src/rt/data.c

/* Copyright (c) 1986 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
 *  data.c - routines dealing with interpolated data.
 *
 *     6/4/86
 */

#include  "standard.h"

#include  "color.h"

#include  "data.h"


extern char  *libpath;                  /* library search path */

static DATARRAY  *dlist = NULL;         /* data array list */

static DATARRAY  *plist = NULL;         /* picture list */


DATARRAY *
getdata(dname)                          /* get data array dname */
char  *dname;
{
        char  *dfname;
        FILE  *fp;
        int  asize;
        register int  i, j;
        register DATARRAY  *dp;
                                                /* look for array in list */
        for (dp = dlist; dp != NULL; dp = dp->next)
                if (!strcmp(dname, dp->name))
                        return(dp);             /* found! */

        /*
         *      If we haven't loaded the data already, we will look
         *  for it in the directorys specified by the library path.
         *
         *      The file has the following format:
         *
         *              N
         *              beg0    end0    n0
         *              beg1    end1    n1
         *              . . .
         *              begN    endN    nN
         *              data, later dimensions changing faster
         *              . . .
         *
         *      For irregularly spaced points, the following can be
         *  substituted for begi endi ni:
         *
         *              0 0 ni p0i p1i .. pni
         */

        if ((dfname = getpath(dname, libpath, R_OK)) == NULL) {
                sprintf(errmsg, "cannot find data file \"%s\"", dname);
                error(USER, errmsg);
        }
        if ((dp = (DATARRAY *)malloc(sizeof(DATARRAY))) == NULL)
                goto memerr;

        dp->name = savestr(dname);

        if ((fp = fopen(dfname, "r")) == NULL) {
                sprintf(errmsg, "cannot open data file \"%s\"", dfname);
                error(SYSTEM, errmsg);
        }
                                                        /* get dimensions */
        if (fscanf(fp, "%d", &dp->nd) != 1)
                goto scanerr;
        if (dp->nd <= 0 || dp->nd > MAXDIM) {
                sprintf(errmsg, "bad number of dimensions for \"%s\"", dname);
                error(USER, errmsg);
        }
        asize = 1;
        for (i = 0; i < dp->nd; i++) {
                if (fscanf(fp, "%lf %lf %d",
                                &dp->dim[i].org, &dp->dim[i].siz,
                                &dp->dim[i].ne) != 3)
                        goto scanerr;
                if (dp->dim[i].ne < 2)
                        goto scanerr;
                asize *= dp->dim[i].ne;
                if ((dp->dim[i].siz -= dp->dim[i].org) == 0) {
                        dp->dim[i].p = (double *)malloc(dp->dim[i].ne*sizeof(double));
                        if (dp->dim[i].p == NULL)
                                goto memerr;
                        for (j = 0; j < dp->dim[i].ne; j++)
                                if (fscanf(fp, "%lf", &dp->dim[i].p[j]) != 1)
                                        goto scanerr;
                        for (j = 1; j < dp->dim[i].ne-1; j++)
                                if ((dp->dim[i].p[j-1] < dp->dim[i].p[j]) !=
                                        (dp->dim[i].p[j] < dp->dim[i].p[j+1]))
                                        goto scanerr;
                        dp->dim[i].org = dp->dim[i].p[0];
                        dp->dim[i].siz = dp->dim[i].p[dp->dim[i].ne-1]
                                                - dp->dim[i].p[0];
                } else
                        dp->dim[i].p = NULL;
        }
        if ((dp->arr = (DATATYPE *)malloc(asize*sizeof(DATATYPE))) == NULL)
                goto memerr;
        
        for (i = 0; i < asize; i++)
                if (fscanf(fp, DSCANF, &dp->arr[i]) != 1)
                        goto scanerr;
        
        fclose(fp);
        dp->next = dlist;
        return(dlist = dp);

memerr:
        error(SYSTEM, "out of memory in getdata");
scanerr:
        sprintf(errmsg, "%s in data file \"%s\"",
                        feof(fp) ? "unexpected EOF" : "bad format", dfname);
        error(USER, errmsg);
}


static double  inpaspect;               /* aspect ratio of input picture */

static
headaspect(s)                           /* check string for aspect ratio */
char  *s;
{
        if (isaspect(s))
                inpaspect *= aspectval(s);
}


