src/px/xshowtrace.c

#ifndef lint
static const char       RCSid[] = "$Id$";
#endif
/*
 *  Display an image and watch the rays get traced.
 *
 *      9/21/90 Greg Ward
 */

#include "standard.h"
#include "view.h"
#include <X11/Xlib.h>

#define MAXDEPTH        32              /* ridiculous ray tree depth */

#ifdef  SMLFLT
#define  sscanvec(s,v)  (sscanf(s,"%f %f %f",v,v+1,v+2)==3)
#else
#define  sscanvec(s,v)  (sscanf(s,"%lf %lf %lf",v,v+1,v+2)==3)
#endif

char    rtcom[] = "rtrace -h- -otp -fa -x 1";
char    xicom[] = "ximage -c 256";

VIEW    ourview = STDVIEW;              /* view for picture */
RESOLU  ourres;                         /* picture resolution */

char    *progname;                      /* program name */

char    *picture;                       /* picture name */

FILE    *pin;                           /* input stream */

Display *theDisplay = NULL;             /* connection to server */

struct node {                           /* ray tree node */
        int     ipt[2];
        struct node     *sister;
        struct node     *daughter;
};

#define newnode()       (struct node *)calloc(1, sizeof(struct node))

int     slow = 0;               /* slow trace? */


main(argc, argv)                /* takes both the octree and the image */
int     argc;
char    *argv[];
{
        int     i;
        char    combuf[256];

        progname = argv[0];
        for (i = 1; i < argc-2; i++)
                if (!strcmp(argv[i], "-s"))
                        slow++;
                else
                        break;
        if (i > argc-2) {
                fprintf(stderr, "Usage: %s [-s] [rtrace args] octree picture\n",
                                progname);
                exit(1);
        }
        picture = argv[argc-1];
                                        /* get the viewing parameters */
        if (viewfile(picture, &ourview, &ourres) <= 0 ||
                        setview(&ourview) != NULL) {
                fprintf(stderr, "%s: cannot get view from \"%s\"\n",
                                progname, picture);
                exit(1);
        }
                                        /* open the display */
        if ((theDisplay = XOpenDisplay(NULL)) == NULL) {
                fprintf(stderr,
                "%s: cannot open display; DISPLAY variable set?\n",
                                progname);
                exit(1);
        }
                                        /* build input command */
        sprintf(combuf, "%s %s | %s", xicom, picture, rtcom);
        for ( ; i < argc-1; i++) {
                strcat(combuf, " ");
                strcat(combuf, argv[i]);
        }
                                        /* start the damn thing */
        if ((pin = popen(combuf, "r")) == NULL)
                exit(1);
                                        /* loop on input */
        mainloop();
                                        /* close pipe and exit */
        pclose(pin);
        exit(0);
}


mainloop()                              /* get and process input */
{
        static struct node      *sis[MAXDEPTH];
        register struct node    *newp;
        char    buf[128];
        int     level;
        register int    i;

        level = 0;
        while (fgets(buf, sizeof(buf), pin) != NULL) {
                if ((newp = newnode()) == NULL) {
                        fprintf(stderr, "%s: memory error\n", progname);
                        return;
                }
                for (i = 0; buf[i] == '\t'; i++)
                        ;
                if (strtoipt(newp->ipt, buf+i) < 0) {
                        fprintf(stderr, "%s: bad read\n", progname);
                        return;
                }
                newp->sister = sis[i];
                sis[i] = newp;
                if (i < level) {
                        newp->daughter = sis[level];
                        sis[level] = NULL;
                }
                level = i;
                if (i == 0) {
                        setvec(sis[0]->ipt);
                        tracerays(sis[0]);
                        freetree(sis[0]);
                        sis[0] = NULL;
                        if (!slow)
                                XFlush(theDisplay);
                }
        }
}


freetree(tp)                            /* free a trace tree */
struct node     *tp;
{
        register struct node    *kid;

        for (kid = tp->daughter; kid != NULL; kid = kid->sister)
                freetree(kid);
        free((void *)tp);
}


