cxconvert.cpp revision 6acb9a7ea3d7564944e12cbc73a857b88c1301ee
1/*M///////////////////////////////////////////////////////////////////////////////////////
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11//                For Open Source Computer Vision Library
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41
42#include "_cxcore.h"
43
44/****************************************************************************************\
45*                            Splitting/extracting array channels                         *
46\****************************************************************************************/
47
48#define  ICV_DEF_PX2PL2PX_ENTRY_C2( arrtype_ptr, ptr )  \
49    arrtype_ptr plane0 = ptr[0];                        \
50    arrtype_ptr plane1 = ptr[1];
51
52#define  ICV_DEF_PX2PL2PX_ENTRY_C3( arrtype_ptr, ptr )  \
53    arrtype_ptr plane0 = ptr[0];                        \
54    arrtype_ptr plane1 = ptr[1];                        \
55    arrtype_ptr plane2 = ptr[2];
56
57#define  ICV_DEF_PX2PL2PX_ENTRY_C4( arrtype_ptr, ptr )  \
58    arrtype_ptr plane0 = ptr[0];                        \
59    arrtype_ptr plane1 = ptr[1];                        \
60    arrtype_ptr plane2 = ptr[2];                        \
61    arrtype_ptr plane3 = ptr[3];
62
63
64#define  ICV_DEF_PX2PL_C2( arrtype, len )           \
65{                                                   \
66    int j;                                          \
67                                                    \
68    for( j = 0; j < (len); j++, (src) += 2 )        \
69    {                                               \
70        arrtype t0 = (src)[0];                      \
71        arrtype t1 = (src)[1];                      \
72                                                    \
73        plane0[j] = t0;                             \
74        plane1[j] = t1;                             \
75    }                                               \
76    plane0 += dststep;                              \
77    plane1 += dststep;                              \
78}
79
80
81#define  ICV_DEF_PX2PL_C3( arrtype, len )           \
82{                                                   \
83    int j;                                          \
84                                                    \
85    for( j = 0; j < (len); j++, (src) += 3 )        \
86    {                                               \
87        arrtype t0 = (src)[0];                      \
88        arrtype t1 = (src)[1];                      \
89        arrtype t2 = (src)[2];                      \
90                                                    \
91        plane0[j] = t0;                             \
92        plane1[j] = t1;                             \
93        plane2[j] = t2;                             \
94    }                                               \
95    plane0 += dststep;                              \
96    plane1 += dststep;                              \
97    plane2 += dststep;                              \
98}
99
100
101#define  ICV_DEF_PX2PL_C4( arrtype, len )           \
102{                                                   \
103    int j;                                          \
104                                                    \
105    for( j = 0; j < (len); j++, (src) += 4 )        \
106    {                                               \
107        arrtype t0 = (src)[0];                      \
108        arrtype t1 = (src)[1];                      \
109                                                    \
110        plane0[j] = t0;                             \
111        plane1[j] = t1;                             \
112                                                    \
113        t0 = (src)[2];                              \
114        t1 = (src)[3];                              \
115                                                    \
116        plane2[j] = t0;                             \
117        plane3[j] = t1;                             \
118    }                                               \
119    plane0 += dststep;                              \
120    plane1 += dststep;                              \
121    plane2 += dststep;                              \
122    plane3 += dststep;                              \
123}
124
125
126#define  ICV_DEF_PX2PL_COI( arrtype, len, cn )      \
127{                                                   \
128    int j;                                          \
129                                                    \
130    for( j = 0; j <= (len) - 4; j += 4, (src) += 4*(cn))\
131    {                                               \
132        arrtype t0 = (src)[0];                      \
133        arrtype t1 = (src)[(cn)];                   \
134                                                    \
135        (dst)[j] = t0;                              \
136        (dst)[j+1] = t1;                            \
137                                                    \
138        t0 = (src)[(cn)*2];                         \
139        t1 = (src)[(cn)*3];                         \
140                                                    \
141        (dst)[j+2] = t0;                            \
142        (dst)[j+3] = t1;                            \
143    }                                               \
144                                                    \
145    for( ; j < (len); j++, (src) += (cn))           \
146    {                                               \
147        (dst)[j] = (src)[0];                        \
148    }                                               \
149}
150
151
152#define  ICV_DEF_COPY_PX2PL_FUNC_2D( arrtype, flavor,   \
153                                     cn, entry_macro )  \
154IPCVAPI_IMPL( CvStatus, icvCopy_##flavor##_C##cn##P##cn##R,\
155( const arrtype* src, int srcstep,                      \
156  arrtype** dst, int dststep, CvSize size ),            \
157  (src, srcstep, dst, dststep, size))                   \
158{                                                       \
159    entry_macro(arrtype*, dst);                         \
160    srcstep /= sizeof(src[0]);                          \
161    dststep /= sizeof(dst[0][0]);                       \
162                                                        \
163    for( ; size.height--; src += srcstep )              \
164    {                                                   \
165        ICV_DEF_PX2PL_C##cn( arrtype, size.width );     \
166        src -= size.width*(cn);                         \
167    }                                                   \
168                                                        \
169    return CV_OK;                                       \
170}
171
172
173#define  ICV_DEF_COPY_PX2PL_FUNC_2D_COI( arrtype, flavor )\
174IPCVAPI_IMPL( CvStatus, icvCopy_##flavor##_CnC1CR,      \
175( const arrtype* src, int srcstep, arrtype* dst, int dststep,\
176  CvSize size, int cn, int coi ),                       \
177  (src, srcstep, dst, dststep, size, cn, coi))          \
178{                                                       \
179    src += coi - 1;                                     \
180    srcstep /= sizeof(src[0]);                          \
181    dststep /= sizeof(dst[0]);                          \
182                                                        \
183    for( ; size.height--; src += srcstep, dst += dststep )\
184    {                                                   \
185        ICV_DEF_PX2PL_COI( arrtype, size.width, cn );   \
186        src -= size.width*(cn);                         \
187    }                                                   \
188                                                        \
189    return CV_OK;                                       \
190}
191
192
193ICV_DEF_COPY_PX2PL_FUNC_2D( uchar, 8u, 2, ICV_DEF_PX2PL2PX_ENTRY_C2 )
194ICV_DEF_COPY_PX2PL_FUNC_2D( uchar, 8u, 3, ICV_DEF_PX2PL2PX_ENTRY_C3 )
195ICV_DEF_COPY_PX2PL_FUNC_2D( uchar, 8u, 4, ICV_DEF_PX2PL2PX_ENTRY_C4 )
196ICV_DEF_COPY_PX2PL_FUNC_2D( ushort, 16s, 2, ICV_DEF_PX2PL2PX_ENTRY_C2 )
197ICV_DEF_COPY_PX2PL_FUNC_2D( ushort, 16s, 3, ICV_DEF_PX2PL2PX_ENTRY_C3 )
198ICV_DEF_COPY_PX2PL_FUNC_2D( ushort, 16s, 4, ICV_DEF_PX2PL2PX_ENTRY_C4 )
199ICV_DEF_COPY_PX2PL_FUNC_2D( int, 32f, 2, ICV_DEF_PX2PL2PX_ENTRY_C2 )
200ICV_DEF_COPY_PX2PL_FUNC_2D( int, 32f, 3, ICV_DEF_PX2PL2PX_ENTRY_C3 )
201ICV_DEF_COPY_PX2PL_FUNC_2D( int, 32f, 4, ICV_DEF_PX2PL2PX_ENTRY_C4 )
202ICV_DEF_COPY_PX2PL_FUNC_2D( int64, 64f, 2, ICV_DEF_PX2PL2PX_ENTRY_C2 )
203ICV_DEF_COPY_PX2PL_FUNC_2D( int64, 64f, 3, ICV_DEF_PX2PL2PX_ENTRY_C3 )
204ICV_DEF_COPY_PX2PL_FUNC_2D( int64, 64f, 4, ICV_DEF_PX2PL2PX_ENTRY_C4 )
205
206
207ICV_DEF_COPY_PX2PL_FUNC_2D_COI( uchar, 8u )
208ICV_DEF_COPY_PX2PL_FUNC_2D_COI( ushort, 16s )
209ICV_DEF_COPY_PX2PL_FUNC_2D_COI( int, 32f )
210ICV_DEF_COPY_PX2PL_FUNC_2D_COI( int64, 64f )
211
212
213/****************************************************************************************\
214*                            Merging/inserting array channels                            *
215\****************************************************************************************/
216
217
218#define  ICV_DEF_PL2PX_C2( arrtype, len )   \
219{                                           \
220    int j;                                  \
221                                            \
222    for( j = 0; j < (len); j++, (dst) += 2 )\
223    {                                       \
224        arrtype t0 = plane0[j];             \
225        arrtype t1 = plane1[j];             \
226                                            \
227        dst[0] = t0;                        \
228        dst[1] = t1;                        \
229    }                                       \
230    plane0 += srcstep;                      \
231    plane1 += srcstep;                      \
232}
233
234
235#define  ICV_DEF_PL2PX_C3( arrtype, len )   \
236{                                           \
