[ViewVC] Diff of: radiance/ray/src/hd/rhd

Comparing ray/src/hd/rhd_glx.c (file contents):
Revision 3.2 by gregl, Wed Dec 24 14:06:40 1997 UTC vs.
Revision 3.19 by gwlarson, Wed Aug 19 17:45:58 1998 UTC

#	Line 1 \| Line 1
1	<	/* Copyright (c) 1997 Silicon Graphics, Inc. */
1	>	/* Copyright (c) 1998 Silicon Graphics, Inc. */
2
3		#ifndef lint
4		static char SCCSid[] = "$SunId$ SGI";
#	Line 6 \| Line 6 \| static char SCCSid[] = "$SunId$ SGI";
6
7		/*
8		* OpenGL GLX driver for holodeck display.
9	<	* Based on x11 driver.
9	>	* Based on old GLX driver using cones.
10	>	*
11	>	* Define symbol STEREO for stereo viewing.
12	>	* Define symbol DOBJ for display object viewing.
13		*/
14
15	+	#ifdef NOSTEREO
16	+	#ifdef STEREO
17	+	#undef STEREO
18	+	#else
19	+	#undef NOSTEREO
20	+	#endif
21	+	#endif
22	+
23		#include "standard.h"
24	<	#include "tonemap.h"
14	<	#include "rhdriver.h"
24	>	#include "rhd_sample.h"
25
26	<	#include <GL/glx.h>
27	<
28	<	#include "x11icon.h"
29	<
30	<	#ifndef FEQ
21	<	#define FEQ(a,b) ((a)-(b) <= FTINY && (a)-(b) >= -FTINY)
26	>	#include <sys/types.h>
27	>	#include <GL/glx.h>
28	>	#include <GL/glu.h>
29	>	#ifdef STEREO
30	>	#include <X11/extensions/SGIStereo.h>
31		#endif
32	<
33	<	#ifndef int4
25	<	#define int4 int
32	>	#ifdef DOBJ
33	>	#include "rhdobj.h"
34		#endif
35
36	<	#ifndef FREEPCT
37	<	#define FREEPCT 10 /* percentage of values to free */
36	>	#include "x11icon.h"
37	>
38	>	#ifndef RAYQLEN
39	>	#define RAYQLEN 250 /* max. rays to queue before flush */
40		#endif
41
42	<	#ifndef NCONEV
43	<	#define NCONEV 7 /* number of cone base vertices */
42	>	#ifndef FEQ
43	>	#define FEQ(a,b) ((a)-(b) <= FTINY && (a)-(b) >= -FTINY)
44		#endif
35	–	#ifndef CONEH
36	–	#define CONEH 5. /* cone height (fraction of depth) */
37	–	#endif
38	–	#ifndef CONEW
39	–	#define CONEW 0.07 /* cone width (fraction of screen) */
40	–	#endif
41	–	#ifndef DIRPEN
42	–	#define DIRPEN 0.001 /* direction penalty factor */
43	–	#endif
45
46		#define GAMMA 1.4 /* default gamma correction */
47
#	Line 49 \| Line 50 \| static char SCCSid[] = "$SunId$ SGI";
50		#define MOVDEG (-5) /* degrees to orbit CW/down /frame */
51		#define MOVORB(s) ((s)&ShiftMask ? 1 : (s)&ControlMask ? -1 : 0)
52
53	+	#ifndef TARGETFPS
54	+	#define TARGETFPS 4.0 /* target frames/sec during motion */
55	+	#endif
56	+
57		#define MINWIDTH 480 /* minimum graphics window width */
58		#define MINHEIGHT 400 /* minimum graphics window height */
59
#	Line 56 \| Line 61 \| static char SCCSid[] = "$SunId$ SGI";
61
62		#define BORWIDTH 5 /* border width */
63
64	+	#define setstereobuf(bid) (glXWaitGL(), \
65	+	XSGISetStereoBuffer(ourdisplay, gwind, bid), \
66	+	glXWaitX())
67	+
68		#define ourscreen DefaultScreen(ourdisplay)
69		#define ourroot RootWindow(ourdisplay,ourscreen)
70		#define ourmask (StructureNotifyMask\|ExposureMask\|KeyPressMask\|\
#	Line 65 \| Line 74 \| static char SCCSid[] = "$SunId$ SGI";
74
75		struct driver odev; /* global device driver structure */
76
77	+	static VIEW vwright; /* right eye view */
78	+
79	+	static int rayqleft = 0; /* rays left to queue before flush */
80	+
81		static XEvent currentevent; /* current event */
82
83		static int mapped = 0; /* window is mapped? */
#	Line 75 \| Line 88 \| *static XVisualInfo ourvinf; /* our visual informati**
88		static Window gwind = 0; /* our graphics window */
89		static GLXContext gctx; /* our GLX context */
90
78	–	static double mindepth = FHUGE; /* minimum depth value so far */
79	–	static double maxdepth = 0.; /* maximum depth value so far */
80	–
91		static double pwidth, pheight; /* pixel dimensions (mm) */
92
93	<	static FVECT conev[NCONEV]; /* drawing cone */
84	<	static double coneh; /* cone height */
93	>	static double mindpth, maxdpth; /* min. and max. depth */
94
95	+	double dev_zmin, dev_zmax; /* fore and aft clipping plane dist. */
96	+
97		static int inpresflags; /* input result flags */
98
99		static int headlocked = 0; /* lock vertical motion */
100
101	<	static struct {
102	<	float (wp)[3]; / world intersection point array */
92	<	int4 wd; / world direction array */
93	<	TMbright brt; / encoded brightness array */
94	<	BYTE (chr)[3]; / encoded chrominance array */
95	<	BYTE (rgb)[3]; / tone-mapped color array */
96	<	BYTE alpha; / alpha values */
97	<	int nl; /* count of values */
98	<	int bl, tl; /* bottom and top (next) value index */
99	<	int tml; /* next value needing tone-mapping */
100	<	int drl; /* next value in need of drawing */
101	<	char base; / base of allocated memory */
102	<	} rV; /* our collection of values */
101	>	static int resizewindow(), getevent(), getkey(), moveview(), wipeclean(),
