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source: 3DVCSoftware/branches/HTM-10.0rc1-dev0/source/Lib/TLibCommon/TComYuv.cpp @ 836

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Last change on this file since 836 was 622, checked in by tech, 11 years ago
Merged 8.0-dev0@621 (MV-HEVC 5 HLS).
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1	/* The copyright in this software is being made available under the BSD
2	* License, included below. This software may be subject to other third party
3	* and contributor rights, including patent rights, and no such rights are
4	* granted under this license.
5	*
6	* Copyright (c) 2010-2013, ITU/ISO/IEC
7	* All rights reserved.
8	*
9	* Redistribution and use in source and binary forms, with or without
10	* modification, are permitted provided that the following conditions are met:
11	*
12	* * Redistributions of source code must retain the above copyright notice,
13	* this list of conditions and the following disclaimer.
14	* * Redistributions in binary form must reproduce the above copyright notice,
15	* this list of conditions and the following disclaimer in the documentation
16	* and/or other materials provided with the distribution.
17	* * Neither the name of the ITU/ISO/IEC nor the names of its contributors may
18	* be used to endorse or promote products derived from this software without
19	* specific prior written permission.
20	*
21	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
22	* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
23	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
24	* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS
25	* BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
26	* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
27	* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
28	* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
29	* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
30	* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
31	* THE POSSIBILITY OF SUCH DAMAGE.
32	*/
33
34	/** \file TComYuv.cpp
35	\brief general YUV buffer class
36	\todo this should be merged with TComPicYuv
37	*/
38
39	#include <stdlib.h>
40	#include <memory.h>
41	#include <assert.h>
42	#include <math.h>
43
44	#include "CommonDef.h"
45	#include "TComYuv.h"
46	#include "TComInterpolationFilter.h"
47
48	//! \ingroup TLibCommon
49	//! \{
50
51	TComYuv::TComYuv()
52	{
53	m_apiBufY = NULL;
54	m_apiBufU = NULL;
55	m_apiBufV = NULL;
56	}
57
58	TComYuv::~TComYuv()
59	{
60	}
61
62	Void TComYuv::create( UInt iWidth, UInt iHeight )
63	{
64	// memory allocation
65	m_apiBufY = (Pel)xMalloc( Pel, iWidthiHeight );
66	m_apiBufU = (Pel)xMalloc( Pel, iWidthiHeight >> 2 );
67	m_apiBufV = (Pel)xMalloc( Pel, iWidthiHeight >> 2 );
68
69	// set width and height
70	m_iWidth = iWidth;
71	m_iHeight = iHeight;
72	m_iCWidth = iWidth >> 1;
73	m_iCHeight = iHeight >> 1;
74	}
75
76	Void TComYuv::destroy()
77	{
78	// memory free
79	xFree( m_apiBufY ); m_apiBufY = NULL;
80	xFree( m_apiBufU ); m_apiBufU = NULL;
81	xFree( m_apiBufV ); m_apiBufV = NULL;
82	}
83
84	Void TComYuv::clear()
85	{
86	::memset( m_apiBufY, 0, ( m_iWidth * m_iHeight )*sizeof(Pel) );
87	::memset( m_apiBufU, 0, ( m_iCWidth * m_iCHeight )*sizeof(Pel) );