237    int j;                                  \
238                                            \
239    for( j = 0; j < (len); j++, (dst) += 3 )\
240    {                                       \
241        arrtype t0 = plane0[j];             \
242        arrtype t1 = plane1[j];             \
243        arrtype t2 = plane2[j];             \
244                                            \
245        dst[0] = t0;                        \
246        dst[1] = t1;                        \
247        dst[2] = t2;                        \
248    }                                       \
249    plane0 += srcstep;                      \
250    plane1 += srcstep;                      \
251    plane2 += srcstep;                      \
252}
253
254
255#define  ICV_DEF_PL2PX_C4( arrtype, len )   \
256{                                           \
257    int j;                                  \
258                                            \
259    for( j = 0; j < (len); j++, (dst) += 4 )\
260    {                                       \
261        arrtype t0 = plane0[j];             \
262        arrtype t1 = plane1[j];             \
263                                            \
264        dst[0] = t0;                        \
265        dst[1] = t1;                        \
266                                            \
267        t0 = plane2[j];                     \
268        t1 = plane3[j];                     \
269                                            \
270        dst[2] = t0;                        \
271        dst[3] = t1;                        \
272    }                                       \
273    plane0 += srcstep;                      \
274    plane1 += srcstep;                      \
275    plane2 += srcstep;                      \
276    plane3 += srcstep;                      \
277}
278
279
280#define  ICV_DEF_PL2PX_COI( arrtype, len, cn )          \
281{                                                       \
282    int j;                                              \
283                                                        \
284    for( j = 0; j <= (len) - 4; j += 4, (dst) += 4*(cn))\
285    {                                                   \
286        arrtype t0 = (src)[j];                          \
287        arrtype t1 = (src)[j+1];                        \
288                                                        \
289        (dst)[0] = t0;                                  \
290        (dst)[(cn)] = t1;                               \
291                                                        \
292        t0 = (src)[j+2];                                \
293        t1 = (src)[j+3];                                \
294                                                        \
295        (dst)[(cn)*2] = t0;                             \
296        (dst)[(cn)*3] = t1;                             \
297    }                                                   \
298                                                        \
299    for( ; j < (len); j++, (dst) += (cn))               \
300    {                                                   \
301        (dst)[0] = (src)[j];                            \
302    }                                                   \
303}
304
305
306#define  ICV_DEF_COPY_PL2PX_FUNC_2D( arrtype, flavor, cn, entry_macro ) \
307IPCVAPI_IMPL( CvStatus, icvCopy_##flavor##_P##cn##C##cn##R, \
308( const arrtype** src, int srcstep,                         \
309  arrtype* dst, int dststep, CvSize size ),                 \
310  (src, srcstep, dst, dststep, size))                       \
311{                                                           \
312    entry_macro(const arrtype*, src);                       \
313    srcstep /= sizeof(src[0][0]);                           \
314    dststep /= sizeof(dst[0]);                              \
315                                                            \
316    for( ; size.height--; dst += dststep )                  \
317    {                                                       \
318        ICV_DEF_PL2PX_C##cn( arrtype, size.width );         \
319        dst -= size.width*(cn);                             \
320    }                                                       \
321                                                            \
322    return CV_OK;                                           \
323}
324
325
326#define  ICV_DEF_COPY_PL2PX_FUNC_2D_COI( arrtype, flavor )  \
327IPCVAPI_IMPL( CvStatus, icvCopy_##flavor##_C1CnCR,          \
328( const arrtype* src, int srcstep,                          \
329  arrtype* dst, int dststep,                                \
330  CvSize size, int cn, int coi ),                           \
331  (src, srcstep, dst, dststep, size, cn, coi))              \
332{                                                           \
333    dst += coi - 1;                                         \
334    srcstep /= sizeof(src[0]); dststep /= sizeof(dst[0]);   \
335                                                            \
336    for( ; size.height--; src += srcstep, dst += dststep )  \
337    {                                                       \
338        ICV_DEF_PL2PX_COI( arrtype, size.width, cn );       \
339        dst -= size.width*(cn);                             \
340    }                                                       \
341                                                            \
342    return CV_OK;                                           \
343}
344
345
346ICV_DEF_COPY_PL2PX_FUNC_2D( uchar, 8u, 2, ICV_DEF_PX2PL2PX_ENTRY_C2 )
347ICV_DEF_COPY_PL2PX_FUNC_2D( uchar, 8u, 3, ICV_DEF_PX2PL2PX_ENTRY_C3 )
348ICV_DEF_COPY_PL2PX_FUNC_2D( uchar, 8u, 4, ICV_DEF_PX2PL2PX_ENTRY_C4 )
349ICV_DEF_COPY_PL2PX_FUNC_2D( ushort, 16s, 2, ICV_DEF_PX2PL2PX_ENTRY_C2 )
350ICV_DEF_COPY_PL2PX_FUNC_2D( ushort, 16s, 3, ICV_DEF_PX2PL2PX_ENTRY_C3 )
351ICV_DEF_COPY_PL2PX_FUNC_2D( ushort, 16s, 4, ICV_DEF_PX2PL2PX_ENTRY_C4 )
352ICV_DEF_COPY_PL2PX_FUNC_2D( int, 32f, 2, ICV_DEF_PX2PL2PX_ENTRY_C2 )
353ICV_DEF_COPY_PL2PX_FUNC_2D( int, 32f, 3, ICV_DEF_PX2PL2PX_ENTRY_C3 )
354ICV_DEF_COPY_PL2PX_FUNC_2D( int, 32f, 4, ICV_DEF_PX2PL2PX_ENTRY_C4 )
355ICV_DEF_COPY_PL2PX_FUNC_2D( int64, 64f, 2, ICV_DEF_PX2PL2PX_ENTRY_C2 )
356ICV_DEF_COPY_PL2PX_FUNC_2D( int64, 64f, 3, ICV_DEF_PX2PL2PX_ENTRY_C3 )
357ICV_DEF_COPY_PL2PX_FUNC_2D( int64, 64f, 4, ICV_DEF_PX2PL2PX_ENTRY_C4 )
358
359ICV_DEF_COPY_PL2PX_FUNC_2D_COI( uchar, 8u )
360ICV_DEF_COPY_PL2PX_FUNC_2D_COI( ushort, 16s )
361ICV_DEF_COPY_PL2PX_FUNC_2D_COI( int, 32f )
362ICV_DEF_COPY_PL2PX_FUNC_2D_COI( int64, 64f )
363
364
365#define  ICV_DEF_PXPLPX_TAB( name, FROM, TO )                           \
366static void                                                             \
367name( CvBigFuncTable* tab )                                             \
368{                                                                       \
369    tab->fn_2d[CV_8UC2] = (void*)icvCopy##_8u_##FROM##2##TO##2R;        \
370    tab->fn_2d[CV_8UC3] = (void*)icvCopy##_8u_##FROM##3##TO##3R;        \
371    tab->fn_2d[CV_8UC4] = (void*)icvCopy##_8u_##FROM##4##TO##4R;        \
372                                                                        \
373    tab->fn_2d[CV_8SC2] = (void*)icvCopy##_8u_##FROM##2##TO##2R;        \
374    tab->fn_2d[CV_8SC3] = (void*)icvCopy##_8u_##FROM##3##TO##3R;        \
375    tab->fn_2d[CV_8SC4] = (void*)icvCopy##_8u_##FROM##4##TO##4R;        \
376                                                                        \
377    tab->fn_2d[CV_16UC2] = (void*)icvCopy##_16s_##FROM##2##TO##2R;      \
378    tab->fn_2d[CV_16UC3] = (void*)icvCopy##_16s_##FROM##3##TO##3R;      \
379    tab->fn_2d[CV_16UC4] = (void*)icvCopy##_16s_##FROM##4##TO##4R;      \
380                                                                        \
381    tab->fn_2d[CV_16SC2] = (void*)icvCopy##_16s_##FROM##2##TO##2R;      \
382    tab->fn_2d[CV_16SC3] = (void*)icvCopy##_16s_##FROM##3##TO##3R;      \
383    tab->fn_2d[CV_16SC4] = (void*)icvCopy##_16s_##FROM##4##TO##4R;      \
384                                                                        \
385    tab->fn_2d[CV_32SC2] = (void*)icvCopy##_32f_##FROM##2##TO##2R;      \
386    tab->fn_2d[CV_32SC3] = (void*)icvCopy##_32f_##FROM##3##TO##3R;      \
387    tab->fn_2d[CV_32SC4] = (void*)icvCopy##_32f_##FROM##4##TO##4R;      \
388                                                                        \
389    tab->fn_2d[CV_32FC2] = (void*)icvCopy##_32f_##FROM##2##TO##2R;      \
390    tab->fn_2d[CV_32FC3] = (void*)icvCopy##_32f_##FROM##3##TO##3R;      \
391    tab->fn_2d[CV_32FC4] = (void*)icvCopy##_32f_##FROM##4##TO##4R;      \
392                                                                        \
393    tab->fn_2d[CV_64FC2] = (void*)icvCopy##_64f_##FROM##2##TO##2R;      \
394    tab->fn_2d[CV_64FC3] = (void*)icvCopy##_64f_##FROM##3##TO##3R;      \
395    tab->fn_2d[CV_64FC4] = (void*)icvCopy##_64f_##FROM##4##TO##4R;      \
396}
397
398
399
400#define  ICV_DEF_PXPLCOI_TAB( name, FROM, TO )                          \
401static void                                                             \
402name( CvFuncTable* tab )                                                \
403{                                                                       \
404    tab->fn_2d[CV_8U] = (void*)icvCopy##_8u_##FROM##TO##CR;             \
405    tab->fn_2d[CV_8S] = (void*)icvCopy##_8u_##FROM##TO##CR;             \
406    tab->fn_2d[CV_16U] = (void*)icvCopy##_16s_##FROM##TO##CR;           \
407    tab->fn_2d[CV_16S] = (void*)icvCopy##_16s_##FROM##TO##CR;           \
408    tab->fn_2d[CV_32S] = (void*)icvCopy##_32f_##FROM##TO##CR;           \
409    tab->fn_2d[CV_32F] = (void*)icvCopy##_32f_##FROM##TO##CR;           \
410    tab->fn_2d[CV_64F] = (void*)icvCopy##_64f_##FROM##TO##CR;           \
411}
412
413
414ICV_DEF_PXPLPX_TAB( icvInitSplitRTable, C, P )
415ICV_DEF_PXPLCOI_TAB( icvInitSplitRCoiTable, Cn, C1 )
