blob: be0b32eb0c1f03727cfab77bbf9a1a40d8ccd2e6 [file] [log] [blame]
cristy3ed852e2009-09-05 21:47:34 +00001/*
2%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
3% %
4% %
5% %
6% M M AAA TTTTT RRRR IIIII X X %
7% MM MM A A T R R I X X %
8% M M M AAAAA T RRRR I X %
9% M M A A T R R I X X %
10% M M A A T R R IIIII X X %
11% %
12% %
13% MagickCore Matrix Methods %
14% %
15% Software Design %
cristyde984cd2013-12-01 14:49:27 +000016% Cristy %
cristy3ed852e2009-09-05 21:47:34 +000017% August 2007 %
18% %
19% %
Cristyf6ff9ea2016-12-05 09:53:35 -050020% Copyright 1999-2017 ImageMagick Studio LLC, a non-profit organization %
cristy3ed852e2009-09-05 21:47:34 +000021% dedicated to making software imaging solutions freely available. %
22% %
23% You may not use this file except in compliance with the License. You may %
24% obtain a copy of the License at %
25% %
Cristyf19d4142017-04-24 11:34:30 -040026% https://www.imagemagick.org/script/license.php %
cristy3ed852e2009-09-05 21:47:34 +000027% %
28% Unless required by applicable law or agreed to in writing, software %
29% distributed under the License is distributed on an "AS IS" BASIS, %
30% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. %
31% See the License for the specific language governing permissions and %
32% limitations under the License. %
33% %
34%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
35%
36%
37*/
38
39/*
40 Include declarations.
41*/
cristy4c08aed2011-07-01 19:47:50 +000042#include "MagickCore/studio.h"
cristy106efa12014-03-09 01:06:05 +000043#include "MagickCore/blob.h"
44#include "MagickCore/blob-private.h"
45#include "MagickCore/cache.h"
46#include "MagickCore/exception.h"
47#include "MagickCore/exception-private.h"
dirk007e9252015-01-15 21:02:57 +000048#include "MagickCore/image-private.h"
cristy4c08aed2011-07-01 19:47:50 +000049#include "MagickCore/matrix.h"
Cristy044b9332017-06-02 08:32:43 -040050#include "MagickCore/matrix-private.h"
cristy4c08aed2011-07-01 19:47:50 +000051#include "MagickCore/memory_.h"
cristy0f09a8c2014-04-23 00:20:40 +000052#include "MagickCore/pixel-accessor.h"
cristy106efa12014-03-09 01:06:05 +000053#include "MagickCore/pixel-private.h"
54#include "MagickCore/resource_.h"
cristycba9e952014-03-30 23:17:57 +000055#include "MagickCore/semaphore.h"
cristyf3b58c52014-04-22 01:27:24 +000056#include "MagickCore/thread-private.h"
cristy106efa12014-03-09 01:06:05 +000057#include "MagickCore/utility.h"
58
59/*
60 Typedef declaration.
61*/
62struct _MatrixInfo
63{
64 CacheType
65 type;
66
67 size_t
68 columns,
69 rows,
70 stride;
71
72 MagickSizeType
73 length;
74
75 MagickBooleanType
cristyc1712b22014-03-09 14:54:05 +000076 mapped,
77 synchronize;
cristy106efa12014-03-09 01:06:05 +000078
79 char
cristy151b66d2015-04-15 10:50:31 +000080 path[MagickPathExtent];
cristy106efa12014-03-09 01:06:05 +000081
82 int
83 file;
84
85 void
86 *elements;
87
cristycba9e952014-03-30 23:17:57 +000088 SemaphoreInfo
89 *semaphore;
90
cristy106efa12014-03-09 01:06:05 +000091 size_t
92 signature;
93};
94
95/*
96%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
97% %
98% %
99% %
100% A c q u i r e M a t r i x I n f o %
101% %
102% %
103% %
104%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
105%
cristyc1712b22014-03-09 14:54:05 +0000106% AcquireMatrixInfo() allocates the ImageInfo structure.
cristy106efa12014-03-09 01:06:05 +0000107%
108% The format of the AcquireMatrixInfo method is:
109%
110% MatrixInfo *AcquireMatrixInfo(const size_t columns,const size_t rows,
111% const size_t stride,ExceptionInfo *exception)
112%
113% A description of each parameter follows:
114%
115% o columns: the matrix columns.
116%
117% o rows: the matrix rows.
118%
119% o stride: the matrix stride.
120%
121% o exception: return any errors or warnings in this structure.
