src/rt/p_data.c

#ifndef lint
static const char       RCSid[] = "$Id: p_data.c,v 2.12 2023/12/14 00:51:12 greg Exp $";
#endif
/*
 *  p_data.c - routine for stored patterns.
 */

#include "copyright.h"

#include  "ray.h"
#include  "data.h"
#include  "func.h"
#include  "rtotypes.h"

/*
 *      A stored pattern can either be brightness,
 *  color, or spectral data.  Brightness data is specified as:
 *
 *      modifier brightdata name
 *      4+ func dfname vfname v0 v1 .. xf
 *      0
 *      n A1 A2 ..
 *
 *  Color data is specified as:
 *
 *      modifier colordata name
 *      8+ rfunc gfunc bfunc rdfname gdfname bdfname vfname v0 v1 .. xf
 *      0
 *      n A1 A2 ..
 *
 *  Color picture data is specified as:
 *
 *      modifier colorpict name
 *      7+ rfunc gfunc bfunc pfname vfname vx vy xf
 *      0
 *      n A1 A2 ..
 *
 *  A simple spectrum is specified as:
 *
 *      modifier spectrum name
 *      0
 *      0
 *      5+ nmA nmB s1 s2 s3 ..
 *
 *  A constant spectrum from a data file is given as:
 *
 *      modifier specfile name
 *      1 dfname
 *      0
 *      0
 *
 *  A spectral data file is given as:
 *
 *      modifier specdata name
 *      4+ sfunc dfname vfname v0 .. xf
 *      0
 *      n A1 A2 ..
 *
 *  A spectral image is given as:
 *
 *      modifier specpict name
 *      5+ sfunc sfname vfname vx vy xf
 *      0
 *      n A1 A2 ..
 *
 *  Vfname is the name of the file where the variable definitions
 *  can be found.  The list of real arguments can be accessed by
 *  definitions in the file.  The dfnames are the data file
 *  names.  The dimensions of the data files and the number
 *  of variables must match, except for specdata, which has a "hidden"
 *  last variable for the wavelength.  The funcs take a single argument
 *  for brightdata, three for colordata and colorpict, and two for
 *  specdata and specpict to modify interpolated values from the file.
 *  The xf is a transform spec to get from the original coordinates to
 *  the current coordinates.
 */


int
p_bdata(                        /* interpolate brightness data */
        OBJREC  *m,
        RAY  *r
)
{
        double  bval;
        double  pt[MAXDDIM];
        DATARRAY  *dp;
        MFUNC  *mf;
        int  i;

        if (m->oargs.nsargs < 4)
                objerror(m, USER, "bad # arguments");
        dp = getdata(m->oargs.sarg[1]);
        i = (1 << dp->nd) - 1;
        mf = getfunc(m, 2, i<<3, 0);
        setfunc(m, r);
        errno = 0;
        for (i = dp->nd; i-- > 0; ) {
                pt[i] = evalue(mf->ep[i]);
                if ((errno == EDOM) | (errno == ERANGE))
                        goto computerr;
        }
        bval = datavalue(dp, pt);
        errno = 0;
        bval = funvalue(m->oargs.sarg[0], 1, &bval);
        if ((errno == EDOM) | (errno == ERANGE))
                goto computerr;
        scalescolor(r->pcol, bval);
        return(0);
computerr:
        objerror(m, WARNING, "compute error");
        return(0);
}


int
p_cdata(                        /* interpolate color data */
        OBJREC  *m,
        RAY  *r
)
{
        double  col[3];
        COLOR  cval;
        double  pt[MAXDDIM];
        int  nv;
        DATARRAY  *dp;
        MFUNC  *mf;
        int  i;

        if (m->oargs.nsargs < 8)
                objerror(m, USER, "bad # arguments");
        dp = getdata(m->oargs.sarg[3]);
        i = (1 << (nv = dp->nd)) - 1;
        mf = getfunc(m, 6, i<<7, 0);
        setfunc(m, r);
        errno = 0;
        for (i = 0; i < nv; i++) {
                pt[i] = evalue(mf->ep[i]);
                if ((errno == EDOM) | (errno == ERANGE))
                        goto computerr;
        }
        col[0] = datavalue(dp, pt);
        for (i = 1; i < 3; i++) {
                dp = getdata(m->oargs.sarg[3+i]);
                if (dp->nd != nv)
                        objerror(m, USER, "dimension error");
                col[i] = datavalue(dp, pt);
        }
        errno = 0;
        for (i = 0; i < 3; i++)
                if (i && fundefined(m->oargs.sarg[i]) < 3)
                        colval(cval,i) = funvalue(m->oargs.sarg[i], 1, col+i);
                else
                        colval(cval,i) = funvalue(m->oargs.sarg[i], 3, col);
        if ((errno == EDOM) | (errno == ERANGE))
                goto computerr;
        smultcolor(r->pcol, cval);
        return(0);
computerr:
        objerror(m, WARNING, "compute error");
        return(0);
}


