[7983] | 1 | /* |
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| 2 | Bullet Continuous Collision Detection and Physics Library |
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| 3 | Copyright (c) 2010 Erwin Coumans http://bulletphysics.org |
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| 4 | |
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| 5 | This software is provided 'as-is', without any express or implied warranty. |
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| 6 | In no event will the authors be held liable for any damages arising from the use of this software. |
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| 7 | Permission is granted to anyone to use this software for any purpose, |
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| 8 | including commercial applications, and to alter it and redistribute it freely, |
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| 9 | subject to the following restrictions: |
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| 10 | |
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| 11 | 1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required. |
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| 12 | 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. |
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| 13 | 3. This notice may not be removed or altered from any source distribution. |
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| 14 | */ |
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| 15 | |
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| 16 | #ifndef _BT_TRIANGLE_INFO_MAP_H |
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| 17 | #define _BT_TRIANGLE_INFO_MAP_H |
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| 18 | |
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| 19 | |
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| 20 | #include "LinearMath/btHashMap.h" |
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| 21 | #include "LinearMath/btSerializer.h" |
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| 22 | |
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| 23 | |
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| 24 | ///for btTriangleInfo m_flags |
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| 25 | #define TRI_INFO_V0V1_CONVEX 1 |
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| 26 | #define TRI_INFO_V1V2_CONVEX 2 |
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| 27 | #define TRI_INFO_V2V0_CONVEX 4 |
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| 28 | |
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| 29 | #define TRI_INFO_V0V1_SWAP_NORMALB 8 |
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| 30 | #define TRI_INFO_V1V2_SWAP_NORMALB 16 |
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| 31 | #define TRI_INFO_V2V0_SWAP_NORMALB 32 |
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| 32 | |
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| 33 | |
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| 34 | ///The btTriangleInfo structure stores information to adjust collision normals to avoid collisions against internal edges |
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| 35 | ///it can be generated using |
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| 36 | struct btTriangleInfo |
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| 37 | { |
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| 38 | btTriangleInfo() |
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| 39 | { |
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| 40 | m_edgeV0V1Angle = SIMD_2_PI; |
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| 41 | m_edgeV1V2Angle = SIMD_2_PI; |
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| 42 | m_edgeV2V0Angle = SIMD_2_PI; |
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| 43 | m_flags=0; |
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| 44 | } |
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| 45 | |
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| 46 | int m_flags; |
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| 47 | |
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| 48 | btScalar m_edgeV0V1Angle; |
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| 49 | btScalar m_edgeV1V2Angle; |
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| 50 | btScalar m_edgeV2V0Angle; |
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| 51 | |
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| 52 | }; |
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| 53 | |
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| 54 | typedef btHashMap<btHashInt,btTriangleInfo> btInternalTriangleInfoMap; |
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| 55 | |
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| 56 | |
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| 57 | ///The btTriangleInfoMap stores edge angle information for some triangles. You can compute this information yourself or using btGenerateInternalEdgeInfo. |
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| 58 | struct btTriangleInfoMap : public btInternalTriangleInfoMap |
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| 59 | { |
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| 60 | btScalar m_convexEpsilon;///used to determine if an edge or contact normal is convex, using the dot product |
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| 61 | btScalar m_planarEpsilon; ///used to determine if a triangle edge is planar with zero angle |
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| 62 | btScalar m_equalVertexThreshold; ///used to compute connectivity: if the distance between two vertices is smaller than m_equalVertexThreshold, they are considered to be 'shared' |
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| 63 | btScalar m_edgeDistanceThreshold; ///used to determine edge contacts: if the closest distance between a contact point and an edge is smaller than this distance threshold it is considered to "hit the edge" |
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| 64 | btScalar m_zeroAreaThreshold; ///used to determine if a triangle is degenerate (length squared of cross product of 2 triangle edges < threshold) |
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| 65 | |
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| 66 | |
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| 67 | btTriangleInfoMap() |
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| 68 | { |
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| 69 | m_convexEpsilon = 0.00f; |
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| 70 | m_planarEpsilon = 0.0001f; |
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| 71 | m_equalVertexThreshold = btScalar(0.0001)*btScalar(0.0001); |
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| 72 | m_edgeDistanceThreshold = btScalar(0.1); |
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| 73 | m_zeroAreaThreshold = btScalar(0.0001)*btScalar(0.0001); |
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| 74 | } |
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| 75 | virtual ~btTriangleInfoMap() {} |
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| 76 | |
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| 77 | virtual int calculateSerializeBufferSize() const; |