88	::memset( m_apiBufV, 0, ( m_iCWidth * m_iCHeight )*sizeof(Pel) );
89	}
90
91	Void TComYuv::copyToPicYuv ( TComPicYuv* pcPicYuvDst, UInt iCuAddr, UInt uiAbsZorderIdx, UInt uiPartDepth, UInt uiPartIdx )
92	{
93	copyToPicLuma ( pcPicYuvDst, iCuAddr, uiAbsZorderIdx, uiPartDepth, uiPartIdx );
94	copyToPicChroma( pcPicYuvDst, iCuAddr, uiAbsZorderIdx, uiPartDepth, uiPartIdx );
95	}
96
97	Void TComYuv::copyToPicLuma ( TComPicYuv* pcPicYuvDst, UInt iCuAddr, UInt uiAbsZorderIdx, UInt uiPartDepth, UInt uiPartIdx )
98	{
99	Int y, iWidth, iHeight;
100	iWidth = m_iWidth >>uiPartDepth;
101	iHeight = m_iHeight>>uiPartDepth;
102
103	Pel* pSrc = getLumaAddr(uiPartIdx, iWidth);
104	Pel* pDst = pcPicYuvDst->getLumaAddr ( iCuAddr, uiAbsZorderIdx );
105
106	UInt iSrcStride = getStride();
107	UInt iDstStride = pcPicYuvDst->getStride();
108
109	for ( y = iHeight; y != 0; y-- )
110	{
111	::memcpy( pDst, pSrc, sizeof(Pel)*iWidth);
112
113	#if ENC_DEC_TRACE && H_MV_ENC_DEC_TRAC
114	if ( g_traceCopyBack && g_nSymbolCounter >= g_stopAtCounter )
115	{
116	for ( Int x = 0; x < iWidth; x++)
117	{
118	std::cout << pSrc[ x ] << " " ;
119	}
120	std::cout << std::endl;
121	}
122	#endif
123
124	pDst += iDstStride;
125	pSrc += iSrcStride;
126	}
127	}
128
129	Void TComYuv::copyToPicChroma( TComPicYuv* pcPicYuvDst, UInt iCuAddr, UInt uiAbsZorderIdx, UInt uiPartDepth, UInt uiPartIdx )
130	{
131	Int y, iWidth, iHeight;
132	iWidth = m_iCWidth >>uiPartDepth;
133	iHeight = m_iCHeight>>uiPartDepth;
134
135	Pel* pSrcU = getCbAddr(uiPartIdx, iWidth);
136	Pel* pSrcV = getCrAddr(uiPartIdx, iWidth);
137	Pel* pDstU = pcPicYuvDst->getCbAddr( iCuAddr, uiAbsZorderIdx );
138	Pel* pDstV = pcPicYuvDst->getCrAddr( iCuAddr, uiAbsZorderIdx );
139
140	UInt iSrcStride = getCStride();
141	UInt iDstStride = pcPicYuvDst->getCStride();
142	for ( y = iHeight; y != 0; y-- )
143	{
144	::memcpy( pDstU, pSrcU, sizeof(Pel)*(iWidth) );
145	::memcpy( pDstV, pSrcV, sizeof(Pel)*(iWidth) );
146	pSrcU += iSrcStride;
147	pSrcV += iSrcStride;
148	pDstU += iDstStride;
149	pDstV += iDstStride;
150	}
151	}
152
153	Void TComYuv::copyFromPicYuv ( TComPicYuv* pcPicYuvSrc, UInt iCuAddr, UInt uiAbsZorderIdx )
154	{
155	copyFromPicLuma ( pcPicYuvSrc, iCuAddr, uiAbsZorderIdx );
156	copyFromPicChroma( pcPicYuvSrc, iCuAddr, uiAbsZorderIdx );
157	}
158
159	Void TComYuv::copyFromPicLuma ( TComPicYuv* pcPicYuvSrc, UInt iCuAddr, UInt uiAbsZorderIdx )
160	{
161	Int y;
162
163	Pel* pDst = m_apiBufY;
164	Pel* pSrc = pcPicYuvSrc->getLumaAddr ( iCuAddr, uiAbsZorderIdx );
165
166	UInt iDstStride = getStride();
167	UInt iSrcStride = pcPicYuvSrc->getStride();
168	for ( y = m_iHeight; y != 0; y-- )
169	{
170	::memcpy( pDst, pSrc, sizeof(Pel)*m_iWidth);
171	pDst += iDstStride;
172	pSrc += iSrcStride;
173	}
174	}
175
176	Void TComYuv::copyFromPicChroma( TComPicYuv* pcPicYuvSrc, UInt iCuAddr, UInt uiAbsZorderIdx )
177	{
178	Int y;
179
180	Pel* pDstU = m_apiBufU;
181	Pel* pDstV = m_apiBufV;
182	Pel* pSrcU = pcPicYuvSrc->getCbAddr( iCuAddr, uiAbsZorderIdx );
183	Pel* pSrcV = pcPicYuvSrc->getCrAddr( iCuAddr, uiAbsZorderIdx );
184
185	UInt iDstStride = getCStride();
186	UInt iSrcStride = pcPicYuvSrc->getCStride();
187	for ( y = m_iCHeight; y != 0; y-- )
188	{
189	::memcpy( pDstU, pSrcU, sizeof(Pel)*(m_iCWidth) );
