src/common/depthcodec.c

#ifndef lint
static const char RCSid[] = "$Id: depthcodec.c,v 2.6 2020/01/10 01:02:14 greg Exp $";
#endif
/*
 * Routines to encode/decoded 16-bit depths
 */

#include "copyright.h"

#include <stdlib.h>
#include <math.h>
#include <ctype.h>
#include "rtio.h"
#include "fvect.h"
#include "depthcodec.h"


#ifndef depth2code
/* Encode depth as 16-bit signed integer */
int
depth2code(double d, double dref)
{
        if (d <= .0)
                return -32768;

        if (d > dref)
                return (int)(32768.001 - 32768.*dref/d) - 1;

        return (int)(32767.*d/dref - 32768.);
}
#endif


#ifndef code2depth
/* Decode depth from 16-bit signed integer */
double
code2depth(int c, double dref)
{
        if (c <= -32768)
                return .0;

        if (c >= 32767)
                return FHUGE;

        if (c >= -1)
                return dref*32768./(32766.5 - c);

        return dref*(32768.5 + c)*(1./32767.);
}
#endif


/* Set codec defaults */
void
set_dc_defaults(DEPTHCODEC *dcp)
{
        memset(dcp, 0, sizeof(DEPTHCODEC));
        dcp->finp = stdin;
        dcp->inpname = "<stdin>";
        dcp->format = 'a';
        dcp->refdepth = 1.;
        dcp->depth_unit[0] = '1';
        dcp->vw = stdview;
        dcp->res.rt = PIXSTANDARD;
        if (!progname) progname = "depth_codec";
}


/* process header line */
static int
headline(char *s, void *p)
{
        DEPTHCODEC      *dcp = (DEPTHCODEC *)p;
        int             rv;

        if (formatval(dcp->inpfmt, s))  /* don't pass format */
                return 0;

        if ((rv = isbigendian(s)) >= 0) {
                dcp->swapped = (nativebigendian() != rv);
                return 0;
        }
                                        /* check for reference depth */
        if (!strncmp(s, DEPTHSTR, LDEPTHSTR)) {
                char    *cp;
                strlcpy(dcp->depth_unit, s+LDEPTHSTR, sizeof(dcp->depth_unit));
                cp = dcp->depth_unit;
                while (*cp) cp++;
                while (cp > dcp->depth_unit && isspace(cp[-1])) cp--;
                *cp = '\0';
                dcp->refdepth = atof(dcp->depth_unit);
                if (dcp->refdepth <= .0) {
                        if (dcp->hdrflags & HF_STDERR) {
                                fputs(dcp->inpname, stderr);
                                fputs(": bad reference depth in input header\n",
                                                stderr);
                        }
                        return -1;
                }
        } else if (!strncmp(s, "SAMP360=", 8))
                dcp->gotview--;
        else if (isview(s))             /* get view params */
                dcp->gotview += (sscanview(&dcp->vw, s) > 0);
        if (dcp->hdrflags & HF_HEADOUT)
                fputs(s, stdout);       /* copy to standard output */
        return 1;
}


/* Load/copy header */
int
process_dc_header(DEPTHCODEC *dcp, int ac, char *av[])
{
        if (dcp->hdrflags & HF_HEADIN &&
                        getheader(dcp->finp, headline, dcp) < 0) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(dcp->inpname, stderr);
                        fputs(": bad header\n", stderr);
                }
                return 0;
        }
        dcp->gotview *= (dcp->gotview > 0);
        if (dcp->hdrflags & HF_HEADOUT) {       /* finish header */
                if (!(dcp->hdrflags & HF_HEADIN))
                        newheader("RADIANCE", stdout);
                if (ac > 0)
                        printargs(ac, av, stdout);
                if (dcp->hdrflags & HF_ENCODE) {
                        fputs(DEPTHSTR, stdout);
                        fputs(dcp->depth_unit, stdout);
                        fputc('\n', stdout);
                        fputformat(DEPTH16FMT, stdout);
                } else
                        switch (dcp->format) {
                        case 'a':
                                fputformat("ascii", stdout);
                                break;
                        case 'f':
                                fputendian(stdout);
                                fputformat("float", stdout);
                                break;
                        case 'd':
                                fputendian(stdout);
                                fputformat("double", stdout);
                                break;
                        }
                fputc('\n', stdout);
        }
                                        /* get/put resolution string */
        if (dcp->hdrflags & HF_RESIN && !fgetsresolu(&dcp->res, dcp->finp)) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(dcp->inpname, stderr);
                        fputs(": bad resolution string\n", stderr);
                }
                return 0;
        }
        if (dcp->hdrflags & HF_RESOUT)
                fputsresolu(&dcp->res, stdout);