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| 78 | |
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| 79 | ///fills the dataBuffer and returns the struct name (and 0 on failure) |
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| 80 | virtual const char* serialize(void* dataBuffer, btSerializer* serializer) const; |
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| 81 | |
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| 82 | void deSerialize(struct btTriangleInfoMapData& data); |
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| 83 | |
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| 84 | }; |
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| 85 | |
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| 86 | struct btTriangleInfoData |
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| 87 | { |
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| 88 | int m_flags; |
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| 89 | float m_edgeV0V1Angle; |
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| 90 | float m_edgeV1V2Angle; |
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| 91 | float m_edgeV2V0Angle; |
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| 92 | }; |
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| 93 | |
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| 94 | struct btTriangleInfoMapData |
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| 95 | { |
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| 96 | int *m_hashTablePtr; |
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| 97 | int *m_nextPtr; |
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| 98 | btTriangleInfoData *m_valueArrayPtr; |
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| 99 | int *m_keyArrayPtr; |
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| 100 | |
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| 101 | float m_convexEpsilon; |
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| 102 | float m_planarEpsilon; |
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| 103 | float m_equalVertexThreshold; |
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| 104 | float m_edgeDistanceThreshold; |
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| 105 | float m_zeroAreaThreshold; |
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| 106 | |
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| 107 | int m_nextSize; |
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| 108 | int m_hashTableSize; |
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| 109 | int m_numValues; |
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| 110 | int m_numKeys; |
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| 111 | char m_padding[4]; |
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| 112 | }; |
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| 113 | |
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| 114 | SIMD_FORCE_INLINE int btTriangleInfoMap::calculateSerializeBufferSize() const |
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| 115 | { |
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| 116 | return sizeof(btTriangleInfoMapData); |
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| 117 | } |
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| 118 | |
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| 119 | ///fills the dataBuffer and returns the struct name (and 0 on failure) |
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| 120 | SIMD_FORCE_INLINE const char* btTriangleInfoMap::serialize(void* dataBuffer, btSerializer* serializer) const |
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| 121 | { |
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| 122 | btTriangleInfoMapData* tmapData = (btTriangleInfoMapData*) dataBuffer; |
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| 123 | tmapData->m_convexEpsilon = m_convexEpsilon; |
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| 124 | tmapData->m_planarEpsilon = m_planarEpsilon; |
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| 125 | tmapData->m_equalVertexThreshold = m_equalVertexThreshold; |
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| 126 | tmapData->m_edgeDistanceThreshold = m_edgeDistanceThreshold; |
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| 127 | tmapData->m_zeroAreaThreshold = m_zeroAreaThreshold; |
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| 128 | |
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| 129 | tmapData->m_hashTableSize = m_hashTable.size(); |
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| 130 | |
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| 131 | tmapData->m_hashTablePtr = tmapData->m_hashTableSize ? (int*)serializer->getUniquePointer((void*)&m_hashTable[0]) : 0; |
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| 132 | if (tmapData->m_hashTablePtr) |
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| 133 | { |
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| 134 | //serialize an int buffer |
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| 135 | int sz = sizeof(int); |
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| 136 | int numElem = tmapData->m_hashTableSize; |
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| 137 | btChunk* chunk = serializer->allocate(sz,numElem); |
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| 138 | int* memPtr = (int*)chunk->m_oldPtr; |
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| 139 | for (int i=0;i<numElem;i++,memPtr++) |
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| 140 | { |
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| 141 | *memPtr = m_hashTable[i]; |
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| 142 | } |
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| 143 | serializer->finalizeChunk(chunk,"int",BT_ARRAY_CODE,(void*)&m_hashTable[0]); |
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| 144 | |
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| 145 | } |
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| 146 | |
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| 147 | tmapData->m_nextSize = m_next.size(); |
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| 148 | tmapData->m_nextPtr = tmapData->m_nextSize? (int*)serializer->getUniquePointer((void*)&m_next[0]): 0; |
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| 149 | if (tmapData->m_nextPtr) |
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| 150 | { |
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| 151 | int sz = sizeof(int); |
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| 152 | int numElem = tmapData->m_nextSize; |
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| 153 | btChunk* chunk = serializer->allocate(sz,numElem); |
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| 154 | int* memPtr = (int*)chunk->m_oldPtr; |
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| 155 | for (int i=0;i<numElem;i++,memPtr++) |
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| 156 | { |
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| 157 | *memPtr = m_next[i]; |
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| 158 | } |
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| 159 | serializer->finalizeChunk(chunk,"int",BT_ARRAY_CODE,(void*)&m_next[0]); |
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| 160 | } |