DATARRAY *
getpict(pname)                          /* get picture pname */
char  *pname;
{
        extern char  *libpath;
        char  *pfname;
        FILE  *fp;
        COLOR  *scanin;
        int  width, height;
        int  x, y;
        register int  i;
        register DATARRAY  *pp;
                                                /* look for array in list */
        for (pp = plist; pp != NULL; pp = pp->next)
                if (!strcmp(pname, pp->name))
                        return(pp);             /* found! */

        if ((pfname = getpath(pname, libpath, R_OK)) == NULL) {
                sprintf(errmsg, "cannot find picture file \"%s\"", pname);
                error(USER, errmsg);
        }
        if ((pp = (DATARRAY *)calloc(3, sizeof(DATARRAY))) == NULL)
                goto memerr;

        pp[0].name = 
        pp[1].name =
        pp[2].name = savestr(pname);

        if ((fp = fopen(pfname, "r")) == NULL) {
                sprintf(errmsg, "cannot open picture file \"%s\"", pfname);
                error(SYSTEM, errmsg);
        }
                                                /* get dimensions */
        inpaspect = 1.0;
        getheader(fp, headaspect);
        if (fgetresolu(&width, &height, fp) != (YMAJOR|YDECR))
                goto readerr;
        for (i = 0; i < 3; i++) {
                pp[i].nd = 2;
                pp[i].dim[0].ne = height;
                pp[i].dim[1].ne = width;
                pp[i].dim[0].org =
                pp[i].dim[1].org = 0.0;
                if (width <= height*inpaspect) {
                        pp[i].dim[0].siz = inpaspect*(double)height/width;
                        pp[i].dim[1].siz = 1.0;
                } else {
                        pp[i].dim[0].siz = 1.0;
                        pp[i].dim[1].siz = (double)width/height/inpaspect;
                }
                pp[i].dim[0].p = pp[i].dim[1].p = NULL;
                pp[i].arr = (DATATYPE *)malloc(width*height*sizeof(DATATYPE));
                if (pp[i].arr == NULL)
                        goto memerr;
        }
                                                        /* load picture */
        if ((scanin = (COLOR *)malloc(width*sizeof(COLOR))) == NULL)
                goto memerr;
        for (y = height-1; y >= 0; y--) {
                if (freadscan(scanin, width, fp) < 0)
                        goto readerr;
                for (x = 0; x < width; x++)
                        for (i = 0; i < 3; i++)
                                pp[i].arr[y*width+x] = colval(scanin[x],i);
        }
        free((char *)scanin);
        fclose(fp);
        pp[0].next =
        pp[1].next =
        pp[2].next = plist;
        return(plist = pp);

memerr:
        error(SYSTEM, "out of memory in getpict");
readerr:
        sprintf(errmsg, "bad picture file \"%s\"", pfname);
        error(USER, errmsg);
}


freedata(dname)                 /* free memory associated with dname */
char  *dname;
{
        register DATARRAY  *dp, *dpl;
        register int  i;

        for (dpl = NULL, dp = dlist; dp != NULL; dpl = dp, dp = dp->next)
                if (!strcmp(dname, dp->name)) {
                        if (dpl == NULL)
                                dlist = dp->next;
                        else
                                dpl->next = dp->next;
                        free((char *)dp->arr);
                        for (i = 0; i < dp->nd; i++)
                                if (dp->dim[i].p != NULL)
                                        free((char *)dp->dim[i].p);
                        freestr(dp->name);
                        free((char *)dp);
                        return;
                }
}


freepict(pname)                 /* free memory associated with pname */
char  *pname;
{
        register DATARRAY  *pp, *ppl;