int
p_pdata(                        /* interpolate picture data */
        OBJREC  *m,
        RAY  *r
)
{
        double  col[3];
        COLOR  cval;
        double  pt[2];
        DATARRAY  *dp;
        MFUNC  *mf;
        int  i;

        if (m->oargs.nsargs < 7)
                objerror(m, USER, "bad # arguments");
        mf = getfunc(m, 4, 0x3<<5, 0);
        setfunc(m, r);
        errno = 0;
        pt[1] = evalue(mf->ep[0]);      /* y major ordering */
        pt[0] = evalue(mf->ep[1]);
        if ((errno == EDOM) | (errno == ERANGE))
                goto computerr;
        dp = getpict(m->oargs.sarg[3]);
        for (i = 0; i < 3; i++)
                col[i] = datavalue(dp+i, pt);
        errno = 0;
        for (i = 0; i < 3; i++)
                if (i && fundefined(m->oargs.sarg[i]) < 3)
                        colval(cval,i) = funvalue(m->oargs.sarg[i], 1, col+i);
                else
                        colval(cval,i) = funvalue(m->oargs.sarg[i], 3, col);
        if ((errno == EDOM) | (errno == ERANGE))
                goto computerr;
        smultcolor(r->pcol, cval);
        return(0);

computerr:
        objerror(m, WARNING, "compute error");
        return(0);
}


int
p_spectrum(                     /* simple constant spectrum */
        OBJREC  *m,
        RAY  *r
)
{
        COLORV  *scval;

        if ((scval = (COLORV *)m->os) == NULL) {
                COLORV  *sinp;
                double  hstep;
                int     i;
                if (m->oargs.nfargs < 5)
                        objerror(m, USER, "bad # arguments");
                sinp = (COLORV *)malloc(sizeof(COLORV)*(m->oargs.nfargs-2));
                scval = (COLORV *)malloc(sizeof(COLORV)*NCSAMP);
                if ((sinp == NULL) | (scval == NULL))
                        objerror(m, SYSTEM, "out of memory");
                for (i = m->oargs.nfargs-2; i--; )
                        sinp[i] = (COLORV)m->oargs.farg[i+2];
                hstep = 0.5 * (m->oargs.farg[1] - m->oargs.farg[0]) /
                                (m->oargs.nfargs-3.0);
                convertscolorcol(scval, sinp, m->oargs.nfargs-2,
                                m->oargs.farg[0]-hstep, m->oargs.farg[1]+hstep);
                free(sinp);
                m->os = (void *)scval;
        }
        smultscolor(r->pcol, scval);
        return(0);
}


int
p_specfile(                     /* constant spectrum from 1-D data file */
        OBJREC  *m,
        RAY  *r
)
{
        COLORV  *scval;

        if ((scval = (COLORV *)m->os) == NULL) {
                DATARRAY        *dp;
                COLORV          *sinp;
                double          step;
                int             i;
                if (m->oargs.nsargs != 1)
                        objerror(m, USER, "bad # arguments");
                dp = getdata(m->oargs.sarg[0]);
                if (dp->nd != 1)
                        objerror(m, USER, "data file must be 1-dimensional");

                sinp = (COLORV *)malloc(sizeof(COLORV)*dp->dim[0].ne);
                scval = (COLORV *)malloc(sizeof(COLORV)*NCSAMP);
                if ((sinp == NULL) | (scval == NULL))
                        objerror(m, SYSTEM, "out of memory");
                step = dp->dim[0].siz / (dp->dim[0].ne - 1.0);
                for (i = dp->dim[0].ne; i-- > 0; ) {
                        double  wl = dp->dim[0].org + i*step;
                        sinp[i] = (COLORV)datavalue(dp, &wl);
                }
                convertscolorcol(scval, sinp, dp->dim[0].ne,
                                dp->dim[0].org-.5*step,
                                dp->dim[0].org+dp->dim[0].siz+.5*step);
                free(sinp);
                m->os = (void *)scval;
        }
        smultscolor(r->pcol, scval);
        return(0);
}


