/* * Copyright (C) 2008 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* ---- includes ----------------------------------------------------------- */ #include "b_TensorEm/Cluster3D.h" #include "b_BasicEm/Math.h" #include "b_BasicEm/Memory.h" #include "b_BasicEm/Functions.h" /* ------------------------------------------------------------------------- */ /* ========================================================================= */ /* */ /* ---- \ghd{ auxiliary functions } ---------------------------------------- */ /* */ /* ========================================================================= */ /* ------------------------------------------------------------------------- */ /* ========================================================================= */ /* */ /* ---- \ghd{ constructor / destructor } ----------------------------------- */ /* */ /* ========================================================================= */ /* ------------------------------------------------------------------------- */ void bts_Cluster3D_init( struct bbs_Context* cpA, struct bts_Cluster3D* ptrA ) { ptrA->mspE = NULL; ptrA->vecArrE = NULL; ptrA->allocatedSizeE = 0; ptrA->sizeE = 0; ptrA->bbpE = 0; } /* ------------------------------------------------------------------------- */ void bts_Cluster3D_exit( struct bbs_Context* cpA, struct bts_Cluster3D* ptrA ) { bbs_MemSeg_free( cpA, ptrA->mspE, ptrA->vecArrE ); ptrA->vecArrE = NULL; ptrA->mspE = NULL; ptrA->allocatedSizeE = 0; ptrA->sizeE = 0; ptrA->bbpE = 0; } /* ------------------------------------------------------------------------- */ /* ========================================================================= */ /* */ /* ---- \ghd{ operators } -------------------------------------------------- */ /* */ /* ========================================================================= */ /* ------------------------------------------------------------------------- */ void bts_Cluster3D_copy( struct bbs_Context* cpA, struct bts_Cluster3D* ptrA, const struct bts_Cluster3D* srcPtrA ) { #ifdef DEBUG1 if( ptrA->allocatedSizeE < srcPtrA->sizeE ) { bbs_ERROR0( "void bts_Cluster3D_copy( struct bts_Cluster2D* ptrA, const struct bts_Cluster2D* srcPtrA ): allocated size too low in destination cluster" ); return; } #endif bbs_memcpy16( ptrA->vecArrE, srcPtrA->vecArrE, bbs_SIZEOF16( struct bts_Int16Vec3D ) * srcPtrA->sizeE ); ptrA->bbpE = srcPtrA->bbpE; ptrA->sizeE = srcPtrA->sizeE; } /* ------------------------------------------------------------------------- */ flag bts_Cluster3D_equal( struct bbs_Context* cpA, const struct bts_Cluster3D* ptrA, const struct bts_Cluster3D* srcPtrA ) { uint32 iL; const struct bts_Int16Vec3D* src1L = ptrA->vecArrE; const struct bts_Int16Vec3D* src2L = srcPtrA->vecArrE; if( ptrA->sizeE != srcPtrA->sizeE ) return FALSE; if( ptrA->bbpE != srcPtrA->bbpE ) return FALSE; for( iL = ptrA->sizeE; iL > 0; iL-- ) { if( ( src1L->xE != src2L->xE ) || ( src1L->yE != src2L->yE ) || ( src1L->zE != src2L->zE ) ) return FALSE; src1L++; src2L++; } return TRUE; } /* ------------------------------------------------------------------------- */ /* ========================================================================= */ /* */ /* ---- \ghd{ query functions } -------------------------------------------- */ /* */ /* ========================================================================= */ /* ------------------------------------------------------------------------- */ struct bts_Flt16Vec3D bts_Cluster3D_center( struct bbs_Context* cpA, const struct bts_Cluster3D* ptrA ) { struct bts_Int16Vec3D* vecPtrL = ptrA->vecArrE; uint32 iL; int32 xL = 0; int32 yL = 0; int32 zL = 0; if( ptrA->sizeE == 0 ) return bts_Flt16Vec3D_create16( 0, 0, 0, 0 ); for( iL = ptrA->sizeE; iL > 0; iL-- ) { xL += vecPtrL->xE; yL += vecPtrL->yE; zL += vecPtrL->zE; vecPtrL++; } xL = ( ( ( xL << 1 ) / ( int32 )ptrA->sizeE ) + 1 ) >> 1; yL = ( ( ( yL << 1 ) / ( int32 )ptrA->sizeE ) + 1 ) >> 1; zL = ( ( ( zL << 1 ) / ( int32 )ptrA->sizeE ) + 1 ) >> 1; return bts_Flt16Vec3D_create16( ( int16 )xL, ( int16 )yL, ( int16 )zL, ( int16 )ptrA->bbpE ); } /* ------------------------------------------------------------------------- */ struct bts_Int16Rect bts_Cluster3D_boundingBox( struct bbs_Context* cpA, const struct bts_Cluster3D* ptrA ) { struct bts_Int16Vec3D* vecPtrL = ptrA->vecArrE; uint32 iL; int32 xMinL = 65536; /*( 1 << 16 )*/ int32 yMinL = 65536; /*( 1 << 16 )*/ int32 xMaxL = 0; int32 yMaxL = 0; if( ptrA->sizeE == 0 ) return bts_Int16Rect_create( 0, 0, 0, 0 ); for( iL = ptrA->sizeE; iL > 0; iL-- ) { xMinL = bbs_min( xMinL, vecPtrL->xE ); yMinL = bbs_min( yMinL, vecPtrL->yE ); xMaxL = bbs_max( xMaxL, vecPtrL->xE ); yMaxL = bbs_max( yMaxL, vecPtrL->yE ); vecPtrL++; } return bts_Int16Rect_create( ( int16 )xMinL, ( int16 )yMinL, ( int16 )xMaxL, ( int16 )yMaxL ); } /* ------------------------------------------------------------------------- */ int32 bts_Cluster3D_int32X( struct bbs_Context* cpA, const struct bts_Cluster3D* ptrA, uint32 indexA, int32 bbpA ) { int32 shiftL = bbpA - ptrA->bbpE; #ifdef DEBUG2 if( indexA >= ptrA->sizeE ) { bbs_ERROR2( "int32 bts_Cluster2D_int32X( .... )\n" "indexA = %i is out of range [0,%i]", indexA, ptrA->sizeE - 1 ); return 0; } #endif if( shiftL >= 0 ) { return ( int32 ) ptrA->vecArrE[ indexA ].xE << shiftL; } else { return ( ( ( int32 ) ptrA->vecArrE[ indexA ].xE >> ( -shiftL - 1 ) ) + 1 ) >> 1; } } /* ------------------------------------------------------------------------- */ int32 bts_Cluster3D_int32Y( struct bbs_Context* cpA, const struct bts_Cluster3D* ptrA, uint32 indexA, int32 bbpA ) { int32 shiftL = bbpA - ptrA->bbpE; #ifdef DEBUG2 if( indexA >= ptrA->sizeE ) { bbs_ERROR2( "int32 bts_Cluster2D_int32Y( .... )\n" "indexA = %i is out of range [0,%i]", indexA, ptrA->sizeE - 1 ); return 0; } #endif if( shiftL >= 0 ) { return ( int32 ) ptrA->vecArrE[ indexA ].yE << shiftL; } else { return ( ( ( int32 ) ptrA->vecArrE[ indexA ].yE >> ( -shiftL - 1 ) ) + 1 ) >> 1; } } /* ------------------------------------------------------------------------- */ int32 bts_Cluster3D_int32Z( struct bbs_Context* cpA, const struct bts_Cluster3D* ptrA, uint32 indexA, int32 bbpA ) { int32 shiftL = bbpA - ptrA->bbpE; #ifdef DEBUG2 if( indexA >= ptrA->sizeE ) { bbs_ERROR2( "int32 bts_Cluster2D_int32Z( .... )\n" "indexA = %i is out of range [0,%i]", indexA, ptrA->sizeE - 1 ); return 0; } #endif if( shiftL >= 0 ) { return ( int32 ) ptrA->vecArrE[ indexA ].zE << shiftL; } else { return ( ( ( int32 ) ptrA->vecArrE[ indexA ].zE >> ( -shiftL - 1 ) ) + 1 ) >> 1; } } /* ------------------------------------------------------------------------- */ /* ========================================================================= */ /* */ /* ---- \ghd{ modify functions } ------------------------------------------- */ /* */ /* ========================================================================= */ /* ------------------------------------------------------------------------- */ void bts_Cluster3D_create( struct bbs_Context* cpA, struct bts_Cluster3D* ptrA, uint32 sizeA, struct bbs_MemSeg* mspA ) { if( bbs_Context_error( cpA ) ) return; if( ptrA->mspE == NULL ) { ptrA->sizeE = 0; ptrA->allocatedSizeE = 0; ptrA->vecArrE = NULL; } if( ptrA->sizeE == sizeA ) return; if( ptrA->vecArrE != 0 ) { bbs_ERROR0( "void bts_Cluster3D_create( const struct bts_Cluster3D*, uint32 ):\n" "object has already been created and cannot be resized." ); return; } ptrA->vecArrE = bbs_MemSeg_alloc( cpA, mspA, sizeA * bbs_SIZEOF16( struct bts_Int16Vec3D ) ); if( bbs_Context_error( cpA ) ) return; ptrA->sizeE = sizeA; ptrA->allocatedSizeE = sizeA; if( !mspA->sharedE ) ptrA->mspE = mspA; } /* ------------------------------------------------------------------------- */ void bts_Cluster3D_size( struct bbs_Context* cpA, struct bts_Cluster3D* ptrA, uint32 sizeA ) { if( ptrA->allocatedSizeE < sizeA ) { bbs_ERROR2( "void bts_Cluster3D_size( struct bts_Cluster3D* ptrA, uint32 sizeA ):\n" "Allocated size (%i) of cluster is smaller than requested size (%i).", ptrA->allocatedSizeE, sizeA ); return; } ptrA->sizeE = sizeA; } /* ------------------------------------------------------------------------- */ void bts_Cluster3D_transform( struct bbs_Context* cpA, struct bts_Cluster3D* ptrA, struct bts_Flt16Alt3D altA ) { struct bts_Int16Vec3D* vecPtrL = ptrA->vecArrE; uint32 iL; int32 x0L = altA.vecE.xE; int32 y0L = altA.vecE.yE; int32 z0L = altA.vecE.zE; int32 shiftL = altA.matE.bbpE + ptrA->bbpE - altA.vecE.bbpE; if( shiftL < 0 ) { x0L = ( ( x0L >> ( -shiftL - 1 ) ) + 1 ) >> 1; y0L = ( ( y0L >> ( -shiftL - 1 ) ) + 1 ) >> 1; z0L = ( ( z0L >> ( -shiftL - 1 ) ) + 1 ) >> 1; } else { x0L <<= shiftL; y0L <<= shiftL; z0L <<= shiftL; } if( altA.matE.bbpE > 0 ) { x0L += (int32)1 << ( altA.matE.bbpE - 1 ); y0L += (int32)1 << ( altA.matE.bbpE - 1 ); z0L += (int32)1 << ( altA.matE.bbpE - 1 ); } for( iL = ptrA->sizeE; iL > 0; iL-- ) { int32 xL = vecPtrL->xE; int32 yL = vecPtrL->yE; int32 zL = vecPtrL->zE; vecPtrL->xE = ( x0L + xL * altA.matE.xxE + yL * altA.matE.xyE + zL * altA.matE.xzE ) >> altA.matE.bbpE; vecPtrL->yE = ( y0L + xL * altA.matE.yxE + yL * altA.matE.yyE + zL * altA.matE.yzE ) >> altA.matE.bbpE; vecPtrL->zE = ( z0L + xL * altA.matE.zxE + yL * altA.matE.zyE + zL * altA.matE.zzE ) >> altA.matE.bbpE; vecPtrL++; } } /* ------------------------------------------------------------------------- */ struct bts_Flt16Vec3D bts_Cluster3D_centerFree( struct bbs_Context* cpA, struct