/external/neven/Embedded/common/src/b_TensorEm/ |
H A D | Int16Vec2D.c | 44 ptrA->xE = 0; 52 ptrA->xE = 0; 102 memPtrA += bbs_memWrite16( &ptrA->xE, memPtrA ); 114 memPtrA += bbs_memRead16( &ptrA->xE, memPtrA ); 132 return ( int32 ) vec1PtrA->xE * vec2PtrA->xE + ( int32 ) vec1PtrA->yE * vec2PtrA->yE; 139 return ( int32 ) ptrA->xE * ptrA->xE + ( int32 ) ptrA->yE * ptrA->yE; 146 return bbs_sqrt32( ( int32 ) ptrA->xE * ptrA->xE [all...] |
H A D | Flt16Vec2D.c | 44 ptrA->xE = 0; 53 ptrA->xE = 0; 71 ptrA->xE = srcPtrA->xE; 82 if( ptrA->xE != srcPtrA->xE ) return FALSE; 89 int32 xL = ( int32 ) srcPtrA->xE << bbpDiffL; 91 if( ptrA->xE != xL ) return FALSE; 94 if( srcPtrA->xE != ( xL >> bbpDiffL ) ) return FALSE; 101 int32 xL = ( int32 ) ptrA->xE << [all...] |
H A D | Int16Vec3D.c | 86 memPtrA += bbs_memWrite16( &ptrA->xE, memPtrA ); 99 memPtrA += bbs_memRead16( &ptrA->xE, memPtrA ); 117 return ( int32 ) ptrA->xE * ptrA->xE + 126 return bbs_sqrt32( ( int32 ) ptrA->xE * ptrA->xE + 135 int32 normL = bbs_sqrt32( ( int32 ) ptrA->xE * ptrA->xE + 139 int32 xL = ( ( int32 )ptrA->xE << 16 ) / normL; 142 ptrA->xE [all...] |
H A D | Flt16Vec3D.c | 44 ptrA->xE = 0; 54 ptrA->xE = 0; 75 if( ptrA->xE != srcPtrA->xE ) return FALSE; 83 int32 xL = ( int32 ) srcPtrA->xE << bbpDiffL; 86 if( ptrA->xE != xL ) return FALSE; 94 int32 xL = ( int32 ) ptrA->xE << -bbpDiffL; 97 if( xL != srcPtrA->xE ) return FALSE; 172 vecL.xE = xA; 186 vecL.xE [all...] |
H A D | Int16Vec3D.h | 42 int16 xE; member in struct:bts_Int16Vec3D
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H A D | Cluster3D.c | 108 if( ( src1L->xE != src2L->xE ) || 141 xL += vecPtrL->xE; 170 xMinL = bbs_min( xMinL, vecPtrL->xE ); 172 xMaxL = bbs_max( xMaxL, vecPtrL->xE ); 199 return ( int32 ) ptrA->vecArrE[ indexA ].xE << shiftL; 203 return ( ( ( int32 ) ptrA->vecArrE[ indexA ].xE >> ( -shiftL - 1 ) ) + 1 ) >> 1; 328 int32 x0L = altA.vecE.xE; 356 int32 xL = vecPtrL->xE; 359 vecPtrL->xE [all...] |
H A D | Flt16Alt3D.c | 207 vecL.xE += ( ( altPtrA->vecE.xE >> sh1L ) + 1 ) >> 1; 213 vecL.xE += altPtrA->vecE.xE << -shiftL;
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H A D | Int16Vec2D.h | 43 int16 xE; member in struct:bts_Int16Vec2D
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H A D | RBFMap2D.c | 187 ptrA->rbfCoeffClusterE.vecArrE[ iL ].xE = 0; 229 vecL.xE -= vec0L.xE; 277 for( iL = 0; iL < sizeL; iL++ ) inPtrL[ iL ] = ( int32 )( dstVecL[ iL ].xE - altVecL[ iL ].xE ) << shiftL; 281 for( iL = 0; iL < sizeL; iL++ ) inPtrL[ iL ] = ( ( ( int32 )( dstVecL[ iL ].xE - altVecL[ iL ].xE ) >> ( ( -shiftL ) - 1 ) ) + 1 ) >> 1; 303 ptrA->rbfCoeffClusterE.vecArrE[ iL ].xE = rbfCoeffL; 445 outXL = altVecL.xE; 482 int32 xL = vecA.xE; [all...] |
H A D | Cluster2D.c | 152 if( ( src1L->xE != src2L->xE ) || ( src1L->yE != src2L->yE ) ) return FALSE; 182 xL += vecPtrL->xE; 204 sumL += vecPtrL->xE; 228 xMinL = bbs_min( xMinL, vecPtrL->xE ); 230 xMaxL = bbs_max( xMaxL, vecPtrL->xE ); 258 int32 xL = ptrA->vecArrE[ indexA ].xE; 578 int32 pxL = srcPtrL->xE - cpL.xE; 580 int32 qxL = dstPtrL->xE [all...] |