416ICV_DEF_PXPLPX_TAB( icvInitCvtPlaneToPixRTable, P, C )
417ICV_DEF_PXPLCOI_TAB( icvInitCvtPlaneToPixRCoiTable, C1, Cn )
418
419typedef CvStatus (CV_STDCALL *CvSplitFunc)( const void* src, int srcstep,
420                                                    void** dst, int dststep, CvSize size);
421
422typedef CvStatus (CV_STDCALL *CvExtractPlaneFunc)( const void* src, int srcstep,
423                                                   void* dst, int dststep,
424                                                   CvSize size, int cn, int coi );
425
426typedef CvStatus (CV_STDCALL *CvMergeFunc)( const void** src, int srcstep,
427                                                    void* dst, int dststep, CvSize size);
428
429typedef CvStatus (CV_STDCALL *CvInsertPlaneFunc)( const void* src, int srcstep,
430                                                  void* dst, int dststep,
431                                                  CvSize size, int cn, int coi );
432
433CV_IMPL void
434cvSplit( const void* srcarr, void* dstarr0, void* dstarr1, void* dstarr2, void* dstarr3 )
435{
436    static CvBigFuncTable  pxpl_tab;
437    static CvFuncTable  pxplcoi_tab;
438    static int inittab = 0;
439
440    CV_FUNCNAME( "cvSplit" );
441
442    __BEGIN__;
443
444    CvMat stub[5], *dst[4], *src = (CvMat*)srcarr;
445    CvSize size;
446    void* dstptr[4] = { 0, 0, 0, 0 };
447    int type, cn, coi = 0;
448    int i, nzplanes = 0, nzidx = -1;
449    int cont_flag;
450    int src_step, dst_step = 0;
451
452    if( !inittab )
453    {
454        icvInitSplitRTable( &pxpl_tab );
455        icvInitSplitRCoiTable( &pxplcoi_tab );
456        inittab = 1;
457    }
458
459    dst[0] = (CvMat*)dstarr0;
460    dst[1] = (CvMat*)dstarr1;
461    dst[2] = (CvMat*)dstarr2;
462    dst[3] = (CvMat*)dstarr3;
463
464    CV_CALL( src = cvGetMat( src, stub + 4, &coi ));
465
466    //if( coi != 0 )
467    //    CV_ERROR( CV_BadCOI, "" );
468
469    type = CV_MAT_TYPE( src->type );
470    cn = CV_MAT_CN( type );
471
472    cont_flag = src->type;
473
474    if( cn == 1 )
475        CV_ERROR( CV_BadNumChannels, "" );
476
477    for( i = 0; i < 4; i++ )
478    {
479        if( dst[i] )
480        {
481            nzplanes++;
482            nzidx = i;
483            CV_CALL( dst[i] = cvGetMat( dst[i], stub + i ));
484            if( CV_MAT_CN( dst[i]->type ) != 1 )
485                CV_ERROR( CV_BadNumChannels, "" );
486            if( !CV_ARE_DEPTHS_EQ( dst[i], src ))
487                CV_ERROR( CV_StsUnmatchedFormats, "" );
488            if( !CV_ARE_SIZES_EQ( dst[i], src ))
489                CV_ERROR( CV_StsUnmatchedSizes, "" );
490            if( nzplanes > i && i > 0 && dst[i]->step != dst[i-1]->step )
491                CV_ERROR( CV_BadStep, "" );
492            dst_step = dst[i]->step;
493            dstptr[nzplanes-1] = dst[i]->data.ptr;
494
495            cont_flag &= dst[i]->type;
496        }
497    }
498
499    src_step = src->step;
500    size = cvGetMatSize( src );
501
502    if( CV_IS_MAT_CONT( cont_flag ))
503    {
504        size.width *= size.height;
505        src_step = dst_step = CV_STUB_STEP;
506
507        size.height = 1;
508    }
509
510    if( nzplanes == cn )
511    {
512        CvSplitFunc func = (CvSplitFunc)pxpl_tab.fn_2d[type];
513
514        if( !func )
515            CV_ERROR( CV_StsUnsupportedFormat, "" );
516
517        IPPI_CALL( func( src->data.ptr, src_step, dstptr, dst_step, size ));
518    }
519    else if( nzplanes == 1 )
520    {
521        CvExtractPlaneFunc func = (CvExtractPlaneFunc)pxplcoi_tab.fn_2d[CV_MAT_DEPTH(type)];
522
523        if( !func )
524            CV_ERROR( CV_StsUnsupportedFormat, "" );
525
526        IPPI_CALL( func( src->data.ptr, src_step,
527                         dst[nzidx]->data.ptr, dst_step,
528                         size, cn, nzidx + 1 ));
529    }
530    else
531    {
532        CV_ERROR( CV_StsBadArg,
533            "Either all output planes or only one output plane should be non zero" );
534    }
535
536    __END__;
537}
538
539
540
541CV_IMPL void
542cvMerge( const void* srcarr0, const void* srcarr1, const void* srcarr2,
543         const void* srcarr3, void* dstarr )
544{
545    static CvBigFuncTable plpx_tab;
546    static CvFuncTable plpxcoi_tab;
547    static int inittab = 0;
548
549    CV_FUNCNAME( "cvMerge" );
550
551    __BEGIN__;
552
553    int src_step = 0, dst_step;
554    CvMat stub[5], *src[4], *dst = (CvMat*)dstarr;
555    CvSize size;
556    const void* srcptr[4] = { 0, 0, 0, 0 };
557    int type, cn, coi = 0;
558    int i, nzplanes = 0, nzidx = -1;
559    int cont_flag;
560
561    if( !inittab )
562    {
563        icvInitCvtPlaneToPixRTable( &plpx_tab );
564        icvInitCvtPlaneToPixRCoiTable( &plpxcoi_tab );
565        inittab = 1;
566    }
567
568    src[0] = (CvMat*)srcarr0;
569    src[1] = (CvMat*)srcarr1;
570    src[2] = (CvMat*)srcarr2;
571    src[3] = (CvMat*)srcarr3;
572
573    CV_CALL( dst = cvGetMat( dst, stub + 4, &coi ));
574
575    type = CV_MAT_TYPE( dst->type );
576    cn = CV_MAT_CN( type );
577
578    cont_flag = dst->type;
579
580    if( cn == 1 )
581        CV_ERROR( CV_BadNumChannels, "" );
582
583    for( i = 0; i < 4; i++ )
584    {
585        if( src[i] )
586        {
587            nzplanes++;
588            nzidx = i;
589            CV_CALL( src[i] = cvGetMat( src[i], stub + i ));
590            if( CV_MAT_CN( src[i]->type ) != 1 )
591                CV_ERROR( CV_BadNumChannels, "" );
592            if( !CV_ARE_DEPTHS_EQ( src[i], dst ))
593                CV_ERROR( CV_StsUnmatchedFormats, "" );
594            if( !CV_ARE_SIZES_EQ( src[i], dst ))
595                CV_ERROR( CV_StsUnmatchedSizes, "" );
596            if( nzplanes > i && i > 0 && src[i]->step != src[i-1]->step )
597                CV_ERROR( CV_BadStep, "" );
598            src_step = src[i]->step;
599            srcptr[nzplanes-1] = (const void*)(src[i]->data.ptr);
600
601            cont_flag &= src[i]->type;
602        }
603    }
604
605    size = cvGetMatSize( dst );
606    dst_step = dst->step;
607
608    if( CV_IS_MAT_CONT( cont_flag ))
609    {
610        size.width *= size.height;
611        src_step = dst_step = CV_STUB_STEP;
612        size.height = 1;
613    }
614
615    if( nzplanes == cn )
616    {
617        CvMergeFunc func = (CvMergeFunc)plpx_tab.fn_2d[type];
618
619        if( !func )
620            CV_ERROR( CV_StsUnsupportedFormat, "" );
621
622        IPPI_CALL( func( srcptr, src_step, dst->data.ptr, dst_step, size ));
623    }
624    else if( nzplanes == 1 )
625    {
626        CvInsertPlaneFunc func = (CvInsertPlaneFunc)plpxcoi_tab.fn_2d[CV_MAT_DEPTH(type)];
627
628        if( !func )
629            CV_ERROR( CV_StsUnsupportedFormat, "" );
630
631        IPPI_CALL( func( src[nzidx]->data.ptr, src_step,
632                         dst->data.ptr, dst_step,
633                         size, cn, nzidx + 1 ));
634    }
635    else
636    {
637        CV_ERROR( CV_StsBadArg,
638            "Either all input planes or only one input plane should be non zero" );
639    }
640
641    __END__;
642}
643
644
645/****************************************************************************************\
646*                       Generalized split/merge: mixing channels                         *
647\****************************************************************************************/
648
649#define  ICV_DEF_MIX_CH_FUNC_2D( arrtype, flavor )              \
650static CvStatus CV_STDCALL                                      \
651icvMixChannels_##flavor( const arrtype** src, int* sdelta0,     \
652                         int* sdelta1, arrtype** dst,           \
653                         int* ddelta0, int* ddelta1,            \
654                         int n, CvSize size )                   \
655{                                                               \
656    int i, k;                                                   \
657    int block_size0 = n == 1 ? size.width : 1024;               \
658                                                                \
659    for( ; size.height--; )                                     \
660    {                                                           \
661        int remaining = size.width;                             \
662        for( ; remaining > 0; )                                 \
663        {                                                       \
664            int block_size = MIN( remaining, block_size0 );     \
665            for( k = 0; k < n; k++ )                            \
666            {                                                   \
667                const arrtype* s = src[k];                      \
668                arrtype* d = dst[k];                            \
669                int ds = sdelta1[k], dd = ddelta1[k];           \
670                if( s )                                         \
671                {                                               \
672                    for( i = 0; i <= block_size - 2; i += 2,    \
673                                        s += ds*2, d += dd*2 )  \
674                    {                                           \
675                        arrtype t0 = s[0], t1 = s[ds];          \
676                        d[0] = t0; d[dd] = t1;                  \
677                    }                                           \
678                    if( i < block_size )                        \
679                        d[0] = s[0], s += ds, d += dd;          \
680                    src[k] = s;                                 \
681                }                                               \
682                else                                            \
683                {                                               \
684                    for( i=0; i <= block_size-2; i+=2, d+=dd*2 )\
685                        d[0] = d[dd] = 0;                       \
686                    if( i < block_size )                        \
