5 |
|
* General component matrix operations. |
6 |
|
*/ |
7 |
|
|
8 |
– |
#include <stdio.h> |
8 |
|
#include <stdlib.h> |
9 |
|
#include <errno.h> |
10 |
+ |
#include <ctype.h> |
11 |
|
#include "rtio.h" |
12 |
|
#include "resolu.h" |
13 |
|
#include "rmatrix.h" |
14 |
|
#include "platform.h" |
15 |
|
|
16 |
< |
#define MAXCOMP 16 /* #components we support */ |
16 |
> |
#define MAXCOMP MAXCSAMP /* #components we support */ |
17 |
|
|
18 |
< |
static const char stdin_name[] = "<stdin>"; |
19 |
< |
|
20 |
< |
/* unary matrix operation(s) */ |
18 |
> |
/* Unary matrix operation(s) */ |
19 |
|
typedef struct { |
20 |
|
double sca[MAXCOMP]; /* scalar coefficients */ |
21 |
|
double cmat[MAXCOMP*MAXCOMP]; /* component transformation */ |
22 |
|
short nsf; /* number of scalars */ |
23 |
|
short clen; /* number of coefficients */ |
24 |
< |
short transpose; /* do transpose? */ |
24 |
> |
char csym[11]; /* symbolic coefficients */ |
25 |
> |
char transpose; /* do transpose? */ |
26 |
|
} RUNARYOP; |
27 |
|
|
28 |
< |
/* matrix input source and requested operation(s) */ |
28 |
> |
/* Matrix input source and requested operation(s) */ |
29 |
|
typedef struct { |
30 |
|
const char *inspec; /* input specification */ |
31 |
+ |
RMPref rmp; /* matrix preference */ |
32 |
|
RUNARYOP preop; /* unary operation(s) */ |
33 |
|
RMATRIX *mtx; /* original matrix if loaded */ |
34 |
|
int binop; /* binary op with next (or 0) */ |
40 |
|
static int |
41 |
|
loadmatrix(ROPMAT *rop) |
42 |
|
{ |
43 |
< |
if (rop->mtx != NULL) |
43 |
> |
if (rop->mtx != NULL) /* already loaded? */ |
44 |
|
return(0); |
45 |
|
|
46 |
< |
rop->mtx = rmx_load(rop->inspec == stdin_name ? |
47 |
< |
(const char *)NULL : rop->inspec); |
48 |
< |
if (rop->mtx == NULL) { |
49 |
< |
fputs(rop->inspec, stderr); |
50 |
< |
fputs(": cannot load matrix\n", stderr); |
46 |
> |
rop->mtx = rmx_load(rop->inspec, rop->rmp); |
47 |
> |
|
48 |
> |
return(!rop->mtx ? -1 : 1); |
49 |
> |
} |
50 |
> |
|
51 |
> |
/* Compute conversion row from spectrum to one channel of RGB */ |
52 |
> |
static void |
53 |
> |
rgbrow(ROPMAT *rop, int r, int p) |
54 |
> |
{ |
55 |
> |
const int nc = rop->mtx->ncomp; |
56 |
> |
const float * wlp = rop->mtx->wlpart; |
57 |
> |
int i; |
58 |
> |
|
59 |
> |
for (i = nc; i--; ) { |
60 |
> |
int nmEnd = wlp[0] + (wlp[3] - wlp[0])*i/nc; |
61 |
> |
int nmStart = wlp[0] + (wlp[3] - wlp[0])*(i+1)/nc; |
62 |
> |
COLOR crgb; |
63 |
> |
spec_rgb(crgb, nmStart, nmEnd); |
64 |
> |
rop->preop.cmat[r*nc+i] = crgb[p]; |
65 |
> |
} |
66 |
> |
} |
67 |
> |
|
68 |
> |
/* Compute conversion row from spectrum to one channel of XYZ */ |
69 |
> |
static void |
70 |
> |
xyzrow(ROPMAT *rop, int r, int p) |
71 |
> |
{ |
72 |
