| /external/neven/Embedded/common/src/b_BasicEm/ |
| MemSeg.h | 144 uint32 sizeA );
149 uint32 sizeA );
151 /** allocation of memory (very fast); sizeA specifies number of 16bit units; (allocation is always 32 bit aligned) */
154 uint32 sizeA );
|
| 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 - sharedSubSizeA, sharedSubSizeA )
[all...] |
| UInt32Arr.h | 86 uint32 sizeA );
93 uint32 sizeA,
98 struct bbs_UInt32Arr* ptrA, uint32 sizeA );
|
| UInt8Arr.h | 86 uint32 sizeA );
93 uint32 sizeA,
98 struct bbs_UInt8Arr* ptrA, uint32 sizeA );
|
| Math.h | 119 * Computes the dot product of vec1A with vec2A, both of size sizeA.
120 * (no overflow handling, slow for sizeA < 32 )
122 int32 bbs_dotProductInt16( const int16* vec1A, const int16* vec2A, uint32 sizeA );
154 void bbs_vecSqrNorm32( const int32* vecA, uint32 sizeA, uint32* manPtrA, uint32* expPtrA );
160 void bbs_vecSqrNorm16( const int16* vecA, uint32 sizeA, uint32* manPtrA, uint32* expPtrA );
163 * overflow-safe when sizeA < 65535
165 uint32 bbs_vecNorm16( const int16* vecA, uint32 sizeA );
197 uint16 bbs_vecPhase( int16* reA, int16* imA, int16* phaseA, uint16 sizeA );
|
| DynMemManager.c | 128 uint32 sizeA )
131 bbs_DEF_fNameL( "uint16* bbs_DynMemManager_alloc( struct bbs_DynMemManager* ptrA, uint32 sizeA )" )
142 ptrA->memPtrE = ptrA->mallocFPtrE( cpA, memSegPtrA, ( sizeA + bbs_MEM_OFFSET ) << 1 );
149 *ppL = ptrA->mallocFPtrE( cpA, memSegPtrA, ( sizeA + bbs_MEM_OFFSET ) << 1 );
161 ( ( uint32* )pL )[ 2 ] = sizeA + bbs_MEM_OFFSET;
|
| Context.h | 188 uint32 sizeA, /* size of memory segment in 16 bit units */
|
| Context.c | 279 uint32 sizeA, /* size of memory segment in 16 bit units */
302 memSegL.sizeE = sizeA;
|
| /external/neven/Embedded/common/src/b_TensorEm/ |
| Cluster3D.h | 123 uint32 sizeA,
126 /** resize cluster (sizeA must be smaller or equal to allocated size)*/
129 uint32 sizeA );
135 uint32 sizeA );
|
| IdCluster2D.h | 93 uint32 sizeA,
96 /** resize cluster (sizeA must be smaller or equal to allocated size)*/
99 uint32 sizeA );
|
| Cluster2D.h | 124 uint32 sizeA,
127 /** resize cluster (sizeA must be smaller or equal to allocated size)*/
130 uint32 sizeA );
|
| Flt16Vec.h | 96 uint32 sizeA,
99 /** resize vector (sizeA must be smaller or equal to allocated size)*/
102 uint32 sizeA );
|
| 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 );
|
| 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;
[all...] |
| RBFMap2D.h | 127 uint32 sizeA,
|
| 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 );
|
| Int32Mat.c | 35 void bts_Int32Mat_reduceToNBits( int32* ptrA, uint32 sizeA, int32* bbpPtrA, uint32 nBitsA )
42 int32 iL = sizeA;
56 iL = sizeA;
|
| 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;
[all...] |
| 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 );
|
| /external/neven/FaceRecEm/common/src/b_FDSDK/ |
| SDK.h | 44 typedef void* ( *btk_fpMalloc )( u32 sizeA );
|
| SDK.c | 63 uint32 sizeA )
68 return hsdkL->mallocFPtrE( sizeA );
|
| /external/opencv/cxcore/src/ |
| cxmatrix.cpp | 595 typedef CvStatus (CV_STDCALL * CvLUDecompFunc)( double* A, int stepA, CvSize sizeA,
599 typedef CvStatus (CV_STDCALL * CvLUBackFunc)( double* A, int stepA, CvSize sizeA,
605 icvLUDecomp_##flavor( double* A, int stepA, CvSize sizeA, \
608 int n = sizeA.width; \
612 assert( sizeA.width == sizeA.height ); \
616 assert( sizeA.height == sizeB.height ); \
707 icvLUBack_##flavor( double* A, int stepA, CvSize sizeA, \
710 int n = sizeA.width; \
713 assert( m > 0 && sizeA.width == sizeA.height &&
[all...] |
| /external/llvm/lib/MC/ |
| ELFObjectWriter.cpp | [all...] |