        for (ppl = NULL, pp = plist; pp != NULL; ppl = pp, pp = pp->next)
                if (!strcmp(pname, pp->name)) {
                        if (ppl == NULL)
                                plist = pp->next;
                        else
                                ppl->next = pp->next;
                        free((char *)pp[0].arr);
                        free((char *)pp[1].arr);
                        free((char *)pp[2].arr);
                        freestr(pp[0].name);
                        free((char *)pp);
                        return;
                }
}


double
datavalue(dp, pt)               /* interpolate data value at a point */
register DATARRAY  *dp;
double  *pt;
{
        DATARRAY  sd;
        int  asize;
        int  lower, upper;
        register int  i;
        double  x, y, y0, y1;
                                        /* set up dimensions for recursion */
        sd.nd = dp->nd - 1;
        asize = 1;
        for (i = 0; i < sd.nd; i++) {
                sd.dim[i].org = dp->dim[i+1].org;
                sd.dim[i].siz = dp->dim[i+1].siz;
                sd.dim[i].p = dp->dim[i+1].p;
                asize *= sd.dim[i].ne = dp->dim[i+1].ne;
        }
                                        /* get independent variable */
        if (dp->dim[0].p == NULL) {             /* evenly spaced points */
                x = (pt[0] - dp->dim[0].org)/dp->dim[0].siz;
                x = x * (dp->dim[0].ne - 1);
                i = x;
                if (i < 0)
                        i = 0;
                else if (i > dp->dim[0].ne - 2)
                        i = dp->dim[0].ne - 2;
        } else {                                /* unevenly spaced points */
                if (dp->dim[0].siz > 0.0) {
                        lower = 0;
                        upper = dp->dim[0].ne;
                } else {
                        lower = dp->dim[0].ne;
                        upper = 0;
                }
                do {
                        i = (lower + upper) >> 1;
                        if (pt[0] >= dp->dim[0].p[i])
                                lower = i;
                        else if (pt[0] < dp->dim[0].p[i])
                                upper = i;
                } while (i != (lower + upper) >> 1);
                if (i < 0)
                        i = 0;
                else if (i > dp->dim[0].ne - 2)
                        i = dp->dim[0].ne - 2;
                x = i + (pt[0] - dp->dim[0].p[i]) /
                                (dp->dim[0].p[i+1] - dp->dim[0].p[i]);
        }
                                        /* get dependent variable */
        if (dp->nd == 1) {
                y0 = dp->arr[i];
                y1 = dp->arr[i+1];
        } else {
                sd.arr = &dp->arr[i*asize];
                y0 = datavalue(&sd, pt+1);
                sd.arr = &dp->arr[(i+1)*asize];
                y1 = datavalue(&sd, pt+1);
        }
        /*
         * Extrapolate as far as one division, then
         * taper off harmonically to zero.
         */
        if (x > i+2)
                y = (2*y1-y0)/(x-i-1);
        else if (x < i-1)
                y = (2*y0-y1)/(i-x);
        else
                y = y0*((i+1)-x) + y1*(x-i);