        dcp->dstart = dcp->curpos = ftell(dcp->finp);
        return 1;
}


/* Check that we have what we need to decode depths */
int
check_decode_depths(DEPTHCODEC *dcp)
{
        if (dcp->hdrflags & HF_ENCODE) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(progname, stderr);
                        fputs(": wrong header mode for decode\n", stderr);
                }
                return 0;
        }
        if (dcp->inpfmt[0] && strcmp(dcp->inpfmt, DEPTH16FMT)) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(dcp->inpname, stderr);
                        fputs(": unexpected input format: ", stderr);
                        fputs(dcp->inpfmt, stderr);
                        fputc('\n', stderr);
                }
                return 0;
        }
        return 1;
}


/* Check that we have what we need to decode world positions */
int
check_decode_worldpos(DEPTHCODEC *dcp)
{
        char    *err;

        if (!check_decode_depths(dcp))
                return 0;
        if ((dcp->res.xr <= 0) | (dcp->res.yr <= 0)) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(progname, stderr);
                        fputs(": missing map resolution\n", stderr);
                }
                return 0;
        }
        if (!dcp->gotview) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(dcp->inpname, stderr);
                        fputs(": missing view\n", stderr);
                }
                return 0;
        }
        if ((err = setview(&dcp->vw)) != NULL) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(dcp->inpname, stderr);
                        fputs(": input view error: ", stderr);
                        fputs(err, stderr);
                        fputc('\n', stderr);
                }
                return 0;
        }
        return 1;       
}


/* Decode next depth pixel */
double
decode_depth_next(DEPTHCODEC *dcp)
{
        int     c;

        if (dcp->use_last) {
                dcp->use_last = 0;
                return code2depth(dcp->last_dc, dcp->refdepth);
        }
        c = getint(2, dcp->finp);

        if (c == EOF && feof(dcp->finp))
                return -1.;

        dcp->last_dc = c;
        dcp->curpos += 2;

        return code2depth(c, dcp->refdepth);
}


/* Compute world position from depth */
int
compute_worldpos(FVECT wpos, DEPTHCODEC *dcp, int x, int y, double d)
{
        RREAL   loc[2];
        FVECT   rdir;

        pix2loc(loc, &dcp->res, x, y);

        if (viewray(wpos, rdir, &dcp->vw, loc[0], loc[1]) < -FTINY) {
                VCOPY(wpos, dcp->vw.vp);
                return 0;
        }
        VSUM(wpos, wpos, rdir, d);
        return 1;
}


/* Decode the next world position */
int
decode_worldpos_next(FVECT wpos, DEPTHCODEC *dcp)
{
        const long      n = (dcp->curpos - dcp->dstart)>>1;
        int             x, y;
        double          d;

        d = decode_depth_next(dcp);
        if (d < -FTINY)
                return -1;

        x = scanlen(&dcp->res);
        y = n / x;
        x = n - (long)y*x;

        return compute_worldpos(wpos, dcp, x, y, d);
}


/* Seek to the indicated pixel position */
int
seek_dc_pix(DEPTHCODEC *dcp, int x, int y)
{
        long    seekpos;

        if ((dcp->res.xr <= 0) | (dcp->res.yr <= 0)) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(progname, stderr);
                        fputs(": need map resolution to seek\n", stderr);
                }
                return -1;
        }
        if ((x < 0) | (y < 0) ||
                        (x >= scanlen(&dcp->res)) | (y >= numscans(&dcp->res))) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(dcp->inpname, stderr);
                        fputs(": warning - pixel index off map\n", stderr);
                }
                return 0;
        }
        seekpos = dcp->dstart + 2*((long)y*scanlen(&dcp->res) + x);

        if (seekpos == dcp->curpos-2) {
                dcp->use_last++;        /* avoids seek/read */
                return 1;
        }
        if (seekpos != dcp->curpos &&
                        fseek(dcp->finp, seekpos, SEEK_SET) == EOF) {
                if (dcp->hdrflags & HF_STDERR) {
                        fputs(dcp->inpname, stderr);
                        fputs(": seek error\n", stderr);
                }
                return -1;
        }
        dcp->curpos = seekpos;
        return 1;
}