122%
123*/
cristyc1712b22014-03-09 14:54:05 +0000124
cristyc1712b22014-03-09 14:54:05 +0000125#if defined(SIGBUS)
126static void MatrixSignalHandler(int status)
127{
128 ThrowFatalException(CacheFatalError,"UnableToExtendMatrixCache");
129}
130#endif
131
132static inline MagickOffsetType WriteMatrixElements(
dirk05d2ff72015-11-18 23:13:43 +0100133 const MatrixInfo *magick_restrict matrix_info,const MagickOffsetType offset,
134 const MagickSizeType length,const unsigned char *magick_restrict buffer)
cristyc1712b22014-03-09 14:54:05 +0000135{
136 register MagickOffsetType
137 i;
138
139 ssize_t
140 count;
141
142#if !defined(MAGICKCORE_HAVE_PWRITE)
cristy10c210e2014-03-30 23:27:24 +0000143 LockSemaphoreInfo(matrix_info->semaphore);
cristyc1712b22014-03-09 14:54:05 +0000144 if (lseek(matrix_info->file,offset,SEEK_SET) < 0)
cristy10c210e2014-03-30 23:27:24 +0000145 {
146 UnlockSemaphoreInfo(matrix_info->semaphore);
147 return((MagickOffsetType) -1);
148 }
cristyc1712b22014-03-09 14:54:05 +0000149#endif
150 count=0;
151 for (i=0; i < (MagickOffsetType) length; i+=count)
152 {
153#if !defined(MAGICKCORE_HAVE_PWRITE)
154 count=write(matrix_info->file,buffer+i,(size_t) MagickMin(length-i,
155 (MagickSizeType) SSIZE_MAX));
156#else
157 count=pwrite(matrix_info->file,buffer+i,(size_t) MagickMin(length-i,
158 (MagickSizeType) SSIZE_MAX),(off_t) (offset+i));
159#endif
160 if (count <= 0)
161 {
162 count=0;
163 if (errno != EINTR)
164 break;
165 }
166 }
cristy10c210e2014-03-30 23:27:24 +0000167#if !defined(MAGICKCORE_HAVE_PWRITE)
168 UnlockSemaphoreInfo(matrix_info->semaphore);
169#endif
cristyc1712b22014-03-09 14:54:05 +0000170 return(i);
171}
172
dirk05d2ff72015-11-18 23:13:43 +0100173static MagickBooleanType SetMatrixExtent(
Cristyc2744aa2017-10-31 15:45:44 -0400174 MatrixInfo *magick_restrict matrix_info,MagickSizeType length)
cristyc1712b22014-03-09 14:54:05 +0000175{
176 MagickOffsetType
177 count,
178 extent,
179 offset;
180
181 if (length != (MagickSizeType) ((MagickOffsetType) length))
182 return(MagickFalse);
183 offset=(MagickOffsetType) lseek(matrix_info->file,0,SEEK_END);
184 if (offset < 0)
185 return(MagickFalse);
186 if ((MagickSizeType) offset >= length)
187 return(MagickTrue);
188 extent=(MagickOffsetType) length-1;
189 count=WriteMatrixElements(matrix_info,extent,1,(const unsigned char *) "");
190#if defined(MAGICKCORE_HAVE_POSIX_FALLOCATE)
191 if (matrix_info->synchronize != MagickFalse)
cristybb380e72014-10-31 12:56:36 +0000192 (void) posix_fallocate(matrix_info->file,offset+1,extent-offset);
cristyc1712b22014-03-09 14:54:05 +0000193#endif
194#if defined(SIGBUS)
195 (void) signal(SIGBUS,MatrixSignalHandler);
196#endif
197 return(count != (MagickOffsetType) 1 ? MagickFalse : MagickTrue);
198}
199
cristy106efa12014-03-09 01:06:05 +0000200MagickExport MatrixInfo *AcquireMatrixInfo(const size_t columns,
201 const size_t rows,const size_t stride,ExceptionInfo *exception)
202{
cristyc1712b22014-03-09 14:54:05 +0000203 char
204 *synchronize;
205
cristy106efa12014-03-09 01:06:05 +0000206 MagickBooleanType
207 status;
208
209 MatrixInfo
210 *matrix_info;
211
212 matrix_info=(MatrixInfo *) AcquireMagickMemory(sizeof(*matrix_info));
213 if (matrix_info == (MatrixInfo *) NULL)
214 return((MatrixInfo *) NULL);
215 (void) ResetMagickMemory(matrix_info,0,sizeof(*matrix_info));
cristye1c94d92015-06-28 12:16:33 +0000216 matrix_info->signature=MagickCoreSignature;
cristy106efa12014-03-09 01:06:05 +0000217 matrix_info->columns=columns;
218 matrix_info->rows=rows;
219 matrix_info->stride=stride;
cristycba9e952014-03-30 23:17:57 +0000220 matrix_info->semaphore=AcquireSemaphoreInfo();
cristyc1712b22014-03-09 14:54:05 +0000221 synchronize=GetEnvironmentValue("MAGICK_SYNCHRONIZE");
222 if (synchronize != (const char *) NULL)
223 {
224 matrix_info->synchronize=IsStringTrue(synchronize);
225 synchronize=DestroyString(synchronize);
226 }
cristy106efa12014-03-09 01:06:05 +0000227 matrix_info->length=(MagickSizeType) columns*rows*stride;
228 if (matrix_info->columns != (size_t) (matrix_info->length/rows/stride))
229 {
230 (void) ThrowMagickException(exception,GetMagickModule(),CacheError,
231 "CacheResourcesExhausted","`%s'","matrix cache");
232 return(DestroyMatrixInfo(matrix_info));
233 }
234 matrix_info->type=MemoryCache;
235 status=AcquireMagickResource(AreaResource,matrix_info->length);
236 if ((status != MagickFalse) &&
237 (matrix_info->length == (MagickSizeType) ((size_t) matrix_info->length)))
238 {
239 status=AcquireMagickResource(MemoryResource,matrix_info->length);
240 if (status != MagickFalse)
241 {
cristyc1712b22014-03-09 14:54:05 +0000242 matrix_info->mapped=MagickFalse;
cristy106efa12014-03-09 01:06:05 +0000243 matrix_info->elements=AcquireMagickMemory((size_t)
244 matrix_info->length);
245 if (matrix_info->elements == NULL)
246 {
247 matrix_info->mapped=MagickTrue;
248 matrix_info->elements=MapBlob(-1,IOMode,0,(size_t)
249 matrix_info->length);
250 }
251 if (matrix_info->elements == (unsigned short *) NULL)
252 RelinquishMagickResource(MemoryResource,matrix_info->length);
253 }
254 }
255 matrix_info->file=(-1);
256 if (matrix_info->elements == (unsigned short *) NULL)
257 {
258 status=AcquireMagickResource(DiskResource,matrix_info->length);
259 if (status == MagickFalse)
260 {
261 (void) ThrowMagickException(exception,GetMagickModule(),CacheError,
262 "CacheResourcesExhausted","`%s'","matrix cache");
263 return(DestroyMatrixInfo(matrix_info));
264 }
265 matrix_info->type=DiskCache;
266 (void) AcquireMagickResource(MemoryResource,matrix_info->length);
267 matrix_info->file=AcquireUniqueFileResource(matrix_info->path);
268 if (matrix_info->file == -1)
269 return(DestroyMatrixInfo(matrix_info));
270 status=AcquireMagickResource(MapResource,matrix_info->length);
271 if (status != MagickFalse)
272 {
cristyc1712b22014-03-09 14:54:05 +0000273 status=SetMatrixExtent(matrix_info,matrix_info->length);
cristy106efa12014-03-09 01:06:05 +0000274 if (status != MagickFalse)
275 {
276 matrix_info->elements=(void *) MapBlob(matrix_info->file,IOMode,0,
277 (size_t) matrix_info->length);
278 if (matrix_info->elements != NULL)
279 matrix_info->type=MapCache;
280 else
281 RelinquishMagickResource(MapResource,matrix_info->length);
282 }
283 }
284 }
285 return(matrix_info);
286}
cristy3ed852e2009-09-05 21:47:34 +0000287
288/*
289%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
290% %
291% %
292% %
293% A c q u i r e M a g i c k M a t r i x %
294% %
295% %
296% %
297%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
298%
299% AcquireMagickMatrix() allocates and returns a matrix in the form of an
300% array of pointers to an array of doubles, with all values pre-set to zero.