190	::memcpy( pDstV, pSrcV, sizeof(Pel)*(m_iCWidth) );
191	pSrcU += iSrcStride;
192	pSrcV += iSrcStride;
193	pDstU += iDstStride;
194	pDstV += iDstStride;
195	}
196	}
197
198	Void TComYuv::copyToPartYuv( TComYuv* pcYuvDst, UInt uiDstPartIdx )
199	{
200	copyToPartLuma ( pcYuvDst, uiDstPartIdx );
201	copyToPartChroma( pcYuvDst, uiDstPartIdx );
202	}
203
204	Void TComYuv::copyToPartLuma( TComYuv* pcYuvDst, UInt uiDstPartIdx )
205	{
206	Int y;
207
208	Pel* pSrc = m_apiBufY;
209	Pel* pDst = pcYuvDst->getLumaAddr( uiDstPartIdx );
210
211	UInt iSrcStride = getStride();
212	UInt iDstStride = pcYuvDst->getStride();
213	for ( y = m_iHeight; y != 0; y-- )
214	{
215	::memcpy( pDst, pSrc, sizeof(Pel)*m_iWidth);
216	pDst += iDstStride;
217	pSrc += iSrcStride;
218	}
219	}
220
221	Void TComYuv::copyToPartChroma( TComYuv* pcYuvDst, UInt uiDstPartIdx )
222	{
223	Int y;
224
225	Pel* pSrcU = m_apiBufU;
226	Pel* pSrcV = m_apiBufV;
227	Pel* pDstU = pcYuvDst->getCbAddr( uiDstPartIdx );
228	Pel* pDstV = pcYuvDst->getCrAddr( uiDstPartIdx );
229
230	UInt iSrcStride = getCStride();
231	UInt iDstStride = pcYuvDst->getCStride();
232	for ( y = m_iCHeight; y != 0; y-- )
233	{
234	::memcpy( pDstU, pSrcU, sizeof(Pel)*(m_iCWidth) );
235	::memcpy( pDstV, pSrcV, sizeof(Pel)*(m_iCWidth) );
236	pSrcU += iSrcStride;
237	pSrcV += iSrcStride;
238	pDstU += iDstStride;
239	pDstV += iDstStride;
240	}
241	}
242
243	Void TComYuv::copyPartToYuv( TComYuv* pcYuvDst, UInt uiSrcPartIdx )
244	{
245	copyPartToLuma ( pcYuvDst, uiSrcPartIdx );
246	copyPartToChroma( pcYuvDst, uiSrcPartIdx );
247	}
248
249	Void TComYuv::copyPartToLuma( TComYuv* pcYuvDst, UInt uiSrcPartIdx )
250	{
251	Int y;
252
253	Pel* pSrc = getLumaAddr(uiSrcPartIdx);
254	Pel* pDst = pcYuvDst->getLumaAddr( 0 );
255
256	UInt iSrcStride = getStride();
257	UInt iDstStride = pcYuvDst->getStride();
258
259	UInt uiHeight = pcYuvDst->getHeight();
260	UInt uiWidth = pcYuvDst->getWidth();
261
262	for ( y = uiHeight; y != 0; y-- )
263	{
264	::memcpy( pDst, pSrc, sizeof(Pel)*uiWidth);
265	pDst += iDstStride;
266	pSrc += iSrcStride;
267	}
268	}
269
270	Void TComYuv::copyPartToChroma( TComYuv* pcYuvDst, UInt uiSrcPartIdx )
271	{
272	Int y;
273
274	Pel* pSrcU = getCbAddr( uiSrcPartIdx );
275	Pel* pSrcV = getCrAddr( uiSrcPartIdx );
276	Pel* pDstU = pcYuvDst->getCbAddr( 0 );
277	Pel* pDstV = pcYuvDst->getCrAddr( 0 );
278
279	UInt iSrcStride = getCStride();
280	UInt iDstStride = pcYuvDst->getCStride();
281
282	UInt uiCHeight = pcYuvDst->getCHeight();
283	UInt uiCWidth = pcYuvDst->getCWidth();
284
285	for ( y = uiCHeight; y != 0; y-- )
286	{
287	::memcpy( pDstU, pSrcU, sizeof(Pel)*(uiCWidth) );
288	::memcpy( pDstV, pSrcV, sizeof(Pel)*(uiCWidth) );
289	pSrcU += iSrcStride;
290	pSrcV += iSrcStride;
291	pDstU += iDstStride;
292	pDstV += iDstStride;
293	}
294	}
295
296	Void TComYuv::copyPartToPartYuv ( TComYuv* pcYuvDst, UInt uiPartIdx, UInt iWidth, UInt iHeight )
297	{
298	copyPartToPartLuma (pcYuvDst, uiPartIdx, iWidth, iHeight );
299	copyPartToPartChroma (pcYuvDst, uiPartIdx, iWidth>>1, iHeight>>1 );
300	}
301
302	Void TComYuv::copyPartToPartLuma ( TComYuv* pcYuvDst, UInt uiPartIdx, UInt iWidth, UInt iHeight )
303	{
304	Pel* pSrc = getLumaAddr(uiPartIdx);
305	Pel* pDst = pcYuvDst->getLumaAddr(uiPartIdx);
306	if( pSrc == pDst )
307	{