687                        d[0] = 0, d += dd;                      \
688                }                                               \
689                dst[k] = d;                                     \
690            }                                                   \
691            remaining -= block_size;                            \
692        }                                                       \
693        for( k = 0; k < n; k++ )                                \
694            src[k] += sdelta0[k], dst[k] += ddelta0[k];         \
695    }                                                           \
696                                                                \
697    return CV_OK;                                               \
698}
699
700
701ICV_DEF_MIX_CH_FUNC_2D( uchar, 8u )
702ICV_DEF_MIX_CH_FUNC_2D( ushort, 16u )
703ICV_DEF_MIX_CH_FUNC_2D( int, 32s )
704ICV_DEF_MIX_CH_FUNC_2D( int64, 64s )
705
706static void
707icvInitMixChannelsTab( CvFuncTable* tab )
708{
709    tab->fn_2d[CV_8U] = (void*)icvMixChannels_8u;
710    tab->fn_2d[CV_8S] = (void*)icvMixChannels_8u;
711    tab->fn_2d[CV_16U] = (void*)icvMixChannels_16u;
712    tab->fn_2d[CV_16S] = (void*)icvMixChannels_16u;
713    tab->fn_2d[CV_32S] = (void*)icvMixChannels_32s;
714    tab->fn_2d[CV_32F] = (void*)icvMixChannels_32s;
715    tab->fn_2d[CV_64F] = (void*)icvMixChannels_64s;
716}
717
718typedef CvStatus (CV_STDCALL * CvMixChannelsFunc)( const void** src, int* sdelta0,
719        int* sdelta1, void** dst, int* ddelta0, int* ddelta1, int n, CvSize size );
720
721CV_IMPL void
722cvMixChannels( const CvArr** src, int src_count,
723               CvArr** dst, int dst_count,
724               const int* from_to, int pair_count )
725{
726    static CvFuncTable mixcn_tab;
727    static int inittab = 0;
728    uchar* buffer = 0;
729    int heap_alloc = 0;
730
731    CV_FUNCNAME( "cvMixChannels" );
732
733    __BEGIN__;
734
735    CvSize size = {0,0};
736    int depth = -1, elem_size = 1;
737    int *sdelta0 = 0, *sdelta1 = 0, *ddelta0 = 0, *ddelta1 = 0;
738    uchar **sptr = 0, **dptr = 0;
739    uchar **src0 = 0, **dst0 = 0;
740    int* src_cn = 0, *dst_cn = 0;
741    int* src_step = 0, *dst_step = 0;
742    int buf_size, i, k;
743    int cont_flag = CV_MAT_CONT_FLAG;
744    CvMixChannelsFunc func;
745
746    if( !inittab )
747    {
748        icvInitMixChannelsTab( &mixcn_tab );
749        inittab = 1;
750    }
751
752    src_count = MAX( src_count, 0 );
753
754    if( !src && src_count > 0 )
755        CV_ERROR( CV_StsNullPtr, "The input array of arrays is NULL" );
756
757    if( !dst )
758        CV_ERROR( CV_StsNullPtr, "The output array of arrays is NULL" );
759
760    if( dst_count <= 0 || pair_count <= 0 )
761        CV_ERROR( CV_StsOutOfRange,
762        "The number of output arrays and the number of copied channels must be positive" );
763
764    if( !from_to )
765        CV_ERROR( CV_StsNullPtr, "The array of copied channel indices is NULL" );
766
767    buf_size = (src_count + dst_count + 2)*
768        (sizeof(src0[0]) + sizeof(src_cn[0]) + sizeof(src_step[0])) +
769        pair_count*2*(sizeof(sptr[0]) + sizeof(sdelta0[0]) + sizeof(sdelta1[0]));
770
771    if( buf_size > CV_MAX_LOCAL_SIZE )
772    {
773        CV_CALL( buffer = (uchar*)cvAlloc( buf_size ) );
774        heap_alloc = 1;
775    }
776    else
777        buffer = (uchar*)cvStackAlloc( buf_size );
778
779    src0 = (uchar**)buffer;
780    dst0 = src0 + src_count;
781    src_cn = (int*)(dst0 + dst_count);
782    dst_cn = src_cn + src_count + 1;
783    src_step = dst_cn + dst_count + 1;
784    dst_step = src_step + src_count;
785
786    sptr = (uchar**)cvAlignPtr( dst_step + dst_count, (int)sizeof(void*) );
787    dptr = sptr + pair_count;
788    sdelta0 = (int*)(dptr + pair_count);
789    sdelta1 = sdelta0 + pair_count;
790    ddelta0 = sdelta1 + pair_count;
791    ddelta1 = ddelta0 + pair_count;
792
793    src_cn[0] = dst_cn[0] = 0;
794
795    for( k = 0; k < 2; k++ )
796    {
797        for( i = 0; i < (k == 0 ? src_count : dst_count); i++ )
798        {
799            CvMat stub, *mat = (CvMat*)(k == 0 ? src[i] : dst[i]);
800            int cn;
801
802            if( !CV_IS_MAT(mat) )
803                CV_CALL( mat = cvGetMat( mat, &stub ));
804
805            if( depth < 0 )
806            {
807                depth = CV_MAT_DEPTH(mat->type);
808                elem_size = CV_ELEM_SIZE1(depth);
809                size = cvGetMatSize(mat);
810            }
811
812            if( CV_MAT_DEPTH(mat->type) != depth )
813                CV_ERROR( CV_StsUnmatchedFormats, "All the arrays must have the same bit depth" );
814
815            if( mat->cols != size.width || mat->rows != size.height )
816                CV_ERROR( CV_StsUnmatchedSizes, "All the arrays must have the same size" );
817
818            if( k == 0 )
819            {
820                src0[i] = mat->data.ptr;
821                cn = CV_MAT_CN(mat->type);
822                src_cn[i+1] = src_cn[i] + cn;
823                src_step[i] = mat->step / elem_size - size.width * cn;
824            }
825            else
826            {
827                dst0[i] = mat->data.ptr;
828                cn = CV_MAT_CN(mat->type);
829                dst_cn[i+1] = dst_cn[i] + cn;
830                dst_step[i] = mat->step / elem_size - size.width * cn;
831            }
832
833            cont_flag &= mat->type;
834        }
835    }
836
837    if( cont_flag )
838    {
839        size.width *= size.height;
840        size.height = 1;
841    }
842
843    for( i = 0; i < pair_count; i++ )
844    {
845        for( k = 0; k < 2; k++ )
846        {
847            int cn = from_to[i*2 + k];
848            const int* cn_arr = k == 0 ? src_cn : dst_cn;
849            int a = 0, b = k == 0 ? src_count-1 : dst_count-1;
850
851            if( cn < 0 || cn >= cn_arr[b+1] )
852            {
853                if( k == 0 && cn < 0 )
854                {
855                    sptr[i] = 0;
856                    sdelta0[i] = sdelta1[i] = 0;
857                    continue;
858                }
859                else
860                {
861                    char err_str[100];
862                    sprintf( err_str, "channel index #%d in the array of pairs is negative "
863                        "or exceeds the total number of channels in all the %s arrays", i*2+k,
864                        k == 0 ? "input" : "output" );
865                    CV_ERROR( CV_StsOutOfRange, err_str );
866                }
867            }
868
869            for( ; cn >= cn_arr[a+1]; a++ )
870                ;
871
872            if( k == 0 )
873            {
874                sptr[i] = src0[a] + (cn - cn_arr[a])*elem_size;
875                sdelta1[i] = cn_arr[a+1] - cn_arr[a];
876                sdelta0[i] = src_step[a];
877            }
878            else
879            {
880                dptr[i] = dst0[a] + (cn - cn_arr[a])*elem_size;
881                ddelta1[i] = cn_arr[a+1] - cn_arr[a];
882                ddelta0[i] = dst_step[a];
883            }
884        }
885    }
886
887    func = (CvMixChannelsFunc)mixcn_tab.fn_2d[depth];
888    if( !func )
889        CV_ERROR( CV_StsUnsupportedFormat, "The data type is not supported by the function" );
890
891    IPPI_CALL( func( (const void**)sptr, sdelta0, sdelta1, (void**)dptr,
892                     ddelta0, ddelta1, pair_count, size ));
893
894    __END__;
895
896    if( buffer && heap_alloc )
897        cvFree( &buffer );
898}
899
900
901/****************************************************************************************\
902*                                   cvConvertScaleAbs                                    *
903\****************************************************************************************/
904
905#define ICV_DEF_CVT_SCALE_ABS_CASE( srctype, worktype,                  \
906            scale_macro, abs_macro, cast_macro, a, b )                  \
907                                                                        \
908{                                                                       \
909    const srctype* _src = (const srctype*)src;                          \
910    srcstep /= sizeof(_src[0]); /*dststep /= sizeof(_dst[0]);*/         \
911                                                                        \
912    for( ; size.height--; _src += srcstep, dst += dststep )             \
913    {                                                                   \
914        int i;                                                          \
915                                                                        \
916        for( i = 0; i <= size.width - 4; i += 4 )                       \
917        {                                                               \
918            worktype t0 = scale_macro((a)*_src[i] + (b));               \
919            worktype t1 = scale_macro((a)*_src[i+1] + (b));             \
920                                                                        \
921            t0 = (worktype)abs_macro(t0);                               \
922            t1 = (worktype)abs_macro(t1);                               \
923                                                                        \
924            dst[i] = cast_macro(t0);                                    \
925            dst[i+1] = cast_macro(t1);                                  \
926                                                                        \
927            t0 = scale_macro((a)*_src[i+2] + (b));                      \
928            t1 = scale_macro((a)*_src[i+3] + (b));                      \
929                                                                        \
930            t0 = (worktype)abs_macro(t0);                               \
931            t1 = (worktype)abs_macro(t1);                               \
932                                                                        \
933            dst[i+2] = cast_macro(t0);                                  \
