src/util/rmtxop.c

#ifndef lint
static const char RCSid[] = "$Id: rmtxop.c,v 2.8 2015/07/22 04:47:51 greg Exp $";
#endif
/*
 * General component matrix operations.
 */

#include <stdio.h>
#include <stdlib.h>
#include "rtio.h"
#include "resolu.h"
#include "rmatrix.h"

#define MAXCOMP         50              /* #components we support */

typedef struct {
        double          sca[MAXCOMP];           /* scalar coefficients */
        int             nsf;                    /* number of scalars */
        double          cmat[MAXCOMP*MAXCOMP];  /* component transformation */
        int             clen;                   /* number of coefficients */
        int             transpose;              /* do transpose? */
        int             op;                     /* '*' or '+' */
} ROPERAT;                              /* matrix operation */

int     verbose = 0;                    /* verbose reporting? */

static void
op_default(ROPERAT *op)
{
        memset(op, 0, sizeof(ROPERAT));
        op->op = '*';
}

static RMATRIX *
operate(RMATRIX *mleft, ROPERAT *op, const char *fname)
{
        RMATRIX *mright = rmx_load(fname);
        RMATRIX *mtmp;
        int     i;

        if (fname == NULL)
                fname = "<stdin>";
        if (mright == NULL) {
                fputs(fname, stderr);
                fputs(": cannot load matrix\n", stderr);
                return(NULL);
        }
        if (op->transpose) {            /* transpose matrix? */
                mtmp = rmx_transpose(mright);
                if (mtmp == NULL) {
                        fputs(fname, stderr);
                        fputs(": transpose failed\n", stderr);
                        rmx_free(mright);
                        return(NULL);
                }
                if (verbose) {
                        fputs(fname, stderr);
                        fputs(": transposed rows and columns\n", stderr);
                }
                rmx_free(mright);
                mright = mtmp;
        }
        if (op->nsf > 0) {              /* apply scalar(s) */
                if (op->clen > 0) {
                        fputs("Options -s and -c are exclusive\n", stderr);
                        rmx_free(mright);
                        return(NULL);
                }
                if (op->nsf == 1) {
                        for (i = mright->ncomp; --i; )
                                op->sca[i] = op->sca[0];
                } else if (op->nsf != mright->ncomp) {
                        fprintf(stderr, "%s: -s must have one or %d factors\n",
                                        fname, mright->ncomp);
                        rmx_free(mright);
                        return(NULL);
                }
                if ((mleft == NULL) | (op->op != '+') &&
                                !rmx_scale(mright, op->sca)) {
                        fputs(fname, stderr);
                        fputs(": scalar operation failed\n", stderr);
                        rmx_free(mright);
                        return(NULL);
                }
                if (verbose) {
                        fputs(fname, stderr);
                        fputs(": applied scalar (", stderr);
                        for (i = 0; i < op->nsf; i++)
                                fprintf(stderr, " %f", op->sca[i]);
                        fputs(" )\n", stderr);
                }
        }
        if (op->clen > 0) {             /* apply transform */
                if (op->clen % mright->ncomp) {
                        fprintf(stderr, "%s: -c must have N x %d coefficients\n",
                                        fname, mright->ncomp);
                        rmx_free(mright);
                        return(NULL);
                }
                mtmp = rmx_transform(mright, op->clen/mright->ncomp, op->cmat);
                if (mtmp == NULL) {
                        fprintf(stderr, "%s: matrix transform failed\n", fname);
                        rmx_free(mright);
                        return(NULL);
                }
                if (verbose)
                        fprintf(stderr, "%s: applied %d x %d transform\n",
                                        fname, mtmp->ncomp, mright->ncomp);
                rmx_free(mright);
                mright = mtmp;
        }
        if (mleft == NULL)              /* just one matrix */
                return(mright);
        if (op->op == '*') {            /* concatenate */
                RMATRIX *mres = rmx_multiply(mleft, mright);
                if (mres == NULL) {
                        fputs(fname, stderr);
                        if (mleft->ncols != mright->nrows)
                                fputs(": mismatched dimensions for multiply\n",
                                                stderr);
                        else
                                fputs(": concatenation failed\n", stderr);
                        rmx_free(mright);
                        return(NULL);
                }
                if (verbose) {
                        fputs(fname, stderr);
                        fputs(": concatenated matrix\n", stderr);
                }
                rmx_free(mright);
                rmx_free(mleft);
                mleft = mres;
        } else if (op->op == '+') {
                if (!rmx_sum(mleft, mright, op->nsf ? op->sca : (double *)NULL)) {
                        fputs(fname, stderr);
                        fputs(": matrix sum failed\n", stderr);
                        rmx_free(mright);
                        return(NULL);
                }
                if (verbose) {
                        fputs(fname, stderr);
                        fputs(": added in matrix\n", stderr);
                }
                rmx_free(mright);
        } else {
                fprintf(stderr, "%s: unknown operation '%c'\n", fname, op->op);
                rmx_free(mright);
                return(NULL);
        }
        return(mleft);
}