H A D | Int16Mat2D.c | 136 vecL.xE = ( ( int32 ) matPtrA->xxE * vecPtrA->xE + ( int32 ) matPtrA->xyE * vecPtrA->yE ) >> matPtrA->bbpE; 137 vecL.yE = ( ( int32 ) matPtrA->yxE * vecPtrA->xE + ( int32 ) matPtrA->yyE * vecPtrA->yE ) >> matPtrA->bbpE;
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H A D | Flt16Mat3D.c | 265 int32 xL = ( int32 ) matPtrA->xxE * vecPtrA->xE + ( int32 ) matPtrA->xyE * vecPtrA->yE + ( int32 ) matPtrA->xzE * vecPtrA->zE; 266 int32 yL = ( int32 ) matPtrA->yxE * vecPtrA->xE + ( int32 ) matPtrA->yyE * vecPtrA->yE + ( int32 ) matPtrA->yzE * vecPtrA->zE; 267 int32 zL = ( int32 ) matPtrA->zxE * vecPtrA->xE + ( int32 ) matPtrA->zyE * vecPtrA->yE + ( int32 ) matPtrA->zzE * vecPtrA->zE; 272 vecL.xE = ( ( xL >> sh1L ) + 1 ) >> 1; 279 vecL.xE = xL << -matPtrA->bbpE; 293 int32 xL = ( ( ( ( int32 ) matPtrA->xxE * vecPtrA->xE + 1 ) >> 1 ) + 297 int32 yL = ( ( ( ( int32 ) matPtrA->yxE * vecPtrA->xE + 1 ) >> 1 ) + 301 int32 zL = ( ( ( ( int32 ) matPtrA->zxE * vecPtrA->xE + 1 ) >> 1 ) +
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H A D | Flt16Vec2D.h | 43 int16 xE; member in struct:bts_Flt16Vec2D
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H A D | Flt16Vec3D.h | 43 int16 xE; member in struct:bts_Flt16Vec3D
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H A D | Flt16Mat2D.c | 301 int32 xL = ( int32 ) matPtrA->xxE * vecPtrA->xE + ( int32 ) matPtrA->xyE * vecPtrA->yE; 302 int32 yL = ( int32 ) matPtrA->yxE * vecPtrA->xE + ( int32 ) matPtrA->yyE * vecPtrA->yE; 307 vecL.xE = ( ( xL >> sh1L ) + 1 ) >> 1; 313 vecL.xE = xL << -matPtrA->bbpE; 325 int32 xL = ( int32 ) matPtrA->xxE * vecPtrA->xE + ( int32 ) matPtrA->xyE * vecPtrA->yE; 326 int32 yL = ( int32 ) matPtrA->yxE * vecPtrA->xE + ( int32 ) matPtrA->yyE * vecPtrA->yE;
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H A D | Flt16Alt2D.c | 293 ptrA->vecE = bts_Flt16Vec2D_create32( - ( ( ( int32 ) ptrA->matE.xxE * ptrA->vecE.xE + ( int32 ) ptrA->matE.xyE * ptrA->vecE.yE ) ), 294 - ( ( ( int32 ) ptrA->matE.yxE * ptrA->vecE.xE + ( int32 ) ptrA->matE.yyE * ptrA->vecE.yE ) ),
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/external/kernel-headers/original/asm-x86/ |
H A D | desc_defs.h | 27 GATE_INTERRUPT = 0xE,
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/external/neven/FaceRecEm/common/src/b_FDSDK/ |
H A D | DCR.c | 281 nodePtrA->x = ( ( s16p16 )hdcrA->dcrE.sdkClusterE.clusterE.vecArrE[ indexA ].xE ) << ( 16 - hdcrA->dcrE.sdkClusterE.clusterE.bbpE ); 285 nodePtrA->x += ( int32 )hdcrA->dcrE.offsE.xE << 16; 333 int32 lxL = ( hdcrA->dcrE.sdkClusterE.clusterE.vecArrE[ lIndexL ].xE + ( 1 << ( bbpL - 1 ) ) ) >> bbpL; 335 int32 rxL = ( hdcrA->dcrE.sdkClusterE.clusterE.vecArrE[ rIndexL ].xE + ( 1 << ( bbpL - 1 ) ) ) >> bbpL; 354 pRectA->xMin += ( int32 )hdcrA->dcrE.offsE.xE << 16; 356 pRectA->xMax += ( int32 )hdcrA->dcrE.offsE.xE << 16;