934            dst[i+3] = cast_macro(t1);                                  \
935        }                                                               \
936                                                                        \
937        for( ; i < size.width; i++ )                                    \
938        {                                                               \
939            worktype t0 = scale_macro((a)*_src[i] + (b));               \
940            t0 = (worktype)abs_macro(t0);                               \
941            dst[i] = cast_macro(t0);                                    \
942        }                                                               \
943    }                                                                   \
944}
945
946
947#define ICV_FIX_SHIFT  15
948#define ICV_SCALE(x)   (((x) + (1 << (ICV_FIX_SHIFT-1))) >> ICV_FIX_SHIFT)
949
950static CvStatus CV_STDCALL
951icvCvtScaleAbsTo_8u_C1R( const uchar* src, int srcstep,
952                         uchar* dst, int dststep,
953                         CvSize size, double scale, double shift,
954                         int param )
955{
956    int srctype = param;
957    int srcdepth = CV_MAT_DEPTH(srctype);
958
959    size.width *= CV_MAT_CN(srctype);
960
961    switch( srcdepth )
962    {
963    case  CV_8S:
964    case  CV_8U:
965        {
966        uchar lut[256];
967        int i;
968        double val = shift;
969
970        for( i = 0; i < 128; i++, val += scale )
971        {
972            int t = cvRound(fabs(val));
973            lut[i] = CV_CAST_8U(t);
974        }
975
976        if( srcdepth == CV_8S )
977            val = -val;
978
979        for( ; i < 256; i++, val += scale )
980        {
981            int t = cvRound(fabs(val));
982            lut[i] = CV_CAST_8U(t);
983        }
984
985        icvLUT_Transform8u_8u_C1R( src, srcstep, dst,
986                                   dststep, size, lut );
987        }
988        break;
989    case  CV_16U:
990        if( fabs( scale ) <= 1. && fabs(shift) < DBL_EPSILON )
991        {
992            int iscale = cvRound(scale*(1 << ICV_FIX_SHIFT));
993
994            if( iscale == ICV_FIX_SHIFT )
995            {
996                ICV_DEF_CVT_SCALE_ABS_CASE( ushort, int, CV_NOP, CV_IABS,
997                                            CV_CAST_8U, 1, 0 );
998            }
999            else
1000            {
1001                ICV_DEF_CVT_SCALE_ABS_CASE( ushort, int, ICV_SCALE, CV_IABS,
1002                                            CV_CAST_8U, iscale, 0 );
1003            }
1004        }
1005        else
1006        {
1007            ICV_DEF_CVT_SCALE_ABS_CASE( ushort, int, cvRound, CV_IABS,
1008                                        CV_CAST_8U, scale, shift );
1009        }
1010        break;
1011    case  CV_16S:
1012        if( fabs( scale ) <= 1. &&
1013            fabs( shift ) <= (INT_MAX*0.5)/(1 << ICV_FIX_SHIFT))
1014        {
1015            int iscale = cvRound(scale*(1 << ICV_FIX_SHIFT));
1016            int ishift = cvRound(shift*(1 << ICV_FIX_SHIFT));
1017
1018            if( iscale == ICV_FIX_SHIFT && ishift == 0 )
1019            {
1020                ICV_DEF_CVT_SCALE_ABS_CASE( short, int, CV_NOP, CV_IABS,
1021                                            CV_CAST_8U, 1, 0 );
1022            }
1023            else
1024            {
1025                ICV_DEF_CVT_SCALE_ABS_CASE( short, int, ICV_SCALE, CV_IABS,
1026                                            CV_CAST_8U, iscale, ishift );
1027            }
1028        }
1029        else
1030        {
1031            ICV_DEF_CVT_SCALE_ABS_CASE( short, int, cvRound, CV_IABS,
1032                                        CV_CAST_8U, scale, shift );
1033        }
1034        break;
1035    case  CV_32S:
1036        ICV_DEF_CVT_SCALE_ABS_CASE( int, int, cvRound, CV_IABS,
1037                                    CV_CAST_8U, scale, shift );
1038        break;
1039    case  CV_32F:
1040        ICV_DEF_CVT_SCALE_ABS_CASE( float, int, cvRound, CV_IABS,
1041                                    CV_CAST_8U, scale, shift );
1042        break;
1043    case  CV_64F:
1044        ICV_DEF_CVT_SCALE_ABS_CASE( double, int, cvRound, CV_IABS,
1045                                    CV_CAST_8U, scale, shift );
1046        break;
1047    default:
1048        assert(0);
1049        return CV_BADFLAG_ERR;
1050    }
1051
1052    return  CV_OK;
1053}
1054
1055
1056CV_IMPL void
1057cvConvertScaleAbs( const void* srcarr, void* dstarr,
1058                   double scale, double shift )
1059{
1060    CV_FUNCNAME( "cvConvertScaleAbs" );
1061
1062    __BEGIN__;
1063
1064    int coi1 = 0, coi2 = 0;
1065    CvMat  srcstub, *src = (CvMat*)srcarr;
1066    CvMat  dststub, *dst = (CvMat*)dstarr;
1067    CvSize size;
1068    int src_step, dst_step;
1069
1070    CV_CALL( src = cvGetMat( src, &srcstub, &coi1 ));
1071    CV_CALL( dst = cvGetMat( dst, &dststub, &coi2 ));
1072
1073    if( coi1 != 0 || coi2 != 0 )
1074        CV_ERROR( CV_BadCOI, "" );
1075
1076    if( !CV_ARE_SIZES_EQ( src, dst ))
1077        CV_ERROR( CV_StsUnmatchedSizes, "" );
1078
1079    if( !CV_ARE_CNS_EQ( src, dst ))
1080        CV_ERROR( CV_StsUnmatchedFormats, "" );
1081
1082    if( CV_MAT_DEPTH( dst->type ) != CV_8U )
1083        CV_ERROR( CV_StsUnsupportedFormat, "" );
1084
1085    size = cvGetMatSize( src );
1086    src_step = src->step;
1087    dst_step = dst->step;
1088
1089    if( CV_IS_MAT_CONT( src->type & dst->type ))
1090    {
1091        size.width *= size.height;
1092        src_step = dst_step = CV_STUB_STEP;
1093        size.height = 1;
1094    }
1095
1096    IPPI_CALL( icvCvtScaleAbsTo_8u_C1R( src->data.ptr, src_step,
1097                             (uchar*)(dst->data.ptr), dst_step,
1098                             size, scale, shift, CV_MAT_TYPE(src->type)));
1099    __END__;
1100}
1101
1102/****************************************************************************************\
1103*                                      cvConvertScale                                    *
1104\****************************************************************************************/
1105
1106#define ICV_DEF_CVT_SCALE_CASE( srctype, worktype,          \
1107                            scale_macro, cast_macro, a, b ) \
1108                                                            \
1109{                                                           \
1110    const srctype* _src = (const srctype*)src;              \
1111    srcstep /= sizeof(_src[0]);                             \
1112                                                            \
1113    for( ; size.height--; _src += srcstep, dst += dststep ) \
1114    {                                                       \
1115        for( i = 0; i <= size.width - 4; i += 4 )           \
1116        {                                                   \
1117            worktype t0 = scale_macro((a)*_src[i]+(b));     \
1118            worktype t1 = scale_macro((a)*_src[i+1]+(b));   \
1119                                                            \
1120            dst[i] = cast_macro(t0);                        \
1121            dst[i+1] = cast_macro(t1);                      \
1122                                                            \
1123            t0 = scale_macro((a)*_src[i+2] + (b));          \
1124            t1 = scale_macro((a)*_src[i+3] + (b));          \
1125                                                            \
1126            dst[i+2] = cast_macro(t0);                      \
1127            dst[i+3] = cast_macro(t1);                      \
1128        }                                                   \
1129                                                            \
1130        for( ; i < size.width; i++ )                        \
1131        {                                                   \
1132            worktype t0 = scale_macro((a)*_src[i] + (b));   \
1133            dst[i] = cast_macro(t0);                        \
1134        }                                                   \
1135    }                                                       \
1136}
1137
1138
1139#define  ICV_DEF_CVT_SCALE_FUNC_INT( flavor, dsttype, cast_macro )      \
1140static  CvStatus  CV_STDCALL                                            \
1141icvCvtScaleTo_##flavor##_C1R( const uchar* src, int srcstep,            \
1142                              dsttype* dst, int dststep, CvSize size,   \
1143                              double scale, double shift, int param )   \
1144{                                                                       \
1145    int i, srctype = param;                                             \
1146    dsttype lut[256];                                                   \
1147    dststep /= sizeof(dst[0]);                                          \
1148                                                                        \
1149    switch( CV_MAT_DEPTH(srctype) )                                     \
1150    {                                                                   \
1151    case  CV_8U:                                                        \
1152        if( size.width*size.height >= 256 )                             \
1153        {                                                               \
1154            double val = shift;                                         \
1155            for( i = 0; i < 256; i++, val += scale )                    \
1156            {                                                           \
1157                int t = cvRound(val);                                   \
1158                lut[i] = cast_macro(t);                                 \
1159            }                                                           \
1160                                                                        \
1161            icvLUT_Transform8u_##flavor##_C1R( src, srcstep, dst,       \