static int
get_factors(double da[], int n, char *av[])
{
        int     ac;

        for (ac = 0; ac < n && isflt(av[ac]); ac++)
                da[ac] = atof(av[ac]);
        return(ac);
}

/* Load one or more matrices and operate on them, sending results to stdout */
int
main(int argc, char *argv[])
{
        int     outfmt = DTfromHeader;
        RMATRIX *mres = NULL;
        ROPERAT op;
        int     i;
                                        /* initialize */
        op_default(&op);
                                        /* get options and arguments */
        for (i = 1; i < argc; i++)
                if (argv[i][0] == '+' && !argv[i][1]) {
                        op.op = '+';
                } else if (argv[i][0] != '-' || !argv[i][1]) {
                        char    *fname = NULL;  /* load matrix */
                        if (argv[i][0] != '-')
                                fname = argv[i];
                        mres = operate(mres, &op, fname);
                        if (mres == NULL) {
                                fprintf(stderr, "%s: operation failed on '%s'\n",
                                                argv[0], argv[i]);
                                return(0);
                        }
                        op_default(&op);        /* reset operator */
                } else {
                        int     n = argc-1 - i;
                        switch (argv[i][1]) {   /* get option */
                        case 'v':
                                verbose = !verbose;
                                break;
                        case 'f':
                                switch (argv[i][2]) {
                                case 'd':
                                        outfmt = DTdouble;
                                        break;
                                case 'f':
                                        outfmt = DTfloat;
                                        break;
                                case 'a':
                                        outfmt = DTascii;
                                        break;
                                case 'c':
                                        outfmt = DTrgbe;
                                        break;
                                default:
                                        goto userr;
                                }
                                break;
                        case 't':
                                op.transpose = 1;
                                break;
                        case 's':
                                if (n > MAXCOMP) n = MAXCOMP;
                                op.nsf = get_factors(op.sca, n, argv+i+1);
                                i += op.nsf;
                                break;
                        case 'c':
                                if (n > MAXCOMP*MAXCOMP) n = MAXCOMP*MAXCOMP;
                                op.clen = get_factors(op.cmat, n, argv+i+1);
                                i += op.clen;
                                break;
                        default:
                                fprintf(stderr, "%s: unknown operation '%s'\n",
                                                argv[0], argv[i]);
                                goto userr;
                        }
                }
        if (mres == NULL)               /* check that we got something */
                goto userr;
                                        /* write result to stdout */
        if (outfmt == DTfromHeader)
                outfmt = mres->dtype;
