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source: SHVCSoftware/branches/SHM-5.0-dev/source/Lib/TLibCommon/TComSampleAdaptiveOffset.cpp @ 548

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Last change on this file since 548 was 540, checked in by seregin, 11 years ago
merge SHM-4.1-dev branch
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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 TComSampleAdaptiveOffset.cpp
35	\brief sample adaptive offset class
36	*/
37
38	#include "TComSampleAdaptiveOffset.h"
39	#include <string.h>
40	#include <stdlib.h>
41	#include <stdio.h>
42	#include <math.h>
43
44	//! \ingroup TLibCommon
45	//! \{
46	#if HM_CLEANUP_SAO
47	UInt g_saoMaxOffsetQVal[NUM_SAO_COMPONENTS];
48
49	SAOOffset::SAOOffset()
50	{
51	reset();
52	}
53
54	SAOOffset::~SAOOffset()
55	{
56
57	}
58
59	Void SAOOffset::reset()
60	{
61	modeIdc = SAO_MODE_OFF;
62	typeIdc = -1;
63	typeAuxInfo = -1;
64	::memset(offset, 0, sizeof(Int)* MAX_NUM_SAO_CLASSES);
65	}
66
67	const SAOOffset& SAOOffset::operator= (const SAOOffset& src)
68	{
69	modeIdc = src.modeIdc;
70	typeIdc = src.typeIdc;
71	typeAuxInfo = src.typeAuxInfo;
72	::memcpy(offset, src.offset, sizeof(Int)* MAX_NUM_SAO_CLASSES);
73
74	return *this;
75	}
76
77
78	SAOBlkParam::SAOBlkParam()
79	{
80	reset();
81	}
82
83	SAOBlkParam::~SAOBlkParam()
84	{
85
86	}
87
88	Void SAOBlkParam::reset()
89	{
90	for(Int compIdx=0; compIdx< 3; compIdx++)
91	{
92	offsetParam[compIdx].reset();
93	}
94	}
95
96	const SAOBlkParam& SAOBlkParam::operator= (const SAOBlkParam& src)
97	{
98	for(Int compIdx=0; compIdx< 3; compIdx++)
99	{
100	offsetParam[compIdx] = src.offsetParam[compIdx];
101	}
102	return *this;
103
104	}
105
106	TComSampleAdaptiveOffset::TComSampleAdaptiveOffset()
107	{
108	m_tempPicYuv = NULL;
109	for(Int compIdx=0; compIdx < NUM_SAO_COMPONENTS; compIdx++)
110	{
111	m_offsetClipTable[compIdx] = NULL;
112	}
113	m_signTable = NULL;
114
115
116	m_lineBufWidth = 0;
117	m_signLineBuf1 = NULL;
118	m_signLineBuf2 = NULL;
119	}
120
121
122	TComSampleAdaptiveOffset::~TComSampleAdaptiveOffset()
123	{
124	destroy();
125
126	if (m_signLineBuf1) delete[] m_signLineBuf1; m_signLineBuf1 = NULL;
127	if (m_signLineBuf2) delete[] m_signLineBuf2; m_signLineBuf2 = NULL;
128	}
129
130	#if AUXILIARY_PICTURES
131	Void TComSampleAdaptiveOffset::create( Int picWidth, Int picHeight, ChromaFormat chromaFormatIDC, UInt maxCUWidth, UInt maxCUHeight, UInt maxCUDepth )
132	#else
133	Void TComSampleAdaptiveOffset::create( Int picWidth, Int picHeight, UInt maxCUWidth, UInt maxCUHeight, UInt maxCUDepth )
134	#endif
135	{
136	destroy();
137
138	m_picWidth = picWidth;
139	m_picHeight= picHeight;
140	m_maxCUWidth= maxCUWidth;
141	m_maxCUHeight= maxCUHeight;
142
143	m_numCTUInWidth = (m_picWidth/m_maxCUWidth) + ((m_picWidth % m_maxCUWidth)?1:0);
144	m_numCTUInHeight= (m_picHeight/m_maxCUHeight) + ((m_picHeight % m_maxCUHeight)?1:0);
145	m_numCTUsPic = m_numCTUInHeight*m_numCTUInWidth;
146
147	//temporary picture buffer
148	if ( !m_tempPicYuv )
149	{
150	m_tempPicYuv = new TComPicYuv;
151	#if AUXILIARY_PICTURES
152	m_tempPicYuv->create( m_picWidth, m_picHeight, chromaFormatIDC, m_maxCUWidth, m_maxCUHeight, maxCUDepth );
153	#else
154	m_tempPicYuv->create( m_picWidth, m_picHeight, m_maxCUWidth, m_maxCUHeight, maxCUDepth );
155	#endif
156	}
157
158	//bit-depth related
159	for(Int compIdx =0; compIdx < NUM_SAO_COMPONENTS; compIdx++)
160	{
161	Int bitDepthSample = (compIdx == SAO_Y)?g_bitDepthY:g_bitDepthC;
162	m_offsetStepLog2 [compIdx] = max(bitDepthSample - MAX_SAO_TRUNCATED_BITDEPTH, 0);
163	g_saoMaxOffsetQVal[compIdx] = (1<<(min(bitDepthSample,MAX_SAO_TRUNCATED_BITDEPTH)-5))-1; //Table 9-32, inclusive
164	}
165
166	//look-up table for clipping
167	for(Int compIdx =0; compIdx < NUM_SAO_COMPONENTS; compIdx++)
168	{
169	Int bitDepthSample = (compIdx == SAO_Y)?g_bitDepthY:g_bitDepthC; //exclusive
170	Int maxSampleValue = (1<< bitDepthSample); //exclusive
171	Int maxOffsetValue = (g_saoMaxOffsetQVal[compIdx] << m_offsetStepLog2[compIdx]);
172
173	m_offsetClipTable[compIdx] = new Int[(maxSampleValue + maxOffsetValue -1)+ (maxOffsetValue)+1 ]; //positive & negative range plus 0
174	m_offsetClip[compIdx] = &(m_offsetClipTable[compIdx][maxOffsetValue]);
175
176	//assign clipped values
177	Int* offsetClipPtr = m_offsetClip[compIdx];
178	for(Int k=0; k< maxSampleValue; k++)
179	{
180	*(offsetClipPtr + k) = k;
181	}
182	for(Int k=0; k< maxOffsetValue; k++ )
183	{
184	*(offsetClipPtr + maxSampleValue+ k) = maxSampleValue-1;
185	*(offsetClipPtr -k -1 ) = 0;
186	}
187	if(compIdx == SAO_Y) //g_bitDepthY is always larger than or equal to g_bitDepthC
188	{
189	m_signTable = new Short[ 2*(maxSampleValue-1) + 1 ];
190	m_sign = &(m_signTable[maxSampleValue-1]);
191
192	m_sign[0] = 0;
193	for(Int k=1; k< maxSampleValue; k++)
194	{
195	m_sign[k] = 1;
196	m_sign[-k]= -1;
197	}
198	}
199	}
200
201	}
202
203	Void TComSampleAdaptiveOffset::destroy()
204	{
205	if ( m_tempPicYuv )
206	{
207	m_tempPicYuv->destroy();
208	delete m_tempPicYuv;
209	m_tempPicYuv = NULL;
210	}
211
212	for(Int compIdx=0; compIdx < NUM_SAO_COMPONENTS; compIdx++)
213	{
214	if(m_offsetClipTable[compIdx])
215	{
216	delete[] m_offsetClipTable[compIdx]; m_offsetClipTable[compIdx] = NULL;
217	}
218	}
219	if( m_signTable )
220	{
221	delete[] m_signTable; m_signTable = NULL;
222	}
223	}
224
225	Void TComSampleAdaptiveOffset::invertQuantOffsets(Int compIdx, Int typeIdc, Int typeAuxInfo, Int* dstOffsets, Int* srcOffsets)
226	{
227	Int codedOffset[MAX_NUM_SAO_CLASSES];
228
229	::memcpy(codedOffset, srcOffsets, sizeof(Int)*MAX_NUM_SAO_CLASSES);
230	::memset(dstOffsets, 0, sizeof(Int)*MAX_NUM_SAO_CLASSES);
231
232	if(typeIdc == SAO_TYPE_START_BO)
233	{
234	for(Int i=0; i< 4; i++)
235	{
236	dstOffsets[(typeAuxInfo+ i)%NUM_SAO_BO_CLASSES] = codedOffset[(typeAuxInfo+ i)%NUM_SAO_BO_CLASSES]*(1<<m_offsetStepLog2[compIdx]);
237	}
238	}
239	else //EO
240	{
241	for(Int i=0; i< NUM_SAO_EO_CLASSES; i++)
242	{
243	dstOffsets[i] = codedOffset[i] *(1<<m_offsetStepLog2[compIdx]);
244	}
245	assert(dstOffsets[SAO_CLASS_EO_PLAIN] == 0); //keep EO plain offset as zero
246	}
247
248	}
249
250	Int TComSampleAdaptiveOffset::getMergeList(TComPic* pic, Int ctu, SAOBlkParam* blkParams, std::vector<SAOBlkParam*>& mergeList)
251	{
252	Int ctuX = ctu % m_numCTUInWidth;
253	Int ctuY = ctu / m_numCTUInWidth;
254	Int mergedCTUPos;
255	Int numValidMergeCandidates = 0;
256
257	for(Int mergeType=0; mergeType< NUM_SAO_MERGE_TYPES; mergeType++)
258	{
259	SAOBlkParam* mergeCandidate = NULL;
260
261	switch(mergeType)
262	{
263	case SAO_MERGE_ABOVE:
264	{
265	if(ctuY > 0)
266	{
267	mergedCTUPos = ctu- m_numCTUInWidth;
268	if( pic->getSAOMergeAvailability(ctu, mergedCTUPos) )
269	{
270	mergeCandidate = &(blkParams[mergedCTUPos]);
271	}
272	}
273	}
274	break;
275	case SAO_MERGE_LEFT:
276	{
277	if(ctuX > 0)
278	{
279	mergedCTUPos = ctu- 1;
280	if( pic->getSAOMergeAvailability(ctu, mergedCTUPos) )
281	{
282	mergeCandidate = &(blkParams[mergedCTUPos]);
283	}
284	}
285	}
286	break;
287	default:
288	{
289	printf("not a supported merge type");
290	assert(0);
291	exit(-1);
292	}
293	}
294
295	mergeList.push_back(mergeCandidate);
296	if (mergeCandidate != NULL)
297	{
298	numValidMergeCandidates++;
299	}
300	}
301
302	return numValidMergeCandidates;
303	}
304
305
306	Void TComSampleAdaptiveOffset::reconstructBlkSAOParam(SAOBlkParam& recParam, std::vector<SAOBlkParam*>& mergeList)
307	{
308	for(Int compIdx=0; compIdx< NUM_SAO_COMPONENTS; compIdx++)
309	{
310	SAOOffset& offsetParam = recParam[compIdx];
311
312	if(offsetParam.modeIdc == SAO_MODE_OFF)
313	{
314	continue;
315	}
316
317	switch(offsetParam.modeIdc)
318	{
319	case SAO_MODE_NEW:
320	{
321	invertQuantOffsets(compIdx, offsetParam.typeIdc, offsetParam.typeAuxInfo, offsetParam.offset, offsetParam.offset);
322	}