301%
cristy106efa12014-03-09 01:06:05 +0000302% This used to generate the two dimensional matrix, and vectors required
303% for the GaussJordanElimination() method below, solving some system of
304% simultanious equations.
cristy3ed852e2009-09-05 21:47:34 +0000305%
306% The format of the AcquireMagickMatrix method is:
307%
cristybb503372010-05-27 20:51:26 +0000308% double **AcquireMagickMatrix(const size_t number_rows,
309% const size_t size)
cristy3ed852e2009-09-05 21:47:34 +0000310%
311% A description of each parameter follows:
312%
cristy74908cf2010-05-17 19:43:54 +0000313% o number_rows: the number pointers for the array of pointers
cristy1ad491d2010-05-17 19:45:27 +0000314% (first dimension).
cristy3ed852e2009-09-05 21:47:34 +0000315%
cristy1ad491d2010-05-17 19:45:27 +0000316% o size: the size of the array of doubles each pointer points to
317% (second dimension).
cristy3ed852e2009-09-05 21:47:34 +0000318%
319*/
cristybb503372010-05-27 20:51:26 +0000320MagickExport double **AcquireMagickMatrix(const size_t number_rows,
321 const size_t size)
cristy3ed852e2009-09-05 21:47:34 +0000322{
323 double
cristy74908cf2010-05-17 19:43:54 +0000324 **matrix;
cristy3ed852e2009-09-05 21:47:34 +0000325
cristybb503372010-05-27 20:51:26 +0000326 register ssize_t
cristy3ed852e2009-09-05 21:47:34 +0000327 i,
328 j;
329
cristy74908cf2010-05-17 19:43:54 +0000330 matrix=(double **) AcquireQuantumMemory(number_rows,sizeof(*matrix));
cristy3ed852e2009-09-05 21:47:34 +0000331 if (matrix == (double **) NULL)
cristyf432c632014-12-07 15:11:28 +0000332 return((double **) NULL);
cristybb503372010-05-27 20:51:26 +0000333 for (i=0; i < (ssize_t) number_rows; i++)
cristy3ed852e2009-09-05 21:47:34 +0000334 {
335 matrix[i]=(double *) AcquireQuantumMemory(size,sizeof(*matrix[i]));
336 if (matrix[i] == (double *) NULL)
337 {
338 for (j=0; j < i; j++)
339 matrix[j]=(double *) RelinquishMagickMemory(matrix[j]);
340 matrix=(double **) RelinquishMagickMemory(matrix);
341 return((double **) NULL);
342 }
cristybb503372010-05-27 20:51:26 +0000343 for (j=0; j < (ssize_t) size; j++)
cristy74908cf2010-05-17 19:43:54 +0000344 matrix[i][j]=0.0;
cristy3ed852e2009-09-05 21:47:34 +0000345 }
346 return(matrix);
347}
348
349/*
350%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
351% %
352% %
353% %
cristy106efa12014-03-09 01:06:05 +0000354% D e s t r o y M a t r i x I n f o %
355% %
356% %
357% %
358%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
359%
360% DestroyMatrixInfo() dereferences a matrix, deallocating memory associated
361% with the matrix.
362%
363% The format of the DestroyImage method is:
364%
365% MatrixInfo *DestroyMatrixInfo(MatrixInfo *matrix_info)
366%
367% A description of each parameter follows:
368%
369% o matrix_info: the matrix.
370%
371*/
372MagickExport MatrixInfo *DestroyMatrixInfo(MatrixInfo *matrix_info)
373{
374 assert(matrix_info != (MatrixInfo *) NULL);
cristye1c94d92015-06-28 12:16:33 +0000375 assert(matrix_info->signature == MagickCoreSignature);
cristycba9e952014-03-30 23:17:57 +0000376 LockSemaphoreInfo(matrix_info->semaphore);
cristy106efa12014-03-09 01:06:05 +0000377 switch (matrix_info->type)
378 {
379 case MemoryCache:
380 {
381 if (matrix_info->mapped == MagickFalse)
382 matrix_info->elements=RelinquishMagickMemory(matrix_info->elements);
383 else
384 {
385 (void) UnmapBlob(matrix_info->elements,(size_t) matrix_info->length);
386 matrix_info->elements=(unsigned short *) NULL;
387 }
388 RelinquishMagickResource(MemoryResource,matrix_info->length);
389 break;
390 }
391 case MapCache:
392 {
393 (void) UnmapBlob(matrix_info->elements,(size_t) matrix_info->length);
394 matrix_info->elements=NULL;
395 RelinquishMagickResource(MapResource,matrix_info->length);
396 }
397 case DiskCache:
398 {
399 if (matrix_info->file != -1)
400 (void) close(matrix_info->file);
401 (void) RelinquishUniqueFileResource(matrix_info->path);
402 RelinquishMagickResource(DiskResource,matrix_info->length);
403 break;
404 }
405 default:
406 break;
407 }
cristycba9e952014-03-30 23:17:57 +0000408 UnlockSemaphoreInfo(matrix_info->semaphore);
409 RelinquishSemaphoreInfo(&matrix_info->semaphore);
cristy106efa12014-03-09 01:06:05 +0000410 return((MatrixInfo *) RelinquishMagickMemory(matrix_info));
411}
412
413/*
414%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
415% %
416% %
417% %
Cristy88932ef2015-12-20 17:35:31 -0500418+ G a u s s J o r d a n E l i m i n a t i o n %
cristy3ed852e2009-09-05 21:47:34 +0000419% %
420% %
421% %
422%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
423%
424% GaussJordanElimination() returns a matrix in reduced row echelon form,
425% while simultaneously reducing and thus solving the augumented results
426% matrix.
427%
428% See also http://en.wikipedia.org/wiki/Gauss-Jordan_elimination
429%
430% The format of the GaussJordanElimination method is:
431%
cristy7dbde212014-10-11 06:59:40 +0000432% MagickBooleanType GaussJordanElimination(double **matrix,
433% double **vectors,const size_t rank,const size_t number_vectors)
cristy3ed852e2009-09-05 21:47:34 +0000434%
435% A description of each parameter follows:
436%
437% o matrix: the matrix to be reduced, as an 'array of row pointers'.