tracerays(tp)                           /* trace a ray tree */
struct node     *tp;
{
        register struct node    *kid;

        for (kid = tp->daughter; kid != NULL; kid = kid->sister) {
                vector(tp->ipt, kid->ipt);
                tracerays(kid);
        }
}


strtoipt(ipt, str)              /* convert string x y z to image point */
int     ipt[2];
char    *str;
{
        FVECT   im_pt, pt;

        if (!sscanvec(str, pt))
                return(-1);
        if (DOT(pt,pt) <= FTINY)                /* origin is really infinity */
                ipt[0] = ipt[1] = -1;                   /* null vector */
        else {
                viewloc(im_pt, &ourview, pt);
                loc2pix(ipt, &ourres, im_pt[0], im_pt[1]);
        }
        return(0);
}


#define rwind           RootWindow(theDisplay,ourScreen)
#define ourScreen       DefaultScreen(theDisplay)

GC      vecGC = 0;
Window  gwind = 0;
int     xoff, yoff;


setvec(ipt)                     /* set up vector drawing for pick */
int     ipt[2];
{
        extern Window   xfindwind();
        XWindowAttributes       wa;
        XColor  xc;
        XGCValues       gcv;
        int     rx, ry, wx, wy;
        Window  rw, cw;
        unsigned int    pm;
                                        /* compute pointer location */
        if (gwind == 0) {
                register char   *wn;
                for (wn = picture; *wn; wn++);
                while (wn > picture && wn[-1] != '/') wn--;
                if ((gwind = xfindwind(theDisplay, rwind, wn, 4)) == 0) {
                        fprintf(stderr, "%s: cannot find display window!\n",
                                        progname);
                        exit(1);
                }
        }
        XQueryPointer(theDisplay, gwind, &rw, &cw, &rx, &ry, &wx, &wy, &pm);
        xoff = wx - ipt[0];
        yoff = wy - ipt[1];
                                        /* set graphics context */
        if (vecGC == 0) {
                XGetWindowAttributes(theDisplay, gwind, &wa);
                xc.red = 65535; xc.green = 0; xc.blue = 0;
                xc.flags = DoRed|DoGreen|DoBlue;
                if (XAllocColor(theDisplay, wa.colormap, &xc)) {
                        gcv.foreground = xc.pixel;
                        vecGC = XCreateGC(theDisplay,gwind,GCForeground,&gcv);
                } else {
                        gcv.function = GXinvert;
                        vecGC = XCreateGC(theDisplay,gwind,GCFunction,&gcv);
                }
        }
}