        return(y);
}
Revision:	1.7
Committed:	Tue May 8 10:37:57 1990 UTC (33 years, 11 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 1.6:	+8 -7 lines
Log Message:	changed y to be first dimension in picture
#	User	Rev	Content
1	greg	1.1	/* Copyright (c) 1986 Regents of the University of California */
2
3			#ifndef lint
4			static char SCCSid[] = "$SunId$ LBL";
5			#endif
6
7			/*
8			* data.c - routines dealing with interpolated data.
9			*
10			* 6/4/86
11			*/
12
13			#include "standard.h"
14
15			#include "color.h"
16
17			#include "data.h"
18
19
20			extern char libpath; / library search path */
21
22			static DATARRAY dlist = NULL; / data array list */
23
24			static DATARRAY plist = NULL; / picture list */
25
26
27			DATARRAY *
28			getdata(dname) /* get data array dname */
29			char *dname;
30			{
31			char *dfname;
32			FILE *fp;
33			int asize;
34	greg	1.4	register int i, j;
35	greg	1.1	register DATARRAY *dp;
36			/* look for array in list */
37			for (dp = dlist; dp != NULL; dp = dp->next)
38			if (!strcmp(dname, dp->name))
39			return(dp); /* found! */
40
41			/*
42			* If we haven't loaded the data already, we will look
43			* for it in the directorys specified by the library path.
44			*
45			* The file has the following format:
46			*
47	greg	1.4	* N
48	greg	1.1	* beg0 end0 n0
49			* beg1 end1 n1
50			* . . .
51	greg	1.4	* begN endN nN
52	greg	1.1	* data, later dimensions changing faster
53			* . . .
54			*
55	greg	1.4	* For irregularly spaced points, the following can be
56			* substituted for begi endi ni:
57			*
58	greg	1.6	* 0 0 ni p0i p1i .. pni
59	greg	1.1	*/
60
61	greg	1.2	if ((dfname = getpath(dname, libpath, R_OK)) == NULL) {
62	greg	1.1	sprintf(errmsg, "cannot find data file \"%s\"", dname);
63			error(USER, errmsg);
64			}
65			if ((dp = (DATARRAY *)malloc(sizeof(DATARRAY))) == NULL)
66			goto memerr;
67
68			dp->name = savestr(dname);
69
70			if ((fp = fopen(dfname, "r")) == NULL) {
71			sprintf(errmsg, "cannot open data file \"%s\"", dfname);
72			error(SYSTEM, errmsg);
73			}
74			/* get dimensions */
75			if (fscanf(fp, "%d", &dp->nd) != 1)
76			goto scanerr;
77			if (dp->nd <= 0 \|\| dp->nd > MAXDIM) {
78			sprintf(errmsg, "bad number of dimensions for \"%s\"", dname);
79			error(USER, errmsg);
80			}
81			asize = 1;
82			for (i = 0; i < dp->nd; i++) {
83			if (fscanf(fp, "%lf %lf %d",
84			&dp->dim[i].org, &dp->dim[i].siz,
85	greg	1.6	&dp->dim[i].ne) != 3)
86			goto scanerr;
87			if (dp->dim[i].ne < 2)
88			goto scanerr;
89			asize *= dp->dim[i].ne;
90			if ((dp->dim[i].siz -= dp->dim[i].org) == 0) {
91	greg	1.4	dp->dim[i].p = (double )malloc(dp->dim[i].nesizeof(double));
92			if (dp->dim[i].p == NULL)
93			goto memerr;
94			for (j = 0; j < dp->dim[i].ne; j++)
95			if (fscanf(fp, "%lf", &dp->dim[i].p[j]) != 1)
96			goto scanerr;
97			for (j = 1; j < dp->dim[i].ne-1; j++)
98			if ((dp->dim[i].p[j-1] < dp->dim[i].p[j]) !=
99			(dp->dim[i].p[j] < dp->dim[i].p[j+1]))
100			goto scanerr;
101			dp->dim[i].org = dp->dim[i].p[0];
102			dp->dim[i].siz = dp->dim[i].p[dp->dim[i].ne-1]
103			- dp->dim[i].p[0];
104			} else
105	greg	1.6	dp->dim[i].p = NULL;
106	greg	1.1	}