#if defined(_WIN32) || defined(_WIN64)
        if (outfmt != DTascii)
                _setmode(fileno(stdout), _O_BINARY);
#endif
        newheader("RADIANCE", stdout);
        printargs(argc, argv, stdout);
        if (!rmx_write(mres, outfmt, stdout)) {
                fprintf(stderr, "%s: error writing result matrix\n", argv[0]);
                return(1);
        }
        /* rmx_free(mres); mres = NULL; */
        return(0);
userr:
        fprintf(stderr,
        "Usage: %s [-v][-f[adfc][-t][-s sf .. | -c ce ..] m1 [+] .. > mres\n",
                        argv[0]);
        return(1);
}
Revision:	2.9
Committed:	Sun Mar 6 01:13:18 2016 UTC (9 years, 7 months ago) by schorsch
Content type:	text/plain
Branch:	MAIN
Changes since 2.8:	+2 -2 lines
Log Message:	Prepare for SCons build on Win32 and Win64
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id: rmtxop.c,v 2.8 2015/07/22 04:47:51 greg Exp $";
3	#endif
4	/*
5	* General component matrix operations.
6	*/
7
8	#include <stdio.h>
9	#include <stdlib.h>
10	#include "rtio.h"
11	#include "resolu.h"
12	#include "rmatrix.h"
13
14	#define MAXCOMP 50 /* #components we support */
15
16	typedef struct {
17	double sca[MAXCOMP]; /* scalar coefficients */
18	int nsf; /* number of scalars */
19	double cmat[MAXCOMPMAXCOMP]; / component transformation */
20	int clen; /* number of coefficients */
21	int transpose; /* do transpose? */
22	int op; /* '' or '+' /
23	} ROPERAT; /* matrix operation */
24
25	int verbose = 0; /* verbose reporting? */
26
27	static void
28	op_default(ROPERAT *op)
29	{
30	memset(op, 0, sizeof(ROPERAT));
31	op->op = '*';
32	}
33
34	static RMATRIX *
35	operate(RMATRIX mleft, ROPERAT op, const char *fname)
36	{
37	RMATRIX *mright = rmx_load(fname);
38	RMATRIX *mtmp;
39	int i;
40
41	if (fname == NULL)
42	fname = "<stdin>";
43	if (mright == NULL) {
44	fputs(fname, stderr);
45	fputs(": cannot load matrix\n", stderr);
46	return(NULL);
47	}
48	if (op->transpose) { /* transpose matrix? */
49	mtmp = rmx_transpose(mright);
50	if (mtmp == NULL) {
51	fputs(fname, stderr);
52	fputs(": transpose failed\n", stderr);
53	rmx_free(mright);
54	return(NULL);
55	}
56	if (verbose) {
57	fputs(fname, stderr);
58	fputs(": transposed rows and columns\n", stderr);
59	}
60	rmx_free(mright);
61	mright = mtmp;
62	}
63	if (op->nsf > 0) { /* apply scalar(s) */
64	if (op->clen > 0) {
65	fputs("Options -s and -c are exclusive\n", stderr);
66	rmx_free(mright);
67	return(NULL);
68	}
69	if (op->nsf == 1) {
70	for (i = mright->ncomp; --i; )
71	op->sca[i] = op->sca[0];
72	} else if (op->nsf != mright->ncomp) {
73	fprintf(stderr, "%s: -s must have one or %d factors\n",
74	fname, mright->ncomp);
75	rmx_free(mright);
76	return(NULL);
77	}
78	if ((mleft == NULL) \| (op->op != '+') &&
79	!rmx_scale(mright, op->sca)) {
80	fputs(fname, stderr);
81	fputs(": scalar operation failed\n", stderr);
82	rmx_free(mright);
83	return(NULL);
84	}
85	if (verbose) {
86	fputs(fname, stderr);
87	fputs(": applied scalar (", stderr);
88	for (i = 0; i < op->nsf; i++)
89	fprintf(stderr, " %f", op->sca[i]);
90	fputs(" )\n", stderr);
91	}
92	}
93	if (op->clen > 0) { /* apply transform */
94	if (op->clen % mright->ncomp) {
95	fprintf(stderr, "%s: -c must have N x %d coefficients\n",
96	fname, mright->ncomp);
97	rmx_free(mright);
98	return(NULL);
99	}
100	mtmp = rmx_transform(mright, op->clen/mright->ncomp, op->cmat);
101	if (mtmp == NULL) {
102	fprintf(stderr, "%s: matrix transform failed\n", fname);
103	rmx_free(mright);
104	return(NULL);
105	}
106	if (verbose)
107	fprintf(stderr, "%s: applied %d x %d transform\n",