1162                                dststep*sizeof(dst[0]), size, lut );    \
1163        }                                                               \
1164        else if( fabs( scale ) <= 128. &&                               \
1165                 fabs( shift ) <= (INT_MAX*0.5)/(1 << ICV_FIX_SHIFT))   \
1166        {                                                               \
1167            int iscale = cvRound(scale*(1 << ICV_FIX_SHIFT));           \
1168            int ishift = cvRound(shift*(1 << ICV_FIX_SHIFT));           \
1169                                                                        \
1170            ICV_DEF_CVT_SCALE_CASE( uchar, int, ICV_SCALE,              \
1171                                    cast_macro, iscale, ishift );       \
1172        }                                                               \
1173        else                                                            \
1174        {                                                               \
1175            ICV_DEF_CVT_SCALE_CASE( uchar, int, cvRound,                \
1176                                    cast_macro, scale, shift );         \
1177        }                                                               \
1178        break;                                                          \
1179    case  CV_8S:                                                        \
1180        if( size.width*size.height >= 256 )                             \
1181        {                                                               \
1182            for( i = 0; i < 256; i++ )                                  \
1183            {                                                           \
1184                int t = cvRound( (schar)i*scale + shift );              \
1185                lut[i] = cast_macro(t);                                 \
1186            }                                                           \
1187                                                                        \
1188            icvLUT_Transform8u_##flavor##_C1R( src, srcstep, dst,       \
1189                                dststep*sizeof(dst[0]), size, lut );    \
1190        }                                                               \
1191        else if( fabs( scale ) <= 128. &&                               \
1192                 fabs( shift ) <= (INT_MAX*0.5)/(1 << ICV_FIX_SHIFT))   \
1193        {                                                               \
1194            int iscale = cvRound(scale*(1 << ICV_FIX_SHIFT));           \
1195            int ishift = cvRound(shift*(1 << ICV_FIX_SHIFT));           \
1196                                                                        \
1197            ICV_DEF_CVT_SCALE_CASE( schar, int, ICV_SCALE,              \
1198                                    cast_macro, iscale, ishift );       \
1199        }                                                               \
1200        else                                                            \
1201        {                                                               \
1202            ICV_DEF_CVT_SCALE_CASE( schar, int, cvRound,                \
1203                                    cast_macro, scale, shift );         \
1204        }                                                               \
1205        break;                                                          \
1206    case  CV_16U:                                                       \
1207        if( fabs( scale ) <= 1. && fabs(shift) < DBL_EPSILON )          \
1208        {                                                               \
1209            int iscale = cvRound(scale*(1 << ICV_FIX_SHIFT));           \
1210                                                                        \
1211            ICV_DEF_CVT_SCALE_CASE( ushort, int, ICV_SCALE,             \
1212                                    cast_macro, iscale, 0 );            \
1213        }                                                               \
1214        else                                                            \
1215        {                                                               \
1216            ICV_DEF_CVT_SCALE_CASE( ushort, int, cvRound,               \
1217                                    cast_macro, scale, shift );         \
1218        }                                                               \
1219        break;                                                          \
1220    case  CV_16S:                                                       \
1221        if( fabs( scale ) <= 1. &&                                      \
1222            fabs( shift ) <= (INT_MAX*0.5)/(1 << ICV_FIX_SHIFT))        \
1223        {                                                               \
1224            int iscale = cvRound(scale*(1 << ICV_FIX_SHIFT));           \
1225            int ishift = cvRound(shift*(1 << ICV_FIX_SHIFT));           \
1226                                                                        \
1227            ICV_DEF_CVT_SCALE_CASE( short, int, ICV_SCALE,              \
1228                                    cast_macro, iscale, ishift );       \
1229        }                                                               \
1230        else                                                            \
1231        {                                                               \
1232            ICV_DEF_CVT_SCALE_CASE( short, int, cvRound,                \
1233                                    cast_macro, scale, shift );         \
1234        }                                                               \
1235        break;                                                          \
1236    case  CV_32S:                                                       \
1237        ICV_DEF_CVT_SCALE_CASE( int, int, cvRound,                      \
1238                                cast_macro, scale, shift );             \
1239        break;                                                          \
1240    case  CV_32F:                                                       \
1241        ICV_DEF_CVT_SCALE_CASE( float, int, cvRound,                    \
1242                                cast_macro, scale, shift );             \
1243        break;                                                          \
1244    case  CV_64F:                                                       \
1245        ICV_DEF_CVT_SCALE_CASE( double, int, cvRound,                   \
1246                                cast_macro, scale, shift );             \
1247        break;                                                          \
1248    default:                                                            \
1249        assert(0);                                                      \
1250        return CV_BADFLAG_ERR;                                          \
1251    }                                                                   \
1252                                                                        \
1253    return  CV_OK;                                                      \
1254}
1255
1256
1257#define  ICV_DEF_CVT_SCALE_FUNC_FLT( flavor, dsttype, cast_macro )      \
1258static  CvStatus  CV_STDCALL                                            \
1259icvCvtScaleTo_##flavor##_C1R( const uchar* src, int srcstep,            \
1260                              dsttype* dst, int dststep, CvSize size,   \
1261                              double scale, double shift, int param )   \
1262{                                                                       \
1263    int i, srctype = param;                                             \
1264    dsttype lut[256];                                                   \
1265    dststep /= sizeof(dst[0]);                                          \
1266                                                                        \
1267    switch( CV_MAT_DEPTH(srctype) )                                     \
1268    {                                                                   \
1269    case  CV_8U:                                                        \
1270        if( size.width*size.height >= 256 )                             \
1271        {                                                               \
1272            double val = shift;                                         \
1273            for( i = 0; i < 256; i++, val += scale )                    \
1274                lut[i] = (dsttype)val;                                  \
1275                                                                        \
1276            icvLUT_Transform8u_##flavor##_C1R( src, srcstep, dst,       \
1277                                dststep*sizeof(dst[0]), size, lut );    \
1278        }                                                               \
1279        else                                                            \
1280        {                                                               \
1281            ICV_DEF_CVT_SCALE_CASE( uchar, double, CV_NOP,              \
1282                                    cast_macro, scale, shift );         \
1283        }                                                               \
1284        break;                                                          \
1285    case  CV_8S:                                                        \
1286        if( size.width*size.height >= 256 )                             \
1287        {                                                               \
1288            for( i = 0; i < 256; i++ )                                  \
1289                lut[i] = (dsttype)((schar)i*scale + shift);             \
1290                                                                        \
1291            icvLUT_Transform8u_##flavor##_C1R( src, srcstep, dst,       \
1292                                dststep*sizeof(dst[0]), size, lut );    \