vector(ip1, ip2)                /* draw a vector */
int     ip1[2], ip2[2];
{
        if (ip2[0] == -1 && ip2[1] == -1)
                return;                 /* null vector */
        XDrawLine(theDisplay, gwind, vecGC,
                        ip1[0]+xoff, ip1[1]+yoff,
                        ip2[0]+xoff, ip2[1]+yoff);
        if (slow) {
                XFlush(theDisplay);
                sleep(1);
        }
}
Revision:	2.7
Committed:	Sat Feb 22 02:07:28 2003 UTC (21 years, 2 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad3R5
Changes since 2.6:	+2 -6 lines
Log Message:	Changes and check-in for 3.5 release Includes new source files and modifications not recorded for many years See ray/doc/notes/ReleaseNotes for notes between 3.1 and 3.5 release
#	User	Rev	Content
1	greg	1.1	#ifndef lint
2	greg	2.7	static const char RCSid[] = "$Id$";
3	greg	1.1	#endif
4			/*
5			* Display an image and watch the rays get traced.
6			*
7			* 9/21/90 Greg Ward
8			*/
9
10			#include "standard.h"
11			#include "view.h"
12			#include <X11/Xlib.h>
13
14			#define MAXDEPTH 32 /* ridiculous ray tree depth */
15
16	greg	2.2	#ifdef SMLFLT
17			#define sscanvec(s,v) (sscanf(s,"%f %f %f",v,v+1,v+2)==3)
18			#else
19			#define sscanvec(s,v) (sscanf(s,"%lf %lf %lf",v,v+1,v+2)==3)
20			#endif
21
22	greg	1.6	char rtcom[] = "rtrace -h- -otp -fa -x 1";
23	greg	2.5	char xicom[] = "ximage -c 256";
24	greg	1.1
25			VIEW ourview = STDVIEW; /* view for picture */
26	greg	2.2	RESOLU ourres; /* picture resolution */
27	greg	1.1
28			char progname; / program name */
29
30	greg	1.5	char picture; / picture name */
31
32	greg	1.1	FILE pin; / input stream */
33
34			Display theDisplay = NULL; / connection to server */
35
36			struct node { /* ray tree node */
37	greg	2.2	int ipt[2];
38	greg	1.1	struct node *sister;
39			struct node *daughter;
40			};
41
42			#define newnode() (struct node *)calloc(1, sizeof(struct node))
43
44	greg	1.2	int slow = 0; /* slow trace? */
45	greg	1.1
46	greg	1.2
47	greg	1.1	main(argc, argv) /* takes both the octree and the image */
48			int argc;
49			char *argv[];
50			{
51			int i;
52			char combuf[256];
53
54			progname = argv[0];
55	greg	1.2	for (i = 1; i < argc-2; i++)
56			if (!strcmp(argv[i], "-s"))
57			slow++;
58			else
59			break;
60			if (i > argc-2) {
61			fprintf(stderr, "Usage: %s [-s] [rtrace args] octree picture\n",
62	greg	1.5	progname);
63	greg	1.1	exit(1);
64			}
65	greg	1.5	picture = argv[argc-1];
66	greg	1.1	/* get the viewing parameters */
67	greg	2.2	if (viewfile(picture, &ourview, &ourres) <= 0 \|\|
68	greg	1.1	setview(&ourview) != NULL) {
69			fprintf(stderr, "%s: cannot get view from \"%s\"\n",
70	greg	1.5	progname, picture);
71	greg	1.1	exit(1);
72			}
73			/* open the display */
74			if ((theDisplay = XOpenDisplay(NULL)) == NULL) {
75			fprintf(stderr,
76			"%s: cannot open display; DISPLAY variable set?\n",
77	greg	1.5	progname);
78	greg	1.1	exit(1);
79			}
80			/* build input command */
81	greg	1.5	sprintf(combuf, "%s %s \| %s", xicom, picture, rtcom);
82	greg	1.2	for ( ; i < argc-1; i++) {
83	greg	1.1	strcat(combuf, " ");
84			strcat(combuf, argv[i]);
85			}
86			/* start the damn thing */
87			if ((pin = popen(combuf, "r")) == NULL)
88			exit(1);
89			/* loop on input */
90			mainloop();
91	greg	2.3	/* close pipe and exit */
92			pclose(pin);
93	greg	1.1	exit(0);
94			}
95
96
97			mainloop() /* get and process input */
98			{
99			static struct node *sis[MAXDEPTH];
100			register struct node *newp;
101			char buf[128];
102			int level;
103			register int i;
104
105			level = 0;