102	>	setglpersp(), getmove(), fixwindow(), mytmflags();
103
104	<	static int valmap = NULL; / sorted map of screen values */
105	<	static int vmaplen = 0; /* value map length */
104	>	#ifdef STEREO
105	>	static int pushright(), popright();
106	>	#endif
107
108	<	#define redraw() (rV.drl = rV.bl)
108	>	extern time_t time();
109
109	–	static int resizewindow(), getevent(), getkey(), moveview(),
110	–	setGLview(), getmove(), fixwindow(), mytmflags(),
111	–	drawvalue(), valcmp(), clralphas(), setalphas(), mergalphas(),
112	–	IndexValue(), Compost(), FindValue(), TMapValues(),
113	–	AllocValues(), FreeValues();
110
111	<	extern int4 encodedir();
116	<	extern double fdir2diff(), dir2diff();
117	<
118	<
119	<	dev_open(id) /* initialize X11 driver */
111	>	dev_open(id) /* initialize GLX driver */
112		char *id;
113		{
114		extern char *getenv();
115	+	static RGBPRIMS myprims = STDPRIMS;
116		static int atlBest[] = {GLX_RGBA, GLX_RED_SIZE,8,
117		GLX_GREEN_SIZE,8, GLX_BLUE_SIZE,8,
118	<	GLX_ALPHA_SIZE,8, GLX_DEPTH_SIZE,15,
119	<	None};
127	<	char *gv;
118	>	GLX_DEPTH_SIZE,15, None};
119	>	char *ev;
120		double gamval = GAMMA;
121	+	RGBPRIMP dpri = stdprims;
122		XSetWindowAttributes ourwinattr;
123		XWMHints ourxwmhints;
124		XSizeHints oursizhints;
125	+	/* check for unsupported stereo */
126	+	#ifdef NOSTEREO
127	+	error(USER, "stereo display driver unavailable");
128	+	#endif
129		/* open display server */
130		ourdisplay = XOpenDisplay(NULL);
131		if (ourdisplay == NULL)
132		error(USER, "cannot open X-windows; DISPLAY variable set?\n");
133	+	#ifdef STEREO
134	+	switch (XSGIQueryStereoMode(ourdisplay, ourroot)) {
135	+	case STEREO_TOP:
136	+	case STEREO_BOTTOM:
137	+	break;
138	+	case STEREO_OFF:
139	+	error(USER,
140	+	"wrong video mode: run \"/usr/gfx/setmon -n STR_TOP\" first");
141	+	case X_STEREO_UNSUPPORTED:
142	+	error(USER, "stereo mode not supported on this screen");
143	+	default:
144	+	error(INTERNAL, "unknown stereo mode");
145	+	}
146	+	#endif
147		/* find a usable visual */
148		ourvinf = glXChooseVisual(ourdisplay, ourscreen, atlBest);
149		if (ourvinf == NULL)
#	Line 140 \| Line 151 \| *char id;**
151		/* get a context */
152		gctx = glXCreateContext(ourdisplay, ourvinf, NULL, GL_TRUE);
153		/* set gamma and tone mapping */
154	<	if ((gv = XGetDefault(ourdisplay, "radiance", "gamma")) != NULL
155	<	\|\| (gv = getenv("DISPLAY_GAMMA")) != NULL)
156	<	gamval = atof(gv);
157	<	if (tmInit(mytmflags(), stdprims, gamval) == NULL)
154	>	if ((ev = XGetDefault(ourdisplay, "radiance", "gamma")) != NULL
155	>	\|\| (ev = getenv("DISPLAY_GAMMA")) != NULL)
156	>	gamval = atof(ev);
157	>	if ((ev = getenv("DISPLAY_PRIMARIES")) != NULL &&
158	>	sscanf(ev, "%f %f %f %f %f %f %f %f",
159	>	&myprims[RED][CIEX],&myprims[RED][CIEY],
160	>	&myprims[GRN][CIEX],&myprims[GRN][CIEY],
161	>	&myprims[BLU][CIEX],&myprims[BLU][CIEY],
162	>	&myprims[WHT][CIEX],&myprims[WHT][CIEY]) >= 6)
163	>	dpri = myprims;
164	>	if (tmInit(mytmflags(), dpri, gamval) == NULL)
165		error(SYSTEM, "not enough memory in dev_open");
166		/* open window */
167		ourwinattr.background_pixel = ourblack;
#	Line 154 \| Line 172 \| *char id;**
172		ourvinf->visual, AllocNone);
173		gwind = XCreateWindow(ourdisplay, ourroot, 0, 0,
174		DisplayWidth(ourdisplay,ourscreen)-2*BORWIDTH,
175	+	#ifdef STEREO
176	+	(DisplayHeight(ourdisplay,ourscreen)-2*BORWIDTH)/2,
177	+	#else
178		DisplayHeight(ourdisplay,ourscreen)-2*BORWIDTH,
179	+	#endif
180		BORWIDTH, ourvinf->depth, InputOutput, ourvinf->visual,
181		CWBackPixel\|CWBorderPixel\|CWColormap\|CWEventMask, &ourwinattr);
182		if (gwind == 0)
#	Line 167 \| Line 189 \| *char id;**
189		gwind, x11icon_bits, x11icon_width, x11icon_height);
190		XSetWMHints(ourdisplay, gwind, &ourxwmhints);
191		oursizhints.min_width = MINWIDTH;
192	+	#ifdef STEREO
193	+	oursizhints.min_height = MINHEIGHT/2;
194	+	oursizhints.max_width = DisplayWidth(ourdisplay,ourscreen)-2*BORWIDTH;
195	+	oursizhints.max_height = (DisplayHeight(ourdisplay,ourscreen) -
196	+	2*BORWIDTH)/2;
197	+	oursizhints.flags = PMinSize\|PMaxSize;
198	+	#else
199		oursizhints.min_height = MINHEIGHT;
200		oursizhints.flags = PMinSize;
201	+	#endif
202		XSetNormalHints(ourdisplay, gwind, &oursizhints);
203		/* set GLX context */
204		glXMakeCurrent(ourdisplay, gwind, gctx);
205		glEnable(GL_DEPTH_TEST);
206		glDepthFunc(GL_LEQUAL);
207	<	glShadeModel(GL_FLAT);
207	>	glShadeModel(GL_SMOOTH);
208		glDisable(GL_DITHER);
209	+	glDisable(GL_CULL_FACE);
210		/* figure out sensible view */
211		pwidth = (double)DisplayWidthMM(ourdisplay, ourscreen) /