323	break;
324	case SAO_MODE_MERGE:
325	{
326	SAOBlkParam* mergeTarget = mergeList[offsetParam.typeIdc];
327	assert(mergeTarget != NULL);
328
329	offsetParam = (*mergeTarget)[compIdx];
330	}
331	break;
332	default:
333	{
334	printf("Not a supported mode");
335	assert(0);
336	exit(-1);
337	}
338	}
339	}
340	}
341
342	Void TComSampleAdaptiveOffset::reconstructBlkSAOParams(TComPic* pic, SAOBlkParam* saoBlkParams)
343	{
344	m_picSAOEnabled[SAO_Y] = m_picSAOEnabled[SAO_Cb] = m_picSAOEnabled[SAO_Cr] = false;
345
346	for(Int ctu=0; ctu< m_numCTUsPic; ctu++)
347	{
348	std::vector<SAOBlkParam*> mergeList;
349	getMergeList(pic, ctu, saoBlkParams, mergeList);
350
351	reconstructBlkSAOParam(saoBlkParams[ctu], mergeList);
352
353	for(Int compIdx=0; compIdx< NUM_SAO_COMPONENTS; compIdx++)
354	{
355	if(saoBlkParams[ctu][compIdx].modeIdc != SAO_MODE_OFF)
356	{
357	m_picSAOEnabled[compIdx] = true;
358	}
359	}
360	}
361
362
363	}
364
365
366	Void TComSampleAdaptiveOffset::offsetBlock(Int compIdx, Int typeIdx, Int* offset
367	, Pel* srcBlk, Pel* resBlk, Int srcStride, Int resStride, Int width, Int height
368	, Bool isLeftAvail, Bool isRightAvail, Bool isAboveAvail, Bool isBelowAvail, Bool isAboveLeftAvail, Bool isAboveRightAvail, Bool isBelowLeftAvail, Bool isBelowRightAvail)
369	{
370	if(m_lineBufWidth != m_maxCUWidth)
371	{
372	m_lineBufWidth = m_maxCUWidth;
373
374	if (m_signLineBuf1) delete[] m_signLineBuf1; m_signLineBuf1 = NULL;
375	m_signLineBuf1 = new Char[m_lineBufWidth+1];
376
377	if (m_signLineBuf2) delete[] m_signLineBuf2; m_signLineBuf2 = NULL;
378	m_signLineBuf2 = new Char[m_lineBufWidth+1];
379	}
380
381	Int* offsetClip = m_offsetClip[compIdx];
382
383	Int x,y, startX, startY, endX, endY, edgeType;
384	Int firstLineStartX, firstLineEndX, lastLineStartX, lastLineEndX;
385	Char signLeft, signRight, signDown;
386
387	Pel* srcLine = srcBlk;
388	Pel* resLine = resBlk;
389
390	switch(typeIdx)
391	{
392	case SAO_TYPE_EO_0:
393	{
394	offset += 2;
395	startX = isLeftAvail ? 0 : 1;
396	endX = isRightAvail ? width : (width -1);
397	for (y=0; y< height; y++)
398	{
399	signLeft = (Char)m_sign[srcLine[startX] - srcLine[startX-1]];
400	for (x=startX; x< endX; x++)
401	{
402	signRight = (Char)m_sign[srcLine[x] - srcLine[x+1]];
403	edgeType = signRight + signLeft;
404	signLeft = -signRight;
405
406	resLine[x] = offsetClip[srcLine[x] + offset[edgeType]];
407	}
408	srcLine += srcStride;
409	resLine += resStride;
410	}
411
412	}
413	break;
414	case SAO_TYPE_EO_90:
415	{
416	offset += 2;
417	Char *signUpLine = m_signLineBuf1;
418
419	startY = isAboveAvail ? 0 : 1;
420	endY = isBelowAvail ? height : height-1;
421	if (!isAboveAvail)
422	{
423	srcLine += srcStride;
424	resLine += resStride;
425	}
426
427	Pel* srcLineAbove= srcLine- srcStride;
428	for (x=0; x< width; x++)
429	{
430	signUpLine[x] = (Char)m_sign[srcLine[x] - srcLineAbove[x]];
431	}
432
433	Pel* srcLineBelow;
434	for (y=startY; y<endY; y++)
435	{
436	srcLineBelow= srcLine+ srcStride;
437
438	for (x=0; x< width; x++)
439	{
440	signDown = (Char)m_sign[srcLine[x] - srcLineBelow[x]];
441	edgeType = signDown + signUpLine[x];
442	signUpLine[x]= -signDown;
443
444	resLine[x] = offsetClip[srcLine[x] + offset[edgeType]];
445	}
446	srcLine += srcStride;
447	resLine += resStride;
448	}
449
450	}
451	break;
452	case SAO_TYPE_EO_135:
453	{
454	offset += 2;
455	Char signUpLine, signDownLine, *signTmpLine;
456
457	signUpLine = m_signLineBuf1;
458	signDownLine= m_signLineBuf2;
459
460	startX = isLeftAvail ? 0 : 1 ;
461	endX = isRightAvail ? width : (width-1);
462
463	//prepare 2nd line's upper sign
464	Pel* srcLineBelow= srcLine+ srcStride;
465	for (x=startX; x< endX+1; x++)
466	{
467	signUpLine[x] = (Char)m_sign[srcLineBelow[x] - srcLine[x- 1]];
468	}
469
470	//1st line
471	Pel* srcLineAbove= srcLine- srcStride;
472	firstLineStartX = isAboveLeftAvail ? 0 : 1;
473	firstLineEndX = isAboveAvail? endX: 1;
474	for(x= firstLineStartX; x< firstLineEndX; x++)
475	{
476	edgeType = m_sign[srcLine[x] - srcLineAbove[x- 1]] - signUpLine[x+1];
477	resLine[x] = offsetClip[srcLine[x] + offset[edgeType]];
478	}
479	srcLine += srcStride;
480	resLine += resStride;
481
482
483	//middle lines
484	for (y= 1; y< height-1; y++)
485	{
486	srcLineBelow= srcLine+ srcStride;
487
488	for (x=startX; x<endX; x++)
489	{
490	signDown = (Char)m_sign[srcLine[x] - srcLineBelow[x+ 1]] ;
491	edgeType = signDown + signUpLine[x];
492	resLine[x] = offsetClip[srcLine[x] + offset[edgeType]];
493
494	signDownLine[x+1] = -signDown;
495	}
496	signDownLine[startX] = (Char)m_sign[srcLineBelow[startX] - srcLine[startX-1]];
497
498	signTmpLine = signUpLine;
499	signUpLine = signDownLine;
500	signDownLine = signTmpLine;
501
502	srcLine += srcStride;
503	resLine += resStride;
504	}
505
506	//last line
507	srcLineBelow= srcLine+ srcStride;
508	lastLineStartX = isBelowAvail ? startX : (width -1);
509	lastLineEndX = isBelowRightAvail ? width : (width -1);
510	for(x= lastLineStartX; x< lastLineEndX; x++)
511	{
512	edgeType = m_sign[srcLine[x] - srcLineBelow[x+ 1]] + signUpLine[x];
513	resLine[x] = offsetClip[srcLine[x] + offset[edgeType]];
514
515	}
516	}
517	break;
518	case SAO_TYPE_EO_45:
519	{
520	offset += 2;
521	Char *signUpLine = m_signLineBuf1+1;
522
523	startX = isLeftAvail ? 0 : 1;
524	endX = isRightAvail ? width : (width -1);
525
526	//prepare 2nd line upper sign
527	Pel* srcLineBelow= srcLine+ srcStride;
528	for (x=startX-1; x< endX; x++)
529	{
530	signUpLine[x] = (Char)m_sign[srcLineBelow[x] - srcLine[x+1]];
531	}
532
533
534	//first line
535	Pel* srcLineAbove= srcLine- srcStride;
536	firstLineStartX = isAboveAvail ? startX : (width -1 );
537	firstLineEndX = isAboveRightAvail ? width : (width-1);
538	for(x= firstLineStartX; x< firstLineEndX; x++)
539	{
540	edgeType = m_sign[srcLine[x] - srcLineAbove[x+1]] -signUpLine[x-1];
541	resLine[x] = offsetClip[srcLine[x] + offset[edgeType]];
542	}
543	srcLine += srcStride;
544	resLine += resStride;
545
546	//middle lines
547	for (y= 1; y< height-1; y++)
548	{
549	srcLineBelow= srcLine+ srcStride;
550
551	for(x= startX; x< endX; x++)
552	{
553	signDown = (Char)m_sign[srcLine[x] - srcLineBelow[x-1]] ;
554	edgeType = signDown + signUpLine[x];
555	resLine[x] = offsetClip[srcLine[x] + offset[edgeType]];
556	signUpLine[x-1] = -signDown;
557	}
558	signUpLine[endX-1] = (Char)m_sign[srcLineBelow[endX-1] - srcLine[endX]];
559	srcLine += srcStride;
560	resLine += resStride;
561	}
562
563	//last line
564	srcLineBelow= srcLine+ srcStride;
565	lastLineStartX = isBelowLeftAvail ? 0 : 1;
566	lastLineEndX = isBelowAvail ? endX : 1;
567	for(x= lastLineStartX; x< lastLineEndX; x++)
568	{
569	edgeType = m_sign[srcLine[x] - srcLineBelow[x-1]] + signUpLine[x];
570	resLine[x] = offsetClip[srcLine[x] + offset[edgeType]];
571
572	}
573	}
574	break;
575	case SAO_TYPE_BO:
576	{
577	Int shiftBits = ((compIdx == SAO_Y)?g_bitDepthY:g_bitDepthC)- NUM_SAO_BO_CLASSES_LOG2;
578	for (y=0; y< height; y++)
579	{
580	for (x=0; x< width; x++)
581	{
582	resLine[x] = offsetClip[ srcLine[x] + offset[srcLine[x] >> shiftBits] ];
583	}
584	srcLine += srcStride;
585	resLine += resStride;
586	}
587	}
588	break;
589	default:
590	{
591	printf("Not a supported SAO types\n");
592	assert(0);
593	exit(-1);
594	}
595	}
596
597
598	}
599
600	Void TComSampleAdaptiveOffset::offsetCTU(Int ctu, TComPicYuv* srcYuv, TComPicYuv* resYuv, SAOBlkParam& saoblkParam, TComPic* pPic)
601	{
602	Bool isLeftAvail,isRightAvail,isAboveAvail,isBelowAvail,isAboveLeftAvail,isAboveRightAvail,isBelowLeftAvail,isBelowRightAvail;
603
604	if(
605	(saoblkParam[SAO_Y ].modeIdc == SAO_MODE_OFF) &&
606	(saoblkParam[SAO_Cb].modeIdc == SAO_MODE_OFF) &&
607	(saoblkParam[SAO_Cr].modeIdc == SAO_MODE_OFF)
608	)
609	{
610	return;
611	}
612
613	//block boundary availability