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/external/neven/Embedded/common/src/b_ImageEm/ |
H A D | UInt16ByteImage.c | 422 txL = ( int32 )invAlt2DL.vecE.xE >> shiftL; 429 if( invAlt2DL.vecE.xE > maxInt32Value8bbpL || 435 invAlt2DL.vecE.xE >> invAlt2DL.vecE.bbpE, 440 txL = ( int32 )invAlt2DL.vecE.xE << -shiftL; 721 txL = ( int32 )invAlt2DL.vecE.xE >> shiftL; 728 if( invAlt2DL.vecE.xE > maxInt32Value8bbpL || 734 invAlt2DL.vecE.xE >> invAlt2DL.vecE.bbpE, 739 txL = ( int32 )invAlt2DL.vecE.xE << -shiftL;
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/external/skia/gm/ |
H A D | complexclip2.cpp | 25 SkScalar xE = 40 * SK_Scalar1; local 38 fRects[0].set(xB, yB, xE, yE);
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/external/neven/Embedded/common/src/b_BitFeatureEm/ |
H A D | LocalScanner.c | 342 ptrA->xE = 0; 376 ptrA->xE = 0; 454 return ( ptrA->yE - ptrA->workScanRegionE.y1E ) * wL + ( ptrA->xE - ptrA->workScanRegionE.x1E ); 461 *xPtrA = ( ( ptrA->xE << ptrA->scaleExpE ) + ptrA->xOffE ) << 16; 631 ptrA->xE = ptrA->workScanRegionE.x1E; 671 return ptrA->patchBufferE.arrPtrE + ptrA->xE; 678 if( ( ptrA->xE + 1 ) < ptrA->workScanRegionE.x2E - ( int32 )ptrA->patchWidthE ) 680 ptrA->xE++; 686 ptrA->xE = ptrA->workScanRegionE.x1E; 695 uint32* dstL = ( uint32* )ptrA->patchBufferE.arrPtrE + ptrA->xE; [all...] |
H A D | Scanner.c | 428 ptrA->xE = 0; 468 ptrA->xE = 0; 517 ptrA->xE = srcPtrA->xE; 584 return ptrA->yE * ptrA->currentWidthE + ptrA->xE; 593 *xPtrA = ( int32 )( ptrA->xE - ptrA->borderWidthE ) * ( int32 )( ptrA->scaleE >> 4 ); 777 ptrA->xE = 0; 837 return ptrA->patchBufferE.arrPtrE + ptrA->xE; 844 if( ( ptrA->xE + 1 ) < ( int32 )( ptrA->currentWidthE - ptrA->patchWidthE ) ) 846 ptrA->xE [all...] |
H A D | LocalScanDetector.c | 92 sumL += matPtrL[ 0 ] * ( vecArrL[ jL ].xE - avgPtrL[ 0 ] ); 113 vecArrL[ jL ].xE = ( ( sumL + 128 ) >> 8 ) + avgPtrL[ 0 ]; 541 altL.vecE.xE -= workAreaL.x1E << altL.vecE.bbpE; 547 wrkClPtrL->vecArrE[ iL ].xE -= workAreaL.x1E << wrkClPtrL->bbpE; 554 refClPtrL->vecArrE[ iL ].xE -= workAreaL.x1E << refClPtrL->bbpE; 600 int32 x0L = ( ( wrkClPtrL->vecArrE[ iL ].xE >> ( wrkClPtrL->bbpE - 1 ) ) + 1 ) >> 1; 625 dstVecArrL[ iL ].xE = ( ( xL >> ( 15 - vecBbpL ) ) + 1 ) >> 1; 646 struct bts_Flt16Vec2D vecL = bts_Flt16Vec2D_create32( srcVecArrL[ iL ].xE, srcVecArrL[ iL ].yE, vecBbpL ); 649 vecL = bts_Flt16Vec2D_sub( vecL, bts_Flt16Vec2D_create32( dstVecArrL[ iL ].xE, dstVecArrL[ iL ].yE, vecBbpL ) );
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H A D | LocalScanner.h | 52 int32 xE; member in struct:bbf_LocalScanner
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/external/neven/Embedded/common/src/b_APIEm/ |
H A D | BFFaceFinder.c | 267 offsPtrA->xE = xL >> 16; 269 xL -= ( ( int32 )offsPtrA->xE << 16 ); 341 offsPtrA->xE = xL >> 16; 344 xL -= ( ( int32 )offsPtrA->xE << 16 );
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