/external/neven/Embedded/common/src/b_BasicEm/ |
H A D | APhArr.c | 116 uint32 sizeA ) 118 return sizeA * bbs_SIZEOF16( struct bbs_APh ) + bbs_MEM_BLOCK_OVERHD; 133 uint32 sizeA, 139 bbs_APhArr_size( cpA, ptrA, sizeA ); 143 ptrA->arrPtrE = bbs_MemSeg_alloc( cpA, mspA, sizeA * bbs_SIZEOF16( struct bbs_APh ) ); 145 ptrA->allocatedSizeE = sizeA; 146 ptrA->sizeE = sizeA; 155 uint32 sizeA ) 157 if( ptrA->allocatedSizeE < sizeA ) 164 ptrA->sizeE = sizeA; 131 bbs_APhArr_create( struct bbs_Context* cpA, struct bbs_APhArr* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument [all...] |
H A D | ComplexArr.c | 116 uint32 sizeA ) 118 return sizeA * bbs_SIZEOF16( struct bbs_Complex ) + bbs_MEM_BLOCK_OVERHD; 133 uint32 sizeA, 139 bbs_ComplexArr_size( cpA, ptrA, sizeA ); 143 ptrA->arrPtrE = bbs_MemSeg_alloc( cpA, mspA, sizeA * bbs_SIZEOF16( struct bbs_Complex ) ); 145 ptrA->allocatedSizeE = sizeA; 146 ptrA->sizeE = sizeA; 155 uint32 sizeA ) 157 if( ptrA->allocatedSizeE < sizeA ) 159 bbs_ERROR1( "void bbs_ComplexArr_size( struct bbs_ComplexArr*, uint32 sizeA ) 131 bbs_ComplexArr_create( struct bbs_Context* cpA, struct bbs_ComplexArr* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument [all...] |
H A D | Int32Arr.c | 116 uint32 sizeA ) 118 return sizeA * bbs_SIZEOF16( int32 ) + bbs_MEM_BLOCK_OVERHD; 133 uint32 sizeA, 137 if( ptrA->sizeE == sizeA ) return; 140 bbs_Int32Arr_size( cpA, ptrA, sizeA ); 144 ptrA->arrPtrE = bbs_MemSeg_alloc( cpA, mspA, sizeA * bbs_SIZEOF16( int32 ) ); 146 ptrA->allocatedSizeE = sizeA; 147 ptrA->sizeE = sizeA; 156 uint32 sizeA ) 158 if( ptrA->allocatedSizeE < sizeA ) 131 bbs_Int32Arr_create( struct bbs_Context* cpA, struct bbs_Int32Arr* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument [all...] |
H A D | Int8Arr.c | 116 uint32 sizeA ) 118 return ( sizeA >> 1 ) + bbs_MEM_BLOCK_OVERHD; 133 uint32 sizeA, 137 if( ptrA->sizeE == sizeA ) return; 140 bbs_Int8Arr_size( cpA, ptrA, sizeA ); 145 uint32 sizeL = sizeA; 152 ptrA->sizeE = sizeA; 161 uint32 sizeA ) 163 if( ptrA->allocatedSizeE < sizeA ) 170 ptrA->sizeE = sizeA; 131 bbs_Int8Arr_create( struct bbs_Context* cpA, struct bbs_Int8Arr* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument [all...] |
H A D | UInt32Arr.c | 116 uint32 sizeA ) 118 return sizeA * bbs_SIZEOF16( uint32 ) + bbs_MEM_BLOCK_OVERHD; 133 uint32 sizeA, 137 if( ptrA->sizeE == sizeA ) return; 140 bbs_UInt32Arr_size( cpA, ptrA, sizeA ); 144 ptrA->arrPtrE = bbs_MemSeg_alloc( cpA, mspA, sizeA * bbs_SIZEOF16( uint32 ) ); 146 ptrA->allocatedSizeE = sizeA; 147 ptrA->sizeE = sizeA; 156 uint32 sizeA ) 158 if( ptrA->allocatedSizeE < sizeA ) 131 bbs_UInt32Arr_create( struct bbs_Context* cpA, struct bbs_UInt32Arr* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument [all...] |