614	pPic->getPicSym()->deriveLoopFilterBoundaryAvailibility(ctu, isLeftAvail,isRightAvail,isAboveAvail,isBelowAvail,isAboveLeftAvail,isAboveRightAvail,isBelowLeftAvail,isBelowRightAvail);
615
616	Int yPos = (ctu / m_numCTUInWidth)*m_maxCUHeight;
617	Int xPos = (ctu % m_numCTUInWidth)*m_maxCUWidth;
618	Int height = (yPos + m_maxCUHeight > m_picHeight)?(m_picHeight- yPos):m_maxCUHeight;
619	Int width = (xPos + m_maxCUWidth > m_picWidth )?(m_picWidth - xPos):m_maxCUWidth;
620
621	for(Int compIdx= 0; compIdx < NUM_SAO_COMPONENTS; compIdx++)
622	{
623	SAOOffset& ctbOffset = saoblkParam[compIdx];
624
625	if(ctbOffset.modeIdc != SAO_MODE_OFF)
626	{
627	Bool isLuma = (compIdx == SAO_Y);
628	Int formatShift= isLuma?0:1;
629
630	Int blkWidth = (width >> formatShift);
631	Int blkHeight = (height >> formatShift);
632	Int blkYPos = (yPos >> formatShift);
633	Int blkXPos = (xPos >> formatShift);
634
635	Int srcStride = isLuma?srcYuv->getStride():srcYuv->getCStride();
636	Pel* srcBlk = getPicBuf(srcYuv, compIdx)+ (yPos >> formatShift)*srcStride+ (xPos >> formatShift);
637
638	Int resStride = isLuma?resYuv->getStride():resYuv->getCStride();
639	Pel* resBlk = getPicBuf(resYuv, compIdx)+ blkYPos*resStride+ blkXPos;
640
641	offsetBlock( compIdx, ctbOffset.typeIdc, ctbOffset.offset
642	, srcBlk, resBlk, srcStride, resStride, blkWidth, blkHeight
643	, isLeftAvail, isRightAvail
644	, isAboveAvail, isBelowAvail
645	, isAboveLeftAvail, isAboveRightAvail
646	, isBelowLeftAvail, isBelowRightAvail
647	);
648	}
649	} //compIdx
650
651	}
652
653
654	Void TComSampleAdaptiveOffset::SAOProcess(TComPic* pDecPic)
655	{
656	if(!m_picSAOEnabled[SAO_Y] && !m_picSAOEnabled[SAO_Cb] && !m_picSAOEnabled[SAO_Cr])
657	{
658	return;
659	}
660	TComPicYuv* resYuv = pDecPic->getPicYuvRec();
661	TComPicYuv* srcYuv = m_tempPicYuv;
662	resYuv->copyToPic(srcYuv);
663	for(Int ctu= 0; ctu < m_numCTUsPic; ctu++)
664	{
665	offsetCTU(ctu, srcYuv, resYuv, (pDecPic->getPicSym()->getSAOBlkParam())[ctu], pDecPic);
666	} //ctu
667	}
668
669
670	Pel* TComSampleAdaptiveOffset::getPicBuf(TComPicYuv* pPicYuv, Int compIdx)
671	{
672	Pel* pBuf = NULL;
673	switch(compIdx)
674	{
675	case SAO_Y:
676	{
677	pBuf = pPicYuv->getLumaAddr();
678	}
679	break;
680	case SAO_Cb:
681	{
682	pBuf = pPicYuv->getCbAddr();
683	}
684	break;
685	case SAO_Cr:
686	{
687	pBuf = pPicYuv->getCrAddr();
688	}
689	break;
690	default:
691	{
692	printf("Not a legal component ID for SAO\n");
693	assert(0);
694	exit(-1);
695	}
696	}
697
698	return pBuf;
699	}
700	#else
701
702	SAOParam::~SAOParam()
703	{
704	for (Int i = 0 ; i<3; i++)
705	{
706	if (psSaoPart[i])
707	{
708	delete [] psSaoPart[i];
709	}
710	}
711	}
712
713	// ====================================================================================================================
714	// Tables
715	// ====================================================================================================================
716
717	TComSampleAdaptiveOffset::TComSampleAdaptiveOffset()
718	{
719	m_pClipTable = NULL;
720	m_pClipTableBase = NULL;
721	m_pChromaClipTable = NULL;
722	m_pChromaClipTableBase = NULL;
723	m_iOffsetBo = NULL;
724	m_iChromaOffsetBo = NULL;
725	m_lumaTableBo = NULL;
726	m_chromaTableBo = NULL;
727	m_iUpBuff1 = NULL;
728	m_iUpBuff2 = NULL;
729	m_iUpBufft = NULL;
730	ipSwap = NULL;
731
732	m_pTmpU1 = NULL;
733	m_pTmpU2 = NULL;
734	m_pTmpL1 = NULL;
735	m_pTmpL2 = NULL;
736	}
737
738	TComSampleAdaptiveOffset::~TComSampleAdaptiveOffset()
739	{
740
741	}
742
743	const Int TComSampleAdaptiveOffset::m_aiNumCulPartsLevel[5] =
744	{
745	1, //level 0
746	5, //level 1
747	21, //level 2
748	85, //level 3
749	341, //level 4
750	};
751
752	const UInt TComSampleAdaptiveOffset::m_auiEoTable[9] =
753	{
754	1, //0
755	2, //1
756	0, //2
757	3, //3
758	4, //4
759	0, //5
760	0, //6
761	0, //7
762	0
763	};
764
765	const Int TComSampleAdaptiveOffset::m_iNumClass[MAX_NUM_SAO_TYPE] =
766	{
767	SAO_EO_LEN,
768	SAO_EO_LEN,
769	SAO_EO_LEN,
770	SAO_EO_LEN,
771	SAO_BO_LEN
772	};
773
774	const UInt TComSampleAdaptiveOffset::m_uiMaxDepth = SAO_MAX_DEPTH;
775
776
777	/** convert Level Row Col to Idx
778	* \param level, row, col
779	*/
780	Int TComSampleAdaptiveOffset::convertLevelRowCol2Idx(Int level, Int row, Int col)
781	{
782	Int idx;
783	if (level == 0)
784	{
785	idx = 0;
786	}
787	else if (level == 1)
788	{
789	idx = 1 + row*2 + col;
790	}
791	else if (level == 2)
792	{
793	idx = 5 + row*4 + col;
794	}
795	else if (level == 3)
796	{
797	idx = 21 + row*8 + col;
798	}
799	else // (level == 4)
800	{
801	idx = 85 + row*16 + col;
802	}
803	return idx;
804	}
805
806	/** create SampleAdaptiveOffset memory.
807	* \param
808	*/
809	Void TComSampleAdaptiveOffset::create( UInt uiSourceWidth, UInt uiSourceHeight, UInt uiMaxCUWidth, UInt uiMaxCUHeight )
810	{
811	m_iPicWidth = uiSourceWidth;
812	m_iPicHeight = uiSourceHeight;
813
814	m_uiMaxCUWidth = uiMaxCUWidth;
815	m_uiMaxCUHeight = uiMaxCUHeight;
816
817	m_iNumCuInWidth = m_iPicWidth / m_uiMaxCUWidth;
818	m_iNumCuInWidth += ( m_iPicWidth % m_uiMaxCUWidth ) ? 1 : 0;
819
820	m_iNumCuInHeight = m_iPicHeight / m_uiMaxCUHeight;
821	m_iNumCuInHeight += ( m_iPicHeight % m_uiMaxCUHeight ) ? 1 : 0;
822
823	Int iMaxSplitLevelHeight = (Int)(logf((Float)m_iNumCuInHeight)/logf(2.0));
824	Int iMaxSplitLevelWidth = (Int)(logf((Float)m_iNumCuInWidth )/logf(2.0));
825
826	m_uiMaxSplitLevel = (iMaxSplitLevelHeight < iMaxSplitLevelWidth)?(iMaxSplitLevelHeight):(iMaxSplitLevelWidth);
827	m_uiMaxSplitLevel = (m_uiMaxSplitLevel< m_uiMaxDepth)?(m_uiMaxSplitLevel):(m_uiMaxDepth);
828	/* various structures are overloaded to store per component data.
829	* m_iNumTotalParts must allow for sufficient storage in any allocated arrays */
830	m_iNumTotalParts = max(3,m_aiNumCulPartsLevel[m_uiMaxSplitLevel]);
831
832	UInt uiPixelRangeY = 1 << g_bitDepthY;
833	UInt uiBoRangeShiftY = g_bitDepthY - SAO_BO_BITS;
834
835	m_lumaTableBo = new Pel [uiPixelRangeY];
836	for (Int k2=0; k2<uiPixelRangeY; k2++)
837	{
838	m_lumaTableBo[k2] = 1 + (k2>>uiBoRangeShiftY);
839	}
840
841	UInt uiPixelRangeC = 1 << g_bitDepthC;
842	UInt uiBoRangeShiftC = g_bitDepthC - SAO_BO_BITS;
843
844	m_chromaTableBo = new Pel [uiPixelRangeC];
845	for (Int k2=0; k2<uiPixelRangeC; k2++)
846	{
847	m_chromaTableBo[k2] = 1 + (k2>>uiBoRangeShiftC);
848	}
849
850	m_iUpBuff1 = new Int[m_iPicWidth+2];
851	m_iUpBuff2 = new Int[m_iPicWidth+2];
852	m_iUpBufft = new Int[m_iPicWidth+2];
853
854	m_iUpBuff1++;
855	m_iUpBuff2++;
856	m_iUpBufft++;
857	Pel i;
858
859	UInt uiMaxY = (1 << g_bitDepthY) - 1;;
860	UInt uiMinY = 0;
861
862	Int iCRangeExt = uiMaxY>>1;
863
864	m_pClipTableBase = new Pel[uiMaxY+2*iCRangeExt];
865	m_iOffsetBo = new Int[uiMaxY+2*iCRangeExt];
866
867	for(i=0;i<(uiMinY+iCRangeExt);i++)
868	{
869	m_pClipTableBase[i] = uiMinY;
870	}
871
872	for(i=uiMinY+iCRangeExt;i<(uiMaxY+ iCRangeExt);i++)
873	{
874	m_pClipTableBase[i] = i-iCRangeExt;
875	}
876
877	for(i=uiMaxY+iCRangeExt;i<(uiMaxY+2*iCRangeExt);i++)
878	{
879	m_pClipTableBase[i] = uiMaxY;
880	}
881
882	m_pClipTable = &(m_pClipTableBase[iCRangeExt]);
883
884	UInt uiMaxC = (1 << g_bitDepthC) - 1;
885	UInt uiMinC = 0;
886
887	Int iCRangeExtC = uiMaxC>>1;
888
889	m_pChromaClipTableBase = new Pel[uiMaxC+2*iCRangeExtC];
890	m_iChromaOffsetBo = new Int[uiMaxC+2*iCRangeExtC];
891
892	for(i=0;i<(uiMinC+iCRangeExtC);i++)
893	{
894	m_pChromaClipTableBase[i] = uiMinC;
895	}
896
897	for(i=uiMinC+iCRangeExtC;i<(uiMaxC+ iCRangeExtC);i++)
898	{
899	m_pChromaClipTableBase[i] = i-iCRangeExtC;
900	}
901
902	for(i=uiMaxC+iCRangeExtC;i<(uiMaxC+2*iCRangeExtC);i++)
903	{
904	m_pChromaClipTableBase[i] = uiMaxC;
905	}
906
907	m_pChromaClipTable = &(m_pChromaClipTableBase[iCRangeExtC]);
908
909	m_pTmpL1 = new Pel [m_uiMaxCUHeight+1];
910	m_pTmpL2 = new Pel [m_uiMaxCUHeight+1];
911	m_pTmpU1 = new Pel [m_iPicWidth];
912	m_pTmpU2 = new Pel [m_iPicWidth];
913	}
914
915	/** destroy SampleAdaptiveOffset memory.