438%
439% o vectors: the additional matrix argumenting the matrix for row reduction.
440% Producing an 'array of column vectors'.
441%
cristy106efa12014-03-09 01:06:05 +0000442% o rank: The size of the matrix (both rows and columns).
cristy3ed852e2009-09-05 21:47:34 +0000443% Also represents the number terms that need to be solved.
444%
cristy74908cf2010-05-17 19:43:54 +0000445% o number_vectors: Number of vectors columns, argumenting the above matrix.
cristy3ed852e2009-09-05 21:47:34 +0000446% Usally 1, but can be more for more complex equation solving.
447%
448% Note that the 'matrix' is given as a 'array of row pointers' of rank size.
449% That is values can be assigned as matrix[row][column] where 'row' is
450% typically the equation, and 'column' is the term of the equation.
451% That is the matrix is in the form of a 'row first array'.
452%
453% However 'vectors' is a 'array of column pointers' which can have any number
454% of columns, with each column array the same 'rank' size as 'matrix'.
455%
456% This allows for simpler handling of the results, especially is only one
cristy106efa12014-03-09 01:06:05 +0000457% column 'vector' is all that is required to produce the desired solution.
cristy3ed852e2009-09-05 21:47:34 +0000458%
459% For example, the 'vectors' can consist of a pointer to a simple array of
460% doubles. when only one set of simultanious equations is to be solved from
461% the given set of coefficient weighted terms.
462%
463% double **matrix = AcquireMagickMatrix(8UL,8UL);
464% double coefficents[8];
465% ...
466% GaussJordanElimination(matrix, &coefficents, 8UL, 1UL);
anthony34364f42011-10-21 05:31:53 +0000467%
cristy106efa12014-03-09 01:06:05 +0000468% However by specifing more 'columns' (as an 'array of vector columns',
469% you can use this function to solve a set of 'separable' equations.
cristy3ed852e2009-09-05 21:47:34 +0000470%
471% For example a distortion function where u = U(x,y) v = V(x,y)
472% And the functions U() and V() have separate coefficents, but are being
473% generated from a common x,y->u,v data set.
474%
cristy7dbde212014-10-11 06:59:40 +0000475% Another example is generation of a color gradient from a set of colors at
476% specific coordients, such as a list x,y -> r,g,b,a.
cristy3ed852e2009-09-05 21:47:34 +0000477%
478% You can also use the 'vectors' to generate an inverse of the given 'matrix'
cristy106efa12014-03-09 01:06:05 +0000479% though as a 'column first array' rather than a 'row first array'. For
cristy7dbde212014-10-11 06:59:40 +0000480% details see http://en.wikipedia.org/wiki/Gauss-Jordan_elimination
cristy3ed852e2009-09-05 21:47:34 +0000481%
482*/
Cristy88932ef2015-12-20 17:35:31 -0500483MagickPrivate MagickBooleanType GaussJordanElimination(double **matrix,
cristybb503372010-05-27 20:51:26 +0000484 double **vectors,const size_t rank,const size_t number_vectors)
cristy3ed852e2009-09-05 21:47:34 +0000485{
486#define GaussJordanSwap(x,y) \
487{ \
488 if ((x) != (y)) \
489 { \
490 (x)+=(y); \
491 (y)=(x)-(y); \
492 (x)=(x)-(y); \
493 } \
494}
495
496 double
497 max,
498 scale;
499
cristy9d314ff2011-03-09 01:30:28 +0000500 register ssize_t
501 i,
502 j,
503 k;
504
cristybb503372010-05-27 20:51:26 +0000505 ssize_t
cristy3ed852e2009-09-05 21:47:34 +0000506 column,
507 *columns,
508 *pivots,
509 row,
510 *rows;
511
cristybb503372010-05-27 20:51:26 +0000512 columns=(ssize_t *) AcquireQuantumMemory(rank,sizeof(*columns));
513 rows=(ssize_t *) AcquireQuantumMemory(rank,sizeof(*rows));
514 pivots=(ssize_t *) AcquireQuantumMemory(rank,sizeof(*pivots));
515 if ((rows == (ssize_t *) NULL) || (columns == (ssize_t *) NULL) ||
516 (pivots == (ssize_t *) NULL))
cristy3ed852e2009-09-05 21:47:34 +0000517 {
cristybb503372010-05-27 20:51:26 +0000518 if (pivots != (ssize_t *) NULL)
519 pivots=(ssize_t *) RelinquishMagickMemory(pivots);
520 if (columns != (ssize_t *) NULL)
521 columns=(ssize_t *) RelinquishMagickMemory(columns);
522 if (rows != (ssize_t *) NULL)
523 rows=(ssize_t *) RelinquishMagickMemory(rows);
cristy3ed852e2009-09-05 21:47:34 +0000524 return(MagickFalse);
525 }
526 (void) ResetMagickMemory(columns,0,rank*sizeof(*columns));
527 (void) ResetMagickMemory(rows,0,rank*sizeof(*rows));
528 (void) ResetMagickMemory(pivots,0,rank*sizeof(*pivots));
529 column=0;
530 row=0;
cristybb503372010-05-27 20:51:26 +0000531 for (i=0; i < (ssize_t) rank; i++)
cristy3ed852e2009-09-05 21:47:34 +0000532 {
533 max=0.0;
cristybb503372010-05-27 20:51:26 +0000534 for (j=0; j < (ssize_t) rank; j++)
cristy3ed852e2009-09-05 21:47:34 +0000535 if (pivots[j] != 1)
536 {
cristybb503372010-05-27 20:51:26 +0000537 for (k=0; k < (ssize_t) rank; k++)
cristy3ed852e2009-09-05 21:47:34 +0000538 if (pivots[k] != 0)
539 {
540 if (pivots[k] > 1)
541 return(MagickFalse);
542 }
543 else
544 if (fabs(matrix[j][k]) >= max)
545 {
546 max=fabs(matrix[j][k]);
547 row=j;
548 column=k;
549 }
550 }
551 pivots[column]++;
552 if (row != column)
553 {
cristybb503372010-05-27 20:51:26 +0000554 for (k=0; k < (ssize_t) rank; k++)
cristy3ed852e2009-09-05 21:47:34 +0000555 GaussJordanSwap(matrix[row][k],matrix[column][k]);