212		DisplayWidth(ourdisplay, ourscreen);
213		pheight = (double)DisplayHeightMM(ourdisplay, ourscreen) /
214		DisplayHeight(ourdisplay, ourscreen);
215	+	#ifdef STEREO
216	+	pheight *= 2.;
217	+	setstereobuf(STEREO_BUFFER_LEFT);
218	+	#endif
219		copystruct(&odev.v, &stdview);
220		odev.v.type = VT_PER;
221		/* map the window */
222		XMapWindow(ourdisplay, gwind);
223		dev_input(); /* sets size and view angles */
224	<	glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
225	<	/* allocate our value list */
226	<	if (!AllocValues(DisplayWidth(ourdisplay,ourscreen) *
192	<	DisplayHeight(ourdisplay,ourscreen) / 4))
224	>	/* allocate our samples */
225	>	if (!smInit(DisplayWidth(ourdisplay,ourscreen) *
226	>	DisplayHeight(ourdisplay,ourscreen) / 10))
227		error(SYSTEM, "insufficient memory for value storage");
228	+	mindpth = FHUGE; maxdpth = FTINY;
229		odev.name = id;
230		odev.ifd = ConnectionNumber(ourdisplay);
231		}
#	Line 198 \| Line 233 \| *char id;**
233
234		dev_close() /* close our display and free resources */
235		{
236	+	smInit(0);
237	+	#ifdef DOBJ
238	+	dobj_cleanup();
239	+	#endif
240		glXMakeCurrent(ourdisplay, None, NULL);
241		glXDestroyContext(ourdisplay, gctx);
242		XDestroyWindow(ourdisplay, gwind);
#	Line 205 \| Line 244 \| *dev_close() / close our display and free resources**
244		XCloseDisplay(ourdisplay);
245		ourdisplay = NULL;
246		tmDone(NULL);
208	–	FreeValues();
247		odev.v.type = 0;
248		odev.hres = odev.vres = 0;
249		odev.ifd = -1;
250		}
251
252
253	+	dev_clear() /* clear our representation */
254	+	{
255	+	smInit(rsL.max_samp);
256	+	wipeclean();
257	+	rayqleft = 0; /* hold off update */
258	+	}
259	+
260	+
261		int
262		dev_view(nv) /* assign new driver view */
263		register VIEW *nv;
264		{
265	+	double d;
266	+
267		if (nv->type != VT_PER \|\| /* check view legality */
268	<	nv->horiz > 120. \|\| nv->vert > 120.) {
268	>	nv->horiz > 160. \|\| nv->vert > 160.) {
269		error(COMMAND, "illegal view type/angle");
270	<	nv->type = VT_PER;
270	>	nv->type = odev.v.type;
271		nv->horiz = odev.v.horiz;
272		nv->vert = odev.v.vert;
273		return(0);
#	Line 232 \| Line 280 \| *register VIEW nv;**
280
281		dw -= 25; /* for window frame */
282		dh -= 50;
283	+	#ifdef STEREO
284	+	dh /= 2;
285	+	#endif
286		odev.hres = 2.VIEWDIST/pwidth
287		tan(PI/180./2.*nv->horiz);
288		odev.vres = 2.VIEWDIST/pheight
#	Line 247 \| Line 298 \| *register VIEW nv;**
298		XResizeWindow(ourdisplay, gwind, odev.hres, odev.vres);
299		dev_input(); /* get resize event */
300		}
301	<	copystruct(&odev.v, nv);
302	<	setGLview();
303	<	glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
304	<	redraw();
301	>	copystruct(&odev.v, nv); /* setview() already called */
302	>	setglpersp(&odev.v);
303	>	#ifdef STEREO
304	>	copystruct(&vwright, nv);
305	>	d = eyesepdist / sqrt(nv->hn2);
306	>	VSUM(vwright.vp, nv->vp, nv->hvec, d);
307	>	/* setview(&vwright); -- Unnecessary */
308	>	#endif
309	>	checkglerr("setting view");
310		}
311	+	wipeclean();
312		return(1);
313		}
314
315
316	<	int
317	<	dev_input() /* get X11 input */
316	>	dev_auxcom(cmd, args) /* process an auxiliary command */
317	>	char cmd, args;
318		{
319	<	inpresflags = 0;
320	<
321	<	do
322	<	getevent();
323	<
324	<	while (XQLength(ourdisplay) > 0);
268	<
269	<	return(inpresflags);
319	>	#ifdef DOBJ
320	>	if (dobj_command(cmd, args) >= 0)
321	>	return;
322	>	#endif
323	>	sprintf(errmsg, "%s: unknown command", cmd);
324	>	error(COMMAND, errmsg);
325		}
326
327
328	<	dev_value(c, p, v) /* add a pixel value to our list */
329	<	COLR c;
330	<	FVECT p, v;
328	>	VIEW *
329	>	dev_auxview(n, hvres) /* return nth auxiliary view */
330	>	int n;
331	>	int hvres[2];
332		{
333	<	register int li;
334	<
335	<	li = rV.tl++;
336	<	if (rV.tl >= rV.nl) /* get next leaf in ring */
337	<	rV.tl = 0;
338	<	if (rV.tl == rV.bl) /* need to shake some free */
339	<	Compost(FREEPCT);
340	<	VCOPY(rV.wp[li], p);
285	<	rV.wd[li] = encodedir(v);
286	<	tmCvColrs(&rV.brt[li], rV.chr[li], c, 1);
333	>	hvres[0] = odev.hres; hvres[1] = odev.vres;
334	>	if (n == 0)
335	>	return(&odev.v);
336	>	#ifdef STEREO
337	>	if (n == 1)
338	>	return(&vwright);
339	>	#endif
340	>	return(NULL);
341		}
342
343
344		int
345	<	dev_flush() /* flush output */
345	>	dev_input() /* get X11 input */
346		{
347	<	if (mapped) {
294	<	TMapValues(0);
295	<	while (rV.drl != rV.tl) {
296	<	drawvalue(rV.drl);
297	<	if (++rV.drl >= rV.nl)
298	<	rV.drl = 0;
299	<	}
300	<	glFlush();
301	<	}
302	<	return(XPending(ourdisplay));
303	<	}
347	>	inpresflags = 0;
348
349	+	do
350	+	getevent();
351
352	<	static int