916	* \param
917	*/
918	Void TComSampleAdaptiveOffset::destroy()
919	{
920	if (m_pClipTableBase)
921	{
922	delete [] m_pClipTableBase; m_pClipTableBase = NULL;
923	}
924	if (m_iOffsetBo)
925	{
926	delete [] m_iOffsetBo; m_iOffsetBo = NULL;
927	}
928	if (m_lumaTableBo)
929	{
930	delete[] m_lumaTableBo; m_lumaTableBo = NULL;
931	}
932
933	if (m_pChromaClipTableBase)
934	{
935	delete [] m_pChromaClipTableBase; m_pChromaClipTableBase = NULL;
936	}
937	if (m_iChromaOffsetBo)
938	{
939	delete [] m_iChromaOffsetBo; m_iChromaOffsetBo = NULL;
940	}
941	if (m_chromaTableBo)
942	{
943	delete[] m_chromaTableBo; m_chromaTableBo = NULL;
944	}
945
946	if (m_iUpBuff1)
947	{
948	m_iUpBuff1--;
949	delete [] m_iUpBuff1; m_iUpBuff1 = NULL;
950	}
951	if (m_iUpBuff2)
952	{
953	m_iUpBuff2--;
954	delete [] m_iUpBuff2; m_iUpBuff2 = NULL;
955	}
956	if (m_iUpBufft)
957	{
958	m_iUpBufft--;
959	delete [] m_iUpBufft; m_iUpBufft = NULL;
960	}
961	if (m_pTmpL1)
962	{
963	delete [] m_pTmpL1; m_pTmpL1 = NULL;
964	}
965	if (m_pTmpL2)
966	{
967	delete [] m_pTmpL2; m_pTmpL2 = NULL;
968	}
969	if (m_pTmpU1)
970	{
971	delete [] m_pTmpU1; m_pTmpU1 = NULL;
972	}
973	if (m_pTmpU2)
974	{
975	delete [] m_pTmpU2; m_pTmpU2 = NULL;
976	}
977	}
978
979	/** allocate memory for SAO parameters
980	* \param *pcSaoParam
981	*/
982	Void TComSampleAdaptiveOffset::allocSaoParam(SAOParam *pcSaoParam)
983	{
984	pcSaoParam->iMaxSplitLevel = m_uiMaxSplitLevel;
985	pcSaoParam->psSaoPart[0] = new SAOQTPart[ m_aiNumCulPartsLevel[pcSaoParam->iMaxSplitLevel] ];
986	initSAOParam(pcSaoParam, 0, 0, 0, -1, 0, m_iNumCuInWidth-1, 0, m_iNumCuInHeight-1,0);
987	pcSaoParam->psSaoPart[1] = new SAOQTPart[ m_aiNumCulPartsLevel[pcSaoParam->iMaxSplitLevel] ];
988	pcSaoParam->psSaoPart[2] = new SAOQTPart[ m_aiNumCulPartsLevel[pcSaoParam->iMaxSplitLevel] ];
989	initSAOParam(pcSaoParam, 0, 0, 0, -1, 0, m_iNumCuInWidth-1, 0, m_iNumCuInHeight-1,1);
990	initSAOParam(pcSaoParam, 0, 0, 0, -1, 0, m_iNumCuInWidth-1, 0, m_iNumCuInHeight-1,2);
991	pcSaoParam->numCuInWidth = m_iNumCuInWidth;
992	pcSaoParam->numCuInHeight = m_iNumCuInHeight;
993	pcSaoParam->saoLcuParam[0] = new SaoLcuParam [m_iNumCuInHeight*m_iNumCuInWidth];
994	pcSaoParam->saoLcuParam[1] = new SaoLcuParam [m_iNumCuInHeight*m_iNumCuInWidth];
995	pcSaoParam->saoLcuParam[2] = new SaoLcuParam [m_iNumCuInHeight*m_iNumCuInWidth];
996	}
997
998	/** initialize SAO parameters
999	* \param *pcSaoParam, iPartLevel, iPartRow, iPartCol, iParentPartIdx, StartCUX, EndCUX, StartCUY, EndCUY, iYCbCr
1000	*/
1001	Void TComSampleAdaptiveOffset::initSAOParam(SAOParam *pcSaoParam, Int iPartLevel, Int iPartRow, Int iPartCol, Int iParentPartIdx, Int StartCUX, Int EndCUX, Int StartCUY, Int EndCUY, Int iYCbCr)
1002	{
1003	Int j;
1004	Int iPartIdx = convertLevelRowCol2Idx(iPartLevel, iPartRow, iPartCol);
1005
1006	SAOQTPart* pSaoPart;
1007
1008	pSaoPart = &(pcSaoParam->psSaoPart[iYCbCr][iPartIdx]);
1009
1010	pSaoPart->PartIdx = iPartIdx;
1011	pSaoPart->PartLevel = iPartLevel;
1012	pSaoPart->PartRow = iPartRow;
1013	pSaoPart->PartCol = iPartCol;
1014
1015	pSaoPart->StartCUX = StartCUX;
1016	pSaoPart->EndCUX = EndCUX;
1017	pSaoPart->StartCUY = StartCUY;
1018	pSaoPart->EndCUY = EndCUY;
1019
1020	pSaoPart->UpPartIdx = iParentPartIdx;
1021	pSaoPart->iBestType = -1;
1022	pSaoPart->iLength = 0;
1023
1024	pSaoPart->subTypeIdx = 0;
1025
1026	for (j=0;j<MAX_NUM_SAO_OFFSETS;j++)
1027	{
1028	pSaoPart->iOffset[j] = 0;
1029	}
1030
1031	if(pSaoPart->PartLevel != m_uiMaxSplitLevel)
1032	{
1033	Int DownLevel = (iPartLevel+1 );
1034	Int DownRowStart = (iPartRow << 1);
1035	Int DownColStart = (iPartCol << 1);
1036
1037	Int iDownRowIdx, iDownColIdx;
1038	Int NumCUWidth, NumCUHeight;
1039	Int NumCULeft;
1040	Int NumCUTop;
1041
1042	Int DownStartCUX, DownStartCUY;
1043	Int DownEndCUX, DownEndCUY;
1044
1045	NumCUWidth = EndCUX - StartCUX +1;
1046	NumCUHeight = EndCUY - StartCUY +1;
1047	NumCULeft = (NumCUWidth >> 1);
1048	NumCUTop = (NumCUHeight >> 1);
1049
1050	DownStartCUX= StartCUX;
1051	DownEndCUX = DownStartCUX + NumCULeft - 1;
1052	DownStartCUY= StartCUY;
1053	DownEndCUY = DownStartCUY + NumCUTop - 1;
1054	iDownRowIdx = DownRowStart + 0;
1055	iDownColIdx = DownColStart + 0;
1056
1057	pSaoPart->DownPartsIdx[0]= convertLevelRowCol2Idx(DownLevel, iDownRowIdx, iDownColIdx);
1058
1059	initSAOParam(pcSaoParam, DownLevel, iDownRowIdx, iDownColIdx, iPartIdx, DownStartCUX, DownEndCUX, DownStartCUY, DownEndCUY, iYCbCr);
1060
1061	DownStartCUX = StartCUX + NumCULeft;
1062	DownEndCUX = EndCUX;
1063	DownStartCUY = StartCUY;
1064	DownEndCUY = DownStartCUY + NumCUTop -1;
1065	iDownRowIdx = DownRowStart + 0;
1066	iDownColIdx = DownColStart + 1;
1067
1068	pSaoPart->DownPartsIdx[1] = convertLevelRowCol2Idx(DownLevel, iDownRowIdx, iDownColIdx);
1069
1070	initSAOParam(pcSaoParam, DownLevel, iDownRowIdx, iDownColIdx, iPartIdx, DownStartCUX, DownEndCUX, DownStartCUY, DownEndCUY, iYCbCr);
1071
1072	DownStartCUX = StartCUX;
1073	DownEndCUX = DownStartCUX + NumCULeft -1;
1074	DownStartCUY = StartCUY + NumCUTop;
1075	DownEndCUY = EndCUY;
1076	iDownRowIdx = DownRowStart + 1;
1077	iDownColIdx = DownColStart + 0;
1078
1079	pSaoPart->DownPartsIdx[2] = convertLevelRowCol2Idx(DownLevel, iDownRowIdx, iDownColIdx);
1080
1081	initSAOParam(pcSaoParam, DownLevel, iDownRowIdx, iDownColIdx, iPartIdx, DownStartCUX, DownEndCUX, DownStartCUY, DownEndCUY, iYCbCr);
1082
1083	DownStartCUX = StartCUX+ NumCULeft;
1084	DownEndCUX = EndCUX;
1085	DownStartCUY = StartCUY + NumCUTop;
1086	DownEndCUY = EndCUY;
1087	iDownRowIdx = DownRowStart + 1;
1088	iDownColIdx = DownColStart + 1;
1089
1090	pSaoPart->DownPartsIdx[3] = convertLevelRowCol2Idx(DownLevel, iDownRowIdx, iDownColIdx);
1091
1092	initSAOParam(pcSaoParam, DownLevel, iDownRowIdx, iDownColIdx, iPartIdx,DownStartCUX, DownEndCUX, DownStartCUY, DownEndCUY, iYCbCr);
1093	}
1094	else
1095	{
1096	pSaoPart->DownPartsIdx[0]=pSaoPart->DownPartsIdx[1]= pSaoPart->DownPartsIdx[2]= pSaoPart->DownPartsIdx[3]= -1;
1097	}
1098	}
1099
1100	/** free memory of SAO parameters
1101	* \param pcSaoParam
1102	*/
1103	Void TComSampleAdaptiveOffset::freeSaoParam(SAOParam *pcSaoParam)
1104	{
1105	delete [] pcSaoParam->psSaoPart[0];
1106	delete [] pcSaoParam->psSaoPart[1];
1107	delete [] pcSaoParam->psSaoPart[2];
1108	pcSaoParam->psSaoPart[0] = 0;
1109	pcSaoParam->psSaoPart[1] = 0;
1110	pcSaoParam->psSaoPart[2] = 0;
1111	if( pcSaoParam->saoLcuParam[0])
1112	{
1113	delete [] pcSaoParam->saoLcuParam[0]; pcSaoParam->saoLcuParam[0] = NULL;
1114	}
1115	if( pcSaoParam->saoLcuParam[1])
1116	{
1117	delete [] pcSaoParam->saoLcuParam[1]; pcSaoParam->saoLcuParam[1] = NULL;
1118	}
1119	if( pcSaoParam->saoLcuParam[2])
1120	{
1121	delete [] pcSaoParam->saoLcuParam[2]; pcSaoParam->saoLcuParam[2] = NULL;
1122	}
1123	}
1124
1125	/** reset SAO parameters
1126	* \param pcSaoParam
1127	*/
1128	Void TComSampleAdaptiveOffset::resetSAOParam(SAOParam *pcSaoParam)
1129	{
1130	Int iNumComponet = 3;
1131	for(Int c=0; c<iNumComponet; c++)
1132	{
1133	if (c<2)
1134	{
1135	pcSaoParam->bSaoFlag[c] = 0;
1136	}
1137	for(Int i=0; i< m_aiNumCulPartsLevel[m_uiMaxSplitLevel]; i++)
1138	{
1139	pcSaoParam->psSaoPart[c][i].iBestType = -1;
1140	pcSaoParam->psSaoPart[c][i].iLength = 0;