> |
const int nc = rop->mtx->ncomp; |
73 |
> |
const float * wlp = rop->mtx->wlpart; |
74 |
> |
int i; |
75 |
> |
|
76 |
> |
for (i = nc; i--; ) { |
77 |
> |
int nmEnd = wlp[0] + (wlp[3] - wlp[0])*i/nc; |
78 |
> |
int nmStart = wlp[0] + (wlp[3] - wlp[0])*(i+1)/nc; |
79 |
> |
COLOR cxyz; |
80 |
> |
spec_cie(cxyz, nmStart, nmEnd); |
81 |
> |
rop->preop.cmat[r*nc+i] = cxyz[p]; |
82 |
> |
} |
83 |
> |
} |
84 |
> |
|
85 |
> |
/* Use the spectral sensitivity function to compute matrix coefficients */ |
86 |
> |
static void |
87 |
> |
sensrow(ROPMAT *rop, int r, double (*sf)(SCOLOR sc, int ncs, const float wlpt[4])) |
88 |
> |
{ |
89 |
> |
const int nc = rop->mtx->ncomp; |
90 |
> |
int i; |
91 |
> |
|
92 |
> |
for (i = nc; i--; ) { |
93 |
> |
SCOLOR sclr; |
94 |
> |
scolorblack(sclr); |
95 |
> |
sclr[i] = 1; |
96 |
> |
rop->preop.cmat[r*nc+i] = (*sf)(sclr, nc, rop->mtx->wlpart); |
97 |
> |
} |
98 |
> |
} |
99 |
> |
|
100 |
> |
/* Check/set symbolic transform */ |
101 |
> |
static int |
102 |
> |
checksymbolic(ROPMAT *rop) |
103 |
> |
{ |
104 |
> |
const int nc = rop->mtx->ncomp; |
105 |
> |
const int dt = rop->mtx->dtype; |
106 |
> |
int i, j; |
107 |
> |
|
108 |
> |
if (nc < 3) { |
109 |
> |
fprintf(stderr, "%s: -c '%s' requires at least 3 components\n", |
110 |
> |
rop->inspec, rop->preop.csym); |
111 |
|
return(-1); |
112 |
|
} |
113 |
< |
return(1); |
113 |
> |
rop->preop.clen = strlen(rop->preop.csym) * nc; |
114 |
> |
if (rop->preop.clen > MAXCOMP*MAXCOMP) { |
115 |
> |
fprintf(stderr, "%s: -c '%s' results in too many components\n", |
116 |
> |
rop->inspec, rop->preop.csym); |
117 |
> |
return(-1); |
118 |
> |
} |
119 |
> |
for (j = 0; rop->preop.csym[j]; j++) { |
120 |
> |
int comp = 0; |
121 |
> |
switch (rop->preop.csym[j]) { |
122 |
> |
case 'B': |
123 |
> |
++comp; |
124 |
> |
/* fall through */ |
125 |
> |
case 'G': |
126 |
> |
++comp; |
127 |
> |
/* fall through */ |
128 |
> |
case 'R': |
129 |
> |
if (dt == DTxyze) { |
130 |
> |
for (i = 3; i--; ) |
131 |
> |
rop->preop.cmat[j*nc+i] = 1./WHTEFFICACY * |
132 |
> |
xyz2rgbmat[comp][i]; |
133 |
> |
} else if (nc == 3) |
134 |
> |
rop->preop.cmat[j*nc+comp] = 1.; |
135 |
> |
else |
136 |
> |
rgbrow(rop, j, comp); |
137 |
> |
break; |
138 |
> |
case 'Z': |
139 |
> |
++comp; |
140 |
> |
/* fall through */ |
141 |
> |
case 'Y': |
142 |
> |
++comp; |
143 |
> |
/* fall through */ |
144 |
> |
case 'X': |
145 |
> |
if (dt == DTxyze) { |
146 |
> |
rop->preop.cmat[j*nc+comp] = 1.; |
147 |
> |
} else if (nc == 3) { |
148 |
> |
for (i = 3; i--; ) |
149 |
> |
rop->preop.cmat[j*nc+i] = |
150 |
> |
rgb2xyzmat[comp][i]; |
151 |
> |
} else if (comp == CIEY) |
152 |
> |
sensrow(rop, j, scolor2photopic); |
153 |
> |
else |
154 |