int
p_specdata(                     /* varied spectrum from (N+1)-D file */
        OBJREC  *m,
        RAY  *r
)
{
        SCOLOR          scval;
        COLORV          *scdat;
        double          pt[MAXDDIM];
        DATARRAY        *dp;
        MFUNC           *mf;
        double          step;
        int             i;

        if (m->oargs.nsargs < 4)
                objerror(m, USER, "bad # arguments");
        dp = getdata(m->oargs.sarg[1]);
        if (dp->nd < 2)
                objerror(m, USER, "need at least 2-dimensional data");
        i = (1 << (dp->nd-1)) - 1;
        mf = getfunc(m, 2, i<<3, 0);
        setfunc(m, r);
        errno = 0;
        for (i = dp->nd-1; i-- > 0; ) {
                pt[i] = evalue(mf->ep[i]);
                if ((errno == EDOM) | (errno == ERANGE))
                        goto computerr;
        }
        step = dp->dim[dp->nd-1].siz / (dp->dim[dp->nd-1].ne - 1.0);
        scdat = (COLORV *)malloc(sizeof(COLORV)*dp->dim[dp->nd-1].ne);
        if (scdat == NULL)
                objerror(m, SYSTEM, "out of memory");
        for (i = dp->dim[dp->nd-1].ne; i-- > 0; ) {
                double  bval[2];
                pt[dp->nd-1] = dp->dim[dp->nd-1].org + i*step;
                bval[0] = datavalue(dp, pt);
                bval[1] = pt[dp->nd-1];
                errno = 0;
                scdat[i] = funvalue(m->oargs.sarg[0], 2, bval);
                if ((errno == EDOM) | (errno == ERANGE))
                        goto computerr;
        }
        convertscolorcol(scval, scdat, dp->dim[dp->nd-1].ne,
                        dp->dim[dp->nd-1].org-.5*step,
                        dp->dim[dp->nd-1].org+dp->dim[dp->nd-1].siz+.5*step);
        free(scdat);
        smultscolor(r->pcol, scval);
        return(0);
computerr:
        objerror(m, WARNING, "compute error");
        return(0);
}


int
p_specpict(                     /* interpolate hyperspectral image data */
        OBJREC  *m,
        RAY  *r
)
{
        SCOLOR          scdat, scval;
        double          pt[3];
        DATARRAY        *dp;
        MFUNC           *mf;
        double          step;
        int             i;