108	fname, mtmp->ncomp, mright->ncomp);
109	rmx_free(mright);
110	mright = mtmp;
111	}
112	if (mleft == NULL) /* just one matrix */
113	return(mright);
114	if (op->op == '') { / concatenate */
115	RMATRIX *mres = rmx_multiply(mleft, mright);
116	if (mres == NULL) {
117	fputs(fname, stderr);
118	if (mleft->ncols != mright->nrows)
119	fputs(": mismatched dimensions for multiply\n",
120	stderr);
121	else
122	fputs(": concatenation failed\n", stderr);
123	rmx_free(mright);
124	return(NULL);
125	}
126	if (verbose) {
127	fputs(fname, stderr);
128	fputs(": concatenated matrix\n", stderr);
129	}
130	rmx_free(mright);
131	rmx_free(mleft);
132	mleft = mres;
133	} else if (op->op == '+') {
134	if (!rmx_sum(mleft, mright, op->nsf ? op->sca : (double *)NULL)) {
135	fputs(fname, stderr);
136	fputs(": matrix sum failed\n", stderr);
137	rmx_free(mright);
138	return(NULL);
139	}
140	if (verbose) {
141	fputs(fname, stderr);
142	fputs(": added in matrix\n", stderr);
143	}
144	rmx_free(mright);
145	} else {
146	fprintf(stderr, "%s: unknown operation '%c'\n", fname, op->op);
147	rmx_free(mright);
148	return(NULL);
149	}
150	return(mleft);
151	}
152
153	static int
154	get_factors(double da[], int n, char *av[])
155	{
156	int ac;
157
158	for (ac = 0; ac < n && isflt(av[ac]); ac++)
159	da[ac] = atof(av[ac]);
160	return(ac);
161	}
162
163	/* Load one or more matrices and operate on them, sending results to stdout */
164	int
165	main(int argc, char *argv[])
166	{
167	int outfmt = DTfromHeader;
168	RMATRIX *mres = NULL;
169	ROPERAT op;
170	int i;
171	/* initialize */
172	op_default(&op);
173	/* get options and arguments */
174	for (i = 1; i < argc; i++)
175	if (argv[i][0] == '+' && !argv[i][1]) {
176	op.op = '+';
177	} else if (argv[i][0] != '-' \|\| !argv[i][1]) {
178	char fname = NULL; / load matrix */
179	if (argv[i][0] != '-')
180	fname = argv[i];
181	mres = operate(mres, &op, fname);
182	if (mres == NULL) {
183	fprintf(stderr, "%s: operation failed on '%s'\n",
184	argv[0], argv[i]);
185	return(0);
186	}
187	op_default(&op); /* reset operator */
188	} else {
189	int n = argc-1 - i;
190	switch (argv[i][1]) { /* get option */
191	case 'v':
192	verbose = !verbose;
193	break;
194	case 'f':
195	switch (argv[i][2]) {
196	case 'd':
197	outfmt = DTdouble;
198	break;
199	case 'f':
200	outfmt = DTfloat;
201	break;
202	case 'a':
203	outfmt = DTascii;
204	break;
205	case 'c':
206	outfmt = DTrgbe;
207	break;
208	default:
209	goto userr;
210	}
211	break;
212	case 't':
213	op.transpose = 1;
214	break;
215	case 's':
216	if (n > MAXCOMP) n = MAXCOMP;
217	op.nsf = get_factors(op.sca, n, argv+i+1);
218	i += op.nsf;
219	break;
220	case 'c':
221	if (n > MAXCOMPMAXCOMP) n = MAXCOMPMAXCOMP;
222	op.clen = get_factors(op.cmat, n, argv+i+1);
223	i += op.clen;
224	break;
225	default:
226	fprintf(stderr, "%s: unknown operation '%s'\n",
227	argv[0], argv[i]);
228	goto userr;
229	}
230	}
231	if (mres == NULL) /* check that we got something */
232	goto userr;
233	/* write result to stdout */
234	if (outfmt == DTfromHeader)
235	outfmt = mres->dtype;
236	#if defined(_WIN32) \|\| defined(_WIN64)
237	if (outfmt != DTascii)
238	_setmode(fileno(stdout), _O_BINARY);
239	#endif
240	newheader("RADIANCE", stdout);
241	printargs(argc, argv, stdout);
242	if (!rmx_write(mres, outfmt, stdout)) {
243	fprintf(stderr, "%s: error writing result matrix\n", argv[0]);
244	return(1);
245	}
246	/* rmx_free(mres); mres = NULL; */
247	return(0);
248	userr:
249	fprintf(stderr,
250	"Usage: %s [-v][-f[adfc][-t][-s sf .. \| -c ce ..] m1 [+] .. > mres\n",
251	argv[0]);
252	return(1);
253	}