308	//th not a good idea
309	//th best would be to fix the caller
310	return ;
311	}
312
313	UInt iSrcStride = getStride();
314	UInt iDstStride = pcYuvDst->getStride();
315	for ( UInt y = iHeight; y != 0; y-- )
316	{
317	::memcpy( pDst, pSrc, iWidth * sizeof(Pel) );
318	pSrc += iSrcStride;
319	pDst += iDstStride;
320	}
321	}
322
323	Void TComYuv::copyPartToPartChroma( TComYuv* pcYuvDst, UInt uiPartIdx, UInt iWidth, UInt iHeight )
324	{
325	Pel* pSrcU = getCbAddr(uiPartIdx);
326	Pel* pSrcV = getCrAddr(uiPartIdx);
327	Pel* pDstU = pcYuvDst->getCbAddr(uiPartIdx);
328	Pel* pDstV = pcYuvDst->getCrAddr(uiPartIdx);
329
330	if( pSrcU == pDstU && pSrcV == pDstV)
331	{
332	//th not a good idea
333	//th best would be to fix the caller
334	return ;
335	}
336
337	UInt iSrcStride = getCStride();
338	UInt iDstStride = pcYuvDst->getCStride();
339	for ( UInt y = iHeight; y != 0; y-- )
340	{
341	::memcpy( pDstU, pSrcU, iWidth * sizeof(Pel) );
342	::memcpy( pDstV, pSrcV, iWidth * sizeof(Pel) );
343	pSrcU += iSrcStride;
344	pSrcV += iSrcStride;
345	pDstU += iDstStride;
346	pDstV += iDstStride;
347	}
348	}
349
350	Void TComYuv::copyPartToPartChroma( TComYuv* pcYuvDst, UInt uiPartIdx, UInt iWidth, UInt iHeight, UInt chromaId)
351	{
352	if(chromaId == 0)
353	{
354	Pel* pSrcU = getCbAddr(uiPartIdx);
355	Pel* pDstU = pcYuvDst->getCbAddr(uiPartIdx);
356	if( pSrcU == pDstU)
357	{
358	return ;
359	}
360	UInt iSrcStride = getCStride();
361	UInt iDstStride = pcYuvDst->getCStride();
362	for ( UInt y = iHeight; y != 0; y-- )
363	{
364	::memcpy( pDstU, pSrcU, iWidth * sizeof(Pel) );
365	pSrcU += iSrcStride;
366	pDstU += iDstStride;
367	}
368	}
369	else if (chromaId == 1)
370	{
371	Pel* pSrcV = getCrAddr(uiPartIdx);
372	Pel* pDstV = pcYuvDst->getCrAddr(uiPartIdx);
373	if( pSrcV == pDstV)
374	{
375	return;
376	}
377	UInt iSrcStride = getCStride();
378	UInt iDstStride = pcYuvDst->getCStride();
379	for ( UInt y = iHeight; y != 0; y-- )
380	{
381	::memcpy( pDstV, pSrcV, iWidth * sizeof(Pel) );
382	pSrcV += iSrcStride;
383	pDstV += iDstStride;
384	}
385	}
386	else
387	{
388	Pel* pSrcU = getCbAddr(uiPartIdx);
389	Pel* pSrcV = getCrAddr(uiPartIdx);
390	Pel* pDstU = pcYuvDst->getCbAddr(uiPartIdx);
391	Pel* pDstV = pcYuvDst->getCrAddr(uiPartIdx);
392
393	if( pSrcU == pDstU && pSrcV == pDstV)
394	{
395	//th not a good idea
396	//th best would be to fix the caller
397	return ;
398	}
399	UInt iSrcStride = getCStride();
400	UInt iDstStride = pcYuvDst->getCStride();
401	for ( UInt y = iHeight; y != 0; y-- )
402	{
403	::memcpy( pDstU, pSrcU, iWidth * sizeof(Pel) );
404	::memcpy( pDstV, pSrcV, iWidth * sizeof(Pel) );
405	pSrcU += iSrcStride;
406	pSrcV += iSrcStride;
407	pDstU += iDstStride;
408	pDstV += iDstStride;
409	}
410	}
411	}
412
413	Void TComYuv::addClip( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiTrUnitIdx, UInt uiPartSize )
414	{
415	addClipLuma ( pcYuvSrc0, pcYuvSrc1, uiTrUnitIdx, uiPartSize );
416	addClipChroma ( pcYuvSrc0, pcYuvSrc1, uiTrUnitIdx, uiPartSize>>1 );
417	}
418
419	Void TComYuv::addClipLuma( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiTrUnitIdx, UInt uiPartSize )
420	{
421	Int x, y;
422
423	Pel* pSrc0 = pcYuvSrc0->getLumaAddr( uiTrUnitIdx, uiPartSize );
424	Pel* pSrc1 = pcYuvSrc1->getLumaAddr( uiTrUnitIdx, uiPartSize );