        if (m->oargs.nsargs < 5)
                objerror(m, USER, "bad # arguments");
        mf = getfunc(m, 2, 0x3<<3, 0);
        setfunc(m, r);
        errno = 0;
        pt[1] = evalue(mf->ep[0]);      /* y major ordering */
        pt[0] = evalue(mf->ep[1]);
        if ((errno == EDOM) | (errno == ERANGE))
                goto computerr;
        dp = getspec(m->oargs.sarg[1]);
        step = dp->dim[2].siz / (dp->dim[2].ne - 1.0);
        for (i = dp->dim[2].ne; i-- > 0; ) {
                double  bval[2];
                pt[2] = dp->dim[2].org + i*step;
                bval[0] = datavalue(dp, pt);
                bval[1] = pt[2];
                errno = 0;
                scdat[i] = funvalue(m->oargs.sarg[0], 2, bval);
                if ((errno == EDOM) | (errno == ERANGE))
                        goto computerr;
        }
        convertscolorcol(scval, scdat, dp->dim[2].ne,
                        dp->dim[2].org-.5*step,
                        dp->dim[2].org+dp->dim[2].siz+.5*step);
        smultscolor(r->pcol, scval);
        return(0);
computerr:
        objerror(m, WARNING, "compute error");
        return(0);
}
Revision:	2.13
Committed:	Wed Jan 17 17:35:35 2024 UTC (3 months, 4 weeks ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.12:	+6 -9 lines
Log Message:	perf(rvu, rpict, rtrace, rcontrib): Better rendering of spectral primitives in RGB mode
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: p_data.c,v 2.12 2023/12/14 00:51:12 greg Exp $";
3	#endif
4	/*
5	* p_data.c - routine for stored patterns.
6	*/
7
8	#include "copyright.h"
9
10	#include "ray.h"
11	#include "data.h"
12	#include "func.h"
13	#include "rtotypes.h"
14
15	/*
16	* A stored pattern can either be brightness,
17	* color, or spectral data. Brightness data is specified as:
18	*
19	* modifier brightdata name
20	* 4+ func dfname vfname v0 v1 .. xf
21	* 0
22	* n A1 A2 ..
23	*
24	* Color data is specified as:
25	*
26	* modifier colordata name
27	* 8+ rfunc gfunc bfunc rdfname gdfname bdfname vfname v0 v1 .. xf
28	* 0
29	* n A1 A2 ..
30	*
31	* Color picture data is specified as:
32	*
33	* modifier colorpict name
34	* 7+ rfunc gfunc bfunc pfname vfname vx vy xf
35	* 0
36	* n A1 A2 ..
37	*
38	* A simple spectrum is specified as:
39	*
40	* modifier spectrum name
41	* 0
42	* 0
43	* 5+ nmA nmB s1 s2 s3 ..
44	*
45	* A constant spectrum from a data file is given as:
46	*
47	* modifier specfile name
48	* 1 dfname
49	* 0
50	* 0
51	*
52	* A spectral data file is given as:
53	*
54	* modifier specdata name
55	* 4+ sfunc dfname vfname v0 .. xf
56	* 0
57	* n A1 A2 ..
58	*
59	* A spectral image is given as:
60	*
61	* modifier specpict name
62	* 5+ sfunc sfname vfname vx vy xf
63	* 0
64	* n A1 A2 ..
65	*
66	* Vfname is the name of the file where the variable definitions
67	* can be found. The list of real arguments can be accessed by
68	* definitions in the file. The dfnames are the data file
69	* names. The dimensions of the data files and the number
70	* of variables must match, except for specdata, which has a "hidden"
71	* last variable for the wavelength. The funcs take a single argument
72	* for brightdata, three for colordata and colorpict, and two for
73	* specdata and specpict to modify interpolated values from the file.
74	* The xf is a transform spec to get from the original coordinates to
75	* the current coordinates.
76	*/
77
78
79	int
80	p_bdata( /* interpolate brightness data */
81	OBJREC *m,
82	RAY *r
83	)
84	{
85	double bval;
86	double pt[MAXDDIM];
87	DATARRAY *dp;
88	MFUNC *mf;
89	int i;
90
91	if (m->oargs.nsargs < 4)
92	objerror(m, USER, "bad # arguments");