> |
xyzrow(rop, j, comp); |
155 |
> |
|
156 |
> |
for (i = nc*(dt != DTxyze); i--; ) |
157 |
> |
rop->preop.cmat[j*nc+i] *= WHTEFFICACY; |
158 |
> |
break; |
159 |
> |
case 'S': |
160 |
> |
sensrow(rop, j, scolor2scotopic); |
161 |
> |
for (i = nc; i--; ) |
162 |
> |
rop->preop.cmat[j*nc+i] *= WHTSCOTOPIC; |
163 |
> |
break; |
164 |
> |
case 'M': |
165 |
> |
sensrow(rop, j, scolor2melanopic); |
166 |
> |
for (i = nc; i--; ) |
167 |
> |
rop->preop.cmat[j*nc+i] *= WHTMELANOPIC; |
168 |
> |
break; |
169 |
> |
default: |
170 |
> |
fprintf(stderr, "%s: -c '%c' unsupported\n", |
171 |
> |
rop->inspec, rop->preop.csym[j]); |
172 |
> |
return(-1); |
173 |
> |
} |
174 |
> |
} |
175 |
> |
/* return recommended output type */ |
176 |
> |
if (!strcmp(rop->preop.csym, "XYZ")) { |
177 |
> |
if (dt <= DTspec) |
178 |
> |
return(DTxyze); |
179 |
> |
} else if (!strcmp(rop->preop.csym, "RGB")) { |
180 |
> |
if (dt <= DTspec) |
181 |
> |
return(DTrgbe); |
182 |
> |
} |
183 |
> |
if ((nc > 3) & (dt <= DTspec)) |
184 |
> |
return(DTfloat); /* probably not actual spectrum */ |
185 |
> |
return(0); |
186 |
|
} |
187 |
|
|
188 |
|
/* Get matrix and perform unary operations */ |
189 |
|
static RMATRIX * |
190 |
|
loadop(ROPMAT *rop) |
191 |
|
{ |
192 |
+ |
int outtype = 0; |
193 |
|
RMATRIX *mres; |
194 |
< |
int i; |
194 |
> |
int i, j; |
195 |
|
|
196 |
|
if (loadmatrix(rop) < 0) /* make sure we're loaded */ |
197 |
|
return(NULL); |
198 |
|
|
199 |
< |
if (rop->preop.nsf > 0) { /* apply scalar(s) */ |
200 |
< |
if (rop->preop.clen > 0) { |
201 |
< |
fputs("Options -s and -c are exclusive\n", stderr); |
199 |
> |
if (rop->preop.csym[0] && /* symbolic transform? */ |
200 |
> |
(outtype = checksymbolic(rop)) < 0) |
201 |
> |
goto failure; |
202 |
> |
if (rop->preop.clen > 0) { /* apply component transform? */ |
203 |
> |
if (rop->preop.clen % rop->mtx->ncomp) { |
204 |
> |
fprintf(stderr, "%s: -c must have N x %d coefficients\n", |
205 |
> |
rop->inspec, rop->mtx->ncomp); |
206 |
|
goto failure; |
207 |
|
} |
208 |
+ |
if (rop->preop.nsf > 0) { /* scale transform, first */ |
209 |
+ |
if (rop->preop.nsf == 1) { |
210 |
+ |
for (i = rop->preop.clen; i--; ) |
211 |
+ |
rop->preop.cmat[i] *= rop->preop.sca[0]; |
212 |
+ |
} else if (rop->preop.nsf != rop->mtx->ncomp) { |
213 |
+ |
fprintf(stderr, "%s: -s must have one or %d factors\n", |
214 |
+ |
rop->inspec, rop->mtx->ncomp); |
215 |
+ |
goto failure; |
216 |
+ |
} else { |
217 |
+ |
for (j = rop->preop.clen/rop->preop.nsf; j--; ) |
218 |
+ |
for (i = rop->preop.nsf; i--; ) |
219 |
+ |
rop->preop.cmat[j*rop->preop.nsf+i] *= |
220 |
+ |
rop->preop.sca[i]; |
221 |
+ |
} |
222 |
+ |
} |
223 |
+ |
mres = rmx_transform(rop->mtx, rop->preop.clen/rop->mtx->ncomp, |