/* Read and decode depth for the given pixel */
double
decode_depth_pix(DEPTHCODEC *dcp, int x, int y)
{
        int     rval = seek_dc_pix(dcp, x, y);

        if (rval < 0)
                return -1.;
        if (!rval)
                return .0;

        return decode_depth_next(dcp);
}


/* Read and decode the world position at the given pixel */
int
get_worldpos_pix(FVECT wpos, DEPTHCODEC *dcp, int x, int y)
{
        double  d = decode_depth_pix(dcp, x, y);

        if (d < -FTINY)
                return -1;
        
        return compute_worldpos(wpos, dcp, x, y, d);
}
Revision:	2.7
Committed:	Sat Jan 25 02:36:25 2020 UTC (5 years, 9 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.6:	+3 -3 lines
Log Message:	Correction to depth code near reference
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: depthcodec.c,v 2.6 2020/01/10 01:02:14 greg Exp $";
3	#endif
4	/*
5	* Routines to encode/decoded 16-bit depths
6	*/
7
8	#include "copyright.h"
9
10	#include <stdlib.h>
11	#include <math.h>
12	#include <ctype.h>
13	#include "rtio.h"
14	#include "fvect.h"
15	#include "depthcodec.h"
16
17
18	#ifndef depth2code
19	/* Encode depth as 16-bit signed integer */
20	int
21	depth2code(double d, double dref)
22	{
23	if (d <= .0)
24	return -32768;
25
26	if (d > dref)
27	return (int)(32768.001 - 32768.*dref/d) - 1;
28
29	return (int)(32767.*d/dref - 32768.);
30	}
31	#endif
32
33
34	#ifndef code2depth
35	/* Decode depth from 16-bit signed integer */
36	double
37	code2depth(int c, double dref)
38	{
39	if (c <= -32768)
40	return .0;
41
42	if (c >= 32767)
43	return FHUGE;
44
45	if (c >= -1)
46	return dref*32768./(32766.5 - c);
47
48	return dref(32768.5 + c)(1./32767.);
49	}
50	#endif
51
52
53	/* Set codec defaults */
54	void
55	set_dc_defaults(DEPTHCODEC *dcp)
56	{
57	memset(dcp, 0, sizeof(DEPTHCODEC));
58	dcp->finp = stdin;
59	dcp->inpname = "<stdin>";
60	dcp->format = 'a';
61	dcp->refdepth = 1.;
62	dcp->depth_unit[0] = '1';
63	dcp->vw = stdview;
64	dcp->res.rt = PIXSTANDARD;
65	if (!progname) progname = "depth_codec";
66	}
67
68
69	/* process header line */
70	static int
71	headline(char s, void p)
72	{
73	DEPTHCODEC dcp = (DEPTHCODEC )p;
74	int rv;
75
76	if (formatval(dcp->inpfmt, s)) /* don't pass format */
77	return 0;
78
79	if ((rv = isbigendian(s)) >= 0) {
80	dcp->swapped = (nativebigendian() != rv);
81	return 0;
82	}
83	/* check for reference depth */
84	if (!strncmp(s, DEPTHSTR, LDEPTHSTR)) {
85	char *cp;
86	strlcpy(dcp->depth_unit, s+LDEPTHSTR, sizeof(dcp->depth_unit));
87	cp = dcp->depth_unit;
88	while (*cp) cp++;
89	while (cp > dcp->depth_unit && isspace(cp[-1])) cp--;
90	*cp = '\0';
91	dcp->refdepth = atof(dcp->depth_unit);
92	if (dcp->refdepth <= .0) {
93	if (dcp->hdrflags & HF_STDERR) {
94	fputs(dcp->inpname, stderr);
95	fputs(": bad reference depth in input header\n",
96	stderr);
97	}
98	return -1;
99	}
100	} else if (!strncmp(s, "SAMP360=", 8))