cristybb503372010-05-27 20:51:26 +0000556 for (k=0; k < (ssize_t) number_vectors; k++)
cristy3ed852e2009-09-05 21:47:34 +0000557 GaussJordanSwap(vectors[k][row],vectors[k][column]);
558 }
559 rows[i]=row;
560 columns[i]=column;
561 if (matrix[column][column] == 0.0)
cristy106efa12014-03-09 01:06:05 +0000562 return(MagickFalse); /* sigularity */
cristy3e3ec3a2012-11-03 23:11:06 +0000563 scale=PerceptibleReciprocal(matrix[column][column]);
cristy3ed852e2009-09-05 21:47:34 +0000564 matrix[column][column]=1.0;
cristybb503372010-05-27 20:51:26 +0000565 for (j=0; j < (ssize_t) rank; j++)
cristy3ed852e2009-09-05 21:47:34 +0000566 matrix[column][j]*=scale;
cristybb503372010-05-27 20:51:26 +0000567 for (j=0; j < (ssize_t) number_vectors; j++)
cristy3ed852e2009-09-05 21:47:34 +0000568 vectors[j][column]*=scale;
cristybb503372010-05-27 20:51:26 +0000569 for (j=0; j < (ssize_t) rank; j++)
cristy3ed852e2009-09-05 21:47:34 +0000570 if (j != column)
571 {
572 scale=matrix[j][column];
573 matrix[j][column]=0.0;
cristybb503372010-05-27 20:51:26 +0000574 for (k=0; k < (ssize_t) rank; k++)
cristy3ed852e2009-09-05 21:47:34 +0000575 matrix[j][k]-=scale*matrix[column][k];
cristybb503372010-05-27 20:51:26 +0000576 for (k=0; k < (ssize_t) number_vectors; k++)
cristy3ed852e2009-09-05 21:47:34 +0000577 vectors[k][j]-=scale*vectors[k][column];
578 }
579 }
cristybb503372010-05-27 20:51:26 +0000580 for (j=(ssize_t) rank-1; j >= 0; j--)
cristy3ed852e2009-09-05 21:47:34 +0000581 if (columns[j] != rows[j])
cristybb503372010-05-27 20:51:26 +0000582 for (i=0; i < (ssize_t) rank; i++)
cristy3ed852e2009-09-05 21:47:34 +0000583 GaussJordanSwap(matrix[i][rows[j]],matrix[i][columns[j]]);
cristybb503372010-05-27 20:51:26 +0000584 pivots=(ssize_t *) RelinquishMagickMemory(pivots);
585 rows=(ssize_t *) RelinquishMagickMemory(rows);
586 columns=(ssize_t *) RelinquishMagickMemory(columns);
cristy3ed852e2009-09-05 21:47:34 +0000587 return(MagickTrue);
588}
589
590/*
591%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
592% %
593% %
594% %
cristy106efa12014-03-09 01:06:05 +0000595% G e t M a t r i x C o l u m n s %
596% %
597% %
598% %
599%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
600%
601% GetMatrixColumns() returns the number of columns in the matrix.
602%
603% The format of the GetMatrixColumns method is:
604%
605% size_t GetMatrixColumns(const MatrixInfo *matrix_info)
606%
607% A description of each parameter follows:
608%
609% o matrix_info: the matrix.
610%
611*/
612MagickExport size_t GetMatrixColumns(const MatrixInfo *matrix_info)
613{
614 assert(matrix_info != (MatrixInfo *) NULL);
cristye1c94d92015-06-28 12:16:33 +0000615 assert(matrix_info->signature == MagickCoreSignature);
cristy106efa12014-03-09 01:06:05 +0000616 return(matrix_info->columns);
617}
618
619/*
620%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
621% %
622% %
623% %
624% G e t M a t r i x E l e m e n t %
625% %
626% %
627% %
628%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
629%
630% GetMatrixElement() returns the specifed element in the matrix.
631%
632% The format of the GetMatrixElement method is:
633%
634% MagickBooleanType GetMatrixElement(const MatrixInfo *matrix_info,
635% const ssize_t x,const ssize_t y,void *value)
636%
637% A description of each parameter follows:
638%
639% o matrix_info: the matrix columns.
640%
641% o x: the matrix x-offset.
642%
643% o y: the matrix y-offset.
644%
645% o value: return the matrix element in this buffer.
646%
647*/
648
cristy6cccee42014-03-23 00:25:22 +0000649static inline ssize_t EdgeX(const ssize_t x,const size_t columns)
650{
651 if (x < 0L)
652 return(0L);
653 if (x >= (ssize_t) columns)
654 return((ssize_t) (columns-1));
655 return(x);
656}
657
658static inline ssize_t EdgeY(const ssize_t y,const size_t rows)
659{
660 if (y < 0L)
661 return(0L);
662 if (y >= (ssize_t) rows)
663 return((ssize_t) (rows-1));
664 return(y);
665}
666
cristyc1712b22014-03-09 14:54:05 +0000667static inline MagickOffsetType ReadMatrixElements(
dirk05d2ff72015-11-18 23:13:43 +0100668 const MatrixInfo *magick_restrict matrix_info,const MagickOffsetType offset,
669 const MagickSizeType length,unsigned char *magick_restrict buffer)
cristy106efa12014-03-09 01:06:05 +0000670{
cristyc1712b22014-03-09 14:54:05 +0000671 register MagickOffsetType
cristy106efa12014-03-09 01:06:05 +0000672 i;
673
674 ssize_t
675 count;
676
cristyc1712b22014-03-09 14:54:05 +0000677#if !defined(MAGICKCORE_HAVE_PREAD)
cristy10c210e2014-03-30 23:27:24 +0000678 LockSemaphoreInfo(matrix_info->semaphore);
cristyc1712b22014-03-09 14:54:05 +0000679 if (lseek(matrix_info->file,offset,SEEK_SET) < 0)
cristy10c210e2014-03-30 23:27:24 +0000680 {
681 UnlockSemaphoreInfo(matrix_info->semaphore);
682 return((MagickOffsetType) -1);
683 }
cristy106efa12014-03-09 01:06:05 +0000684#endif
cristyc1712b22014-03-09 14:54:05 +0000685 count=0;
686 for (i=0; i < (MagickOffsetType) length; i+=count)
cristy106efa12014-03-09 01:06:05 +0000687 {
cristyc1712b22014-03-09 14:54:05 +0000688#if !defined(MAGICKCORE_HAVE_PREAD)
689 count=read(matrix_info->file,buffer+i,(size_t) MagickMin(length-i,