1141	pcSaoParam->psSaoPart[c][i].bSplit = false;
1142	pcSaoParam->psSaoPart[c][i].bProcessed = false;
1143	pcSaoParam->psSaoPart[c][i].dMinCost = MAX_DOUBLE;
1144	pcSaoParam->psSaoPart[c][i].iMinDist = MAX_INT;
1145	pcSaoParam->psSaoPart[c][i].iMinRate = MAX_INT;
1146	pcSaoParam->psSaoPart[c][i].subTypeIdx = 0;
1147	for (Int j=0;j<MAX_NUM_SAO_OFFSETS;j++)
1148	{
1149	pcSaoParam->psSaoPart[c][i].iOffset[j] = 0;
1150	pcSaoParam->psSaoPart[c][i].iOffset[j] = 0;
1151	pcSaoParam->psSaoPart[c][i].iOffset[j] = 0;
1152	}
1153	}
1154	pcSaoParam->oneUnitFlag[0] = 0;
1155	pcSaoParam->oneUnitFlag[1] = 0;
1156	pcSaoParam->oneUnitFlag[2] = 0;
1157	resetLcuPart(pcSaoParam->saoLcuParam[0]);
1158	resetLcuPart(pcSaoParam->saoLcuParam[1]);
1159	resetLcuPart(pcSaoParam->saoLcuParam[2]);
1160	}
1161	}
1162
1163	/** get the sign of input variable
1164	* \param x
1165	*/
1166	inline Int xSign(Int x)
1167	{
1168	return ((x >> 31) \| ((Int)( (((UInt) -x)) >> 31)));
1169	}
1170
1171	/** initialize variables for SAO process
1172	* \param pcPic picture data pointer
1173	*/
1174	Void TComSampleAdaptiveOffset::createPicSaoInfo(TComPic* pcPic)
1175	{
1176	m_pcPic = pcPic;
1177	m_bUseNIF = ( pcPic->getIndependentSliceBoundaryForNDBFilter() \|\| pcPic->getIndependentTileBoundaryForNDBFilter() );
1178	if(m_bUseNIF)
1179	{
1180	m_pcYuvTmp = pcPic->getYuvPicBufferForIndependentBoundaryProcessing();
1181	}
1182	}
1183
1184	Void TComSampleAdaptiveOffset::destroyPicSaoInfo()
1185	{
1186
1187	}
1188
1189	/** sample adaptive offset process for one LCU
1190	* \param iAddr, iSaoType, iYCbCr
1191	*/
1192	Void TComSampleAdaptiveOffset::processSaoCu(Int iAddr, Int iSaoType, Int iYCbCr)
1193	{
1194	if(!m_bUseNIF)
1195	{
1196	processSaoCuOrg( iAddr, iSaoType, iYCbCr);
1197	}
1198	else
1199	{
1200	Int isChroma = (iYCbCr != 0)? 1:0;
1201	Int stride = (iYCbCr != 0)?(m_pcPic->getCStride()):(m_pcPic->getStride());
1202	Pel* pPicRest = getPicYuvAddr(m_pcPic->getPicYuvRec(), iYCbCr);
1203	Pel* pPicDec = getPicYuvAddr(m_pcYuvTmp, iYCbCr);
1204
1205	std::vector<NDBFBlockInfo>& vFilterBlocks = *(m_pcPic->getCU(iAddr)->getNDBFilterBlocks());
1206
1207	//variables
1208	UInt xPos, yPos, width, height;
1209	Bool* pbBorderAvail;
1210	UInt posOffset;
1211
1212	for(Int i=0; i< vFilterBlocks.size(); i++)
1213	{
1214	xPos = vFilterBlocks[i].posX >> isChroma;
1215	yPos = vFilterBlocks[i].posY >> isChroma;
1216	width = vFilterBlocks[i].width >> isChroma;
1217	height = vFilterBlocks[i].height >> isChroma;
1218	pbBorderAvail = vFilterBlocks[i].isBorderAvailable;
1219
1220	posOffset = (yPos* stride) + xPos;
1221
1222	processSaoBlock(pPicDec+ posOffset, pPicRest+ posOffset, stride, iSaoType, width, height, pbBorderAvail, iYCbCr);
1223	}
1224	}
1225	}
1226
1227	/** Perform SAO for non-cross-slice or non-cross-tile process
1228	* \param pDec to-be-filtered block buffer pointer
1229	* \param pRest filtered block buffer pointer
1230	* \param stride picture buffer stride
1231	* \param saoType SAO offset type
1232	* \param xPos x coordinate
1233	* \param yPos y coordinate
1234	* \param width block width
1235	* \param height block height
1236	* \param pbBorderAvail availabilities of block border pixels
1237	*/
1238	Void TComSampleAdaptiveOffset::processSaoBlock(Pel* pDec, Pel* pRest, Int stride, Int saoType, UInt width, UInt height, Bool* pbBorderAvail, Int iYCbCr)
1239	{
1240	//variables
1241	Int startX, startY, endX, endY, x, y;
1242	Int signLeft,signRight,signDown,signDown1;
1243	UInt edgeType;
1244	Pel *pClipTbl = (iYCbCr==0)?m_pClipTable:m_pChromaClipTable;
1245	Int *pOffsetBo = (iYCbCr==0)?m_iOffsetBo: m_iChromaOffsetBo;
1246
1247	switch (saoType)
1248	{
1249	case SAO_EO_0: // dir: -
1250	{
1251
1252	startX = (pbBorderAvail[SGU_L]) ? 0 : 1;
1253	endX = (pbBorderAvail[SGU_R]) ? width : (width -1);
1254	for (y=0; y< height; y++)
1255	{
1256	signLeft = xSign(pDec[startX] - pDec[startX-1]);
1257	for (x=startX; x< endX; x++)
1258	{
1259	signRight = xSign(pDec[x] - pDec[x+1]);
1260	edgeType = signRight + signLeft + 2;
1261	signLeft = -signRight;
1262
1263	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1264	}
1265	pDec += stride;
1266	pRest += stride;
1267	}
1268	break;
1269	}
1270	case SAO_EO_1: // dir: \|
1271	{
1272	startY = (pbBorderAvail[SGU_T]) ? 0 : 1;
1273	endY = (pbBorderAvail[SGU_B]) ? height : height-1;
1274	if (!pbBorderAvail[SGU_T])
1275	{
1276	pDec += stride;
1277	pRest += stride;
1278	}
1279	for (x=0; x< width; x++)
1280	{
1281	m_iUpBuff1[x] = xSign(pDec[x] - pDec[x-stride]);
1282	}
1283	for (y=startY; y<endY; y++)
1284	{
1285	for (x=0; x< width; x++)
1286	{
1287	signDown = xSign(pDec[x] - pDec[x+stride]);
1288	edgeType = signDown + m_iUpBuff1[x] + 2;
1289	m_iUpBuff1[x]= -signDown;
1290
1291	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1292	}
1293	pDec += stride;
1294	pRest += stride;
1295	}
1296	break;
1297	}
1298	case SAO_EO_2: // dir: 135
1299	{
1300	Int posShift= stride + 1;
1301
1302	startX = (pbBorderAvail[SGU_L]) ? 0 : 1 ;
1303	endX = (pbBorderAvail[SGU_R]) ? width : (width-1);
1304
1305	//prepare 2nd line upper sign
1306	pDec += stride;
1307	for (x=startX; x< endX+1; x++)
1308	{
1309	m_iUpBuff1[x] = xSign(pDec[x] - pDec[x- posShift]);
1310	}
1311
1312	//1st line
1313	pDec -= stride;
1314	if(pbBorderAvail[SGU_TL])
1315	{
1316	x= 0;
1317	edgeType = xSign(pDec[x] - pDec[x- posShift]) - m_iUpBuff1[x+1] + 2;
1318	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1319
1320	}
1321	if(pbBorderAvail[SGU_T])
1322	{
1323	for(x= 1; x< endX; x++)
1324	{
1325	edgeType = xSign(pDec[x] - pDec[x- posShift]) - m_iUpBuff1[x+1] + 2;
1326	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1327	}
1328	}
1329	pDec += stride;
1330	pRest += stride;
1331
1332
1333	//middle lines
1334	for (y= 1; y< height-1; y++)
1335	{
1336	for (x=startX; x<endX; x++)
1337	{
1338	signDown1 = xSign(pDec[x] - pDec[x+ posShift]) ;
1339	edgeType = signDown1 + m_iUpBuff1[x] + 2;
1340	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1341
1342	m_iUpBufft[x+1] = -signDown1;
1343	}
1344	m_iUpBufft[startX] = xSign(pDec[stride+startX] - pDec[startX-1]);
1345
1346	ipSwap = m_iUpBuff1;
1347	m_iUpBuff1 = m_iUpBufft;
1348	m_iUpBufft = ipSwap;
1349
1350	pDec += stride;
1351	pRest += stride;
1352	}
1353
1354	//last line
1355	if(pbBorderAvail[SGU_B])
1356	{
1357	for(x= startX; x< width-1; x++)
1358	{
1359	edgeType = xSign(pDec[x] - pDec[x+ posShift]) + m_iUpBuff1[x] + 2;
1360	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1361	}
1362	}
1363	if(pbBorderAvail[SGU_BR])
1364	{
1365	x= width -1;
1366	edgeType = xSign(pDec[x] - pDec[x+ posShift]) + m_iUpBuff1[x] + 2;
1367	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1368	}
1369	break;
1370	}
1371	case SAO_EO_3: // dir: 45
1372	{
1373	Int posShift = stride - 1;
1374	startX = (pbBorderAvail[SGU_L]) ? 0 : 1;
1375	endX = (pbBorderAvail[SGU_R]) ? width : (width -1);
1376
1377	//prepare 2nd line upper sign
1378	pDec += stride;
1379	for (x=startX-1; x< endX; x++)
1380	{
1381	m_iUpBuff1[x] = xSign(pDec[x] - pDec[x- posShift]);
1382	}
1383
1384
1385	//first line
1386	pDec -= stride;
1387	if(pbBorderAvail[SGU_T])
1388	{
1389	for(x= startX; x< width -1; x++)
1390	{
1391	edgeType = xSign(pDec[x] - pDec[x- posShift]) -m_iUpBuff1[x-1] + 2;