bts_Cluster3D* ptrA ) { struct bts_Flt16Vec3D centerL = bts_Cluster3D_center( cpA, ptrA ); struct bts_Int16Vec3D* vecPtrL = ptrA->vecArrE; uint32 iL; for( iL = ptrA->sizeE; iL > 0; iL-- ) { vecPtrL->xE -= centerL.xE; vecPtrL->yE -= centerL.yE; vecPtrL->zE -= centerL.zE; vecPtrL++; } return centerL; } /* ------------------------------------------------------------------------- */ /* ========================================================================= */ /* */ /* ---- \ghd{ I/O } -------------------------------------------------------- */ /* */ /* ========================================================================= */ /* ------------------------------------------------------------------------- */ uint32 bts_Cluster3D_memSize( struct bbs_Context* cpA, const struct bts_Cluster3D *ptrA ) { return bbs_SIZEOF16( uint32 ) + bbs_SIZEOF16( uint32 ) /* version */ + bbs_SIZEOF16( ptrA->sizeE ) + bbs_SIZEOF16( ptrA->bbpE ) + bbs_SIZEOF16( struct bts_Int16Vec3D ) * ptrA->sizeE; } /* ------------------------------------------------------------------------- */ uint32 bts_Cluster3D_memWrite( struct bbs_Context* cpA, const struct bts_Cluster3D* ptrA, uint16* memPtrA ) { uint32 memSizeL = bts_Cluster3D_memSize( cpA, ptrA ); memPtrA += bbs_memWrite32( &memSizeL, memPtrA ); memPtrA += bbs_memWriteUInt32( bts_CLUSTER3D_VERSION, memPtrA ); memPtrA += bbs_memWrite32( &ptrA->sizeE, memPtrA ); memPtrA += bbs_memWrite32( &ptrA->bbpE, memPtrA ); memPtrA += bbs_memWrite16Arr( cpA, ptrA->vecArrE, ptrA->sizeE * bbs_SIZEOF16( struct bts_Int16Vec3D ), memPtrA ); return memSizeL; } /* ------------------------------------------------------------------------- */ uint32 bts_Cluster3D_memRead( struct bbs_Context* cpA, struct bts_Cluster3D* ptrA, const uint16* memPtrA, struct bbs_MemSeg* mspA ) { uint32 memSizeL; uint32 sizeL; uint32 versionL; if( bbs_Context_error( cpA ) ) return 0; memPtrA += bbs_memRead32( &memSizeL, memPtrA ); memPtrA += bbs_memReadVersion32( cpA, &versionL, bts_CLUSTER3D_VERSION, memPtrA ); memPtrA += bbs_memRead32( &sizeL, memPtrA ); memPtrA += bbs_memRead32( &ptrA->bbpE, memPtrA ); if( ptrA->allocatedSizeE < sizeL ) { bts_Cluster3D_create( cpA, ptrA, sizeL, mspA ); } else { bts_Cluster3D_size( cpA, ptrA, sizeL ); } bbs_memcpy16( ptrA->vecArrE, memPtrA, bbs_SIZEOF16( struct bts_Int16Vec3D ) * ptrA->sizeE ); memPtrA += bbs_memRead16Arr( cpA, ptrA->vecArrE, ptrA->sizeE * bbs_SIZEOF16( struct bts_Int16Vec3D ), memPtrA ); if( memSizeL != bts_Cluster3D_memSize( cpA, ptrA ) ) { bbs_ERR0( bbs_ERR_CORRUPT_DATA, "uint32 bts_Cluster3D_memRead( const struct bts_Cluster3D* ptrA, const void* memPtrA ):\n" "size mismatch" ); return 0; } return memSizeL; } /* ------------------------------------------------------------------------- */ /* ========================================================================= */ /* */ /* ---- \ghd{ exec functions } --------------------------------------------- */ /* */ /* ========================================================================= */ /* ------------------------------------------------------------------------- */ /* ========================================================================= */