224 |
+ |
rop->preop.cmat); |
225 |
+ |
if (mres == NULL) { |
226 |
+ |
fprintf(stderr, "%s: matrix transform failed\n", |
227 |
+ |
rop->inspec); |
228 |
+ |
goto failure; |
229 |
+ |
} |
230 |
+ |
if (verbose) |
231 |
+ |
fprintf(stderr, "%s: applied %d x %d transform%s\n", |
232 |
+ |
rop->inspec, mres->ncomp, |
233 |
+ |
rop->mtx->ncomp, |
234 |
+ |
rop->preop.nsf ? " (* scalar)" : ""); |
235 |
+ |
rop->preop.nsf = 0; |
236 |
+ |
if ((mres->ncomp > 3) & (mres->dtype <= DTspec)) |
237 |
+ |
outtype = DTfloat; /* probably not actual spectrum */ |
238 |
+ |
rmx_free(rop->mtx); |
239 |
+ |
rop->mtx = mres; |
240 |
+ |
} |
241 |
+ |
if (rop->preop.nsf > 0) { /* apply scalar(s)? */ |
242 |
|
if (rop->preop.nsf == 1) { |
243 |
|
for (i = rop->mtx->ncomp; --i; ) |
244 |
|
rop->preop.sca[i] = rop->preop.sca[0]; |
260 |
|
fputs(" )\n", stderr); |
261 |
|
} |
262 |
|
} |
263 |
< |
if (rop->preop.clen > 0) { /* apply transform */ |
93 |
< |
if (rop->preop.clen % rop->mtx->ncomp) { |
94 |
< |
fprintf(stderr, "%s: -c must have N x %d coefficients\n", |
95 |
< |
rop->inspec, rop->mtx->ncomp); |
96 |
< |
goto failure; |
97 |
< |
} |
98 |
< |
mres = rmx_transform(rop->mtx, rop->preop.clen/rop->mtx->ncomp, |
99 |
< |
rop->preop.cmat); |
100 |
< |
if (mres == NULL) { |
101 |
< |
fprintf(stderr, "%s: matrix transform failed\n", |
102 |
< |
rop->inspec); |
103 |
< |
goto failure; |
104 |
< |
} |
105 |
< |
if (verbose) |
106 |
< |
fprintf(stderr, "%s: applied %d x %d transform\n", |
107 |
< |
rop->inspec, mres->ncomp, |
108 |
< |
rop->mtx->ncomp); |
109 |
< |
rmx_free(rop->mtx); |
110 |
< |
rop->mtx = mres; |
111 |
< |
} |
112 |
< |
if (rop->preop.transpose) { /* transpose matrix? */ |
263 |
> |
if (rop->preop.transpose) { /* transpose matrix? */ |
264 |
|
mres = rmx_transpose(rop->mtx); |
265 |
|
if (mres == NULL) { |
266 |
|
fputs(rop->inspec, stderr); |
276 |
|
} |
277 |
|
mres = rop->mtx; |
278 |
|
rop->mtx = NULL; |
279 |
+ |
if (outtype) |
280 |
+ |
mres->dtype = outtype; |
281 |
|
return(mres); |
282 |
|
failure: |
283 |
|
rmx_free(rop->mtx); |
293 |
|
|
294 |
|
if ((mleft == NULL) | (mright == NULL)) |
295 |
|
return(NULL); |
143 |
– |
|
296 |
|
switch (op) { |
297 |
|
case '.': /* concatenate */ |
298 |
< |
mres = rmx_multiply(mleft, mright); |
298 |
> |
if (mleft->ncomp != mright->ncomp) { |
299 |
> |
fputs(inspec, stderr); |
300 |
> |
fputs(": # components do not match\n", stderr); |
301 |
> |
} else if (mleft->ncols != mright->nrows) { |
302 |
> |
fputs(inspec, stderr); |
303 |
> |
fputs(": mismatched dimensions\n", |
304 |
> |
stderr); |
305 |
> |
} else |
306 |
> |
mres = rmx_multiply(mleft, mright); |
307 |
|
rmx_free(mleft); |
308 |
|