1392	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1393	}
1394	}
1395	if(pbBorderAvail[SGU_TR])
1396	{
1397	x= width-1;
1398	edgeType = xSign(pDec[x] - pDec[x- posShift]) -m_iUpBuff1[x-1] + 2;
1399	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1400	}
1401	pDec += stride;
1402	pRest += stride;
1403
1404	//middle lines
1405	for (y= 1; y< height-1; y++)
1406	{
1407	for(x= startX; x< endX; x++)
1408	{
1409	signDown1 = xSign(pDec[x] - pDec[x+ posShift]) ;
1410	edgeType = signDown1 + m_iUpBuff1[x] + 2;
1411
1412	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1413	m_iUpBuff1[x-1] = -signDown1;
1414	}
1415	m_iUpBuff1[endX-1] = xSign(pDec[endX-1 + stride] - pDec[endX]);
1416
1417	pDec += stride;
1418	pRest += stride;
1419	}
1420
1421	//last line
1422	if(pbBorderAvail[SGU_BL])
1423	{
1424	x= 0;
1425	edgeType = xSign(pDec[x] - pDec[x+ posShift]) + m_iUpBuff1[x] + 2;
1426	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1427
1428	}
1429	if(pbBorderAvail[SGU_B])
1430	{
1431	for(x= 1; x< endX; x++)
1432	{
1433	edgeType = xSign(pDec[x] - pDec[x+ posShift]) + m_iUpBuff1[x] + 2;
1434	pRest[x] = pClipTbl[pDec[x] + m_iOffsetEo[edgeType]];
1435	}
1436	}
1437	break;
1438	}
1439	case SAO_BO:
1440	{
1441	for (y=0; y< height; y++)
1442	{
1443	for (x=0; x< width; x++)
1444	{
1445	pRest[x] = pOffsetBo[pDec[x]];
1446	}
1447	pRest += stride;
1448	pDec += stride;
1449	}
1450	break;
1451	}
1452	default: break;
1453	}
1454
1455	}
1456
1457	/** sample adaptive offset process for one LCU crossing LCU boundary
1458	* \param iAddr, iSaoType, iYCbCr
1459	*/
1460	Void TComSampleAdaptiveOffset::processSaoCuOrg(Int iAddr, Int iSaoType, Int iYCbCr)
1461	{
1462	Int x,y;
1463	TComDataCU *pTmpCu = m_pcPic->getCU(iAddr);
1464	Pel* pRec;
1465	Int iStride;
1466	Int iLcuWidth = m_uiMaxCUWidth;
1467	Int iLcuHeight = m_uiMaxCUHeight;
1468	UInt uiLPelX = pTmpCu->getCUPelX();
1469	UInt uiTPelY = pTmpCu->getCUPelY();
1470	UInt uiRPelX;
1471	UInt uiBPelY;
1472	Int iSignLeft;
1473	Int iSignRight;
1474	Int iSignDown;
1475	Int iSignDown1;
1476	Int iSignDown2;
1477	UInt uiEdgeType;
1478	Int iPicWidthTmp;
1479	Int iPicHeightTmp;
1480	Int iStartX;
1481	Int iStartY;
1482	Int iEndX;
1483	Int iEndY;
1484	Int iIsChroma = (iYCbCr!=0)? 1:0;
1485	Int iShift;
1486	Int iCuHeightTmp;
1487	Pel *pTmpLSwap;
1488	Pel *pTmpL;
1489	Pel *pTmpU;
1490	Pel *pClipTbl = NULL;
1491	Int *pOffsetBo = NULL;
1492
1493	iPicWidthTmp = m_iPicWidth >> iIsChroma;
1494	iPicHeightTmp = m_iPicHeight >> iIsChroma;
1495	iLcuWidth = iLcuWidth >> iIsChroma;
1496	iLcuHeight = iLcuHeight >> iIsChroma;
1497	uiLPelX = uiLPelX >> iIsChroma;
1498	uiTPelY = uiTPelY >> iIsChroma;
1499	uiRPelX = uiLPelX + iLcuWidth ;
1500	uiBPelY = uiTPelY + iLcuHeight ;
1501	uiRPelX = uiRPelX > iPicWidthTmp ? iPicWidthTmp : uiRPelX;
1502	uiBPelY = uiBPelY > iPicHeightTmp ? iPicHeightTmp : uiBPelY;
1503	iLcuWidth = uiRPelX - uiLPelX;
1504	iLcuHeight = uiBPelY - uiTPelY;
1505
1506	if(pTmpCu->getPic()==0)
1507	{
1508	return;
1509	}
1510	if (iYCbCr == 0)
1511	{
1512	pRec = m_pcPic->getPicYuvRec()->getLumaAddr(iAddr);
1513	iStride = m_pcPic->getStride();
1514	}
1515	else if (iYCbCr == 1)
1516	{
1517	pRec = m_pcPic->getPicYuvRec()->getCbAddr(iAddr);
1518	iStride = m_pcPic->getCStride();
1519	}
1520	else
1521	{
1522	pRec = m_pcPic->getPicYuvRec()->getCrAddr(iAddr);
1523	iStride = m_pcPic->getCStride();
1524	}
1525
1526	// if (iSaoType!=SAO_BO_0 \|\| iSaoType!=SAO_BO_1)
1527	{
1528	iCuHeightTmp = (m_uiMaxCUHeight >> iIsChroma);
1529	iShift = (m_uiMaxCUWidth>> iIsChroma)-1;
1530	for (Int i=0;i<iCuHeightTmp+1;i++)
1531	{
1532	m_pTmpL2[i] = pRec[iShift];
1533	pRec += iStride;
1534	}
1535	pRec -= (iStride*(iCuHeightTmp+1));
1536
1537	pTmpL = m_pTmpL1;
1538	pTmpU = &(m_pTmpU1[uiLPelX]);
1539	}
1540
1541	pClipTbl = (iYCbCr==0)? m_pClipTable:m_pChromaClipTable;
1542	pOffsetBo = (iYCbCr==0)? m_iOffsetBo:m_iChromaOffsetBo;
1543
1544	switch (iSaoType)
1545	{
1546	case SAO_EO_0: // dir: -
1547	{
1548	iStartX = (uiLPelX == 0) ? 1 : 0;
1549	iEndX = (uiRPelX == iPicWidthTmp) ? iLcuWidth-1 : iLcuWidth;
1550	for (y=0; y<iLcuHeight; y++)
1551	{
1552	iSignLeft = xSign(pRec[iStartX] - pTmpL[y]);
1553	for (x=iStartX; x< iEndX; x++)
1554	{
1555	iSignRight = xSign(pRec[x] - pRec[x+1]);
1556	uiEdgeType = iSignRight + iSignLeft + 2;
1557	iSignLeft = -iSignRight;
1558
1559	pRec[x] = pClipTbl[pRec[x] + m_iOffsetEo[uiEdgeType]];
1560	}
1561	pRec += iStride;
1562	}
1563	break;
1564	}
1565	case SAO_EO_1: // dir: \|
1566	{
1567	iStartY = (uiTPelY == 0) ? 1 : 0;
1568	iEndY = (uiBPelY == iPicHeightTmp) ? iLcuHeight-1 : iLcuHeight;
1569	if (uiTPelY == 0)
1570	{
1571	pRec += iStride;
1572	}
1573	for (x=0; x< iLcuWidth; x++)
1574	{
1575	m_iUpBuff1[x] = xSign(pRec[x] - pTmpU[x]);
1576	}
1577	for (y=iStartY; y<iEndY; y++)
1578	{
1579	for (x=0; x<iLcuWidth; x++)
1580	{
1581	iSignDown = xSign(pRec[x] - pRec[x+iStride]);
1582	uiEdgeType = iSignDown + m_iUpBuff1[x] + 2;
1583	m_iUpBuff1[x]= -iSignDown;
1584
1585	pRec[x] = pClipTbl[pRec[x] + m_iOffsetEo[uiEdgeType]];
1586	}
1587	pRec += iStride;
1588	}
1589	break;
1590	}
1591	case SAO_EO_2: // dir: 135
1592	{
1593	iStartX = (uiLPelX == 0) ? 1 : 0;
1594	iEndX = (uiRPelX == iPicWidthTmp) ? iLcuWidth-1 : iLcuWidth;
1595
1596	iStartY = (uiTPelY == 0) ? 1 : 0;
1597	iEndY = (uiBPelY == iPicHeightTmp) ? iLcuHeight-1 : iLcuHeight;
1598
1599	if (uiTPelY == 0)
1600	{
1601	pRec += iStride;
1602	}
1603
1604	for (x=iStartX; x<iEndX; x++)
1605	{
1606	m_iUpBuff1[x] = xSign(pRec[x] - pTmpU[x-1]);
1607	}
1608	for (y=iStartY; y<iEndY; y++)
1609	{
1610	iSignDown2 = xSign(pRec[iStride+iStartX] - pTmpL[y]);
1611	for (x=iStartX; x<iEndX; x++)
1612	{
1613	iSignDown1 = xSign(pRec[x] - pRec[x+iStride+1]) ;
1614	uiEdgeType = iSignDown1 + m_iUpBuff1[x] + 2;
1615	m_iUpBufft[x+1] = -iSignDown1;
1616	pRec[x] = pClipTbl[pRec[x] + m_iOffsetEo[uiEdgeType]];
1617	}
1618	m_iUpBufft[iStartX] = iSignDown2;
1619
1620	ipSwap = m_iUpBuff1;
1621	m_iUpBuff1 = m_iUpBufft;
1622	m_iUpBufft = ipSwap;
1623
1624	pRec += iStride;
1625	}
1626	break;
1627	}
1628	case SAO_EO_3: // dir: 45
1629	{
1630	iStartX = (uiLPelX == 0) ? 1 : 0;
1631	iEndX = (uiRPelX == iPicWidthTmp) ? iLcuWidth-1 : iLcuWidth;
1632
1633	iStartY = (uiTPelY == 0) ? 1 : 0;
1634	iEndY = (uiBPelY == iPicHeightTmp) ? iLcuHeight-1 : iLcuHeight;
1635
1636	if (iStartY == 1)
1637	{
1638	pRec += iStride;
1639	}
1640
1641	for (x=iStartX-1; x<iEndX; x++)
1642	{
1643	m_iUpBuff1[x] = xSign(pRec[x] - pTmpU[x+1]);
1644	}
1645	for (y=iStartY; y<iEndY; y++)
1646	{
1647	x=iStartX;
1648	iSignDown1 = xSign(pRec[x] - pTmpL[y+1]) ;
1649	uiEdgeType = iSignDown1 + m_iUpBuff1[x] + 2;
1650	m_iUpBuff1[x-1] = -iSignDown1;
1651	pRec[x] = pClipTbl[pRec[x] + m_iOffsetEo[uiEdgeType]];
1652	for (x=iStartX+1; x<iEndX; x++)
1653	{
1654	iSignDown1 = xSign(pRec[x] - pRec[x+iStride-1]) ;
1655	uiEdgeType = iSignDown1 + m_iUpBuff1[x] + 2;
1656	m_iUpBuff1[x-1] = -iSignDown1;
1657	pRec[x] = pClipTbl[pRec[x] + m_iOffsetEo[uiEdgeType]];
1658	}
1659	m_iUpBuff1[iEndX-1] = xSign(pRec[iEndX-1 + iStride] - pRec[iEndX]);
1660
1661	pRec += iStride;
1662	}
1663	break;
1664	}
1665	case SAO_BO:
1666	{
1667	for (y=0; y<iLcuHeight; y++)
1668	{
1669	for (x=0; x<iLcuWidth; x++)