H A D | UInt8Arr.c | 116 uint32 sizeA ) 118 return ( sizeA >> 1 ) + bbs_MEM_BLOCK_OVERHD; 133 uint32 sizeA, 137 if( ptrA->sizeE == sizeA ) return; 140 bbs_UInt8Arr_size( cpA, ptrA, sizeA ); 145 uint32 sizeL = sizeA; 152 ptrA->sizeE = sizeA; 161 uint32 sizeA ) 163 if( ptrA->allocatedSizeE < sizeA ) 170 ptrA->sizeE = sizeA; 131 bbs_UInt8Arr_create( struct bbs_Context* cpA, struct bbs_UInt8Arr* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument [all...] |
H A D | Functions.c | 132 uint32 sizeA, uint16* memPtrA ) 139 for( iL = 0; iL < sizeA; iL++ ) 144 return sizeA * bbs_SIZEOF16( uint32 ); 151 uint32 sizeA, 159 for( iL = 0; iL < sizeA; iL++ ) 164 return sizeA * bbs_SIZEOF16( uint32 ); 171 uint32 sizeA, 179 for( iL = 0; iL < sizeA; iL++ ) 184 return sizeA * bbs_SIZEOF16( uint16 ); 191 uint32 sizeA, 130 bbs_memWrite32Arr( struct bbs_Context* cpA, const void* ptrA, uint32 sizeA, uint16* memPtrA ) argument 149 bbs_memRead32Arr( struct bbs_Context* cpA, void* ptrA, uint32 sizeA, const uint16* memPtrA ) argument 169 bbs_memWrite16Arr( struct bbs_Context* cpA, const void* ptrA, uint32 sizeA, uint16* memPtrA ) argument 189 bbs_memRead16Arr( struct bbs_Context* cpA, void* ptrA, uint32 sizeA, const uint16* memPtrA ) argument [all...] |
H A D | Int16Arr.c | 116 uint32 sizeA ) 118 return sizeA * bbs_SIZEOF16( int16 ) + bbs_MEM_BLOCK_OVERHD; 133 uint32 sizeA, 137 if( ptrA->sizeE == sizeA ) return; 140 bbs_Int16Arr_size( cpA, ptrA, sizeA ); 144 ptrA->arrPtrE = bbs_MemSeg_alloc( cpA, mspA, sizeA * bbs_SIZEOF16( int16 ) ); 146 ptrA->allocatedSizeE = sizeA; 147 ptrA->sizeE = sizeA; 156 uint32 sizeA, 162 bbs_Int16Arr_create( cpA, allocPtrA, sizeA 131 bbs_Int16Arr_create( struct bbs_Context* cpA, struct bbs_Int16Arr* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument 154 bbs_Int16Arr_createAligned( struct bbs_Context* cpA, struct bbs_Int16Arr* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA, struct bbs_Int16Arr* allocPtrA, uint32 alignBytesA ) argument [all...] |
H A D | MemTbl.c | 103 const void* memPtrA, uint32 sizeA ) 110 memPtrA, sizeA ) ) 120 memPtrA, sizeA ) ) 158 uint32 sizeA, 161 if( sharedSubSizeA > sizeA ) 163 bbs_ERROR0( "struct bbs_MemTbl bbs_MemTbl_create( void* memPtrA, uint32 sizeA, uint32 sharedSubSizeA ):\n" 164 "sharedSubSizeA > sizeA" ); 170 ptrA->esArrE[ 0 ] = bbs_MemSeg_create( cpA, memPtrA, sizeA - sharedSubSizeA ); 172 ptrA->ssArrE[ 0 ] = bbs_MemSeg_createShared( cpA, ( uint16* ) ( ( int32 ) ( ( uint16* )memPtrA ) + sizeA - sharedSubSizeA ), sharedSubSizeA ); 174 ptrA->ssArrE[ 0 ] = bbs_MemSeg_createShared( cpA, ( uint16* )memPtrA + sizeA 155 bbs_MemTbl_create( struct bbs_Context* cpA, struct bbs_MemTbl* ptrA, void* memPtrA, uint32 sizeA, uint32 sharedSubSizeA ) argument 184 bbs_MemTbl_add( struct bbs_Context* cpA, struct bbs_MemTbl* ptrA, void* memPtrA, uint32 sizeA, uint32 idA ) argument 204 bbs_MemTbl_addShared( struct bbs_Context* cpA, struct bbs_MemTbl* ptrA, void* memPtrA, uint32 sizeA, uint32 idA ) argument [all...] |