rmx_free(mright); |
309 |
|
if (mres == NULL) { |
310 |
|
fputs(inspec, stderr); |
311 |
< |
if (mleft->ncols != mright->nrows) |
152 |
< |
fputs(": mismatched dimensions for multiply\n", |
153 |
< |
stderr); |
154 |
< |
else |
155 |
< |
fputs(": concatenation failed\n", stderr); |
311 |
> |
fputs(": concatenation failed\n", stderr); |
312 |
|
return(NULL); |
313 |
|
} |
314 |
|
if (verbose) { |
385 |
|
int rpos = 0; |
386 |
|
/* find end of list */ |
387 |
|
while (mop[rpos].binop) |
388 |
< |
rpos++; |
388 |
> |
if (mop[rpos++].binop != '.') { |
389 |
> |
fputs( |
390 |
> |
"Right-to-left evaluation only for matrix multiplication!\n", |
391 |
> |
stderr); |
392 |
> |
return(NULL); |
393 |
> |
} |
394 |
|
mright = loadop(mop+rpos); |
395 |
|
while (rpos-- > 0) { |
396 |
|
if (mright == NULL) |
397 |
|
break; |
398 |
< |
mright = binaryop(mop[rpos].inspec, |
398 |
> |
mright = binaryop(mop[rpos+1].inspec, |
399 |
|
loadop(mop+rpos), mop[rpos].binop, mright); |
400 |
|
} |
401 |
|
return(mright); |
474 |
|
int i; |
475 |
|
/* get options and arguments */ |
476 |
|
for (i = 1; i < argc; i++) { |
316 |
– |
if (nmats >= nall) |
317 |
– |
mop = grow_moparray(mop, nall += 2); |
477 |
|
if (argv[i][0] && !argv[i][1] && |
478 |
|
strchr(".+*/", argv[i][0]) != NULL) { |
479 |
< |
if (mop[nmats].inspec == NULL || mop[nmats].binop) { |
480 |
< |
fprintf(stderr, "%s: missing matrix argument\n", |
481 |
< |
argv[0]); |
479 |
> |
if (!nmats || mop[nmats-1].binop) { |
480 |
> |
fprintf(stderr, |
481 |
> |
"%s: missing matrix argument before '%c' operation\n", |
482 |
> |
argv[0], argv[i][0]); |
483 |
|
return(1); |
484 |
|
} |
485 |
< |
mop[nmats++].binop = argv[i][0]; |
485 |
> |
mop[nmats-1].binop = argv[i][0]; |
486 |
|
} else if (argv[i][0] != '-' || !argv[i][1]) { |
487 |
|
if (argv[i][0] == '-') { |
488 |
|
if (stdin_used++) { |
501 |
|
int n = argc-1 - i; |
502 |
|
switch (argv[i][1]) { /* get option */ |
503 |
|
case 'v': |
504 |
< |
verbose = !verbose; |
504 |
> |
verbose++; |
505 |
|
break; |
506 |
|
case 'f': |
507 |
|
switch (argv[i][2]) { |
529 |
|
i += mop[nmats].preop.nsf = |
530 |
|
get_factors(mop[nmats].preop.sca, |
531 |
|
n, argv+i+1); |
532 |
+ |
if (mop[nmats].preop.nsf <= 0) { |
533 |
+ |
fprintf(stderr, "%s: -s missing arguments\n", |
534 |
+ |
argv[0]); |
535 |
+ |
goto userr; |
536 |
+ |
} |
537 |
|
break; |
538 |
|
case 'c': |
539 |
+ |
if (n && isupper(argv[i+1][0])) { |
540 |
+ |
strlcpy(mop[nmats].preop.csym, |
541 |
+ |
argv[++i], |
542 |
+ |
sizeof(mop[0].preop.csym)); |
543 |
+ |
mop[nmats].preop.clen = 0; |
544 |
+ |
break; |
545 |
+ |
} |
546 |
|
if (n > MAXCOMP*MAXCOMP) n = MAXCOMP*MAXCOMP; |
547 |
|
i += mop[nmats].preop.clen = |
548 |
|