106			while (fgets(buf, sizeof(buf), pin) != NULL) {
107			if ((newp = newnode()) == NULL) {
108			fprintf(stderr, "%s: memory error\n", progname);
109			return;
110			}
111			for (i = 0; buf[i] == '\t'; i++)
112			;
113			if (strtoipt(newp->ipt, buf+i) < 0) {
114			fprintf(stderr, "%s: bad read\n", progname);
115			return;
116			}
117			newp->sister = sis[i];
118			sis[i] = newp;
119			if (i < level) {
120			newp->daughter = sis[level];
121			sis[level] = NULL;
122			}
123			level = i;
124			if (i == 0) {
125			setvec(sis[0]->ipt);
126			tracerays(sis[0]);
127			freetree(sis[0]);
128			sis[0] = NULL;
129	greg	1.2	if (!slow)
130			XFlush(theDisplay);
131	greg	1.1	}
132			}
133			}
134
135
136			freetree(tp) /* free a trace tree */
137			struct node *tp;
138			{
139			register struct node *kid;
140
141			for (kid = tp->daughter; kid != NULL; kid = kid->sister)
142			freetree(kid);
143	greg	2.7	free((void *)tp);
144	greg	1.1	}
145
146
147			tracerays(tp) /* trace a ray tree */
148			struct node *tp;
149			{
150			register struct node *kid;
151
152			for (kid = tp->daughter; kid != NULL; kid = kid->sister) {
153	greg	1.2	vector(tp->ipt, kid->ipt);
154	greg	1.1	tracerays(kid);
155			}
156			}
157
158
159			strtoipt(ipt, str) /* convert string x y z to image point */
160	greg	2.2	int ipt[2];
161	greg	1.1	char *str;
162			{
163	greg	2.2	FVECT im_pt, pt;
164	greg	1.1
165	greg	2.2	if (!sscanvec(str, pt))
166	greg	1.1	return(-1);
167	greg	2.2	if (DOT(pt,pt) <= FTINY) /* origin is really infinity */
168			ipt[0] = ipt[1] = -1; /* null vector */
169			else {
170			viewloc(im_pt, &ourview, pt);
171			loc2pix(ipt, &ourres, im_pt[0], im_pt[1]);
172			}
173	greg	1.1	return(0);
174			}
175
176
177			#define rwind RootWindow(theDisplay,ourScreen)
178			#define ourScreen DefaultScreen(theDisplay)
179
180			GC vecGC = 0;
181			Window gwind = 0;
182			int xoff, yoff;
183
184
185			setvec(ipt) /* set up vector drawing for pick */
186	greg	2.2	int ipt[2];
187	greg	1.1	{
188	greg	2.4	extern Window xfindwind();
189	greg	1.1	XWindowAttributes wa;
190			XColor xc;
191			XGCValues gcv;
192	greg	1.4	int rx, ry, wx, wy;
193			Window rw, cw;
194			unsigned int pm;
195	greg	1.1	/* compute pointer location */
196	greg	2.6	if (gwind == 0) {
197			register char *wn;
198			for (wn = picture; *wn; wn++);
199			while (wn > picture && wn[-1] != '/') wn--;
200			if ((gwind = xfindwind(theDisplay, rwind, wn, 4)) == 0) {
201			fprintf(stderr, "%s: cannot find display window!\n",
202			progname);
203			exit(1);
204			}
205	greg	1.1	}
206	greg	1.5	XQueryPointer(theDisplay, gwind, &rw, &cw, &rx, &ry, &wx, &wy, &pm);
207	greg	2.2	xoff = wx - ipt[0];
208			yoff = wy - ipt[1];
209	greg	1.1	/* set graphics context */
210			if (vecGC == 0) {
211			XGetWindowAttributes(theDisplay, gwind, &wa);
212			xc.red = 65535; xc.green = 0; xc.blue = 0;
213			xc.flags = DoRed\|DoGreen\|DoBlue;
214			if (XAllocColor(theDisplay, wa.colormap, &xc)) {
215			gcv.foreground = xc.pixel;
216			vecGC = XCreateGC(theDisplay,gwind,GCForeground,&gcv);
217			} else {
218			gcv.function = GXinvert;
219			vecGC = XCreateGC(theDisplay,gwind,GCFunction,&gcv);
220			}
221			}
222			}
223
224
225			vector(ip1, ip2) /* draw a vector */
226	greg	2.2	int ip1[2], ip2[2];
227	greg	1.1	{
228	greg	2.2	if (ip2[0] == -1 && ip2[1] == -1)
229			return; /* null vector */
230	greg	1.1	XDrawLine(theDisplay, gwind, vecGC,
231	greg	2.2	ip1[0]+xoff, ip1[1]+yoff,
232			ip2[0]+xoff, ip2[1]+yoff);
233	greg	1.2	if (slow) {
234			XFlush(theDisplay);
235			sleep(1);
236			}
237	greg	1.1	}