425	Pel* pDst = getLumaAddr( uiTrUnitIdx, uiPartSize );
426
427	UInt iSrc0Stride = pcYuvSrc0->getStride();
428	UInt iSrc1Stride = pcYuvSrc1->getStride();
429	UInt iDstStride = getStride();
430	for ( y = uiPartSize-1; y >= 0; y-- )
431	{
432	for ( x = uiPartSize-1; x >= 0; x-- )
433	{
434	pDst[x] = ClipY( pSrc0[x] + pSrc1[x] );
435	}
436	pSrc0 += iSrc0Stride;
437	pSrc1 += iSrc1Stride;
438	pDst += iDstStride;
439	}
440	}
441
442	Void TComYuv::addClipChroma( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiTrUnitIdx, UInt uiPartSize )
443	{
444	Int x, y;
445
446	Pel* pSrcU0 = pcYuvSrc0->getCbAddr( uiTrUnitIdx, uiPartSize );
447	Pel* pSrcU1 = pcYuvSrc1->getCbAddr( uiTrUnitIdx, uiPartSize );
448	Pel* pSrcV0 = pcYuvSrc0->getCrAddr( uiTrUnitIdx, uiPartSize );
449	Pel* pSrcV1 = pcYuvSrc1->getCrAddr( uiTrUnitIdx, uiPartSize );
450	Pel* pDstU = getCbAddr( uiTrUnitIdx, uiPartSize );
451	Pel* pDstV = getCrAddr( uiTrUnitIdx, uiPartSize );
452
453	UInt iSrc0Stride = pcYuvSrc0->getCStride();
454	UInt iSrc1Stride = pcYuvSrc1->getCStride();
455	UInt iDstStride = getCStride();
456	for ( y = uiPartSize-1; y >= 0; y-- )
457	{
458	for ( x = uiPartSize-1; x >= 0; x-- )
459	{
460	pDstU[x] = ClipC( pSrcU0[x] + pSrcU1[x] );
461	pDstV[x] = ClipC( pSrcV0[x] + pSrcV1[x] );
462	}
463
464	pSrcU0 += iSrc0Stride;
465	pSrcU1 += iSrc1Stride;
466	pSrcV0 += iSrc0Stride;
467	pSrcV1 += iSrc1Stride;
468	pDstU += iDstStride;
469	pDstV += iDstStride;
470	}
471	}
472
473	Void TComYuv::subtract( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiTrUnitIdx, UInt uiPartSize )
474	{
475	subtractLuma ( pcYuvSrc0, pcYuvSrc1, uiTrUnitIdx, uiPartSize );
476	subtractChroma( pcYuvSrc0, pcYuvSrc1, uiTrUnitIdx, uiPartSize>>1 );
477	}
478
479	Void TComYuv::subtractLuma( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiTrUnitIdx, UInt uiPartSize )
480	{
481	Int x, y;
482
483	Pel* pSrc0 = pcYuvSrc0->getLumaAddr( uiTrUnitIdx, uiPartSize );
484	Pel* pSrc1 = pcYuvSrc1->getLumaAddr( uiTrUnitIdx, uiPartSize );
485	Pel* pDst = getLumaAddr( uiTrUnitIdx, uiPartSize );
486
487	Int iSrc0Stride = pcYuvSrc0->getStride();
488	Int iSrc1Stride = pcYuvSrc1->getStride();
489	Int iDstStride = getStride();
490	for ( y = uiPartSize-1; y >= 0; y-- )
491	{
492	for ( x = uiPartSize-1; x >= 0; x-- )
493	{
494	pDst[x] = pSrc0[x] - pSrc1[x];
495	}
496	pSrc0 += iSrc0Stride;
497	pSrc1 += iSrc1Stride;
498	pDst += iDstStride;
499	}
500	}
501
502	Void TComYuv::subtractChroma( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiTrUnitIdx, UInt uiPartSize )
503	{
504	Int x, y;
505
506	Pel* pSrcU0 = pcYuvSrc0->getCbAddr( uiTrUnitIdx, uiPartSize );
507	Pel* pSrcU1 = pcYuvSrc1->getCbAddr( uiTrUnitIdx, uiPartSize );
508	Pel* pSrcV0 = pcYuvSrc0->getCrAddr( uiTrUnitIdx, uiPartSize );
509	Pel* pSrcV1 = pcYuvSrc1->getCrAddr( uiTrUnitIdx, uiPartSize );
510	Pel* pDstU = getCbAddr( uiTrUnitIdx, uiPartSize );
511	Pel* pDstV = getCrAddr( uiTrUnitIdx, uiPartSize );
512
513	Int iSrc0Stride = pcYuvSrc0->getCStride();
514	Int iSrc1Stride = pcYuvSrc1->getCStride();
515	Int iDstStride = getCStride();
516	for ( y = uiPartSize-1; y >= 0; y-- )
517	{
518	for ( x = uiPartSize-1; x >= 0; x-- )
519	{
520	pDstU[x] = pSrcU0[x] - pSrcU1[x];
521	pDstV[x] = pSrcV0[x] - pSrcV1[x];
522	}
523	pSrcU0 += iSrc0Stride;