107			if ((dp->arr = (DATATYPE )malloc(asizesizeof(DATATYPE))) == NULL)
108			goto memerr;
109
110			for (i = 0; i < asize; i++)
111			if (fscanf(fp, DSCANF, &dp->arr[i]) != 1)
112			goto scanerr;
113
114			fclose(fp);
115			dp->next = dlist;
116			return(dlist = dp);
117
118			memerr:
119			error(SYSTEM, "out of memory in getdata");
120			scanerr:
121			sprintf(errmsg, "%s in data file \"%s\"",
122			feof(fp) ? "unexpected EOF" : "bad format", dfname);
123			error(USER, errmsg);
124			}
125
126
127	greg	1.5	static double inpaspect; /* aspect ratio of input picture */
128
129			static
130			headaspect(s) /* check string for aspect ratio */
131			char *s;
132			{
133			if (isaspect(s))
134			inpaspect *= aspectval(s);
135			}
136
137
138	greg	1.1	DATARRAY *
139			getpict(pname) /* get picture pname */
140			char *pname;
141			{
142			extern char *libpath;
143			char *pfname;
144			FILE *fp;
145			COLOR *scanin;
146			int width, height;
147			int x, y;
148			register int i;
149			register DATARRAY *pp;
150			/* look for array in list */
151			for (pp = plist; pp != NULL; pp = pp->next)
152			if (!strcmp(pname, pp->name))
153			return(pp); /* found! */
154
155	greg	1.2	if ((pfname = getpath(pname, libpath, R_OK)) == NULL) {
156	greg	1.1	sprintf(errmsg, "cannot find picture file \"%s\"", pname);
157			error(USER, errmsg);
158			}
159			if ((pp = (DATARRAY *)calloc(3, sizeof(DATARRAY))) == NULL)
160			goto memerr;
161
162			pp[0].name =
163			pp[1].name =
164			pp[2].name = savestr(pname);
165
166			if ((fp = fopen(pfname, "r")) == NULL) {
167			sprintf(errmsg, "cannot open picture file \"%s\"", pfname);
168			error(SYSTEM, errmsg);
169			}
170			/* get dimensions */
171	greg	1.5	inpaspect = 1.0;
172			getheader(fp, headaspect);
173	greg	1.3	if (fgetresolu(&width, &height, fp) != (YMAJOR\|YDECR))
174	greg	1.1	goto readerr;
175			for (i = 0; i < 3; i++) {
176			pp[i].nd = 2;
177	greg	1.7	pp[i].dim[0].ne = height;
178			pp[i].dim[1].ne = width;
179	greg	1.1	pp[i].dim[0].org =
180			pp[i].dim[1].org = 0.0;
181	greg	1.5	if (width <= height*inpaspect) {
182	greg	1.7	pp[i].dim[0].siz = inpaspect*(double)height/width;
183			pp[i].dim[1].siz = 1.0;
184			} else {
185	greg	1.1	pp[i].dim[0].siz = 1.0;
186	greg	1.7	pp[i].dim[1].siz = (double)width/height/inpaspect;
187	greg	1.1	}
188	greg	1.7	pp[i].dim[0].p = pp[i].dim[1].p = NULL;
189	greg	1.1	pp[i].arr = (DATATYPE )malloc(widthheight*sizeof(DATATYPE));
190			if (pp[i].arr == NULL)
191			goto memerr;
192			}
193			/* load picture */
194			if ((scanin = (COLOR )malloc(widthsizeof(COLOR))) == NULL)
195			goto memerr;
196			for (y = height-1; y >= 0; y--) {
197			if (freadscan(scanin, width, fp) < 0)
198			goto readerr;
199			for (x = 0; x < width; x++)
200			for (i = 0; i < 3; i++)
201	greg	1.7	pp[i].arr[y*width+x] = colval(scanin[x],i);
202	greg	1.1	}
203			free((char *)scanin);
204			fclose(fp);
205			pp[0].next =
206			pp[1].next =
207			pp[2].next = plist;
208			return(plist = pp);
209
210			memerr:
211			error(SYSTEM, "out of memory in getpict");
212			readerr:
213			sprintf(errmsg, "bad picture file \"%s\"", pfname);
214			error(USER, errmsg);