690 (MagickSizeType) SSIZE_MAX));
cristy106efa12014-03-09 01:06:05 +0000691#else
cristyc1712b22014-03-09 14:54:05 +0000692 count=pread(matrix_info->file,buffer+i,(size_t) MagickMin(length-i,
693 (MagickSizeType) SSIZE_MAX),(off_t) (offset+i));
cristy106efa12014-03-09 01:06:05 +0000694#endif
cristyc1712b22014-03-09 14:54:05 +0000695 if (count <= 0)
696 {
697 count=0;
698 if (errno != EINTR)
699 break;
cristy106efa12014-03-09 01:06:05 +0000700 }
701 }
cristy10c210e2014-03-30 23:27:24 +0000702#if !defined(MAGICKCORE_HAVE_PREAD)
703 UnlockSemaphoreInfo(matrix_info->semaphore);
704#endif
cristy106efa12014-03-09 01:06:05 +0000705 return(i);
706}
707
708MagickExport MagickBooleanType GetMatrixElement(const MatrixInfo *matrix_info,
709 const ssize_t x,const ssize_t y,void *value)
710{
711 MagickOffsetType
cristyc1712b22014-03-09 14:54:05 +0000712 count,
cristy106efa12014-03-09 01:06:05 +0000713 i;
714
cristy106efa12014-03-09 01:06:05 +0000715 assert(matrix_info != (const MatrixInfo *) NULL);
cristye1c94d92015-06-28 12:16:33 +0000716 assert(matrix_info->signature == MagickCoreSignature);
cristy6cccee42014-03-23 00:25:22 +0000717 i=(MagickOffsetType) EdgeY(y,matrix_info->rows)*matrix_info->columns+
718 EdgeX(x,matrix_info->columns);
cristy106efa12014-03-09 01:06:05 +0000719 if (matrix_info->type != DiskCache)
720 {
cristy7a729512014-03-09 16:43:07 +0000721 (void) memcpy(value,(unsigned char *) matrix_info->elements+i*
722 matrix_info->stride,matrix_info->stride);
cristy106efa12014-03-09 01:06:05 +0000723 return(MagickTrue);
724 }
cristyc1712b22014-03-09 14:54:05 +0000725 count=ReadMatrixElements(matrix_info,i*matrix_info->stride,
cristy759ba912014-06-26 11:59:43 +0000726 matrix_info->stride,(unsigned char *) value);
cristyc1712b22014-03-09 14:54:05 +0000727 if (count != (MagickOffsetType) matrix_info->stride)
cristy106efa12014-03-09 01:06:05 +0000728 return(MagickFalse);
729 return(MagickTrue);
730}
731
732/*
733%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
734% %
735% %
736% %
737% G e t M a t r i x R o w s %
738% %
739% %
740% %
741%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
742%
743% GetMatrixRows() returns the number of rows in the matrix.
744%
745% The format of the GetMatrixRows method is:
746%
747% size_t GetMatrixRows(const MatrixInfo *matrix_info)
748%
749% A description of each parameter follows:
750%
751% o matrix_info: the matrix.
752%
753*/
754MagickExport size_t GetMatrixRows(const MatrixInfo *matrix_info)
755{
756 assert(matrix_info != (const MatrixInfo *) NULL);
cristye1c94d92015-06-28 12:16:33 +0000757 assert(matrix_info->signature == MagickCoreSignature);
cristy106efa12014-03-09 01:06:05 +0000758 return(matrix_info->rows);
759}
760
761/*
762%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
763% %
764% %
765% %
Cristy88932ef2015-12-20 17:35:31 -0500766+ L e a s t S q u a r e s A d d T e r m s %
cristy3ed852e2009-09-05 21:47:34 +0000767% %
768% %
769% %
770%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
771%
772% LeastSquaresAddTerms() adds one set of terms and associate results to the
773% given matrix and vectors for solving using least-squares function fitting.
774%
775% The format of the AcquireMagickMatrix method is:
776%
777% void LeastSquaresAddTerms(double **matrix,double **vectors,
cristybb503372010-05-27 20:51:26 +0000778% const double *terms,const double *results,const size_t rank,
779% const size_t number_vectors);
cristy3ed852e2009-09-05 21:47:34 +0000780%
781% A description of each parameter follows:
782%
783% o matrix: the square matrix to add given terms/results to.
784%
785% o vectors: the result vectors to add terms/results to.
786%
787% o terms: the pre-calculated terms (without the unknown coefficent
cristy106efa12014-03-09 01:06:05 +0000788% weights) that forms the equation being added.
cristy3ed852e2009-09-05 21:47:34 +0000789%
790% o results: the result(s) that should be generated from the given terms
cristy106efa12014-03-09 01:06:05 +0000791% weighted by the yet-to-be-solved coefficents.
cristy3ed852e2009-09-05 21:47:34 +0000792%
cristy106efa12014-03-09 01:06:05 +0000793% o rank: the rank or size of the dimensions of the square matrix.
794% Also the length of vectors, and number of terms being added.
cristy3ed852e2009-09-05 21:47:34 +0000795%
cristy1ad491d2010-05-17 19:45:27 +0000796% o number_vectors: Number of result vectors, and number or results being
797% added. Also represents the number of separable systems of equations
798% that is being solved.
cristy3ed852e2009-09-05 21:47:34 +0000799%
800% Example of use...
801%
glennrp2489f532011-06-25 03:02:43 +0000802% 2 dimensional Affine Equations (which are separable)
cristy3ed852e2009-09-05 21:47:34 +0000803% c0*x + c2*y + c4*1 => u
804% c1*x + c3*y + c5*1 => v
805%
806% double **matrix = AcquireMagickMatrix(3UL,3UL);
807% double **vectors = AcquireMagickMatrix(2UL,3UL);
808% double terms[3], results[2];
809% ...
810% for each given x,y -> u,v
811% terms[0] = x;
812% terms[1] = y;
813% terms[2] = 1;
814% results[0] = u;
815% results[1] = v;
816% LeastSquaresAddTerms(matrix,vectors,terms,results,3UL,2UL);
817% ...