H A D | UInt16Arr.c | 116 uint32 startIndexA, uint32 sizeA ) 121 for( iL = sizeA; iL > 0; iL-- ) 132 uint32 sizeA ) 134 return sizeA * bbs_SIZEOF16( uint16 ) + bbs_MEM_BLOCK_OVERHD; 149 uint32 sizeA ) 151 if( ptrA->allocatedSizeE < sizeA ) 153 bbs_ERROR1( "void bbs_UInt16Arr_size( struct bbs_UInt16Arr*, uint32 sizeA ):\n" 158 ptrA->sizeE = sizeA; 165 uint32 sizeA, 169 if( ptrA->sizeE == sizeA ) retur 163 bbs_UInt16Arr_create( struct bbs_Context* cpA, struct bbs_UInt16Arr* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument [all...] |
H A D | Context.c | 279 uint32 sizeA, /* size of memory segment in 16 bit units */ 302 memSegL.sizeE = sizeA; 277 bbs_Context_addStaticSeg( struct bbs_Context* cpA, uint16* memPtrA, uint32 sizeA, flag sharedA, uint32 idA ) argument
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H A D | Math.c | 37 extern int32 bbs_dotProduct_128SSE2( const int16* vec1A, const int16* vec2A, uint32 sizeA ); 38 extern int32 bbs_dotProduct_u128SSE2( const int16* vec1A, const int16* vec2A, uint32 sizeA ); 42 int32 bbs_dotProduct_fr71( const int16* vec1A, const int16* vec2A, uint32 sizeA ); 342 * computes a fast dot product using intel MMX, sizeA must be multiple of 16 and >0 344 int32 bbs_dotProduct_intelMMX16( const int16* vec1A, const int16* vec2A, uint32 sizeA ) 354 mov ecx, sizeA 416 * computes a fast dot product using intel MMX, sizeA must be multiple of 16 and >0 418 int32 bbs_dotProduct_intelMMX16( const int16* vec1A, const int16* vec2A, uint32 sizeA ) 479 : "g" ( vec1A ), "g" ( vec2A ), "g" ( sizeA ) 497 int32 bbs_dotProduct_dsp( const int16* vec1A, const int16* vec2A, uint32 sizeA ) 939 bbs_vecSqrNorm32( const int32* vecA, uint32 sizeA, uint32* manPtrA, uint32* expPtrA ) argument 998 bbs_vecSqrNorm16( const int16* vecA, uint32 sizeA, uint32* manPtrA, uint32* expPtrA ) argument [all...] |
/external/neven/Embedded/common/src/b_TensorEm/ |
H A D | Cluster3D.c | 275 uint32 sizeA, 286 if( ptrA->sizeE == sizeA ) return; 295 ptrA->vecArrE = bbs_MemSeg_alloc( cpA, mspA, sizeA * bbs_SIZEOF16( struct bts_Int16Vec3D ) ); 297 ptrA->sizeE = sizeA; 298 ptrA->allocatedSizeE = sizeA; 306 uint32 sizeA ) 308 if( ptrA->allocatedSizeE < sizeA ) 310 bbs_ERROR2( "void bts_Cluster3D_size( struct bts_Cluster3D* ptrA, uint32 sizeA ):\n" 313 sizeA ); 316 ptrA->sizeE = sizeA; 273 bts_Cluster3D_create( struct bbs_Context* cpA, struct bts_Cluster3D* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument [all...] |
H A D | Flt16Vec.c | 145 uint32 sizeA, 148 bbs_Int16Arr_create( cpA, &ptrA->arrE, sizeA, mspA ); 155 uint32 sizeA ) 157 bbs_Int16Arr_size( cpA, &ptrA->arrE, sizeA ); 143 bts_Flt16Vec_create( struct bbs_Context* cpA, struct bts_Flt16Vec* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument
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H A D | IdCluster2D.c | 121 uint32 sizeA, 125 bts_Cluster2D_create( cpA, &ptrA->clusterE, sizeA, mspA ); 126 bbs_Int16Arr_create( cpA, &ptrA->idArrE, sizeA, mspA ); 133 uint32 sizeA ) 135 bts_Cluster2D_size( cpA, &ptrA->clusterE, sizeA ); 136 bbs_Int16Arr_size( cpA, &ptrA->idArrE, sizeA ); 119 bts_IdCluster2D_create( struct bbs_Context* cpA, struct bts_IdCluster2D* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument
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H A D | Int32Mat.c | 35 void bts_Int32Mat_reduceToNBits( int32* ptrA, uint32 sizeA, int32* bbpPtrA, uint32 nBitsA ) argument 42 int32 iL = sizeA; 56 iL = sizeA;
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H A D | RBFMap2D.c | 135 uint32 sizeA, 139 bts_Cluster2D_create( cpA, &ptrA->srcClusterE, sizeA, mspA ); 140 bts_Cluster2D_create( cpA, &ptrA->rbfCoeffClusterE, sizeA, mspA ); 142 bts_Int32Mat_create( cpA, &ptrA->matE, sizeA, mspA ); 143 bts_Int32Mat_create( cpA, &ptrA->tempMatE, sizeA, mspA ); 144 bbs_Int32Arr_create( cpA, &ptrA->inVecE, sizeA, mspA ); 145 bbs_Int32Arr_create( cpA, &ptrA->outVecE, sizeA, mspA ); 146 bbs_Int32Arr_create( cpA, &ptrA->tempVecE, sizeA, mspA ); 133 bts_RBFMap2D_create( struct bbs_Context* cpA, struct bts_RBFMap2D* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument
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H A D | Cluster2D.c | 317 uint32 sizeA, 328 if( ptrA->sizeE == sizeA ) return; 337 ptrA->vecArrE = bbs_MemSeg_alloc( cpA, mspA, sizeA * bbs_SIZEOF16( struct bts_Int16Vec2D ) ); 339 ptrA->sizeE = sizeA; 340 ptrA->allocatedSizeE = sizeA; 348 uint32 sizeA ) 350 if( ptrA->allocatedSizeE < sizeA ) 352 bbs_ERROR2( "void bts_Cluster2D_size( struct bts_Cluster2D* ptrA, uint32 sizeA ):\n" 355 sizeA ); 358 ptrA->sizeE = sizeA; 315 bts_Cluster2D_create( struct bbs_Context* cpA, struct bts_Cluster2D* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) argument [all...] |
/external/eigen/Eigen/src/Core/products/ |
H A D | TriangularMatrixMatrix.h | 113 std::size_t sizeA = kc*mc; local 117 ei_declare_aligned_stack_constructed_variable(Scalar, blockA, sizeA, blocking.blockA()); 242 std::size_t sizeA = kc*mc; local 246 ei_declare_aligned_stack_constructed_variable(Scalar, blockA, sizeA, blocking.blockA());
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H A D | TriangularSolverMatrix.h | 60 std::size_t sizeA = kc*mc; local 64 ei_declare_aligned_stack_constructed_variable(Scalar, blockA, sizeA, blocking.blockA()); 203 std::size_t sizeA = kc*mc; local 207 ei_declare_aligned_stack_constructed_variable(Scalar, blockA, sizeA, blocking.blockA());
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H A D | GeneralMatrixMatrix.h | 82 std::size_t sizeA = kc*mc; local 84 ei_declare_aligned_stack_constructed_variable(LhsScalar, blockA, sizeA, 0); 152 std::size_t sizeA = kc*mc; local 156 ei_declare_aligned_stack_constructed_variable(LhsScalar, blockA, sizeA, blocking.blockA());
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/external/llvm/lib/MC/ |
H A D | ELFObjectWriter.cpp | 1112 const unsigned sizeA = NameA.size(); local 1114 const unsigned len = std::min(sizeA, sizeB); 1116 char ca = NameA[sizeA - i - 1]; 1122 return sizeB - sizeA;
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