215			}
216
217
218			freedata(dname) /* free memory associated with dname */
219			char *dname;
220			{
221			register DATARRAY dp, dpl;
222	greg	1.4	register int i;
223	greg	1.1
224			for (dpl = NULL, dp = dlist; dp != NULL; dpl = dp, dp = dp->next)
225			if (!strcmp(dname, dp->name)) {
226			if (dpl == NULL)
227			dlist = dp->next;
228			else
229			dpl->next = dp->next;
230			free((char *)dp->arr);
231	greg	1.4	for (i = 0; i < dp->nd; i++)
232			if (dp->dim[i].p != NULL)
233			free((char *)dp->dim[i].p);
234	greg	1.1	freestr(dp->name);
235			free((char *)dp);
236			return;
237			}
238			}
239
240
241			freepict(pname) /* free memory associated with pname */
242			char *pname;
243			{
244			register DATARRAY pp, ppl;
245
246			for (ppl = NULL, pp = plist; pp != NULL; ppl = pp, pp = pp->next)
247			if (!strcmp(pname, pp->name)) {
248			if (ppl == NULL)
249			plist = pp->next;
250			else
251			ppl->next = pp->next;
252			free((char *)pp[0].arr);
253			free((char *)pp[1].arr);
254			free((char *)pp[2].arr);
255			freestr(pp[0].name);
256			free((char *)pp);
257			return;
258			}
259			}
260
261
262			double
263			datavalue(dp, pt) /* interpolate data value at a point */
264			register DATARRAY *dp;
265			double *pt;
266			{
267			DATARRAY sd;
268			int asize;
269	greg	1.6	int lower, upper;
270	greg	1.1	register int i;
271			double x, y, y0, y1;
272	greg	1.4	/* set up dimensions for recursion */
273	greg	1.1	sd.nd = dp->nd - 1;
274			asize = 1;
275			for (i = 0; i < sd.nd; i++) {
276			sd.dim[i].org = dp->dim[i+1].org;
277			sd.dim[i].siz = dp->dim[i+1].siz;
278	greg	1.4	sd.dim[i].p = dp->dim[i+1].p;
279	greg	1.1	asize *= sd.dim[i].ne = dp->dim[i+1].ne;
280			}
281	greg	1.4	/* get independent variable */
282			if (dp->dim[0].p == NULL) { /* evenly spaced points */
283			x = (pt[0] - dp->dim[0].org)/dp->dim[0].siz;
284			x = x * (dp->dim[0].ne - 1);
285			i = x;
286			if (i < 0)
287			i = 0;
288			else if (i > dp->dim[0].ne - 2)
289			i = dp->dim[0].ne - 2;
290			} else { /* unevenly spaced points */
291	greg	1.6	if (dp->dim[0].siz > 0.0) {
292			lower = 0;
293			upper = dp->dim[0].ne;
294			} else {
295			lower = dp->dim[0].ne;
296			upper = 0;
297			}
298			do {
299			i = (lower + upper) >> 1;
300			if (pt[0] >= dp->dim[0].p[i])
301			lower = i;
302			else if (pt[0] < dp->dim[0].p[i])
303			upper = i;
304			} while (i != (lower + upper) >> 1);
305			if (i < 0)
306	greg	1.4	i = 0;
307	greg	1.6	else if (i > dp->dim[0].ne - 2)
308	greg	1.4	i = dp->dim[0].ne - 2;
309			x = i + (pt[0] - dp->dim[0].p[i]) /
310			(dp->dim[0].p[i+1] - dp->dim[0].p[i]);
311			}
312			/* get dependent variable */
313	greg	1.1	if (dp->nd == 1) {
314			y0 = dp->arr[i];
315			y1 = dp->arr[i+1];
316			} else {
317			sd.arr = &dp->arr[i*asize];
318			y0 = datavalue(&sd, pt+1);
319			sd.arr = &dp->arr[(i+1)*asize];
320			y1 = datavalue(&sd, pt+1);
321			}
322			/*
323			* Extrapolate as far as one division, then
324			* taper off harmonically to zero.
325			*/
326			if (x > i+2)
327			y = (2*y1-y0)/(x-i-1);
328			else if (x < i-1)
329			y = (2*y0-y1)/(i-x);
330			else
331			y = y0((i+1)-x) + y1(x-i);
332
333			return(y);
334			}