524	pSrcU1 += iSrc1Stride;
525	pSrcV0 += iSrc0Stride;
526	pSrcV1 += iSrc1Stride;
527	pDstU += iDstStride;
528	pDstV += iDstStride;
529	}
530	}
531
532	Void TComYuv::addAvg( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt iPartUnitIdx, UInt iWidth, UInt iHeight )
533	{
534	Int x, y;
535
536	Pel* pSrcY0 = pcYuvSrc0->getLumaAddr( iPartUnitIdx );
537	Pel* pSrcU0 = pcYuvSrc0->getCbAddr ( iPartUnitIdx );
538	Pel* pSrcV0 = pcYuvSrc0->getCrAddr ( iPartUnitIdx );
539
540	Pel* pSrcY1 = pcYuvSrc1->getLumaAddr( iPartUnitIdx );
541	Pel* pSrcU1 = pcYuvSrc1->getCbAddr ( iPartUnitIdx );
542	Pel* pSrcV1 = pcYuvSrc1->getCrAddr ( iPartUnitIdx );
543
544	Pel* pDstY = getLumaAddr( iPartUnitIdx );
545	Pel* pDstU = getCbAddr ( iPartUnitIdx );
546	Pel* pDstV = getCrAddr ( iPartUnitIdx );
547
548	UInt iSrc0Stride = pcYuvSrc0->getStride();
549	UInt iSrc1Stride = pcYuvSrc1->getStride();
550	UInt iDstStride = getStride();
551	Int shiftNum = IF_INTERNAL_PREC + 1 - g_bitDepthY;
552	Int offset = ( 1 << ( shiftNum - 1 ) ) + 2 * IF_INTERNAL_OFFS;
553
554	for ( y = 0; y < iHeight; y++ )
555	{
556	for ( x = 0; x < iWidth; x += 4 )
557	{
558	pDstY[ x + 0 ] = ClipY( ( pSrcY0[ x + 0 ] + pSrcY1[ x + 0 ] + offset ) >> shiftNum );
559	pDstY[ x + 1 ] = ClipY( ( pSrcY0[ x + 1 ] + pSrcY1[ x + 1 ] + offset ) >> shiftNum );
560	pDstY[ x + 2 ] = ClipY( ( pSrcY0[ x + 2 ] + pSrcY1[ x + 2 ] + offset ) >> shiftNum );
561	pDstY[ x + 3 ] = ClipY( ( pSrcY0[ x + 3 ] + pSrcY1[ x + 3 ] + offset ) >> shiftNum );
562	}
563	pSrcY0 += iSrc0Stride;
564	pSrcY1 += iSrc1Stride;
565	pDstY += iDstStride;
566	}
567
568	shiftNum = IF_INTERNAL_PREC + 1 - g_bitDepthC;
569	offset = ( 1 << ( shiftNum - 1 ) ) + 2 * IF_INTERNAL_OFFS;
570
571	iSrc0Stride = pcYuvSrc0->getCStride();
572	iSrc1Stride = pcYuvSrc1->getCStride();
573	iDstStride = getCStride();
574
575	iWidth >>=1;
576	iHeight >>=1;
577
578	for ( y = iHeight-1; y >= 0; y-- )
579	{
580	for ( x = iWidth-1; x >= 0; )
581	{
582	// note: chroma min width is 2
583	pDstU[x] = ClipC((pSrcU0[x] + pSrcU1[x] + offset) >> shiftNum);
584	pDstV[x] = ClipC((pSrcV0[x] + pSrcV1[x] + offset) >> shiftNum); x--;
585	pDstU[x] = ClipC((pSrcU0[x] + pSrcU1[x] + offset) >> shiftNum);
586	pDstV[x] = ClipC((pSrcV0[x] + pSrcV1[x] + offset) >> shiftNum); x--;
587	}
588
589	pSrcU0 += iSrc0Stride;
590	pSrcU1 += iSrc1Stride;
591	pSrcV0 += iSrc0Stride;
592	pSrcV1 += iSrc1Stride;
593	pDstU += iDstStride;
594	pDstV += iDstStride;
595	}
596	}
597
598	Void TComYuv::removeHighFreq( TComYuv* pcYuvSrc, UInt uiPartIdx, UInt uiWidht, UInt uiHeight )
599	{
600	Int x, y;
601
602	Pel* pSrc = pcYuvSrc->getLumaAddr(uiPartIdx);
603	Pel* pSrcU = pcYuvSrc->getCbAddr(uiPartIdx);
604	Pel* pSrcV = pcYuvSrc->getCrAddr(uiPartIdx);
605
606	Pel* pDst = getLumaAddr(uiPartIdx);
607	Pel* pDstU = getCbAddr(uiPartIdx);
608	Pel* pDstV = getCrAddr(uiPartIdx);
609
610	Int iSrcStride = pcYuvSrc->getStride();
611	Int iDstStride = getStride();
612
613	for ( y = uiHeight-1; y >= 0; y-- )
614	{
615	for ( x = uiWidht-1; x >= 0; x-- )
616	{
617	#if DISABLING_CLIP_FOR_BIPREDME
618	pDst[x ] = (pDst[x ]<<1) - pSrc[x ] ;
619	#else
620	pDst[x ] = Clip( (pDst[x ]<<1) - pSrc[x ] );
621	#endif
622	}
623	pSrc += iSrcStride;
624	pDst += iDstStride;
625	}
626
627	iSrcStride = pcYuvSrc->getCStride();