1670	{
1671	pRec[x] = pOffsetBo[pRec[x]];
1672	}
1673	pRec += iStride;
1674	}
1675	break;
1676	}
1677	default: break;
1678	}
1679	// if (iSaoType!=SAO_BO_0 \|\| iSaoType!=SAO_BO_1)
1680	{
1681	pTmpLSwap = m_pTmpL1;
1682	m_pTmpL1 = m_pTmpL2;
1683	m_pTmpL2 = pTmpLSwap;
1684	}
1685	}
1686	/** Sample adaptive offset process
1687	* \param pcPic, pcSaoParam
1688	*/
1689	Void TComSampleAdaptiveOffset::SAOProcess(SAOParam* pcSaoParam)
1690	{
1691	{
1692	m_uiSaoBitIncreaseY = max(g_bitDepthY - 10, 0);
1693	m_uiSaoBitIncreaseC = max(g_bitDepthC - 10, 0);
1694
1695	if(m_bUseNIF)
1696	{
1697	m_pcPic->getPicYuvRec()->copyToPic(m_pcYuvTmp);
1698	}
1699	if (m_saoLcuBasedOptimization)
1700	{
1701	pcSaoParam->oneUnitFlag[0] = 0;
1702	pcSaoParam->oneUnitFlag[1] = 0;
1703	pcSaoParam->oneUnitFlag[2] = 0;
1704	}
1705	Int iY = 0;
1706	{
1707	processSaoUnitAll( pcSaoParam->saoLcuParam[iY], pcSaoParam->oneUnitFlag[iY], iY);
1708	}
1709	{
1710	processSaoUnitAll( pcSaoParam->saoLcuParam[1], pcSaoParam->oneUnitFlag[1], 1);//Cb
1711	processSaoUnitAll( pcSaoParam->saoLcuParam[2], pcSaoParam->oneUnitFlag[2], 2);//Cr
1712	}
1713	m_pcPic = NULL;
1714	}
1715	}
1716
1717	Pel* TComSampleAdaptiveOffset::getPicYuvAddr(TComPicYuv* pcPicYuv, Int iYCbCr, Int iAddr)
1718	{
1719	switch (iYCbCr)
1720	{
1721	case 0:
1722	return pcPicYuv->getLumaAddr(iAddr);
1723	break;
1724	case 1:
1725	return pcPicYuv->getCbAddr(iAddr);
1726	break;
1727	case 2:
1728	return pcPicYuv->getCrAddr(iAddr);
1729	break;
1730	default:
1731	return NULL;
1732	break;
1733	}
1734	}
1735	/** Process SAO all units
1736	* \param saoLcuParam SAO LCU parameters
1737	* \param oneUnitFlag one unit flag
1738	* \param yCbCr color componet index
1739	*/
1740	Void TComSampleAdaptiveOffset::processSaoUnitAll(SaoLcuParam* saoLcuParam, Bool oneUnitFlag, Int yCbCr)
1741	{
1742	Pel *pRec;
1743	Int picWidthTmp;
1744
1745	if (yCbCr == 0)
1746	{
1747	pRec = m_pcPic->getPicYuvRec()->getLumaAddr();
1748	picWidthTmp = m_iPicWidth;
1749	}
1750	else if (yCbCr == 1)
1751	{
1752	pRec = m_pcPic->getPicYuvRec()->getCbAddr();
1753	picWidthTmp = m_iPicWidth>>1;
1754	}
1755	else
1756	{
1757	pRec = m_pcPic->getPicYuvRec()->getCrAddr();
1758	picWidthTmp = m_iPicWidth>>1;
1759	}
1760
1761	memcpy(m_pTmpU1, pRec, sizeof(Pel)*picWidthTmp);
1762
1763	Int i;
1764	UInt edgeType;
1765	Pel* ppLumaTable = NULL;
1766	Pel* pClipTable = NULL;
1767	Int* pOffsetBo = NULL;
1768	Int typeIdx;
1769
1770	Int offset[LUMA_GROUP_NUM+1];
1771	Int idxX;
1772	Int idxY;
1773	Int addr;
1774	Int frameWidthInCU = m_pcPic->getFrameWidthInCU();
1775	Int frameHeightInCU = m_pcPic->getFrameHeightInCU();
1776	Int stride;
1777	Pel *tmpUSwap;
1778	Int isChroma = (yCbCr == 0) ? 0:1;
1779	Bool mergeLeftFlag;
1780	Int saoBitIncrease = (yCbCr == 0) ? m_uiSaoBitIncreaseY : m_uiSaoBitIncreaseC;
1781
1782	pOffsetBo = (yCbCr==0) ? m_iOffsetBo : m_iChromaOffsetBo;
1783
1784	offset[0] = 0;
1785	for (idxY = 0; idxY< frameHeightInCU; idxY++)
1786	{
1787	addr = idxY * frameWidthInCU;
1788	if (yCbCr == 0)
1789	{
1790	pRec = m_pcPic->getPicYuvRec()->getLumaAddr(addr);
1791	stride = m_pcPic->getStride();
1792	picWidthTmp = m_iPicWidth;
1793	}
1794	else if (yCbCr == 1)
1795	{
1796	pRec = m_pcPic->getPicYuvRec()->getCbAddr(addr);
1797	stride = m_pcPic->getCStride();
1798	picWidthTmp = m_iPicWidth>>1;
1799	}
1800	else
1801	{
1802	pRec = m_pcPic->getPicYuvRec()->getCrAddr(addr);
1803	stride = m_pcPic->getCStride();
1804	picWidthTmp = m_iPicWidth>>1;
1805	}
1806
1807	// pRec += iStride*(m_uiMaxCUHeight-1);
1808	for (i=0;i<(m_uiMaxCUHeight>>isChroma)+1;i++)
1809	{
1810	m_pTmpL1[i] = pRec[0];
1811	pRec+=stride;
1812	}
1813	pRec-=(stride<<1);
1814
1815	memcpy(m_pTmpU2, pRec, sizeof(Pel)*picWidthTmp);
1816
1817	for (idxX = 0; idxX < frameWidthInCU; idxX++)
1818	{
1819	addr = idxY * frameWidthInCU + idxX;
1820
1821	if (oneUnitFlag)
1822	{
1823	typeIdx = saoLcuParam[0].typeIdx;
1824	mergeLeftFlag = (addr == 0)? 0:1;
1825	}
1826	else
1827	{
1828	typeIdx = saoLcuParam[addr].typeIdx;
1829	mergeLeftFlag = saoLcuParam[addr].mergeLeftFlag;
1830	}
1831	if (typeIdx>=0)
1832	{
1833	if (!mergeLeftFlag)
1834	{
1835
1836	if (typeIdx == SAO_BO)
1837	{
1838	for (i=0; i<SAO_MAX_BO_CLASSES+1;i++)
1839	{
1840	offset[i] = 0;
1841	}
1842	for (i=0; i<saoLcuParam[addr].length; i++)
1843	{
1844	offset[ (saoLcuParam[addr].subTypeIdx +i)%SAO_MAX_BO_CLASSES +1] = saoLcuParam[addr].offset[i] << saoBitIncrease;
1845	}
1846
1847	ppLumaTable = (yCbCr==0)?m_lumaTableBo:m_chromaTableBo;
1848	pClipTable = (yCbCr==0)?m_pClipTable:m_pChromaClipTable;
1849
1850	Int bitDepth = (yCbCr==0) ? g_bitDepthY : g_bitDepthC;
1851	for (i=0;i<(1<<bitDepth);i++)
1852	{
1853	pOffsetBo[i] = pClipTable[i + offset[ppLumaTable[i]]];
1854	}
1855
1856	}
1857	if (typeIdx == SAO_EO_0 \|\| typeIdx == SAO_EO_1 \|\| typeIdx == SAO_EO_2 \|\| typeIdx == SAO_EO_3)
1858	{
1859	for (i=0;i<saoLcuParam[addr].length;i++)
1860	{
1861	offset[i+1] = saoLcuParam[addr].offset[i] << saoBitIncrease;
1862	}
1863	for (edgeType=0;edgeType<6;edgeType++)
1864	{
1865	m_iOffsetEo[edgeType]= offset[m_auiEoTable[edgeType]];
1866	}
1867	}
1868	}
1869	processSaoCu(addr, typeIdx, yCbCr);
1870	}
1871	else
1872	{
1873	if (idxX != (frameWidthInCU-1))
1874	{
1875	if (yCbCr == 0)
1876	{
1877	pRec = m_pcPic->getPicYuvRec()->getLumaAddr(addr);
1878	stride = m_pcPic->getStride();
1879	}
1880	else if (yCbCr == 1)
1881	{
1882	pRec = m_pcPic->getPicYuvRec()->getCbAddr(addr);
1883	stride = m_pcPic->getCStride();
1884	}
1885	else
1886	{
1887	pRec = m_pcPic->getPicYuvRec()->getCrAddr(addr);
1888	stride = m_pcPic->getCStride();
1889	}
1890	Int widthShift = m_uiMaxCUWidth>>isChroma;
1891	for (i=0;i<(m_uiMaxCUHeight>>isChroma)+1;i++)
1892	{
1893	m_pTmpL1[i] = pRec[widthShift-1];
1894	pRec+=stride;
1895	}
1896	}
1897	}
1898	}
1899	tmpUSwap = m_pTmpU1;
1900	m_pTmpU1 = m_pTmpU2;
1901	m_pTmpU2 = tmpUSwap;
1902	}
1903
1904	}
1905	/** Reset SAO LCU part
1906	* \param saoLcuParam
1907	*/
1908	Void TComSampleAdaptiveOffset::resetLcuPart(SaoLcuParam* saoLcuParam)
1909	{
1910	Int i,j;
1911	for (i=0;i<m_iNumCuInWidth*m_iNumCuInHeight;i++)
1912	{
1913	saoLcuParam[i].mergeUpFlag = 1;
1914	saoLcuParam[i].mergeLeftFlag = 0;
1915	saoLcuParam[i].partIdx = 0;
1916	saoLcuParam[i].typeIdx = -1;
1917	for (j=0;j<MAX_NUM_SAO_OFFSETS;j++)
1918	{
1919	saoLcuParam[i].offset[j] = 0;
1920	}
1921	saoLcuParam[i].subTypeIdx = 0;
1922	}
1923	}
1924
1925	/** convert QP part to SAO unit
1926	* \param saoParam SAO parameter
1927	* \param partIdx SAO part index
1928	* \param yCbCr color component index
1929	*/
1930	Void TComSampleAdaptiveOffset::convertQT2SaoUnit(SAOParam *saoParam, UInt partIdx, Int yCbCr)
1931	{
1932
1933	SAOQTPart* saoPart= &(saoParam->psSaoPart[yCbCr][partIdx]);
1934	if (!saoPart->bSplit)
1935	{
1936	convertOnePart2SaoUnit(saoParam, partIdx, yCbCr);
1937	return;
1938	}
1939
1940	if (saoPart->PartLevel < m_uiMaxSplitLevel)
1941	{
1942	convertQT2SaoUnit(saoParam, saoPart->DownPartsIdx[0], yCbCr);
1943	convertQT2SaoUnit(saoParam, saoPart->DownPartsIdx[1], yCbCr);
1944	convertQT2SaoUnit(saoParam, saoPart->DownPartsIdx[2], yCbCr);
1945	convertQT2SaoUnit(saoParam, saoPart->DownPartsIdx[3], yCbCr);
1946	}
1947	}
1948	/** convert one SAO part to SAO unit