353	<	mytmflags() /* figure out tone mapping flags */
354	<	{
355	<	extern char *progname;
356	<	register char cp, tail;
311	<	/* find basic name */
312	<	for (cp = tail = progname; *cp; cp++)
313	<	if (*cp == '/')
314	<	tail = cp+1;
315	<	for (cp = tail; cp && cp != '.'; cp++)
316	<	;
317	<	if (cp-tail == 3 && !strncmp(tail, "glx", 3))
318	<	return(TM_F_CAMERA);
319	<	if (cp-tail == 4 && !strncmp(tail, "glxh", 4))
320	<	return(TM_F_HUMAN);
321	<	error(USER, "illegal driver name");
352	>	while (XPending(ourdisplay) > 0);
353	>
354	>	odev.inpready = 0;
355	>
356	>	return(inpresflags);
357		}
358
359
360	<	static
361	<	setGLview() /* set our GL view */
360	>	dev_value(c, d, p) /* add a pixel value to our mesh */
361	>	COLR c;
362	>	FVECT d, p;
363		{
364	<	double xmin, xmax, ymin, ymax, zmin, zmax;
365	<	double d, cx, sx, crad;
366	<	FVECT vx, vy;
367	<	register int i, j;
332	<	/* compute view frustum */
333	<	if (normalize(odev.v.vdir) == 0.0)
364	>	double depth;
365	>	#ifdef DOBJ
366	>	if (dobj_lightsamp != NULL) { /* in light source sampling */
367	>	(*dobj_lightsamp)(c, d, p);
368		return;
335	–	if (mindepth < maxdepth) {
336	–	zmin = 0.25*mindepth;
337	–	zmax = 4.0(1.+CONEH)maxdepth;
338	–	} else {
339	–	zmin = 0.01;
340	–	zmax = 1000.;
369		}
370	<	if (odev.v.vfore > FTINY)
371	<	zmin = odev.v.vfore;
372	<	if (odev.v.vaft > FTINY)
373	<	zmax = odev.v.vaft;
374	<	xmax = zmin * tan(PI/180./2. * odev.v.horiz);
375	<	xmin = -xmax;
376	<	d = odev.v.hoff * (xmax - xmin);
377	<	xmin += d; xmax += d;
378	<	ymax = zmin * tan(PI/180./2. * odev.v.vert);
379	<	ymin = -ymax;
380	<	d = odev.v.voff * (ymax - ymin);
381	<	ymin += d; ymax += d;
354	<	/* set view matrix */
355	<	glMatrixMode(GL_PROJECTION);
356	<	glLoadIdentity();
357	<	glFrustum(xmin, xmax, ymin, ymax, zmin, zmax);
358	<	gluLookAt(odev.v.vp[0], odev.v.vp[1], odev.v.vp[2],
359	<	odev.v.vp[0] + odev.v.vdir[0],
360	<	odev.v.vp[1] + odev.v.vdir[1],
361	<	odev.v.vp[2] + odev.v.vdir[2],
362	<	odev.v.vup[0], odev.v.vup[1], odev.v.vup[2]);
363	<	/* set viewport */
364	<	glViewport(0, 0, odev.hres, odev.vres);
365	<	/* initialize cone for Vornoi polys */
366	<	coneh = CONEH*(zmax - zmin);
367	<	crad = 0.5 * CONEW * 0.5(xmax-xmin + ymax-ymin) (zmin+coneh)/zmin;
368	<	vy[0] = vy[1] = vy[2] = 0.;
369	<	for (i = 0; i < 3; i++)
370	<	if (odev.v.vdir[i] < 0.6 && odev.v.vdir[i] > -0.6)
371	<	break;
372	<	vy[i] = 1.;
373	<	fcross(vx, vy, odev.v.vdir);
374	<	normalize(vx);
375	<	fcross(vy, odev.v.vdir, vx);
376	<	for (j = 0, d = 0.; j < NCONEV; j++, d += 2.*PI/NCONEV) {
377	<	cx = cradcos(d); sx = cradsin(d);
378	<	for (i = 0; i < 3; i++)
379	<	conev[j][i] = coneh*odev.v.vdir[i] +
380	<	cxvx[i] + sxvy[i];
370	>	#endif
371	>	smNewSamp(c, d, p); /* add to display representation */
372	>	if (p != NULL) {
373	>	depth = (p[0] - odev.v.vp[0])*d[0] +
374	>	(p[1] - odev.v.vp[1])*d[1] +
375	>	(p[2] - odev.v.vp[2])*d[2];
376	>	if (depth > FTINY) {
377	>	if (depth < mindpth)
378	>	mindpth = depth;
379	>	if (depth > maxdpth)
380	>	maxdpth = depth;
381	>	}
382		}
383	+	if (!--rayqleft)
384	+	dev_flush(); /* flush output */
385		}
386
387
388	<	static
389	<	drawvalue(li) /* draw a pixel value as a cone */
387	<	register int li;
388	>	int
389	>	dev_flush() /* flush output */
390		{
391	<	static FVECT disp;
392	<	FVECT apex;
393	<	double d, dorg, dnew, h, v;
394	<	register int i;
395	<	/* compute cone coordinates */
396	<	disp[0] = rV.wp[li][0] - odev.v.vp[0];
397	<	disp[1] = rV.wp[li][1] - odev.v.vp[1];
398	<	disp[2] = rV.wp[li][2] - odev.v.vp[2];
399	<	dorg = DOT(disp,odev.v.vdir);
400	<	if (dorg <= odev.v.vfore)
401	<	return; /* clipped too near */
402	<	if (odev.v.vaft > FTINY && dorg > odev.v.vaft)
403	<	return; /* clipped too far */
404	<	if (dorg > 1e5) { /* background pixel */
405	<	dnew = maxdepth;
406	<	d = dnew/dorg;
407	<	} else { /* foreground pixel, compute penalty */
408	<	normalize(disp);
409	<	d = dnew = dorg + conehfdir2diff(rV.wd[li],disp)DIRPEN;
408	<	}
409	<	/* compute adjusted apex position */
410	<	disp[0] = d; disp[1] = d; disp[2] *= d;
411	<	apex[0] = odev.v.vp[0] + disp[0];
412	<	apex[1] = odev.v.vp[1] + disp[1];
413	<	apex[2] = odev.v.vp[2] + disp[2];
414	<	/* compute view position and base offset */
415	<	h = DOT(disp,odev.v.hvec)/(dnew*odev.v.hn2);
416	<	v = DOT(disp,odev.v.vvec)/(dnew*odev.v.vn2);
417	<	if (fabs(h - odev.v.hoff) > 0.5 \|\| fabs(v - odev.v.voff) > 0.5)
418	<	return; /* clipped off screen */
419	<	if (dorg < mindepth)
420	<	mindepth = dorg;
421	<	if (dorg > maxdepth)
422	<	maxdepth = dorg;
423	<	for (i = 0; i < 3; i++)