628	iDstStride = getCStride();
629
630	uiHeight >>= 1;
631	uiWidht >>= 1;
632
633	for ( y = uiHeight-1; y >= 0; y-- )
634	{
635	for ( x = uiWidht-1; x >= 0; x-- )
636	{
637	#if DISABLING_CLIP_FOR_BIPREDME
638	pDstU[x ] = (pDstU[x ]<<1) - pSrcU[x ] ;
639	pDstV[x ] = (pDstV[x ]<<1) - pSrcV[x ] ;
640	#else
641	pDstU[x ] = Clip( (pDstU[x ]<<1) - pSrcU[x ] );
642	pDstV[x ] = Clip( (pDstV[x ]<<1) - pSrcV[x ] );
643	#endif
644	}
645	pSrcU += iSrcStride;
646	pSrcV += iSrcStride;
647	pDstU += iDstStride;
648	pDstV += iDstStride;
649	}
650	}
651
652	#if H_3D
653	Void TComYuv::addClipPartLuma( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiTrUnitIdx, UInt uiPartSize )
654	{
655	Int x, y;
656
657	Pel* pSrc0 = pcYuvSrc0->getLumaAddr( uiTrUnitIdx);
658	Pel* pSrc1 = pcYuvSrc1->getLumaAddr( uiTrUnitIdx);
659	Pel* pDst = getLumaAddr( uiTrUnitIdx);
660
661	UInt iSrc0Stride = pcYuvSrc0->getStride();
662	UInt iSrc1Stride = pcYuvSrc1->getStride();
663	UInt iDstStride = getStride();
664	for ( y = uiPartSize-1; y >= 0; y-- )
665	{
666	for ( x = uiPartSize-1; x >= 0; x-- )
667	{
668	pDst[x] = ClipY( pSrc0[x] + pSrc1[x] );
669	}
670	pSrc0 += iSrc0Stride;
671	pSrc1 += iSrc1Stride;
672	pDst += iDstStride;
673	}
674	}
675
676	#if H_3D_ARP
677	Void TComYuv::addARP( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiAbsPartIdx, UInt uiWidth, UInt uiHeight, Bool bClip )
678	{
679	addARPLuma ( pcYuvSrc0, pcYuvSrc1, uiAbsPartIdx, uiWidth , uiHeight , bClip );
680	addARPChroma ( pcYuvSrc0, pcYuvSrc1, uiAbsPartIdx, uiWidth>>1, uiHeight>>1 , bClip );
681	}
682
683	Void TComYuv::addARPLuma( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiAbsPartIdx, UInt uiWidth, UInt uiHeight, Bool bClip )
684	{
685	Int x, y;
686
687	Pel* pSrc0 = pcYuvSrc0->getLumaAddr( uiAbsPartIdx );
688	Pel* pSrc1 = pcYuvSrc1->getLumaAddr( uiAbsPartIdx );
689	Pel* pDst = getLumaAddr( uiAbsPartIdx );
690
691	UInt iSrc0Stride = pcYuvSrc0->getStride();
692	UInt iSrc1Stride = pcYuvSrc1->getStride();
693	UInt iDstStride = getStride();
694	for ( y = uiHeight-1; y >= 0; y-- )
695	{
696	for ( x = uiWidth-1; x >= 0; x-- )
697	{
698	pDst[x] = pSrc0[x] + pSrc1[x];
699	if( bClip )
700	{
701	pDst[x] = ClipY( pDst[x] );
702	}
703	}
704	pSrc0 += iSrc0Stride;
705	pSrc1 += iSrc1Stride;
706	pDst += iDstStride;
707	}
708	}
709
710	Void TComYuv::addARPChroma( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiAbsPartIdx, UInt uiWidth, UInt uiHeight, Bool bClip )
711	{
712	Int x, y;
713
714	Pel* pSrcU0 = pcYuvSrc0->getCbAddr( uiAbsPartIdx );
715	Pel* pSrcU1 = pcYuvSrc1->getCbAddr( uiAbsPartIdx );
716	Pel* pSrcV0 = pcYuvSrc0->getCrAddr( uiAbsPartIdx );
717	Pel* pSrcV1 = pcYuvSrc1->getCrAddr( uiAbsPartIdx );
718	Pel* pDstU = getCbAddr( uiAbsPartIdx );
719	Pel* pDstV = getCrAddr( uiAbsPartIdx );
720
721	UInt iSrc0Stride = pcYuvSrc0->getCStride();
722	UInt iSrc1Stride = pcYuvSrc1->getCStride();
723	UInt iDstStride = getCStride();
724	for ( y = uiHeight-1; y >= 0; y-- )
725	{
726	for ( x = uiWidth-1; x >= 0; x-- )
727	{
728	pDstU[x] = pSrcU0[x] + pSrcU1[x];
729	pDstV[x] = pSrcV0[x] + pSrcV1[x];
730	if( bClip )
731	{
732	pDstU[x] = ClipC( pDstU[x] );
733	pDstV[x] = ClipC( pDstV[x] );
734	}
735	}
736
737	pSrcU0 += iSrc0Stride;
738	pSrcU1 += iSrc1Stride;
739	pSrcV0 += iSrc0Stride;
740	pSrcV1 += iSrc1Stride;