1949	* \param saoParam SAO parameter
1950	* \param partIdx SAO part index
1951	* \param yCbCr color component index
1952	*/
1953	Void TComSampleAdaptiveOffset::convertOnePart2SaoUnit(SAOParam *saoParam, UInt partIdx, Int yCbCr)
1954	{
1955	Int j;
1956	Int idxX;
1957	Int idxY;
1958	Int addr;
1959	Int frameWidthInCU = m_pcPic->getFrameWidthInCU();
1960	SAOQTPart* saoQTPart = saoParam->psSaoPart[yCbCr];
1961	SaoLcuParam* saoLcuParam = saoParam->saoLcuParam[yCbCr];
1962
1963	for (idxY = saoQTPart[partIdx].StartCUY; idxY<= saoQTPart[partIdx].EndCUY; idxY++)
1964	{
1965	for (idxX = saoQTPart[partIdx].StartCUX; idxX<= saoQTPart[partIdx].EndCUX; idxX++)
1966	{
1967	addr = idxY * frameWidthInCU + idxX;
1968	saoLcuParam[addr].partIdxTmp = (Int)partIdx;
1969	saoLcuParam[addr].typeIdx = saoQTPart[partIdx].iBestType;
1970	saoLcuParam[addr].subTypeIdx = saoQTPart[partIdx].subTypeIdx;
1971	if (saoLcuParam[addr].typeIdx!=-1)
1972	{
1973	saoLcuParam[addr].length = saoQTPart[partIdx].iLength;
1974	for (j=0;j<MAX_NUM_SAO_OFFSETS;j++)
1975	{
1976	saoLcuParam[addr].offset[j] = saoQTPart[partIdx].iOffset[j];
1977	}
1978	}
1979	else
1980	{
1981	saoLcuParam[addr].length = 0;
1982	saoLcuParam[addr].subTypeIdx = saoQTPart[partIdx].subTypeIdx;
1983	for (j=0;j<MAX_NUM_SAO_OFFSETS;j++)
1984	{
1985	saoLcuParam[addr].offset[j] = 0;
1986	}
1987	}
1988	}
1989	}
1990	}
1991
1992	Void TComSampleAdaptiveOffset::resetSaoUnit(SaoLcuParam* saoUnit)
1993	{
1994	saoUnit->partIdx = 0;
1995	saoUnit->partIdxTmp = 0;
1996	saoUnit->mergeLeftFlag = 0;
1997	saoUnit->mergeUpFlag = 0;
1998	saoUnit->typeIdx = -1;
1999	saoUnit->length = 0;
2000	saoUnit->subTypeIdx = 0;
2001
2002	for (Int i=0;i<4;i++)
2003	{
2004	saoUnit->offset[i] = 0;
2005	}
2006	}
2007
2008	Void TComSampleAdaptiveOffset::copySaoUnit(SaoLcuParam* saoUnitDst, SaoLcuParam* saoUnitSrc )
2009	{
2010	saoUnitDst->mergeLeftFlag = saoUnitSrc->mergeLeftFlag;
2011	saoUnitDst->mergeUpFlag = saoUnitSrc->mergeUpFlag;
2012	saoUnitDst->typeIdx = saoUnitSrc->typeIdx;
2013	saoUnitDst->length = saoUnitSrc->length;
2014
2015	saoUnitDst->subTypeIdx = saoUnitSrc->subTypeIdx;
2016	for (Int i=0;i<4;i++)
2017	{
2018	saoUnitDst->offset[i] = saoUnitSrc->offset[i];
2019	}
2020	}
2021	#endif
2022	/** PCM LF disable process.
2023	* \param pcPic picture (TComPic) pointer
2024	* \returns Void
2025	*
2026	* \note Replace filtered sample values of PCM mode blocks with the transmitted and reconstructed ones.
2027	*/
2028	Void TComSampleAdaptiveOffset::PCMLFDisableProcess (TComPic* pcPic)
2029	{
2030	xPCMRestoration(pcPic);
2031	}
2032
2033	/** Picture-level PCM restoration.
2034	* \param pcPic picture (TComPic) pointer
2035	* \returns Void
2036	*/
2037	Void TComSampleAdaptiveOffset::xPCMRestoration(TComPic* pcPic)
2038	{
2039	Bool bPCMFilter = (pcPic->getSlice(0)->getSPS()->getUsePCM() && pcPic->getSlice(0)->getSPS()->getPCMFilterDisableFlag())? true : false;
2040
2041	if(bPCMFilter \|\| pcPic->getSlice(0)->getPPS()->getTransquantBypassEnableFlag())
2042	{
2043	for( UInt uiCUAddr = 0; uiCUAddr < pcPic->getNumCUsInFrame() ; uiCUAddr++ )
2044	{
2045	TComDataCU* pcCU = pcPic->getCU(uiCUAddr);
2046
2047	xPCMCURestoration(pcCU, 0, 0);
2048	}
2049	}
2050	}
2051
2052	/** PCM CU restoration.
2053	* \param pcCU pointer to current CU
2054	* \param uiAbsPartIdx part index
2055	* \param uiDepth CU depth
2056	* \returns Void
2057	*/
2058	Void TComSampleAdaptiveOffset::xPCMCURestoration ( TComDataCU* pcCU, UInt uiAbsZorderIdx, UInt uiDepth )
2059	{
2060	TComPic* pcPic = pcCU->getPic();
2061	UInt uiCurNumParts = pcPic->getNumPartInCU() >> (uiDepth<<1);
2062	UInt uiQNumParts = uiCurNumParts>>2;
2063
2064	// go to sub-CU
2065	if( pcCU->getDepth(uiAbsZorderIdx) > uiDepth )
2066	{
2067	for ( UInt uiPartIdx = 0; uiPartIdx < 4; uiPartIdx++, uiAbsZorderIdx+=uiQNumParts )
2068	{
2069	UInt uiLPelX = pcCU->getCUPelX() + g_auiRasterToPelX[ g_auiZscanToRaster[uiAbsZorderIdx] ];
2070	UInt uiTPelY = pcCU->getCUPelY() + g_auiRasterToPelY[ g_auiZscanToRaster[uiAbsZorderIdx] ];
2071	#if REPN_FORMAT_IN_VPS
2072	if( ( uiLPelX < pcCU->getSlice()->getPicWidthInLumaSamples() ) && ( uiTPelY < pcCU->getSlice()->getPicHeightInLumaSamples() ) )
2073	#else
2074	if( ( uiLPelX < pcCU->getSlice()->getSPS()->getPicWidthInLumaSamples() ) && ( uiTPelY < pcCU->getSlice()->getSPS()->getPicHeightInLumaSamples() ) )
2075	#endif
2076	xPCMCURestoration( pcCU, uiAbsZorderIdx, uiDepth+1 );
2077	}
2078	return;
2079	}
2080
2081	// restore PCM samples
2082	if ((pcCU->getIPCMFlag(uiAbsZorderIdx)&& pcPic->getSlice(0)->getSPS()->getPCMFilterDisableFlag()) \|\| pcCU->isLosslessCoded( uiAbsZorderIdx))
2083	{
2084	xPCMSampleRestoration (pcCU, uiAbsZorderIdx, uiDepth, TEXT_LUMA );
2085	xPCMSampleRestoration (pcCU, uiAbsZorderIdx, uiDepth, TEXT_CHROMA_U);
2086	xPCMSampleRestoration (pcCU, uiAbsZorderIdx, uiDepth, TEXT_CHROMA_V);
2087	}
2088	}
2089
2090	/** PCM sample restoration.
2091	* \param pcCU pointer to current CU
2092	* \param uiAbsPartIdx part index
2093	* \param uiDepth CU depth
2094	* \param ttText texture component type
2095	* \returns Void
2096	*/
2097	Void TComSampleAdaptiveOffset::xPCMSampleRestoration (TComDataCU* pcCU, UInt uiAbsZorderIdx, UInt uiDepth, TextType ttText)
2098	{
2099	TComPicYuv* pcPicYuvRec = pcCU->getPic()->getPicYuvRec();
2100	Pel* piSrc;
2101	Pel* piPcm;
2102	UInt uiStride;
2103	UInt uiWidth;
2104	UInt uiHeight;
2105	UInt uiPcmLeftShiftBit;
2106	UInt uiX, uiY;
2107	UInt uiMinCoeffSize = pcCU->getPic()->getMinCUWidth()*pcCU->getPic()->getMinCUHeight();
2108	UInt uiLumaOffset = uiMinCoeffSize*uiAbsZorderIdx;
2109	UInt uiChromaOffset = uiLumaOffset>>2;
2110
2111	if( ttText == TEXT_LUMA )
2112	{
2113	piSrc = pcPicYuvRec->getLumaAddr( pcCU->getAddr(), uiAbsZorderIdx);
2114	piPcm = pcCU->getPCMSampleY() + uiLumaOffset;
2115	uiStride = pcPicYuvRec->getStride();
2116	uiWidth = (g_uiMaxCUWidth >> uiDepth);
2117	uiHeight = (g_uiMaxCUHeight >> uiDepth);
2118	if ( pcCU->isLosslessCoded(uiAbsZorderIdx) && !pcCU->getIPCMFlag(uiAbsZorderIdx) )
2119	{
2120	uiPcmLeftShiftBit = 0;
2121	}
2122	else
2123	{
2124	uiPcmLeftShiftBit = g_bitDepthY - pcCU->getSlice()->getSPS()->getPCMBitDepthLuma();
2125	}
2126	}
2127	else
2128	{
2129	if( ttText == TEXT_CHROMA_U )
2130	{
2131	piSrc = pcPicYuvRec->getCbAddr( pcCU->getAddr(), uiAbsZorderIdx );
2132	piPcm = pcCU->getPCMSampleCb() + uiChromaOffset;
2133	}
2134	else
2135	{
2136	piSrc = pcPicYuvRec->getCrAddr( pcCU->getAddr(), uiAbsZorderIdx );
2137	piPcm = pcCU->getPCMSampleCr() + uiChromaOffset;
2138	}
2139
2140	uiStride = pcPicYuvRec->getCStride();
2141	uiWidth = ((g_uiMaxCUWidth >> uiDepth)/2);
2142	uiHeight = ((g_uiMaxCUWidth >> uiDepth)/2);
2143	if ( pcCU->isLosslessCoded(uiAbsZorderIdx) && !pcCU->getIPCMFlag(uiAbsZorderIdx) )
2144	{
2145	uiPcmLeftShiftBit = 0;
2146	}
2147	else
2148	{
2149	uiPcmLeftShiftBit = g_bitDepthC - pcCU->getSlice()->getSPS()->getPCMBitDepthChroma();
2150	}
2151	}
2152
2153	for( uiY = 0; uiY < uiHeight; uiY++ )
2154	{
2155	for( uiX = 0; uiX < uiWidth; uiX++ )
2156	{
2157	piSrc[uiX] = (piPcm[uiX] << uiPcmLeftShiftBit);
2158	}
2159	piPcm += uiWidth;
2160	piSrc += uiStride;
2161	}
2162	}
2163
2164	//! \}

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