get_factors(mop[nmats].preop.cmat, |
549 |
|
n, argv+i+1); |
550 |
+ |
if (mop[nmats].preop.clen <= 0) { |
551 |
+ |
fprintf(stderr, "%s: -c missing arguments\n", |
552 |
+ |
argv[0]); |
553 |
+ |
goto userr; |
554 |
+ |
} |
555 |
+ |
mop[nmats].preop.csym[0] = '\0'; |
556 |
|
break; |
557 |
+ |
case 'r': |
558 |
+ |
if (argv[i][2] == 'f') |
559 |
+ |
mop[nmats].rmp = RMPreflF; |
560 |
+ |
else if (argv[i][2] == 'b') |
561 |
+ |
mop[nmats].rmp = RMPreflB; |
562 |
+ |
else |
563 |
+ |
goto userr; |
564 |
+ |
break; |
565 |
|
default: |
566 |
|
fprintf(stderr, "%s: unknown operation '%s'\n", |
567 |
|
argv[0], argv[i]); |
568 |
|
goto userr; |
569 |
|
} |
570 |
|
} |
571 |
+ |
if (nmats >= nall) |
572 |
+ |
mop = grow_moparray(mop, nall += 2); |
573 |
|
} |
574 |
|
if (mop[0].inspec == NULL) /* nothing to do? */ |
575 |
|
goto userr; |
576 |
+ |
if (mop[nmats-1].binop) { |
577 |
+ |
fprintf(stderr, |
578 |
+ |
"%s: missing matrix argument after '%c' operation\n", |
579 |
+ |
argv[0], mop[nmats-1].binop); |
580 |
+ |
return(1); |
581 |
+ |
} |
582 |
|
/* favor quicker concatenation */ |
583 |
< |
mres = prefer_right2left(mop) ? op_right2left(mop) : op_left2right(mop); |
584 |
< |
if (!mres) |
583 |
> |
mop[nmats].mtx = prefer_right2left(mop) ? op_right2left(mop) |
584 |
> |
: op_left2right(mop); |
585 |
> |
if (mop[nmats].mtx == NULL) |
586 |
|
return(1); |
587 |
< |
/* write result to stdout */ |
588 |
< |
if (outfmt == DTfromHeader) |
587 |
> |
/* apply trailing unary operations */ |
588 |
> |
mop[nmats].inspec = "trailing_ops"; |
589 |
> |
mres = loadop(mop+nmats); |
590 |
> |
if (mres == NULL) |
591 |
> |
return(1); |
592 |
> |
if (outfmt == DTfromHeader) /* check data type */ |
593 |
|
outfmt = mres->dtype; |
594 |
< |
if (outfmt != DTascii) |
594 |
> |
if (outfmt == DTrgbe) { |
595 |
> |
if (mres->ncomp > 3) |
596 |
> |
outfmt = DTspec; |
597 |
> |
else if (mres->dtype == DTxyze) |
598 |
> |
outfmt = DTxyze; |
599 |
> |
} |
600 |
> |
if (outfmt != DTascii) /* write result to stdout */ |
601 |
|
SET_FILE_BINARY(stdout); |
602 |
|
newheader("RADIANCE", stdout); |
603 |
|
printargs(argc, argv, stdout); |
604 |
< |
if (!rmx_write(mres, outfmt, stdout)) { |
605 |
< |
fprintf(stderr, "%s: error writing result matrix\n", argv[0]); |
401 |
< |
return(1); |
402 |
< |
} |
403 |
< |
/* rmx_free(mres); free(mop); */ |
404 |
< |
return(0); |
604 |
> |
|
605 |
> |
return(rmx_write(mres, outfmt, stdout) ? 0 : 1); |
606 |
|
userr: |
607 |
|
fprintf(stderr, |
608 |
< |
"Usage: %s [-v][-f[adfc][-t][-s sf .. | -c ce ..] m1 [.+*/] .. > mres\n", |
608 |
> |
"Usage: %s [-v][-f[adfc][-t][-s sf .. | -c ce ..][-rf|-rb] m1 [.+*/] .. > mres\n", |
609 |
|
argv[0]); |
610 |
|
return(1); |
611 |
|
} |