741	pDstU += iDstStride;
742	pDstV += iDstStride;
743	}
744	}
745
746	Void TComYuv::subtractARP( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiAbsPartIdx, UInt uiWidth , UInt uiHeight )
747	{
748	subtractARPLuma ( pcYuvSrc0, pcYuvSrc1, uiAbsPartIdx, uiWidth , uiHeight );
749	subtractARPChroma( pcYuvSrc0, pcYuvSrc1, uiAbsPartIdx, uiWidth>>1 , uiHeight>>1 );
750	}
751
752	Void TComYuv::subtractARPLuma( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiAbsPartIdx, UInt uiWidth , UInt uiHeight )
753	{
754	Int x, y;
755
756	Pel* pSrc0 = pcYuvSrc0->getLumaAddr( uiAbsPartIdx );
757	Pel* pSrc1 = pcYuvSrc1->getLumaAddr( uiAbsPartIdx );
758	Pel* pDst = getLumaAddr( uiAbsPartIdx );
759
760	Int iSrc0Stride = pcYuvSrc0->getStride();
761	Int iSrc1Stride = pcYuvSrc1->getStride();
762	Int iDstStride = getStride();
763	for ( y = uiHeight-1; y >= 0; y-- )
764	{
765	for ( x = uiWidth-1; x >= 0; x-- )
766	{
767	pDst[x] = pSrc0[x] - pSrc1[x];
768	}
769	pSrc0 += iSrc0Stride;
770	pSrc1 += iSrc1Stride;
771	pDst += iDstStride;
772	}
773	}
774
775	Void TComYuv::subtractARPChroma( TComYuv* pcYuvSrc0, TComYuv* pcYuvSrc1, UInt uiAbsPartIdx, UInt uiWidth , UInt uiHeight )
776	{
777	Int x, y;
778
779	Pel* pSrcU0 = pcYuvSrc0->getCbAddr( uiAbsPartIdx );
780	Pel* pSrcU1 = pcYuvSrc1->getCbAddr( uiAbsPartIdx );
781	Pel* pSrcV0 = pcYuvSrc0->getCrAddr( uiAbsPartIdx );
782	Pel* pSrcV1 = pcYuvSrc1->getCrAddr( uiAbsPartIdx );
783	Pel* pDstU = getCbAddr( uiAbsPartIdx );
784	Pel* pDstV = getCrAddr( uiAbsPartIdx );
785
786	Int iSrc0Stride = pcYuvSrc0->getCStride();
787	Int iSrc1Stride = pcYuvSrc1->getCStride();
788	Int iDstStride = getCStride();
789	for ( y = uiHeight-1; y >= 0; y-- )
790	{
791	for ( x = uiWidth-1; x >= 0; x-- )
792	{
793	pDstU[x] = pSrcU0[x] - pSrcU1[x];
794	pDstV[x] = pSrcV0[x] - pSrcV1[x];
795	}
796	pSrcU0 += iSrc0Stride;
797	pSrcU1 += iSrc1Stride;
798	pSrcV0 += iSrc0Stride;
799	pSrcV1 += iSrc1Stride;
800	pDstU += iDstStride;
801	pDstV += iDstStride;
802	}
803	}
804
805	Void TComYuv::multiplyARP( UInt uiAbsPartIdx , UInt uiWidth , UInt uiHeight , UChar dW )
806	{
807	multiplyARPLuma( uiAbsPartIdx , uiWidth , uiHeight , dW );
808	multiplyARPChroma( uiAbsPartIdx , uiWidth >> 1 , uiHeight >> 1 , dW );
809	}
810
811	Void TComYuv::xxMultiplyLine( Pel* pSrcDst , UInt uiWidth , UChar dW )
812	{
813	assert( dW == 2 );
814	for( UInt x = 0 ; x < uiWidth ; x++ )
815	pSrcDst[x] = pSrcDst[x] >> 1;
816	}
817
818	Void TComYuv::multiplyARPLuma( UInt uiAbsPartIdx , UInt uiWidth , UInt uiHeight , UChar dW )
819	{
820	Pel* pDst = getLumaAddr( uiAbsPartIdx );
821	Int iDstStride = getStride();
822	for ( Int y = uiHeight-1; y >= 0; y-- )
823	{
824	xxMultiplyLine( pDst , uiWidth , dW );
825	pDst += iDstStride;
826	}
827	}
828
829	Void TComYuv::multiplyARPChroma( UInt uiAbsPartIdx , UInt uiWidth , UInt uiHeight , UChar dW )
830	{
831	Pel* pDstU = getCbAddr( uiAbsPartIdx );
832	Pel* pDstV = getCrAddr( uiAbsPartIdx );
833
834	Int iDstStride = getCStride();
835	for ( Int y = uiHeight-1; y >= 0; y-- )
836	{
837	xxMultiplyLine( pDstU , uiWidth , dW );
838	xxMultiplyLine( pDstV , uiWidth , dW );
839	pDstU += iDstStride;
840	pDstV += iDstStride;
841	}
842	}
843	#endif
844	#endif
845	//! \}

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