101	dcp->gotview--;
102	else if (isview(s)) /* get view params */
103	dcp->gotview += (sscanview(&dcp->vw, s) > 0);
104	if (dcp->hdrflags & HF_HEADOUT)
105	fputs(s, stdout); /* copy to standard output */
106	return 1;
107	}
108
109
110	/* Load/copy header */
111	int
112	process_dc_header(DEPTHCODEC dcp, int ac, char av[])
113	{
114	if (dcp->hdrflags & HF_HEADIN &&
115	getheader(dcp->finp, headline, dcp) < 0) {
116	if (dcp->hdrflags & HF_STDERR) {
117	fputs(dcp->inpname, stderr);
118	fputs(": bad header\n", stderr);
119	}
120	return 0;
121	}
122	dcp->gotview *= (dcp->gotview > 0);
123	if (dcp->hdrflags & HF_HEADOUT) { /* finish header */
124	if (!(dcp->hdrflags & HF_HEADIN))
125	newheader("RADIANCE", stdout);
126	if (ac > 0)
127	printargs(ac, av, stdout);
128	if (dcp->hdrflags & HF_ENCODE) {
129	fputs(DEPTHSTR, stdout);
130	fputs(dcp->depth_unit, stdout);
131	fputc('\n', stdout);
132	fputformat(DEPTH16FMT, stdout);
133	} else
134	switch (dcp->format) {
135	case 'a':
136	fputformat("ascii", stdout);
137	break;
138	case 'f':
139	fputendian(stdout);
140	fputformat("float", stdout);
141	break;
142	case 'd':
143	fputendian(stdout);
144	fputformat("double", stdout);
145	break;
146	}
147	fputc('\n', stdout);
148	}
149	/* get/put resolution string */
150	if (dcp->hdrflags & HF_RESIN && !fgetsresolu(&dcp->res, dcp->finp)) {
151	if (dcp->hdrflags & HF_STDERR) {
152	fputs(dcp->inpname, stderr);
153	fputs(": bad resolution string\n", stderr);
154	}
155	return 0;
156	}
157	if (dcp->hdrflags & HF_RESOUT)
158	fputsresolu(&dcp->res, stdout);
159
160	dcp->dstart = dcp->curpos = ftell(dcp->finp);
161	return 1;
162	}
163
164
165	/* Check that we have what we need to decode depths */
166	int
167	check_decode_depths(DEPTHCODEC *dcp)
168	{
169	if (dcp->hdrflags & HF_ENCODE) {
170	if (dcp->hdrflags & HF_STDERR) {
171	fputs(progname, stderr);
172	fputs(": wrong header mode for decode\n", stderr);
173	}
174	return 0;
175	}
176	if (dcp->inpfmt[0] && strcmp(dcp->inpfmt, DEPTH16FMT)) {
177	if (dcp->hdrflags & HF_STDERR) {
178	fputs(dcp->inpname, stderr);
179	fputs(": unexpected input format: ", stderr);
180	fputs(dcp->inpfmt, stderr);
181	fputc('\n', stderr);
182	}
183	return 0;
184	}
185	return 1;
186	}
187
188
189	/* Check that we have what we need to decode world positions */
190	int
191	check_decode_worldpos(DEPTHCODEC *dcp)
192	{
193	char *err;
194
195	if (!check_decode_depths(dcp))
196	return 0;
197	if ((dcp->res.xr <= 0) \| (dcp->res.yr <= 0)) {
198	if (dcp->hdrflags & HF_STDERR) {
199	fputs(progname, stderr);
200	fputs(": missing map resolution\n", stderr);
201	}
202	return 0;
203	}
204	if (!dcp->gotview) {
205	if (dcp->hdrflags & HF_STDERR) {
206	fputs(dcp->inpname, stderr);
207	fputs(": missing view\n", stderr);
208	}
209	return 0;
210	}
211	if ((err = setview(&dcp->vw)) != NULL) {
212	if (dcp->hdrflags & HF_STDERR) {
213	fputs(dcp->inpname, stderr);