424	<	disp[i] = apex[i] + coneh(hodev.v.hvec[i] + v*odev.v.vvec[i]);
425	<	/* draw cone (pyramid approx.) */
426	<	glColor4ub(rV.rgb[li][0], rV.rgb[li][1], rV.rgb[li][2], rV.alpha[li]);
427	<	glBegin(GL_TRIANGLE_FAN);
428	<	glVertex3f(apex[0], apex[1], apex[2]);
429	<	for (i = 0; i < NCONEV; i++)
430	<	glVertex3d(conev[i][0] + disp[0], conev[i][1] + disp[1],
431	<	conev[i][2] + disp[2]);
432	<	/* connect last face to first */
433	<	glVertex3d(conev[0][0] + disp[0], conev[0][1] + disp[1],
434	<	conev[0][2] + disp[2]);
435	<	glEnd(); /* done */
391	>	#ifdef STEREO
392	>	pushright(); /* update right eye */
393	>	glClear(GL_DEPTH_BUFFER_BIT);
394	>	smUpdate(&vwright, 100);
395	>	#ifdef DOBJ
396	>	dobj_render(); /* usually in foreground */
397	>	#endif
398	>	popright(); /* update left eye */
399	>	glClear(GL_DEPTH_BUFFER_BIT);
400	>	#endif
401	>	smUpdate(&odev.v, 100);
402	>	#ifdef DOBJ
403	>	dobj_render();
404	>	#endif
405	>	glFlush(); /* flush OGL */
406	>	checkglerr("flushing display");
407	>	rayqleft = RAYQLEN;
408	>	/* flush X11 and return # pending */
409	>	return(odev.inpready = XPending(ourdisplay));
410		}
411
412
413	<	#define LEAFSIZ (3*sizeof(float)+sizeof(int4)+\
414	<	sizeof(TMbright)+7*sizeof(BYTE))
441	<
442	<	static
443	<	AllocValues(n) /* allocate space for n values */
444	<	register int n;
413	>	checkglerr(where) /* check for GL or GLU error */
414	>	char *where;
415		{
416	<	unsigned nbytes;
447	<	register unsigned i;
416	>	register GLenum errcode;
417
418	<	if (n <= 0)
419	<	return(0);
420	<	if (rV.nl >= n)
421	<	return(rV.nl);
453	<	else if (rV.nl > 0)
454	<	free(rV.base);
455	<	/* round space up to nearest power of 2 */
456	<	nbytes = n*LEAFSIZ + 8;
457	<	for (i = 1024; nbytes > i; i <<= 1)
458	<	;
459	<	n = (i - 8) / LEAFSIZ; /* should we make sure n is even? */
460	<	rV.base = (char )malloc(nLEAFSIZ);
461	<	if (rV.base == NULL)
462	<	return(0);
463	<	/* assign larger alignment types earlier */
464	<	rV.wp = (float (*)[3])rV.base;
465	<	rV.wd = (int4 *)(rV.wp + n);
466	<	rV.brt = (TMbright *)(rV.wd + n);
467	<	rV.chr = (BYTE (*)[3])(rV.brt + n);
468	<	rV.rgb = (BYTE (*)[3])(rV.chr + n);
469	<	rV.alpha = (BYTE *)(rV.rgb + n);
470	<	rV.nl = n;
471	<	rV.drl = rV.tml = rV.bl = rV.tl = 0;
472	<	return(n);
473	<	}
474	<
475	<	#undef LEAFSIZ
476	<
477	<
478	<	static
479	<	FreeValues() /* free our allocated values */
480	<	{
481	<	if (rV.nl <= 0)
482	<	return;
483	<	free(rV.base);
484	<	rV.base = NULL;
485	<	rV.nl = 0;
486	<	}
487	<
488	<
489	<	static
490	<	clralphas() /* prepare for new alpha values */
491	<	{
492	<	if (!vmaplen)
493	<	return;
494	<	free((char *)valmap);
495	<	valmap = NULL;
496	<	vmaplen = 0;
497	<	}
498	<
499	<
500	<	static int
501	<	valcmp(v1p, v2p) /* compare two pixel values */
502	<	int v1p, v2p;
503	<	{
504	<	register int v1 = v1p, v2 = v2p;
505	<	register int c;
506	<
507	<	if ((c = rV.rgb[v1][0] - rV.rgb[v2][0])) return(c);
508	<	if ((c = rV.rgb[v1][1] - rV.rgb[v2][1])) return(c);
509	<	if ((c = rV.rgb[v1][2] - rV.rgb[v2][2])) return(c);
510	<	return(rV.alpha[v1] - rV.alpha[v2]);
511	<	}
512	<
513	<
514	<	static
515	<	mergalphas(adest, al1, n1, al2, n2) /* merge two sorted alpha lists */
516	<	register int adest, al1, *al2;
517	<	int n1, n2;
518	<	{
519	<	register int cmp;
520	<
521	<	while (n1 \| n2) {
522	<	if (!n1) cmp = 1;
523	<	else if (!n2) cmp = -1;
524	<	else cmp = valcmp(al1, al2);
525	<	if (cmp > 0) {
526	<	adest++ = al2++;
527	<	n2--;
528	<	} else {
529	<	adest++ = al1++;
530	<	n1--;
531	<	}
418	>	while ((errcode = glGetError()) != GL_NO_ERROR) {
419	>	sprintf(errmsg, "OpenGL error %s: %s",
420	>	where, gluErrorString(errcode));
421	>	error(WARNING, errmsg);
422		}
423		}
424
425
426	+	#ifdef STEREO
427		static
428	<	setalphas(vbeg, nvals) /* add values to our map and set alphas */
538	<	int vbeg, nvals;
428	>	pushright() /* push on right view */
429		{
430	<	register int *newmap;
541	<	short ccmp[3], lastalpha;
542	<	int newmaplen;
430	>	double d;
431
432	<	if (nvals <= 0)
433	<	return;
434	<	newmaplen = vmaplen + nvals; /* allocate new map */
435	<	newmap = (int )malloc(newmaplensizeof(int));
436	<	if (newmap == NULL)
549	<	error(SYSTEM, "out of memory in setalphas");
550	<	while (nvals--) { /* add new values to end */
551	<	rV.alpha[vbeg] = 255;
552	<	newmap[vmaplen+nvals] = vbeg++;
553	<	}
554	<	if (nvals >= 3vmaplen) { / resort the combined array */
555	<	while (vmaplen--)
556	<	newmap[vmaplen] = valmap[vmaplen];
557	<	qsort((char *)newmap, newmaplen, sizeof(int), valcmp);
558	<	} else { /* perform merge sort */
559	<	qsort((char *)(newmap+vmaplen), newmaplen-vmaplen,
560	<	sizeof(int), valcmp);