818% if ( GaussJordanElimination(matrix,vectors,3UL,2UL) ) {
819% c0 = vectors[0][0];
cristy106efa12014-03-09 01:06:05 +0000820% c2 = vectors[0][1];
cristy3ed852e2009-09-05 21:47:34 +0000821% c4 = vectors[0][2];
822% c1 = vectors[1][0];
cristy106efa12014-03-09 01:06:05 +0000823% c3 = vectors[1][1];
cristy3ed852e2009-09-05 21:47:34 +0000824% c5 = vectors[1][2];
825% }
826% else
827% printf("Matrix unsolvable\n);
828% RelinquishMagickMatrix(matrix,3UL);
829% RelinquishMagickMatrix(vectors,2UL);
830%
831*/
Cristy88932ef2015-12-20 17:35:31 -0500832MagickPrivate void LeastSquaresAddTerms(double **matrix,double **vectors,
cristybb503372010-05-27 20:51:26 +0000833 const double *terms,const double *results,const size_t rank,
834 const size_t number_vectors)
cristy3ed852e2009-09-05 21:47:34 +0000835{
cristybb503372010-05-27 20:51:26 +0000836 register ssize_t
cristy3ed852e2009-09-05 21:47:34 +0000837 i,
838 j;
839
cristybb503372010-05-27 20:51:26 +0000840 for (j=0; j < (ssize_t) rank; j++)
cristy74908cf2010-05-17 19:43:54 +0000841 {
cristybb503372010-05-27 20:51:26 +0000842 for (i=0; i < (ssize_t) rank; i++)
cristy74908cf2010-05-17 19:43:54 +0000843 matrix[i][j]+=terms[i]*terms[j];
cristybb503372010-05-27 20:51:26 +0000844 for (i=0; i < (ssize_t) number_vectors; i++)
cristy74908cf2010-05-17 19:43:54 +0000845 vectors[i][j]+=results[i]*terms[j];
cristy3ed852e2009-09-05 21:47:34 +0000846 }
cristy3ed852e2009-09-05 21:47:34 +0000847}
848
849/*
850%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
851% %
852% %
853% %
cristyf3b58c52014-04-22 01:27:24 +0000854% M a t r i x T o I m a g e %
855% %
856% %
857% %
858%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
859%
cristy0f09a8c2014-04-23 00:20:40 +0000860% MatrixToImage() returns a matrix as an image. The matrix elements must be
861% of type double otherwise nonsense is returned.
cristyf3b58c52014-04-22 01:27:24 +0000862%
863% The format of the MatrixToImage method is:
864%
865% Image *MatrixToImage(const MatrixInfo *matrix_info,
866% ExceptionInfo *exception)
867%
868% A description of each parameter follows:
869%
870% o matrix_info: the matrix.
871%
872% o exception: return any errors or warnings in this structure.
873%
874*/
875MagickExport Image *MatrixToImage(const MatrixInfo *matrix_info,
876 ExceptionInfo *exception)
877{
cristy0f09a8c2014-04-23 00:20:40 +0000878 CacheView
879 *image_view;
880
881 double
882 max_value,
883 min_value,
884 scale_factor,
885 value;
886
887 Image
888 *image;
889
890 MagickBooleanType
891 status;
892
893 ssize_t
894 y;
895
896 assert(matrix_info != (const MatrixInfo *) NULL);
cristye1c94d92015-06-28 12:16:33 +0000897 assert(matrix_info->signature == MagickCoreSignature);
cristy0f09a8c2014-04-23 00:20:40 +0000898 assert(exception != (ExceptionInfo *) NULL);
cristye1c94d92015-06-28 12:16:33 +0000899 assert(exception->signature == MagickCoreSignature);
cristy0f09a8c2014-04-23 00:20:40 +0000900 if (matrix_info->stride < sizeof(double))
901 return((Image *) NULL);
902 /*
903 Determine range of matrix.
904 */
905 (void) GetMatrixElement(matrix_info,0,0,&value);
906 min_value=value;
907 max_value=value;
908 for (y=0; y < (ssize_t) matrix_info->rows; y++)
909 {
910 register ssize_t
911 x;
912
913 for (x=0; x < (ssize_t) matrix_info->columns; x++)
914 {
915 if (GetMatrixElement(matrix_info,x,y,&value) == MagickFalse)
916 continue;
917 if (value < min_value)
918 min_value=value;
919 else
920 if (value > max_value)
921 max_value=value;
922 }
923 }
924 if ((min_value == 0.0) && (max_value == 0.0))
925 scale_factor=0;
926 else
927 if (min_value == max_value)
928 {
929 scale_factor=(double) QuantumRange/min_value;
930 min_value=0;
931 }
932 else
933 scale_factor=(double) QuantumRange/(max_value-min_value);
934 /*
935 Convert matrix to image.
936 */
937 image=AcquireImage((ImageInfo *) NULL,exception);
938 image->columns=matrix_info->columns;
939 image->rows=matrix_info->rows;
940 image->colorspace=GRAYColorspace;
941 status=MagickTrue;
942 image_view=AcquireAuthenticCacheView(image,exception);
943#if defined(MAGICKCORE_OPENMP_SUPPORT)
944 #pragma omp parallel for schedule(static,4) shared(status) \
Cristy8255ca92017-10-09 08:37:35 -0400945 magick_number_threads(image,image,image->rows,1)
cristy0f09a8c2014-04-23 00:20:40 +0000946#endif
947 for (y=0; y < (ssize_t) image->rows; y++)
948 {
949 double
950 value;
951
952 register Quantum
953 *q;
954
955 register ssize_t
956 x;
957
958 if (status == MagickFalse)
959 continue;
960 q=QueueCacheViewAuthenticPixels(image_view,0,y,image->columns,1,exception);
961 if (q == (Quantum *) NULL)
962 {
963 status=MagickFalse;
964 continue;
965 }
966 for (x=0; x < (ssize_t) image->columns; x++)
967 {
968 if (GetMatrixElement(matrix_info,x,y,&value) == MagickFalse)
969 continue;
970 value=scale_factor*(value-min_value);
971 *q=ClampToQuantum(value);
972 q+=GetPixelChannels(image);
973 }
974 if (SyncCacheViewAuthenticPixels(image_view,exception) == MagickFalse)
975 status=MagickFalse;
976 }
977 image_view=DestroyCacheView(image_view);
978 if (status == MagickFalse)
979 image=DestroyImage(image);
980 return(image);
cristyf3b58c52014-04-22 01:27:24 +0000981}
982
983/*
984%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
985% %
986% %
987% %
cristyc1712b22014-03-09 14:54:05 +0000988% N u l l M a t r i x %
989% %
990% %
991% %
992%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
993%
994% NullMatrix() sets all elements of the matrix to zero.