214	fputs(": input view error: ", stderr);
215	fputs(err, stderr);
216	fputc('\n', stderr);
217	}
218	return 0;
219	}
220	return 1;
221	}
222
223
224	/* Decode next depth pixel */
225	double
226	decode_depth_next(DEPTHCODEC *dcp)
227	{
228	int c;
229
230	if (dcp->use_last) {
231	dcp->use_last = 0;
232	return code2depth(dcp->last_dc, dcp->refdepth);
233	}
234	c = getint(2, dcp->finp);
235
236	if (c == EOF && feof(dcp->finp))
237	return -1.;
238
239	dcp->last_dc = c;
240	dcp->curpos += 2;
241
242	return code2depth(c, dcp->refdepth);
243	}
244
245
246	/* Compute world position from depth */
247	int
248	compute_worldpos(FVECT wpos, DEPTHCODEC *dcp, int x, int y, double d)
249	{
250	RREAL loc[2];
251	FVECT rdir;
252
253	pix2loc(loc, &dcp->res, x, y);
254
255	if (viewray(wpos, rdir, &dcp->vw, loc[0], loc[1]) < -FTINY) {
256	VCOPY(wpos, dcp->vw.vp);
257	return 0;
258	}
259	VSUM(wpos, wpos, rdir, d);
260	return 1;
261	}
262
263
264	/* Decode the next world position */
265	int
266	decode_worldpos_next(FVECT wpos, DEPTHCODEC *dcp)
267	{
268	const long n = (dcp->curpos - dcp->dstart)>>1;
269	int x, y;
270	double d;
271
272	d = decode_depth_next(dcp);
273	if (d < -FTINY)
274	return -1;
275
276	x = scanlen(&dcp->res);
277	y = n / x;
278	x = n - (long)y*x;
279
280	return compute_worldpos(wpos, dcp, x, y, d);
281	}
282
283
284	/* Seek to the indicated pixel position */
285	int
286	seek_dc_pix(DEPTHCODEC *dcp, int x, int y)
287	{
288	long seekpos;
289
290	if ((dcp->res.xr <= 0) \| (dcp->res.yr <= 0)) {
291	if (dcp->hdrflags & HF_STDERR) {
292	fputs(progname, stderr);
293	fputs(": need map resolution to seek\n", stderr);
294	}
295	return -1;
296	}
297	if ((x < 0) \| (y < 0) \|\|
298	(x >= scanlen(&dcp->res)) \| (y >= numscans(&dcp->res))) {
299	if (dcp->hdrflags & HF_STDERR) {
300	fputs(dcp->inpname, stderr);
301	fputs(": warning - pixel index off map\n", stderr);
302	}
303	return 0;
304	}
305	seekpos = dcp->dstart + 2((long)yscanlen(&dcp->res) + x);
306
307	if (seekpos == dcp->curpos-2) {
308	dcp->use_last++; /* avoids seek/read */
309	return 1;
310	}
311	if (seekpos != dcp->curpos &&
312	fseek(dcp->finp, seekpos, SEEK_SET) == EOF) {
313	if (dcp->hdrflags & HF_STDERR) {
314	fputs(dcp->inpname, stderr);
315	fputs(": seek error\n", stderr);
316	}
317	return -1;
318	}
319	dcp->curpos = seekpos;
320	return 1;
321	}
322
323
324	/* Read and decode depth for the given pixel */
325	double
326	decode_depth_pix(DEPTHCODEC *dcp, int x, int y)
327	{
328	int rval = seek_dc_pix(dcp, x, y);
329
330	if (rval < 0)
331	return -1.;
332	if (!rval)
333	return .0;
334
335	return decode_depth_next(dcp);
336	}
337
338
339	/* Read and decode the world position at the given pixel */
340	int
341	get_worldpos_pix(FVECT wpos, DEPTHCODEC *dcp, int x, int y)
342	{
343	double d = decode_depth_pix(dcp, x, y);
344
345	if (d < -FTINY)
346	return -1;
347
348	return compute_worldpos(wpos, dcp, x, y, d);
349	}