561	<	mergalphas(newmap, valmap, vmaplen,
562	<	newmap+vmaplen, newmaplen-vmaplen);
563	<	}
564	<	if (valmap != NULL) /* free old map and assign new one */
565	<	free((char *)valmap);
566	<	valmap = newmap;
567	<	vmaplen = newmaplen;
568	<	lastalpha = 0; /* set new alpha values */
569	<	ccmp[0] = ccmp[1] = ccmp[2] = 256;
570	<	while (newmaplen--)
571	<	if (rV.rgb[*newmap][0] == ccmp[0] &&
572	<	rV.rgb[*newmap][1] == ccmp[1] &&
573	<	rV.rgb[*newmap][2] == ccmp[2]) {
574	<	if (lastalpha >= 255)
575	<	newmap++;
576	<	else if (rV.alpha[*newmap] < 255)
577	<	lastalpha = rV.alpha[*newmap++];
578	<	else
579	<	rV.alpha[*newmap++] = ++lastalpha;
580	<	} else {
581	<	ccmp[0] = rV.rgb[*newmap][0];
582	<	ccmp[1] = rV.rgb[*newmap][1];
583	<	ccmp[2] = rV.rgb[*newmap][2];
584	<	if (rV.alpha[*newmap] < 255)
585	<	lastalpha = rV.alpha[*newmap++];
586	<	else
587	<	rV.alpha[*newmap++] = lastalpha = 1;
588	<	}
432	>	setstereobuf(STEREO_BUFFER_RIGHT);
433	>	glMatrixMode(GL_MODELVIEW);
434	>	glPushMatrix();
435	>	d = -eyesepdist / sqrt(odev.v.hn2);
436	>	glTranslated(dodev.v.hvec[0], dodev.v.hvec[1], d*odev.v.hvec[2]);
437		}
438
439
440		static
441	<	TMapValues(redo) /* map our values to RGB */
594	<	int redo;
441	>	popright() /* pop off right view */
442		{
443	<	int aorg, alen, borg, blen;
444	<	/* recompute mapping? */
445	<	if (redo)
599	<	rV.tml = rV.bl;
600	<	/* already done? */
601	<	if (rV.tml == rV.tl)
602	<	return(1);
603	<	/* compute segments */
604	<	aorg = rV.tml;
605	<	if (rV.tl >= aorg) {
606	<	alen = rV.tl - aorg;
607	<	blen = 0;
608	<	} else {
609	<	alen = rV.nl - aorg;
610	<	borg = 0;
611	<	blen = rV.tl;
612	<	}
613	<	/* (re)compute tone mapping? */
614	<	if (rV.tml == rV.bl) {
615	<	tmClearHisto();
616	<	tmAddHisto(rV.brt+aorg, alen, 1);
617	<	if (blen > 0)
618	<	tmAddHisto(rV.brt+borg, blen, 1);
619	<	if (tmComputeMapping(0., 0., 0.) != TM_E_OK)
620	<	return(0);
621	<	clralphas(); /* restart value list */
622	<	rV.drl = rV.bl; /* need to redraw */
623	<	}
624	<	if (tmMapPixels(rV.rgb+aorg, rV.brt+aorg,
625	<	rV.chr+aorg, alen) != TM_E_OK)
626	<	return(0);
627	<	if (blen > 0)
628	<	tmMapPixels(rV.rgb+borg, rV.brt+borg,
629	<	rV.chr+borg, blen);
630	<	setalphas(aorg, alen); /* compute add'l alpha values */
631	<	if (blen > 0)
632	<	setalphas(borg, blen);
633	<	rV.tml = rV.tl; /* we're all up to date */
634	<	return(1);
443	>	glMatrixMode(GL_MODELVIEW);
444	>	glPopMatrix();
445	>	setstereobuf(STEREO_BUFFER_LEFT);
446		}
447	+	#endif
448
449
450		static int
451	<	Compost(pct) /* free up some values */
640	<	int pct;
451	>	mytmflags() /* figure out tone mapping flags */
452		{
453	<	int nused, nclear, nmapped, ndrawn;
454	<	/* figure out how many values to clear */
455	<	nclear = rV.nl * pct / 100;
456	<	nused = rV.tl - rV.bl;
457	<	if (nused <= 0) nused += rV.nl;
458	<	nclear -= rV.nl - nused;
459	<	if (nclear <= 0)
460	<	return(0);
461	<	if (nclear >= nused) { /* clear them all? */
462	<	rV.drl = rV.tml = rV.bl = rV.tl = 0;
463	<	return(nused);
464	<	}
654	<	/* else clear values from bottom */
655	<	ndrawn = rV.drl - rV.bl;
656	<	if (ndrawn < 0) ndrawn += rV.nl;
657	<	nmapped = rV.tml - rV.bl;
658	<	if (nmapped < 0) nmapped += rV.nl;
659	<	rV.bl += nclear;
660	<	if (rV.bl >= rV.nl) rV.bl -= rV.nl;
661	<	if (ndrawn < nclear) rV.drl = rV.bl;
662	<	if (nmapped < nclear) rV.tml = rV.bl;
663	<	return(nclear);
453	>	extern char *progname;
454	>	register char cp, tail;
455	>	/* find basic name */
456	>	for (cp = tail = progname; *cp; cp++)
457	>	if (*cp == '/')
458	>	tail = cp+1;
459	>	for (cp = tail; cp && cp != '.'; cp++)
460	>	;
461	>	if (cp > tail && cp[-1] == 'h')
462	>	return(TM_F_HUMAN\|TM_F_NOSTDERR);
463	>	else
464	>	return(TM_F_CAMERA\|TM_F_NOSTDERR);
465		}
466
467
#	Line 708 \| Line 509 \| *draw_grids() / draw holodeck section grids /*
509		if (!mapped)
510		return;
511		glColor4ub(gridrgba[0], gridrgba[1], gridrgba[2], gridrgba[3]);
512	<	/* draw each grid line */
712	<	glBegin(GL_LINES);
512	>	glBegin(GL_LINES); /* draw each grid line */
513		gridlines(draw3dline);
514		glEnd();
515		}
516
517
718	–	static int
719	–	IndexValue(rgba) /* locate a pixel by it's framebuffer value */
720	–	register BYTE rgba[4];
721	–	{
722	–	register int *vp;
723	–	/* check legality */
724	–	if (rgba[3] == 0 \|\| rgba[3] == 255)
725	–	return(-1);
726	–	/* borrow a value slot */
727	–	rV.rgb[rV.tl][0] = rgba[0];
728	–	rV.rgb[rV.tl][1] = rgba[1];
729	–	rV.rgb[rV.tl][2] = rgba[2];
730	–	rV.alpha[rV.tl] = rgba[3];
731	–	/* find it */
732	–	vp = (int )bsearch((char )&rV.tl, (char *)valmap, vmaplen,
733	–	sizeof(int), valcmp);