93	dp = getdata(m->oargs.sarg[1]);
94	i = (1 << dp->nd) - 1;
95	mf = getfunc(m, 2, i<<3, 0);
96	setfunc(m, r);
97	errno = 0;
98	for (i = dp->nd; i-- > 0; ) {
99	pt[i] = evalue(mf->ep[i]);
100	if ((errno == EDOM) \| (errno == ERANGE))
101	goto computerr;
102	}
103	bval = datavalue(dp, pt);
104	errno = 0;
105	bval = funvalue(m->oargs.sarg[0], 1, &bval);
106	if ((errno == EDOM) \| (errno == ERANGE))
107	goto computerr;
108	scalescolor(r->pcol, bval);
109	return(0);
110	computerr:
111	objerror(m, WARNING, "compute error");
112	return(0);
113	}
114
115
116	int
117	p_cdata( /* interpolate color data */
118	OBJREC *m,
119	RAY *r
120	)
121	{
122	double col[3];
123	COLOR cval;
124	double pt[MAXDDIM];
125	int nv;
126	DATARRAY *dp;
127	MFUNC *mf;
128	int i;
129
130	if (m->oargs.nsargs < 8)
131	objerror(m, USER, "bad # arguments");
132	dp = getdata(m->oargs.sarg[3]);
133	i = (1 << (nv = dp->nd)) - 1;
134	mf = getfunc(m, 6, i<<7, 0);
135	setfunc(m, r);
136	errno = 0;
137	for (i = 0; i < nv; i++) {
138	pt[i] = evalue(mf->ep[i]);
139	if ((errno == EDOM) \| (errno == ERANGE))
140	goto computerr;
141	}
142	col[0] = datavalue(dp, pt);
143	for (i = 1; i < 3; i++) {
144	dp = getdata(m->oargs.sarg[3+i]);
145	if (dp->nd != nv)
146	objerror(m, USER, "dimension error");
147	col[i] = datavalue(dp, pt);
148	}
149	errno = 0;
150	for (i = 0; i < 3; i++)
151	if (i && fundefined(m->oargs.sarg[i]) < 3)
152	colval(cval,i) = funvalue(m->oargs.sarg[i], 1, col+i);
153	else
154	colval(cval,i) = funvalue(m->oargs.sarg[i], 3, col);
155	if ((errno == EDOM) \| (errno == ERANGE))
156	goto computerr;
157	smultcolor(r->pcol, cval);
158	return(0);
159	computerr:
160	objerror(m, WARNING, "compute error");
161	return(0);
162	}
163
164
165	int
166	p_pdata( /* interpolate picture data */
167	OBJREC *m,
168	RAY *r
169	)
170	{
171	double col[3];
172	COLOR cval;
173	double pt[2];
174	DATARRAY *dp;
175	MFUNC *mf;
176	int i;
177
178	if (m->oargs.nsargs < 7)
179	objerror(m, USER, "bad # arguments");
180	mf = getfunc(m, 4, 0x3<<5, 0);
181	setfunc(m, r);
182	errno = 0;
183	pt[1] = evalue(mf->ep[0]); /* y major ordering */
184	pt[0] = evalue(mf->ep[1]);
185	if ((errno == EDOM) \| (errno == ERANGE))
186	goto computerr;
187	dp = getpict(m->oargs.sarg[3]);
188	for (i = 0; i < 3; i++)
189	col[i] = datavalue(dp+i, pt);
190	errno = 0;
191	for (i = 0; i < 3; i++)
192	if (i && fundefined(m->oargs.sarg[i]) < 3)
193	colval(cval,i) = funvalue(m->oargs.sarg[i], 1, col+i);
194	else
195	colval(cval,i) = funvalue(m->oargs.sarg[i], 3, col);
196	if ((errno == EDOM) \| (errno == ERANGE))
197	goto computerr;
198	smultcolor(r->pcol, cval);
199	return(0);
200
201	computerr:
202	objerror(m, WARNING, "compute error");
203	return(0);
204	}
205
206
207	int
208	p_spectrum( /* simple constant spectrum */
209	OBJREC *m,
210	RAY *r
211	)
212	{
213	COLORV *scval;
214
215	if ((scval = (COLORV *)m->os) == NULL) {
216	COLORV *sinp;
217	double hstep;
218	int i;
219	if (m->oargs.nfargs < 5)
220	objerror(m, USER, "bad # arguments");
221	sinp = (COLORV )malloc(sizeof(COLORV)(m->oargs.nfargs-2));
222	scval = (COLORV )malloc(sizeof(COLORV)NCSAMP);
223	if ((sinp == NULL) \| (scval == NULL))
224	objerror(m, SYSTEM, "out of memory");
225	for (i = m->oargs.nfargs-2; i--; )
226	sinp[i] = (COLORV)m->oargs.farg[i+2];
227	hstep = 0.5 * (m->oargs.farg[1] - m->oargs.farg[0]) /
228	(m->oargs.nfargs-3.0);
229	convertscolorcol(scval, sinp, m->oargs.nfargs-2,
230	m->oargs.farg[0]-hstep, m->oargs.farg[1]+hstep);
231	free(sinp);
232	m->os = (void *)scval;
233	}
234	smultscolor(r->pcol, scval);
235	return(0);
236	}
237
238
239	int
