg
967	>	)
968		{
969		double d;
970		register int rval;
#	Line 925 \| Line 979 \| COLOR cavg;
979		}
980
981
982	<	int
983	<	dobox(f, p) /* run function over box */
984	<	int (f)(); / function to call for each subscan */
985	<	char p; / pointer to private data */
982	>	static int
983	>	dobox( /* run function over bbox */
984	>	//void (f)(), / function to call for each subscan */
985	>	doboxf_t f, / function to call for each subscan */
986	>	void p / pointer to private data */
987	>	)
988		{
989		int left, right, top, bottom;
990		int y;
991
992	<	left = box.xmin - xoff;
993	<	right = left + box.xsiz;
992	>	left = bbox.xmin - xoff;
993	>	right = left + bbox.xsiz;
994		if (left < 0)
995		left = 0;
996		if (right > xmax)
997		right = xmax;
998		if (left >= right)
999		return(0);
1000	<	top = box.ymin - yoff;
1001	<	bottom = top + box.ysiz;
1000	>	top = bbox.ymin - yoff;
1001	>	bottom = top + bbox.ysiz;
1002		if (top < 0)
1003		top = 0;
1004		if (bottom > ymax)
#	Line 958 \| Line 1014 \| *char p; /* pointer to private data /*
1014		}
1015
1016
1017	<	int
1018	<	addfix(scn, n) /* add fixation points to histogram */
1019	<	COLR *scn;
1020	<	int n;
1017	>	static void
1018	>	addfix( /* add fixation points to histogram */
1019	>	COLR *scn,
1020	>	int n,
1021	>	void p /NOTUSED*/
1022	>	)
1023		{
1024		if (tmCvColrs(lscan, TM_NOCHROM, scn, n))
1025		goto tmerr;
#	Line 973 \| Line 1031 \| tmerr:
1031		}
1032
1033
1034	<	make_tonemap() /* initialize tone mapping */
1034	>	static void
1035	>	make_tonemap(void) /* initialize tone mapping */
1036		{
1037		int flags, y;
1038
#	Line 1028 \| Line 1087 \| tmerr:
1087		}
1088
1089
1090	<	tmap_colrs(scn, len) /* apply tone mapping to scanline */
1091	<	register COLR *scn;
1092	<	int len;
1090	>	static void
1091	>	tmap_colrs( /* apply tone mapping to scanline */
1092	>	register COLR *scn,
1093	>	int len
1094	>	)
1095		{
1096		register BYTE *ps;
1097
#	Line 1067 \| Line 1128 \| tmerr:
1128		}
1129
1130
1131	<	getmono() /* get monochrome data */
1131	>	static void
1132	>	getmono(void) /* get monochrome data */
1133		{
1134		register unsigned char *dp;
1135		register int x, err;
#	Line 1095 \| Line 1157 \| *getmono() / get monochrome data /*
1157		cerr[x] = err + errp;
1158		}
1159		}
1160	<	free((char *)cerr);
1160	>	free((void *)cerr);
1161		}
1162
1163
1164	<	add2icon(y, scan) /* add a scanline to our icon data */
1165	<	int y;
1166	<	COLR *scan;
1164	>	static void
1165	>	add2icon( /* add a scanline to our icon data */
1166	>	int y,
1167	>	COLR *scan
1168	>	)
1169		{
1170		static short cerr[ICONSIZ];
1171		static int ynext;
#	Line 1138 \| Line 1202 \| *COLR scan;**
1202		errp = err;
1203		ti = x*xmax/iconwidth;
1204		copycolr(clr, scan[ti]);
1205	<	normcolrs(clr, 1, scale);
1205	>	normcolrs(&clr, 1, scale);
1206		err += normbright(clr) + cerr[x];
1207		if (err > 127)
1208		err -= 255;
#	Line 1151 \| Line 1215 \| *COLR scan;**
1215		}
1216
1217
1218	<	getfull() /* get full (24-bit) data */
1218	>	static void
1219	>	getfull(void) /* get full (24-bit) data */
1220		{
1221		int y;
1222	<	register unsigned int4 *dp;
1222	>	register uint32 *dp;
1223	>	register uint16 *dph;
1224		register int x;
1225		/* initialize tone mapping */
1226		make_tonemap();
1227		/* read and convert file */
1228	<	dp = (unsigned int4 *)ourdata;
1228	>	dp = (uint32 *)ourdata;
1229	>	dph = (uint16 *)ourdata;
1230		for (y = 0; y < ymax; y++) {
1231		getscan(y);
1232		add2icon(y, scanline);
1233		tmap_colrs(scanline, xmax);
1234	<	if (ourras->image->blue_mask & 1)
1234	>	switch (ourras->image->blue_mask) {
1235	>	case 0xff: /* 24-bit RGB */
1236		for (x = 0; x < xmax; x++)
1237	<	*dp++ = (unsigned int4)scanline[x][RED] << 16 \|
1238	<	(unsigned int4)scanline[x][GRN] << 8 \|
1239	<	(unsigned int4)scanline[x][BLU] ;
1240	<	else
1237	>	*dp++ = (uint32)scanline[x][RED] << 16 \|
1238	>	(uint32)scanline[x][GRN] << 8 \|
1239	>	(uint32)scanline[x][BLU] ;
1240	>	break;
1241	>	case 0xff0000: /* 24-bit BGR */