734	–	if (vp == NULL)
735	–	return(-1);
736	–	return(*vp);
737	–	}
738	–
739	–
740	–	static int
741	–	FindValue(dx, dy) /* find a value on the display */
742	–	int dx, dy;
743	–	{
744	–	BYTE rgba[4];
745	–
746	–	if (dx < 0 \|\| dy < 0 \|\| dx >= odev.hres \|\| dy >= odev.vres)
747	–	return(-1);
748	–	glReadPixels(dx, dy, 1, 1, GL_RGBA, GL_UNSIGNED_BYTE, rgba);
749	–	return(IndexValue(rgba));
750	–	}
751	–
752	–
518		static
519		moveview(dx, dy, mov, orb) /* move our view */
520		int dx, dy, mov, orb;
521		{
522		VIEW nv;
523	<	FVECT odir, v1;
523	>	FVECT odir, v1, wip;
524		double d;
525		register int li;
526		/* start with old view */
527		copystruct(&nv, &odev.v);
528		/* change view direction */
529	+	if (viewray(v1, odir, &odev.v,
530	+	(dx+.5)/odev.hres, (dy+.5)/odev.vres) < -FTINY)
531	+	return(0); /* outside view */
532		if (mov \| orb) {
533	<	if ((li = FindValue(dx, dy)) < 0)
533	>	#ifdef DOBJ
534	>	d = dobj_trace(v1, odir); /* check objects */
535	>	/* is holodeck in front? */
536	>	if ((li = smFindSamp(v1, odir)) >= 0 &&
537	>	(rsL.wp[li][0] - nv.vp[0])*odir[0] +
538	>	(rsL.wp[li][1] - nv.vp[1])*odir[1] +
539	>	(rsL.wp[li][2] - nv.vp[2])*odir[2] < d)
540	>	VCOPY(wip, rsL.wp[li]);
541	>	else if (d < .99FHUGE) / object is closer */
542	>	VSUM(wip, nv.vp, odir, d);
543	>	else /* nothing visible */
544	>	return(0);
545	>	#else
546	>	if ((li = smFindSamp(v1, odir)) < 0)
547		return(0); /* not on window */
548	<	VSUM(odir, rV.wp[li], nv.vp, -1.);
549	<	} else {
550	<	if (viewray(nv.vp, nv.vdir, &odev.v,
551	<	(dx+.5)/odev.hres, (dy+.5)/odev.vres) < -FTINY)
552	<	return(0); /* outside view */
772	<	}
548	>	VCOPY(wip, rsL.wp[li]);
549	>	#endif
550	>	VSUM(odir, wip, nv.vp, -1.);
551	>	} else
552	>	VCOPY(nv.vdir, odir);
553		if (orb && mov) { /* orbit left/right */
554		spinvector(odir, odir, nv.vup, d=MOVDEGPI/180.mov);
555	<	VSUM(nv.vp, rV.wp[li], odir, -1.);
555	>	VSUM(nv.vp, wip, odir, -1.);
556		spinvector(nv.vdir, nv.vdir, nv.vup, d);
557		} else if (orb) { /* orbit up/down */
558		fcross(v1, odir, nv.vup);
559		if (normalize(v1) == 0.)
560		return(0);
561		spinvector(odir, odir, v1, d=MOVDEGPI/180.orb);
562	<	VSUM(nv.vp, rV.wp[li], odir, -1.);
562	>	VSUM(nv.vp, wip, odir, -1.);
563		spinvector(nv.vdir, nv.vdir, v1, d);
564		} else if (mov) { /* move forward/backward */
565		d = MOVPCT/100. * mov;
#	Line 804 \| Line 584 \| *XButtonPressedEvent ebut;**
584		{
585		int movdir = MOVDIR(ebut->button);
586		int movorb = MOVORB(ebut->state);
587	+	int qlevel = 99;
588	+	time_t lasttime, thistime;
589	+	int nframes;
590		Window rootw, childw;
591		int rootx, rooty, wx, wy;
592		unsigned int statemask;
593
594		XNoOp(ourdisplay);
595
596	+	lasttime = time(0); nframes = 0;
597		while (!XCheckMaskEvent(ourdisplay,
598		ButtonReleaseMask, levptr(XEvent))) {
599
#	Line 819 \| Line 603 \| *XButtonPressedEvent ebut;**
603
604		if (!moveview(wx, odev.vres-1-wy, movdir, movorb)) {
605		sleep(1);
606	+	lasttime++;
607		continue;
608		}
609	+	#ifdef STEREO
610	+	pushright();
611	+	glClear(GL_COLOR_BUFFER_BIT);
612		draw_grids();
613	<	dev_flush();
613	>	smUpdate(&vwright, qlevel);
614	>	#ifdef DOBJ
615	>	dobj_render();
616	>	#endif
617	>	popright();
618	>	#endif
619	>	glClear(GL_COLOR_BUFFER_BIT);
620	>	draw_grids();
621	>	smUpdate(&odev.v, qlevel);
622	>	#ifdef DOBJ
623	>	dobj_render();
624	>	#endif
625	>	glFlush();
626	>	checkglerr("moving view");
627	>	nframes++;
628	>	thistime = time(0);
629	>	if (thistime - lasttime >= 3 \|\|
630	>	nframes > (int)(33TARGETFPS)) {
631	>	qlevel = thistime<=lasttime ? 1000 :
632	>	(int)((double)nframes/(thistime-lasttime)
633	>	/ TARGETFPS * qlevel + 0.5);
634	>	lasttime = thistime; nframes = 0;
635	>	if (qlevel > 99) {
636	>	if (qlevel > 300) { /* put on the brakes */
637	>	sleep(1);
638	>	lasttime++;
639	>	}
640	>	qlevel = 99;
641	>	} else if (qlevel < 1)
642	>	qlevel = 1;
643	>	}
644		}
645		if (!(inpresflags & DFL(DC_SETVIEW))) { /* do final motion */
646		movdir = MOVDIR(levptr(XButtonReleasedEvent)->button);
647		wx = levptr(XButtonReleasedEvent)->x;
648		wy = levptr(XButtonReleasedEvent)->y;
649		moveview(wx, odev.vres-1-wy, movdir, movorb);
650	+	}
651	+	}
652	+
653	+
654	+	static
655	+	setglpersp(vp) /* set perspective view in GL */
656	+	register VIEW *vp;
657	+	{
658	+	double d, xmin, xmax, ymin, ymax;
659	+
660	+	if (mindpth >= maxdpth) {
661	+	dev_zmin = 0.1;
662	+	dev_zmax = 100.;
663		} else {
664	<	glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
665	<	redraw();
664	>	dev_zmin = 0.5*mindpth;
665	>	dev_zmax = 1.5*maxdpth;
666	>	if (dev_zmin > dev_zmax/100.)