240	p_specfile( /* constant spectrum from 1-D data file */
241	OBJREC *m,
242	RAY *r
243	)
244	{
245	COLORV *scval;
246
247	if ((scval = (COLORV *)m->os) == NULL) {
248	DATARRAY *dp;
249	COLORV *sinp;
250	double step;
251	int i;
252	if (m->oargs.nsargs != 1)
253	objerror(m, USER, "bad # arguments");
254	dp = getdata(m->oargs.sarg[0]);
255	if (dp->nd != 1)
256	objerror(m, USER, "data file must be 1-dimensional");
257
258	sinp = (COLORV )malloc(sizeof(COLORV)dp->dim[0].ne);
259	scval = (COLORV )malloc(sizeof(COLORV)NCSAMP);
260	if ((sinp == NULL) \| (scval == NULL))
261	objerror(m, SYSTEM, "out of memory");
262	step = dp->dim[0].siz / (dp->dim[0].ne - 1.0);
263	for (i = dp->dim[0].ne; i-- > 0; ) {
264	double wl = dp->dim[0].org + i*step;
265	sinp[i] = (COLORV)datavalue(dp, &wl);
266	}
267	convertscolorcol(scval, sinp, dp->dim[0].ne,
268	dp->dim[0].org-.5*step,
269	dp->dim[0].org+dp->dim[0].siz+.5*step);
270	free(sinp);
271	m->os = (void *)scval;
272	}
273	smultscolor(r->pcol, scval);
274	return(0);
275	}
276
277
278	int
279	p_specdata( /* varied spectrum from (N+1)-D file */
280	OBJREC *m,
281	RAY *r
282	)
283	{
284	SCOLOR scval;
285	COLORV *scdat;
286	double pt[MAXDDIM];
287	DATARRAY *dp;
288	MFUNC *mf;
289	double step;
290	int i;
291
292	if (m->oargs.nsargs < 4)
293	objerror(m, USER, "bad # arguments");
294	dp = getdata(m->oargs.sarg[1]);
295	if (dp->nd < 2)
296	objerror(m, USER, "need at least 2-dimensional data");
297	i = (1 << (dp->nd-1)) - 1;
298	mf = getfunc(m, 2, i<<3, 0);
299	setfunc(m, r);
300	errno = 0;
301	for (i = dp->nd-1; i-- > 0; ) {
302	pt[i] = evalue(mf->ep[i]);
303	if ((errno == EDOM) \| (errno == ERANGE))
304	goto computerr;
305	}
306	step = dp->dim[dp->nd-1].siz / (dp->dim[dp->nd-1].ne - 1.0);
307	scdat = (COLORV )malloc(sizeof(COLORV)dp->dim[dp->nd-1].ne);
308	if (scdat == NULL)
309	objerror(m, SYSTEM, "out of memory");
310	for (i = dp->dim[dp->nd-1].ne; i-- > 0; ) {
311	double bval[2];
312	pt[dp->nd-1] = dp->dim[dp->nd-1].org + i*step;
313	bval[0] = datavalue(dp, pt);
314	bval[1] = pt[dp->nd-1];
315	errno = 0;
316	scdat[i] = funvalue(m->oargs.sarg[0], 2, bval);
317	if ((errno == EDOM) \| (errno == ERANGE))
318	goto computerr;
319	}
320	convertscolorcol(scval, scdat, dp->dim[dp->nd-1].ne,
321	dp->dim[dp->nd-1].org-.5*step,
322	dp->dim[dp->nd-1].org+dp->dim[dp->nd-1].siz+.5*step);
323	free(scdat);
324	smultscolor(r->pcol, scval);
325	return(0);
326	computerr:
327	objerror(m, WARNING, "compute error");
328	return(0);
329	}
330
331
332	int
333	p_specpict( /* interpolate hyperspectral image data */
334	OBJREC *m,
335	RAY *r
336	)
337	{
338	SCOLOR scdat, scval;
339	double pt[3];
340	DATARRAY *dp;
341	MFUNC *mf;
342	double step;
343	int i;
344
345	if (m->oargs.nsargs < 5)
346	objerror(m, USER, "bad # arguments");
347	mf = getfunc(m, 2, 0x3<<3, 0);
348	setfunc(m, r);
349	errno = 0;
350	pt[1] = evalue(mf->ep[0]); /* y major ordering */
351	pt[0] = evalue(mf->ep[1]);
352	if ((errno == EDOM) \| (errno == ERANGE))
353	goto computerr;
354	dp = getspec(m->oargs.sarg[1]);
355	step = dp->dim[2].siz / (dp->dim[2].ne - 1.0);
356	for (i = dp->dim[2].ne; i-- > 0; ) {
357	double bval[2];
358	pt[2] = dp->dim[2].org + i*step;
359	bval[0] = datavalue(dp, pt);
360	bval[1] = pt[2];
361	errno = 0;
362	scdat[i] = funvalue(m->oargs.sarg[0], 2, bval);
363	if ((errno == EDOM) \| (errno == ERANGE))
364	goto computerr;
365	}
366	convertscolorcol(scval, scdat, dp->dim[2].ne,
367	dp->dim[2].org-.5*step,
368	dp->dim[2].org+dp->dim[2].siz+.5*step);
369	smultscolor(r->pcol, scval);
370	return(0);
371	computerr:
372	objerror(m, WARNING, "compute error");
373	return(0);
374	}