1293        }                                                               \
1294        else                                                            \
1295        {                                                               \
1296            ICV_DEF_CVT_SCALE_CASE( schar, double, CV_NOP,              \
1297                                    cast_macro, scale, shift );         \
1298        }                                                               \
1299        break;                                                          \
1300    case  CV_16U:                                                       \
1301        ICV_DEF_CVT_SCALE_CASE( ushort, double, CV_NOP,                 \
1302                                cast_macro, scale, shift );             \
1303        break;                                                          \
1304    case  CV_16S:                                                       \
1305        ICV_DEF_CVT_SCALE_CASE( short, double, CV_NOP,                  \
1306                                cast_macro, scale, shift );             \
1307        break;                                                          \
1308    case  CV_32S:                                                       \
1309        ICV_DEF_CVT_SCALE_CASE( int, double, CV_NOP,                    \
1310                                cast_macro, scale, shift );             \
1311        break;                                                          \
1312    case  CV_32F:                                                       \
1313        ICV_DEF_CVT_SCALE_CASE( float, double, CV_NOP,                  \
1314                                cast_macro, scale, shift );             \
1315        break;                                                          \
1316    case  CV_64F:                                                       \
1317        ICV_DEF_CVT_SCALE_CASE( double, double, CV_NOP,                 \
1318                                cast_macro, scale, shift );             \
1319        break;                                                          \
1320    default:                                                            \
1321        assert(0);                                                      \
1322        return CV_BADFLAG_ERR;                                          \
1323    }                                                                   \
1324                                                                        \
1325    return  CV_OK;                                                      \
1326}
1327
1328
1329ICV_DEF_CVT_SCALE_FUNC_INT( 8u, uchar, CV_CAST_8U )
1330ICV_DEF_CVT_SCALE_FUNC_INT( 8s, schar, CV_CAST_8S )
1331ICV_DEF_CVT_SCALE_FUNC_INT( 16s, short, CV_CAST_16S )
1332ICV_DEF_CVT_SCALE_FUNC_INT( 16u, ushort, CV_CAST_16U )
1333ICV_DEF_CVT_SCALE_FUNC_INT( 32s, int, CV_CAST_32S )
1334
1335ICV_DEF_CVT_SCALE_FUNC_FLT( 32f, float, CV_CAST_32F )
1336ICV_DEF_CVT_SCALE_FUNC_FLT( 64f, double, CV_CAST_64F )
1337
1338CV_DEF_INIT_FUNC_TAB_2D( CvtScaleTo, C1R )
1339
1340
1341/****************************************************************************************\
1342*                             Conversion w/o scaling macros                              *
1343\****************************************************************************************/
1344
1345#define ICV_DEF_CVT_CASE_2D( srctype, worktype,             \
1346                             cast_macro1, cast_macro2 )     \
1347{                                                           \
1348    const srctype* _src = (const srctype*)src;              \
1349    srcstep /= sizeof(_src[0]);                             \
1350                                                            \
1351    for( ; size.height--; _src += srcstep, dst += dststep ) \
1352    {                                                       \
1353        int i;                                              \
1354                                                            \
1355        for( i = 0; i <= size.width - 4; i += 4 )           \
1356        {                                                   \
1357            worktype t0 = cast_macro1(_src[i]);             \
1358            worktype t1 = cast_macro1(_src[i+1]);           \
1359                                                            \
1360            dst[i] = cast_macro2(t0);                       \
1361            dst[i+1] = cast_macro2(t1);                     \
1362                                                            \
1363            t0 = cast_macro1(_src[i+2]);                    \
1364            t1 = cast_macro1(_src[i+3]);                    \
1365                                                            \
1366            dst[i+2] = cast_macro2(t0);                     \
1367            dst[i+3] = cast_macro2(t1);                     \
1368        }                                                   \
1369                                                            \
1370        for( ; i < size.width; i++ )                        \
1371        {                                                   \
1372            worktype t0 = cast_macro1(_src[i]);             \
1373            dst[i] = cast_macro2(t0);                       \
1374        }                                                   \
1375    }                                                       \
1376}
1377
1378
1379#define ICV_DEF_CVT_FUNC_2D( flavor, dsttype, worktype, cast_macro2,    \
1380                             srcdepth1, srctype1, cast_macro11,         \
1381                             srcdepth2, srctype2, cast_macro12,         \
1382                             srcdepth3, srctype3, cast_macro13,         \
1383                             srcdepth4, srctype4, cast_macro14,         \
1384                             srcdepth5, srctype5, cast_macro15,         \
1385                             srcdepth6, srctype6, cast_macro16 )        \
1386static CvStatus CV_STDCALL                                              \
1387icvCvtTo_##flavor##_C1R( const uchar* src, int srcstep,                 \
1388                         dsttype* dst, int dststep,                     \
1389                         CvSize size, int param )                       \
1390{                                                                       \
1391    int srctype = param;                                                \
1392    dststep /= sizeof(dst[0]);                                          \
1393                                                                        \
1394    switch( CV_MAT_DEPTH(srctype) )                                     \
1395    {                                                                   \
1396    case srcdepth1:                                                     \
1397        ICV_DEF_CVT_CASE_2D( srctype1, worktype,                        \
1398                             cast_macro11, cast_macro2 );               \
1399        break;                                                          \
1400    case srcdepth2:                                                     \
1401        ICV_DEF_CVT_CASE_2D( srctype2, worktype,                        \
1402                             cast_macro12, cast_macro2 );               \
1403        break;                                                          \
1404    case srcdepth3:                                                     \
1405        ICV_DEF_CVT_CASE_2D( srctype3, worktype,                        \
1406                             cast_macro13, cast_macro2 );               \
1407        break;                                                          \
1408    case srcdepth4:                                                     \
1409        ICV_DEF_CVT_CASE_2D( srctype4, worktype,                        \
1410                             cast_macro14, cast_macro2 );               \
1411        break;                                                          \
1412    case srcdepth5:                                                     \
1413        ICV_DEF_CVT_CASE_2D( srctype5, worktype,                        \
1414                             cast_macro15, cast_macro2 );               \
1415        break;                                                          \
1416    case srcdepth6:                                                     \
1417        ICV_DEF_CVT_CASE_2D( srctype6, worktype,                        \
1418                             cast_macro16, cast_macro2 );               \
1419        break;                                                          \
1420    }                                                                   \
1421                                                                        \
1422    return  CV_OK;                                                      \
1423}
1424
1425
1426ICV_DEF_CVT_FUNC_2D( 8u, uchar, int, CV_CAST_8U,
1427                     CV_8S,  schar,  CV_NOP,
1428                     CV_16U, ushort, CV_NOP,
1429                     CV_16S, short,  CV_NOP,
1430                     CV_32S, int,    CV_NOP,
1431                     CV_32F, float,  cvRound,
1432                     CV_64F, double, cvRound )
1433
1434ICV_DEF_CVT_FUNC_2D( 8s, schar, int, CV_CAST_8S,
1435                     CV_8U,  uchar,  CV_NOP,
1436                     CV_16U, ushort, CV_NOP,
1437                     CV_16S, short,  CV_NOP,
1438                     CV_32S, int,    CV_NOP,
1439                     CV_32F, float,  cvRound,
1440                     CV_64F, double, cvRound )
1441
1442ICV_DEF_CVT_FUNC_2D( 16u, ushort, int, CV_CAST_16U,
1443                     CV_8U,  uchar,  CV_NOP,
1444                     CV_8S,  schar,  CV_NOP,
1445                     CV_16S, short,  CV_NOP,
1446                     CV_32S, int,    CV_NOP,
1447                     CV_32F, float,  cvRound,
1448                     CV_64F, double, cvRound )
1449
1450ICV_DEF_CVT_FUNC_2D( 16s, short, int, CV_CAST_16S,