667	>	dev_zmin = dev_zmax/100.;
668		}
669	<	dev_flush();
669	>	if (odev.v.vfore > FTINY)
670	>	dev_zmin = odev.v.vfore;
671	>	if (odev.v.vaft > FTINY)
672	>	dev_zmax = odev.v.vaft;
673	>	if (dev_zmin < dev_zmax/5000.)
674	>	dev_zmin = dev_zmax/5000.;
675	>	xmax = dev_zmin * tan(PI/180./2. * odev.v.horiz);
676	>	xmin = -xmax;
677	>	d = odev.v.hoff * (xmax - xmin);
678	>	xmin += d; xmax += d;
679	>	ymax = dev_zmin * tan(PI/180./2. * odev.v.vert);
680	>	ymin = -ymax;
681	>	d = odev.v.voff * (ymax - ymin);
682	>	ymin += d; ymax += d;
683	>	/* set view matrix */
684	>	glMatrixMode(GL_PROJECTION);
685	>	glLoadIdentity();
686	>	glFrustum(xmin, xmax, ymin, ymax, dev_zmin, dev_zmax);
687	>	gluLookAt(odev.v.vp[0], odev.v.vp[1], odev.v.vp[2],
688	>	odev.v.vp[0] + odev.v.vdir[0],
689	>	odev.v.vp[1] + odev.v.vdir[1],
690	>	odev.v.vp[2] + odev.v.vdir[2],
691	>	odev.v.vup[0], odev.v.vup[1], odev.v.vup[2]);
692		}
693
694
695		static
696	+	wipeclean() /* prepare for redraw */
697	+	{
698	+	#ifdef STEREO
699	+	setstereobuf(STEREO_BUFFER_RIGHT);
700	+	glClear(GL_DEPTH_BUFFER_BIT);
701	+	setstereobuf(STEREO_BUFFER_LEFT);
702	+	#endif
703	+	glClear(GL_DEPTH_BUFFER_BIT);
704	+	smClean();
705	+	}
706	+
707	+
708	+	static
709		getkey(ekey) /* get input key */
710		register XKeyPressedEvent *ekey;
711		{
#	Line 868 \| Line 736 \| *register XKeyPressedEvent ekey;**
736		inpresflags \|= DFL(DC_RESUME);
737		return;
738		case CTRL('R'): /* redraw screen */
739	<	TMapValues(1);
872	<	glClear(GL_DEPTH_BUFFER_BIT);
873	<	redraw();
739	>	wipeclean();
740		return;
741		case CTRL('L'): /* refresh from server */
742		if (inpresflags & DFL(DC_REDRAW))
#	Line 878 \| Line 744 \| *register XKeyPressedEvent ekey;**
744		glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
745		glDisable(GL_DEPTH_TEST);
746		draw_grids();
747	+	#ifdef STEREO
748	+	pushright();
749	+	glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
750	+	draw_grids();
751	+	popright();
752	+	#endif
753		glEnable(GL_DEPTH_TEST);
754		glFlush();
755	<	Compost(100); /* get rid of old values */
755	>	smInit(rsL.max_samp); /* get rid of old values */
756		inpresflags \|= DFL(DC_REDRAW); /* resend values from server */
757	+	rayqleft = 0; /* hold off update */
758		return;
759		case 'K': /* kill rtrace process(es) */
760		inpresflags \|= DFL(DC_KILL);
#	Line 906 \| Line 779 \| static
779		fixwindow(eexp) /* repair damage to window */
780		register XExposeEvent *eexp;
781		{
782	<	if (odev.hres == 0 \|\| odev.vres == 0) /* first exposure */
782	>	if (odev.hres == 0 \| odev.vres == 0) { /* first exposure */
783		resizewindow((XConfigureEvent *)eexp);
784	<	if (eexp->width == odev.hres && eexp->height == odev.vres)
912	<	TMapValues(1);
913	<	if (!eexp->count) {
914	<	glClear(GL_DEPTH_BUFFER_BIT);
915	<	redraw();
784	>	return;
785		}
786	+	if (eexp->count) /* wait for final exposure */
787	+	return;
788	+	wipeclean(); /* clear depth */
789		}
790
791
#	Line 921 \| Line 793 \| static
793		resizewindow(ersz) /* resize window */
794		register XConfigureEvent *ersz;
795		{
796	+	glViewport(0, 0, ersz->width, ersz->height);
797	+
798		if (ersz->width == odev.hres && ersz->height == odev.vres)
799		return;
800
#	Line 929 \| Line 803 \| *register XConfigureEvent ersz;**
803
804		odev.v.horiz = 2.180./PI atan(0.5/VIEWDISTpwidthodev.hres);
805		odev.v.vert = 2.180./PI atan(0.5/VIEWDISTpheightodev.vres);
932	–
933	–	setGLview();
806
807		inpresflags \|= DFL(DC_SETVIEW);
808		}

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Comparing ray/src/hd/rhd_glx.c (file contents): Revision 3.2 by gregl, Wed Dec 24 14:06:40 1997 UTC vs. Revision 3.19 by gwlarson, Wed Aug 19 17:45:58 1998 UTC

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Comparing ray/src/hd/rhd_glx.c (file contents):
Revision 3.2 by gregl, Wed Dec 24 14:06:40 1997 UTC vs.
Revision 3.19 by gwlarson, Wed Aug 19 17:45:58 1998 UTC