995%
996% The format of the ResetMagickMemory method is:
997%
998% MagickBooleanType *NullMatrix(MatrixInfo *matrix_info)
999%
1000% A description of each parameter follows:
1001%
1002% o matrix_info: the matrix.
1003%
1004*/
1005MagickExport MagickBooleanType NullMatrix(MatrixInfo *matrix_info)
1006{
1007 register ssize_t
1008 x;
1009
1010 ssize_t
1011 count,
1012 y;
1013
1014 unsigned char
1015 value;
1016
1017 assert(matrix_info != (const MatrixInfo *) NULL);
cristye1c94d92015-06-28 12:16:33 +00001018 assert(matrix_info->signature == MagickCoreSignature);
cristyc1712b22014-03-09 14:54:05 +00001019 if (matrix_info->type != DiskCache)
1020 {
1021 (void) ResetMagickMemory(matrix_info->elements,0,(size_t)
1022 matrix_info->length);
1023 return(MagickTrue);
1024 }
1025 value=0;
1026 (void) lseek(matrix_info->file,0,SEEK_SET);
1027 for (y=0; y < (ssize_t) matrix_info->rows; y++)
1028 {
1029 for (x=0; x < (ssize_t) matrix_info->length; x++)
1030 {
1031 count=write(matrix_info->file,&value,sizeof(value));
1032 if (count != (ssize_t) sizeof(value))
1033 break;
1034 }
1035 if (x < (ssize_t) matrix_info->length)
1036 break;
1037 }
1038 return(y < (ssize_t) matrix_info->rows ? MagickFalse : MagickTrue);
1039}
1040
1041/*
1042%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
1043% %
1044% %
1045% %
cristy3ed852e2009-09-05 21:47:34 +00001046% R e l i n q u i s h M a g i c k M a t r i x %
1047% %
1048% %
1049% %
1050%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
1051%
1052% RelinquishMagickMatrix() frees the previously acquired matrix (array of
1053% pointers to arrays of doubles).
1054%
1055% The format of the RelinquishMagickMatrix method is:
1056%
1057% double **RelinquishMagickMatrix(double **matrix,
cristybb503372010-05-27 20:51:26 +00001058% const size_t number_rows)
cristy3ed852e2009-09-05 21:47:34 +00001059%
1060% A description of each parameter follows:
1061%
1062% o matrix: the matrix to relinquish
1063%
cristy1ad491d2010-05-17 19:45:27 +00001064% o number_rows: the first dimension of the acquired matrix (number of
1065% pointers)
cristy3ed852e2009-09-05 21:47:34 +00001066%
1067*/
1068MagickExport double **RelinquishMagickMatrix(double **matrix,
cristybb503372010-05-27 20:51:26 +00001069 const size_t number_rows)
cristy3ed852e2009-09-05 21:47:34 +00001070{
cristybb503372010-05-27 20:51:26 +00001071 register ssize_t
cristy3ed852e2009-09-05 21:47:34 +00001072 i;
1073
1074 if (matrix == (double **) NULL )
1075 return(matrix);
cristybb503372010-05-27 20:51:26 +00001076 for (i=0; i < (ssize_t) number_rows; i++)
cristy3ed852e2009-09-05 21:47:34 +00001077 matrix[i]=(double *) RelinquishMagickMemory(matrix[i]);
1078 matrix=(double **) RelinquishMagickMemory(matrix);
cristy3ed852e2009-09-05 21:47:34 +00001079 return(matrix);
1080}
cristy106efa12014-03-09 01:06:05 +00001081
1082/*
1083%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
1084% %
1085% %
1086% %
cristy106efa12014-03-09 01:06:05 +00001087% S e t M a t r i x E l e m e n t %
1088% %
1089% %
1090% %
1091%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
1092%
1093% SetMatrixElement() sets the specifed element in the matrix.
1094%
1095% The format of the SetMatrixElement method is:
1096%
1097% MagickBooleanType SetMatrixElement(const MatrixInfo *matrix_info,
1098% const ssize_t x,const ssize_t y,void *value)
1099%
1100% A description of each parameter follows:
1101%
1102% o matrix_info: the matrix columns.
1103%
1104% o x: the matrix x-offset.
1105%
1106% o y: the matrix y-offset.
1107%
1108% o value: set the matrix element to this value.
1109%
1110*/
1111
cristy106efa12014-03-09 01:06:05 +00001112MagickExport MagickBooleanType SetMatrixElement(const MatrixInfo *matrix_info,
1113 const ssize_t x,const ssize_t y,const void *value)
1114{
1115 MagickOffsetType
cristyc1712b22014-03-09 14:54:05 +00001116 count,
cristy106efa12014-03-09 01:06:05 +00001117 i;
1118
cristy106efa12014-03-09 01:06:05 +00001119 assert(matrix_info != (const MatrixInfo *) NULL);
cristye1c94d92015-06-28 12:16:33 +00001120 assert(matrix_info->signature == MagickCoreSignature);
cristy6cccee42014-03-23 00:25:22 +00001121 i=(MagickOffsetType) y*matrix_info->columns+x;
cristy106efa12014-03-09 01:06:05 +00001122 if ((i < 0) ||
1123 ((MagickSizeType) (i*matrix_info->stride) >= matrix_info->length))
1124 return(MagickFalse);
1125 if (matrix_info->type != DiskCache)
1126 {
cristy7a729512014-03-09 16:43:07 +00001127 (void) memcpy((unsigned char *) matrix_info->elements+i*
1128 matrix_info->stride,value,matrix_info->stride);
cristy106efa12014-03-09 01:06:05 +00001129 return(MagickTrue);
1130 }
cristyc1712b22014-03-09 14:54:05 +00001131 count=WriteMatrixElements(matrix_info,i*matrix_info->stride,
cristy759ba912014-06-26 11:59:43 +00001132 matrix_info->stride,(unsigned char *) value);
cristyc1712b22014-03-09 14:54:05 +00001133 if (count != (MagickOffsetType) matrix_info->stride)
cristy106efa12014-03-09 01:06:05 +00001134 return(MagickFalse);
1135 return(MagickTrue);
1136}