1242		for (x = 0; x < xmax; x++)
1243	<	*dp++ = (unsigned int4)scanline[x][RED] \|
1244	<	(unsigned int4)scanline[x][GRN] << 8 \|
1245	<	(unsigned int4)scanline[x][BLU] << 16 ;
1243	>	*dp++ = (uint32)scanline[x][RED] \|
1244	>	(uint32)scanline[x][GRN] << 8 \|
1245	>	(uint32)scanline[x][BLU] << 16 ;
1246	>	break;
1247	>	#if 0
1248	>	case 0x1f: /* 15-bit RGB */
1249	>	for (x = 0; x < xmax; x++)
1250	>	*dph++ = (scanline[x][RED] << 7 & 0x7c00) \|
1251	>	(scanline[x][GRN] << 2 & 0x3e0) \|
1252	>	(unsigned)scanline[x][BLU] >> 3 ;
1253	>	break;
1254	>	case 0x7c00: /* 15-bit BGR */
1255	>	for (x = 0; x < xmax; x++)
1256	>	*dph++ = (unsigned)scanline[x][RED] >> 3 \|
1257	>	(scanline[x][GRN] << 2 & 0x3e0) \|
1258	>	(scanline[x][BLU] << 7 & 0x7c00) ;
1259	>	break;
1260	>	#endif
1261	>	default: /* unknown */
1262	>	if (ourvis.depth > 16)
1263	>	for (x = 0; x < xmax; x++) {
1264	>	*dp = ourras->image->red_mask &
1265	>	ourras->image->red_mask*scanline[x][RED]/255;
1266	>	*dp \|= ourras->image->green_mask &
1267	>	ourras->image->green_mask*scanline[x][GRN]/255;
1268	>	*dp++ \|= ourras->image->blue_mask &
1269	>	ourras->image->blue_mask*scanline[x][BLU]/255;
1270	>	}
1271	>	else
1272	>	for (x = 0; x < xmax; x++) {
1273	>	*dph = ourras->image->red_mask &
1274	>	ourras->image->red_mask*scanline[x][RED]/255;
1275	>	*dph \|= ourras->image->green_mask &
1276	>	ourras->image->green_mask*scanline[x][GRN]/255;
1277	>	*dph++ \|= ourras->image->blue_mask &
1278	>	ourras->image->blue_mask*scanline[x][BLU]/255;
1279	>	}
1280	>	break;
1281	>	}
1282		}
1283		}
1284
1285
1286	<	getgrey() /* get greyscale data */
1286	>	static void
1287	>	getgrey(void) /* get greyscale data */
1288		{
1289		int y;
1290		register unsigned char *dp;
#	Line 1193 \| Line 1299 \| *getgrey() / get greyscale data /*
1299		tmap_colrs(scanline, xmax);
1300		if (maxcolors < 256)
1301		for (x = 0; x < xmax; x++)
1302	<	dp++ = ((int4)scanline[x][GRN]
1302	>	dp++ = ((int32)scanline[x][GRN]
1303		maxcolors + maxcolors/2) >> 8;
1304		else
1305		for (x = 0; x < xmax; x++)
#	Line 1201 \| Line 1307 \| *getgrey() / get greyscale data /*
1307		}
1308		for (x = 0; x < maxcolors; x++)
1309		clrtab[x][RED] = clrtab[x][GRN] =
1310	<	clrtab[x][BLU] = ((int4)x*256 + 128)/maxcolors;
1310	>	clrtab[x][BLU] = ((int32)x*256 + 128)/maxcolors;
1311		}
1312
1313
1314	<	getmapped() /* get color-mapped data */
1314	>	static void
1315	>	getmapped(void) /* get color-mapped data */
1316		{
1317		int y;
1318		/* make sure we can do it first */
#	Line 1214 \| Line 1321 \| *getmapped() / get color-mapped data /*
1321		/* initialize tone mapping */
1322		make_tonemap();
1323		/* make histogram */
1324	<	if (new_histo((int4)xmax*ymax) == -1)
1324	>	if (new_histo((int32)xmax*ymax) == -1)
1325		quiterr("cannot initialize histogram");
1326		for (y = 0; y < ymax; y++) {
1327		if (getscan(y) < 0)
#	Line 1237 \| Line 1344 \| *getmapped() / get color-mapped data /*
1344		}
1345
1346
1347	<	scale_rcolors(xr, sf) /* scale color map */
1348	<	register XRASTER *xr;
1349	<	double sf;
1347	>	static void
1348	>	scale_rcolors( /* scale color map */
1349	>	register XRASTER *xr,
1350	>	double sf
1351	>	)
1352		{
1353		register int i;
1354		long maxv;
#	Line 1265 \| Line 1374 \| double sf;
1374		}
1375
1376
1377	<	getscan(y)
1378	<	int y;
1377	>	static int
1378	>	getscan(
1379	>	int y
1380	>	)
1381		{
1382		static int trunced = -1; /* truncated file? */
1383		skipit:
1384		if (trunced >= 0 && y >= trunced) {
1385	<	bzero(scanline, xmax*sizeof(COLR));
1385	>	memset(scanline, '\0', xmax*sizeof(COLR));
1386		return(-1);
1387		}
1388		if (y != cury) {

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Comparing ray/src/px/x11image.c (file contents): Revision 2.52 by gwlarson, Mon Aug 17 18:00:11 1998 UTC vs. Revision 2.67 by greg, Sat Apr 10 03:02:20 2004 UTC

Diff Legend

Comparing ray/src/px/x11image.c (file contents):
Revision 2.52 by gwlarson, Mon Aug 17 18:00:11 1998 UTC vs.
Revision 2.67 by greg, Sat Apr 10 03:02:20 2004 UTC