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| 161 | |
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| 162 | tmapData->m_numValues = m_valueArray.size(); |
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| 163 | tmapData->m_valueArrayPtr = tmapData->m_numValues ? (btTriangleInfoData*)serializer->getUniquePointer((void*)&m_valueArray[0]): 0; |
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| 164 | if (tmapData->m_valueArrayPtr) |
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| 165 | { |
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| 166 | int sz = sizeof(btTriangleInfoData); |
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| 167 | int numElem = tmapData->m_numValues; |
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| 168 | btChunk* chunk = serializer->allocate(sz,numElem); |
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| 169 | btTriangleInfoData* memPtr = (btTriangleInfoData*)chunk->m_oldPtr; |
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| 170 | for (int i=0;i<numElem;i++,memPtr++) |
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| 171 | { |
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| 172 | memPtr->m_edgeV0V1Angle = m_valueArray[i].m_edgeV0V1Angle; |
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| 173 | memPtr->m_edgeV1V2Angle = m_valueArray[i].m_edgeV1V2Angle; |
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| 174 | memPtr->m_edgeV2V0Angle = m_valueArray[i].m_edgeV2V0Angle; |
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| 175 | memPtr->m_flags = m_valueArray[i].m_flags; |
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| 176 | } |
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| 177 | serializer->finalizeChunk(chunk,"btTriangleInfoData",BT_ARRAY_CODE,(void*) &m_valueArray[0]); |
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| 178 | } |
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| 179 | |
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| 180 | tmapData->m_numKeys = m_keyArray.size(); |
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| 181 | tmapData->m_keyArrayPtr = tmapData->m_numKeys ? (int*)serializer->getUniquePointer((void*)&m_keyArray[0]) : 0; |
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| 182 | if (tmapData->m_keyArrayPtr) |
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| 183 | { |
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| 184 | int sz = sizeof(int); |
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| 185 | int numElem = tmapData->m_numValues; |
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| 186 | btChunk* chunk = serializer->allocate(sz,numElem); |
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| 187 | int* memPtr = (int*)chunk->m_oldPtr; |
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| 188 | for (int i=0;i<numElem;i++,memPtr++) |
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| 189 | { |
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| 190 | *memPtr = m_keyArray[i].getUid1(); |
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| 191 | } |
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| 192 | serializer->finalizeChunk(chunk,"int",BT_ARRAY_CODE,(void*) &m_keyArray[0]); |
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| 193 | |
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| 194 | } |
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| 195 | return "btTriangleInfoMapData"; |
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| 196 | } |
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| 197 | |
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| 198 | |
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| 199 | |
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| 200 | ///fills the dataBuffer and returns the struct name (and 0 on failure) |
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| 201 | SIMD_FORCE_INLINE void btTriangleInfoMap::deSerialize(btTriangleInfoMapData& tmapData ) |
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| 202 | { |
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| 203 | |
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| 204 | |
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| 205 | m_convexEpsilon = tmapData.m_convexEpsilon; |
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| 206 | m_planarEpsilon = tmapData.m_planarEpsilon; |
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| 207 | m_equalVertexThreshold = tmapData.m_equalVertexThreshold; |
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| 208 | m_edgeDistanceThreshold = tmapData.m_edgeDistanceThreshold; |
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| 209 | m_zeroAreaThreshold = tmapData.m_zeroAreaThreshold; |
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| 210 | m_hashTable.resize(tmapData.m_hashTableSize); |
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| 211 | int i =0; |
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| 212 | for (i=0;i<tmapData.m_hashTableSize;i++) |
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| 213 | { |
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| 214 | m_hashTable[i] = tmapData.m_hashTablePtr[i]; |
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| 215 | } |
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| 216 | m_next.resize(tmapData.m_nextSize); |
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| 217 | for (i=0;i<tmapData.m_nextSize;i++) |
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| 218 | { |
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| 219 | m_next[i] = tmapData.m_nextPtr[i]; |
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| 220 | } |
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| 221 | m_valueArray.resize(tmapData.m_numValues); |
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| 222 | for (i=0;i<tmapData.m_numValues;i++) |
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| 223 | { |
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| 224 | m_valueArray[i].m_edgeV0V1Angle = tmapData.m_valueArrayPtr[i].m_edgeV0V1Angle; |
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| 225 | m_valueArray[i].m_edgeV1V2Angle = tmapData.m_valueArrayPtr[i].m_edgeV1V2Angle; |
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| 226 | m_valueArray[i].m_edgeV2V0Angle = tmapData.m_valueArrayPtr[i].m_edgeV2V0Angle; |
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| 227 | m_valueArray[i].m_flags = tmapData.m_valueArrayPtr[i].m_flags; |
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| 228 | } |
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| 229 | |
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| 230 | m_keyArray.resize(tmapData.m_numKeys,btHashInt(0)); |
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| 231 | for (i=0;i<tmapData.m_numKeys;i++) |
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| 232 | { |
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| 233 | m_keyArray[i].setUid1(tmapData.m_keyArrayPtr[i]); |
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| 234 | } |
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| 235 | } |
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| 236 | |
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| 237 | |
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| 238 | #endif //_BT_TRIANGLE_INFO_MAP_H |
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