1451                     CV_8U,  uchar,  CV_NOP,
1452                     CV_8S,  schar,  CV_NOP,
1453                     CV_16U, ushort, CV_NOP,
1454                     CV_32S, int,    CV_NOP,
1455                     CV_32F, float,  cvRound,
1456                     CV_64F, double, cvRound )
1457
1458ICV_DEF_CVT_FUNC_2D( 32s, int, int, CV_NOP,
1459                     CV_8U,  uchar,  CV_NOP,
1460                     CV_8S,  schar,  CV_NOP,
1461                     CV_16U, ushort, CV_NOP,
1462                     CV_16S, short,  CV_NOP,
1463                     CV_32F, float,  cvRound,
1464                     CV_64F, double, cvRound )
1465
1466ICV_DEF_CVT_FUNC_2D( 32f, float, float, CV_NOP,
1467                     CV_8U,  uchar,  CV_8TO32F,
1468                     CV_8S,  schar,  CV_8TO32F,
1469                     CV_16U, ushort, CV_NOP,
1470                     CV_16S, short,  CV_NOP,
1471                     CV_32S, int,    CV_CAST_32F,
1472                     CV_64F, double, CV_CAST_32F )
1473
1474ICV_DEF_CVT_FUNC_2D( 64f, double, double, CV_NOP,
1475                     CV_8U,  uchar,  CV_8TO32F,
1476                     CV_8S,  schar,  CV_8TO32F,
1477                     CV_16U, ushort, CV_NOP,
1478                     CV_16S, short,  CV_NOP,
1479                     CV_32S, int,    CV_NOP,
1480                     CV_32F, float,  CV_NOP )
1481
1482CV_DEF_INIT_FUNC_TAB_2D( CvtTo, C1R )
1483
1484
1485typedef  CvStatus (CV_STDCALL *CvCvtFunc)( const void* src, int srcstep,
1486                                           void* dst, int dststep, CvSize size,
1487                                           int param );
1488
1489typedef  CvStatus (CV_STDCALL *CvCvtScaleFunc)( const void* src, int srcstep,
1490                                             void* dst, int dststep, CvSize size,
1491                                             double scale, double shift,
1492                                             int param );
1493
1494CV_IMPL void
1495cvConvertScale( const void* srcarr, void* dstarr,
1496                double scale, double shift )
1497{
1498    static CvFuncTable cvt_tab, cvtscale_tab;
1499    static int inittab = 0;
1500
1501    CV_FUNCNAME( "cvConvertScale" );
1502
1503    __BEGIN__;
1504
1505    int type;
1506    int is_nd = 0;
1507    CvMat  srcstub, *src = (CvMat*)srcarr;
1508    CvMat  dststub, *dst = (CvMat*)dstarr;
1509    CvSize size;
1510    int src_step, dst_step;
1511    int no_scale = scale == 1 && shift == 0;
1512
1513    if( !CV_IS_MAT(src) )
1514    {
1515        if( CV_IS_MATND(src) )
1516            is_nd = 1;
1517        else
1518        {
1519            int coi = 0;
1520            CV_CALL( src = cvGetMat( src, &srcstub, &coi ));
1521
1522            if( coi != 0 )
1523                CV_ERROR( CV_BadCOI, "" );
1524        }
1525    }
1526
1527    if( !CV_IS_MAT(dst) )
1528    {
1529        if( CV_IS_MATND(dst) )
1530            is_nd = 1;
1531        else
1532        {
1533            int coi = 0;
1534            CV_CALL( dst = cvGetMat( dst, &dststub, &coi ));
1535
1536            if( coi != 0 )
1537                CV_ERROR( CV_BadCOI, "" );
1538        }
1539    }
1540
1541    if( is_nd )
1542    {
1543        CvArr* arrs[] = { src, dst };
1544        CvMatND stubs[2];
1545        CvNArrayIterator iterator;
1546        int dsttype;
1547
1548        CV_CALL( cvInitNArrayIterator( 2, arrs, 0, stubs, &iterator, CV_NO_DEPTH_CHECK ));
1549
1550        type = iterator.hdr[0]->type;
1551        dsttype = iterator.hdr[1]->type;
1552        iterator.size.width *= CV_MAT_CN(type);
1553
1554        if( !inittab )
1555        {
1556            icvInitCvtToC1RTable( &cvt_tab );
1557            icvInitCvtScaleToC1RTable( &cvtscale_tab );
1558            inittab = 1;
1559        }
1560
1561        if( no_scale )
1562        {
1563            CvCvtFunc func = (CvCvtFunc)(cvt_tab.fn_2d[CV_MAT_DEPTH(dsttype)]);
1564            if( !func )
1565                CV_ERROR( CV_StsUnsupportedFormat, "" );
1566
1567            do
1568            {
1569                IPPI_CALL( func( iterator.ptr[0], CV_STUB_STEP,
1570                                 iterator.ptr[1], CV_STUB_STEP,
1571                                 iterator.size, type ));
1572            }
1573            while( cvNextNArraySlice( &iterator ));
1574        }
1575        else
1576        {
1577            CvCvtScaleFunc func =
1578                (CvCvtScaleFunc)(cvtscale_tab.fn_2d[CV_MAT_DEPTH(dsttype)]);
1579            if( !func )
1580                CV_ERROR( CV_StsUnsupportedFormat, "" );
1581
1582            do
1583            {
1584                IPPI_CALL( func( iterator.ptr[0], CV_STUB_STEP,
1585                                 iterator.ptr[1], CV_STUB_STEP,
1586                                 iterator.size, scale, shift, type ));
1587            }
1588            while( cvNextNArraySlice( &iterator ));
1589        }
1590        EXIT;
1591    }
1592
1593    if( no_scale && CV_ARE_TYPES_EQ( src, dst ) )
1594    {
1595        if( src != dst )
1596          cvCopy( src, dst );
1597        EXIT;
1598    }
1599
1600    if( !CV_ARE_SIZES_EQ( src, dst ))
1601        CV_ERROR( CV_StsUnmatchedSizes, "" );
1602
1603    size = cvGetMatSize( src );
1604    type = CV_MAT_TYPE(src->type);
1605    src_step = src->step;
1606    dst_step = dst->step;
1607
1608    if( CV_IS_MAT_CONT( src->type & dst->type ))
1609    {
1610        size.width *= size.height;
1611        src_step = dst_step = CV_STUB_STEP;
1612        size.height = 1;
1613    }
1614
1615    size.width *= CV_MAT_CN( type );
1616
1617    if( CV_ARE_TYPES_EQ( src, dst ) && size.height == 1 &&
1618        size.width <= CV_MAX_INLINE_MAT_OP_SIZE )
1619    {
1620        if( CV_MAT_DEPTH(type) == CV_32F )
1621        {
1622            const float* srcdata = (const float*)(src->data.ptr);
1623            float* dstdata = (float*)(dst->data.ptr);
1624
1625            do
1626            {
1627                dstdata[size.width - 1] = (float)(srcdata[size.width-1]*scale + shift);
1628            }
1629            while( --size.width );
1630
1631            EXIT;
1632        }
1633
1634        if( CV_MAT_DEPTH(type) == CV_64F )
1635        {
1636            const double* srcdata = (const double*)(src->data.ptr);
1637            double* dstdata = (double*)(dst->data.ptr);
1638
1639            do
1640            {
1641                dstdata[size.width - 1] = srcdata[size.width-1]*scale + shift;
1642            }
1643            while( --size.width );
1644
1645            EXIT;
1646        }
1647    }
1648
1649    if( !inittab )
1650    {
1651        icvInitCvtToC1RTable( &cvt_tab );
1652        icvInitCvtScaleToC1RTable( &cvtscale_tab );
1653        inittab = 1;
1654    }
1655
1656    if( !CV_ARE_CNS_EQ( src, dst ))
1657        CV_ERROR( CV_StsUnmatchedFormats, "" );
1658
1659    if( no_scale )
1660    {
1661        CvCvtFunc func = (CvCvtFunc)(cvt_tab.fn_2d[CV_MAT_DEPTH(dst->type)]);
1662
1663        if( !func )
1664            CV_ERROR( CV_StsUnsupportedFormat, "" );
1665
1666        IPPI_CALL( func( src->data.ptr, src_step,
1667                   dst->data.ptr, dst_step, size, type ));
1668    }
1669    else
1670    {
1671        CvCvtScaleFunc func = (CvCvtScaleFunc)
1672            (cvtscale_tab.fn_2d[CV_MAT_DEPTH(dst->type)]);
1673
1674        if( !func )
1675            CV_ERROR( CV_StsUnsupportedFormat, "" );
1676
1677        IPPI_CALL( func( src->data.ptr, src_step,
1678                   dst->data.ptr, dst_step, size,
1679                   scale, shift, type ));
1680    }
1681
1682    __END__;
1683}
1684
1685/********************* helper functions for converting 32f<->64f ************************/
1686
1687IPCVAPI_IMPL( CvStatus, icvCvt_32f64f,
1688    ( const float* src, double* dst, int len ), (src, dst, len) )
1689{
1690    int i;
1691    for( i = 0; i <= len - 4; i += 4 )
1692    {
1693        double t0 = src[i];
1694        double t1 = src[i+1];
1695
1696        dst[i] = t0;
1697        dst[i+1] = t1;
1698
1699        t0 = src[i+2];
1700        t1 = src[i+3];
1701
1702        dst[i+2] = t0;
1703        dst[i+3] = t1;
1704    }
1705
1706    for( ; i < len; i++ )
1707        dst[i] = src[i];
1708
1709    return CV_OK;
1710}
1711
1712
1713IPCVAPI_IMPL( CvStatus, icvCvt_64f32f,
1714    ( const double* src, float* dst, int len ), (src, dst, len) )
1715{
1716    int i = 0;
1717    for( ; i <= len - 4; i += 4 )
1718    {
1719        double t0 = src[i];
1720        double t1 = src[i+1];
1721
1722        dst[i] = (float)t0;
1723        dst[i+1] = (float)t1;
1724
1725        t0 = src[i+2];
1726        t1 = src[i+3];
1727
1728        dst[i+2] = (float)t0;
1729        dst[i+3] = (float)t1;
1730    }
1731
1732    for( ; i < len; i++ )
1733        dst[i] = (float)src[i];
1734
1735    return CV_OK;
1736}
1737
1738
1739CvStatus CV_STDCALL icvScale_32f( const float* src, float* dst, int len, float a, float b )
1740{
1741    int i;
1742    for( i = 0; i <= len - 4; i += 4 )
1743    {
1744        double t0 = src[i]*a + b;
1745        double t1 = src[i+1]*a + b;
1746
1747        dst[i] = (float)t0;
1748        dst[i+1] = (float)t1;
1749
1750        t0 = src[i+2]*a + b;
1751        t1 = src[i+3]*a + b;
1752
1753        dst[i+2] = (float)t0;
1754        dst[i+3] = (float)t1;
1755    }
1756
1757    for( ; i < len; i++ )
1758        dst[i] = (float)(src[i]*a + b);
1759
1760    return CV_OK;
1761}
1762
1763
1764CvStatus CV_STDCALL icvScale_64f( const double* src, double* dst, int len, double a, double b )
1765{
1766    int i;
1767    for( i = 0; i <= len - 4; i += 4 )
1768    {
1769        double t0 = src[i]*a + b;
1770        double t1 = src[i+1]*a + b;
1771
1772        dst[i] = t0;
1773        dst[i+1] = t1;
1774
1775        t0 = src[i+2]*a + b;
1776        t1 = src[i+3]*a + b;
1777
1778        dst[i+2] = t0;
1779        dst[i+3] = t1;
1780    }
1781
1782    for( ; i < len; i++ )
1783        dst[i] = src[i]*a + b;
1784
1785    return CV_OK;
1786}
1787
1788/* End of file. */
1789