/frameworks/av/media/libstagefright/codecs/on2/h264dec/source/ |
h264bsd_deblocking.c | 89 * column in the table. Indexing goes as tc0[indexA][bS-1] */ 101 * column in the table. Indexing goes as tc0[indexA][bS] */ [all...] |
/external/neven/Embedded/common/src/b_TensorEm/ |
Cluster3D.c | 184 uint32 indexA, int32 bbpA ) 188 if( indexA >= ptrA->sizeE ) 191 "indexA = %i is out of range [0,%i]", 192 indexA, 199 return ( int32 ) ptrA->vecArrE[ indexA ].xE << shiftL; 203 return ( ( ( int32 ) ptrA->vecArrE[ indexA ].xE >> ( -shiftL - 1 ) ) + 1 ) >> 1; 211 uint32 indexA, 216 if( indexA >= ptrA->sizeE ) 219 "indexA = %i is out of range [0,%i]", 220 indexA, [all...] |
Cluster3D.h | 103 uint32 indexA, 109 uint32 indexA, 115 uint32 indexA,
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Cluster2D.c | 243 uint32 indexA, int32 bbpA ) 246 if( indexA >= ptrA->sizeE ) 249 "indexA = %i is out of range [0,%i]", 250 indexA, 258 int32 xL = ptrA->vecArrE[ indexA ].xE; 276 uint32 indexA, 280 if( indexA >= ptrA->sizeE ) 283 "indexA = %i is out of range [0,%i]", 284 indexA, 291 int32 yL = ptrA->vecArrE[ indexA ].yE [all...] |
Cluster2D.h | 111 uint32 indexA, int32 bbpA ); 116 uint32 indexA,
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/external/webkit/Source/WebCore/inspector/front-end/ |
HeapSnapshot.js | 884 function sortByEdgeFieldName(ascending, indexA, indexB) 886 edgeA.edgeIndex = indexA; 897 function sortByNodeField(fieldName, ascending, indexA, indexB) 899 edgeA.edgeIndex = indexA; 912 function sortByEdgeAndNode(indexA, indexB) { 913 var result = sortByEdgeFieldName(ascending1, indexA, indexB); 915 result = sortByNodeField(fieldName2, ascending2, indexA, indexB); 919 function sortByNodeAndEdge(indexA, indexB) { 920 var result = sortByNodeField(fieldName1, ascending1, indexA, indexB); 922 result = sortByEdgeFieldName(ascending2, indexA, indexB) [all...] |
/frameworks/av/media/libstagefright/codecs/avc/common/src/ |
deblock.cpp | 297 int indexA, indexB; 319 /* for edge = 1~3, MbP, indexA and indexB remain the same, and thus there is no need to re-calculate them for each edge */ 334 indexA = QP + video->FilterOffsetA; 336 indexA = qp_clip_tab[indexA]; // IClip(0, MAX_QP, QP+video->FilterOffsetA) 339 Alpha = ALPHA_TABLE[indexA]; 341 clipTable = (int *) CLIP_TAB[indexA]; 351 indexA = QPC + video->FilterOffsetA; 353 indexA = qp_clip_tab[indexA]; // IClip(0, MAX_QP, QP+video->FilterOffsetA [all...] |
/external/neven/Embedded/common/src/b_APIEm/ |
BFFaceFinder.c | 310 uint32 indexA, 330 if( indexA >= ptrA->availableFacesE ) 336 xL = ptrA->faceDataBufferE[ indexA * 4 + 0 ]; /* 16.16 */ 337 yL = ptrA->faceDataBufferE[ indexA * 4 + 1 ]; /* 16.16 */ 338 scaleL = ptrA->faceDataBufferE[ indexA * 4 + 2 ]; /* 12.20 */ 339 actL = ptrA->faceDataBufferE[ indexA * 4 + 3 ]; /* 4.28 */ 368 uint32 indexA, 371 int32 confL = bpi_BFFaceFinder_getFace( cpA, ptrA, indexA, &dcrPtrA->offsE, &dcrPtrA->mainClusterE ); 481 uint32 indexA, 494 bpi_BFFaceFinder_getFaceDCR( cpA, ( const struct bpi_BFFaceFinder* )ptrA, indexA, dcrPtrA ) [all...] |
BFFaceFinder.h | 192 uint32 indexA, 205 uint32 indexA, 253 uint32 indexA,
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FaceFinderRef.h | 119 uint32 indexA,
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FaceFinder.h | 81 uint32 indexA,
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FaceFinderRef.c | 266 uint32 indexA, 275 ptrA->faceFinderPtrE->vpGetDcrE( cpA, ptrA->faceFinderPtrE, indexA, dcrPtrA );
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/external/neven/FaceRecEm/common/src/b_FDSDK/ |
DCR.c | 260 u32 indexA, 273 if( indexA >= hdcrA->dcrE.sdkClusterE.clusterE.sizeE ) 280 nodePtrA->id = hdcrA->dcrE.sdkClusterE.idArrE.arrPtrE[ indexA ]; 281 nodePtrA->x = ( ( s16p16 )hdcrA->dcrE.sdkClusterE.clusterE.vecArrE[ indexA ].xE ) << ( 16 - hdcrA->dcrE.sdkClusterE.clusterE.bbpE ); 282 nodePtrA->y = ( ( s16p16 )hdcrA->dcrE.sdkClusterE.clusterE.vecArrE[ indexA ].yE ) << ( 16 - hdcrA->dcrE.sdkClusterE.clusterE.bbpE );
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DCR.h | 130 u32 indexA,
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/frameworks/base/core/jni/android/graphics/ |
Canvas.cpp | 715 AutoJavaShortArray indexA(env, jindices, indexIndex + indexCount); 754 indices = (const uint16_t*)(indexA.ptr() + indexIndex); [all...] |