e12c89e8c9
Document version and how to extract sources in thirdparty/README.md. Drop unnecessary CMake and Premake files. Simplify SCsub, drop unused one.
342 lines
12 KiB
C++
342 lines
12 KiB
C++
//this file is autogenerated using stringify.bat (premake --stringify) in the build folder of this project
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static const char* sapCL= \
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"/*\n"
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"Copyright (c) 2012 Advanced Micro Devices, Inc. \n"
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"This software is provided 'as-is', without any express or implied warranty.\n"
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"In no event will the authors be held liable for any damages arising from the use of this software.\n"
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"Permission is granted to anyone to use this software for any purpose, \n"
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"including commercial applications, and to alter it and redistribute it freely, \n"
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"subject to the following restrictions:\n"
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"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.\n"
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"2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.\n"
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"3. This notice may not be removed or altered from any source distribution.\n"
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"*/\n"
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"//Originally written by Erwin Coumans\n"
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"#define NEW_PAIR_MARKER -1\n"
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"typedef struct \n"
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"{\n"
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" union\n"
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" {\n"
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" float4 m_min;\n"
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" float m_minElems[4];\n"
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" int m_minIndices[4];\n"
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" };\n"
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" union\n"
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" {\n"
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" float4 m_max;\n"
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" float m_maxElems[4];\n"
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" int m_maxIndices[4];\n"
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" };\n"
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"} btAabbCL;\n"
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"/// conservative test for overlap between two aabbs\n"
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"bool TestAabbAgainstAabb2(const btAabbCL* aabb1, __local const btAabbCL* aabb2);\n"
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"bool TestAabbAgainstAabb2(const btAabbCL* aabb1, __local const btAabbCL* aabb2)\n"
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"{\n"
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" bool overlap = true;\n"
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" overlap = (aabb1->m_min.x > aabb2->m_max.x || aabb1->m_max.x < aabb2->m_min.x) ? false : overlap;\n"
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" overlap = (aabb1->m_min.z > aabb2->m_max.z || aabb1->m_max.z < aabb2->m_min.z) ? false : overlap;\n"
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" overlap = (aabb1->m_min.y > aabb2->m_max.y || aabb1->m_max.y < aabb2->m_min.y) ? false : overlap;\n"
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" return overlap;\n"
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"}\n"
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"bool TestAabbAgainstAabb2GlobalGlobal(__global const btAabbCL* aabb1, __global const btAabbCL* aabb2);\n"
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"bool TestAabbAgainstAabb2GlobalGlobal(__global const btAabbCL* aabb1, __global const btAabbCL* aabb2)\n"
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"{\n"
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" bool overlap = true;\n"
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" overlap = (aabb1->m_min.x > aabb2->m_max.x || aabb1->m_max.x < aabb2->m_min.x) ? false : overlap;\n"
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" overlap = (aabb1->m_min.z > aabb2->m_max.z || aabb1->m_max.z < aabb2->m_min.z) ? false : overlap;\n"
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" overlap = (aabb1->m_min.y > aabb2->m_max.y || aabb1->m_max.y < aabb2->m_min.y) ? false : overlap;\n"
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" return overlap;\n"
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"}\n"
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"bool TestAabbAgainstAabb2Global(const btAabbCL* aabb1, __global const btAabbCL* aabb2);\n"
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"bool TestAabbAgainstAabb2Global(const btAabbCL* aabb1, __global const btAabbCL* aabb2)\n"
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"{\n"
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" bool overlap = true;\n"
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" overlap = (aabb1->m_min.x > aabb2->m_max.x || aabb1->m_max.x < aabb2->m_min.x) ? false : overlap;\n"
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" overlap = (aabb1->m_min.z > aabb2->m_max.z || aabb1->m_max.z < aabb2->m_min.z) ? false : overlap;\n"
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" overlap = (aabb1->m_min.y > aabb2->m_max.y || aabb1->m_max.y < aabb2->m_min.y) ? false : overlap;\n"
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" return overlap;\n"
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"}\n"
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"__kernel void computePairsKernelTwoArrays( __global const btAabbCL* unsortedAabbs, __global const int* unsortedAabbMapping, __global const int* unsortedAabbMapping2, volatile __global int4* pairsOut,volatile __global int* pairCount, int numUnsortedAabbs, int numUnSortedAabbs2, int axis, int maxPairs)\n"
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"{\n"
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" int i = get_global_id(0);\n"
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" if (i>=numUnsortedAabbs)\n"
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" return;\n"
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" int j = get_global_id(1);\n"
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" if (j>=numUnSortedAabbs2)\n"
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" return;\n"
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" __global const btAabbCL* unsortedAabbPtr = &unsortedAabbs[unsortedAabbMapping[i]];\n"
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" __global const btAabbCL* unsortedAabbPtr2 = &unsortedAabbs[unsortedAabbMapping2[j]];\n"
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" if (TestAabbAgainstAabb2GlobalGlobal(unsortedAabbPtr,unsortedAabbPtr2))\n"
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" {\n"
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" int4 myPair;\n"
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" \n"
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" int xIndex = unsortedAabbPtr[0].m_minIndices[3];\n"
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" int yIndex = unsortedAabbPtr2[0].m_minIndices[3];\n"
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" if (xIndex>yIndex)\n"
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" {\n"
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" int tmp = xIndex;\n"
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" xIndex=yIndex;\n"
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" yIndex=tmp;\n"
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" }\n"
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" \n"
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" myPair.x = xIndex;\n"
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" myPair.y = yIndex;\n"
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" myPair.z = NEW_PAIR_MARKER;\n"
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" myPair.w = NEW_PAIR_MARKER;\n"
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" int curPair = atomic_inc (pairCount);\n"
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" if (curPair<maxPairs)\n"
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" {\n"
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" pairsOut[curPair] = myPair; //flush to main memory\n"
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" }\n"
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" }\n"
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"}\n"
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"__kernel void computePairsKernelBruteForce( __global const btAabbCL* aabbs, volatile __global int4* pairsOut,volatile __global int* pairCount, int numObjects, int axis, int maxPairs)\n"
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"{\n"
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" int i = get_global_id(0);\n"
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" if (i>=numObjects)\n"
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" return;\n"
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" for (int j=i+1;j<numObjects;j++)\n"
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" {\n"
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" if (TestAabbAgainstAabb2GlobalGlobal(&aabbs[i],&aabbs[j]))\n"
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" {\n"
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" int4 myPair;\n"
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" myPair.x = aabbs[i].m_minIndices[3];\n"
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" myPair.y = aabbs[j].m_minIndices[3];\n"
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" myPair.z = NEW_PAIR_MARKER;\n"
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" myPair.w = NEW_PAIR_MARKER;\n"
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" int curPair = atomic_inc (pairCount);\n"
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" if (curPair<maxPairs)\n"
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" {\n"
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" pairsOut[curPair] = myPair; //flush to main memory\n"
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" }\n"
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" }\n"
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" }\n"
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"}\n"
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"__kernel void computePairsKernelOriginal( __global const btAabbCL* aabbs, volatile __global int4* pairsOut,volatile __global int* pairCount, int numObjects, int axis, int maxPairs)\n"
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"{\n"
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" int i = get_global_id(0);\n"
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" if (i>=numObjects)\n"
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" return;\n"
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" for (int j=i+1;j<numObjects;j++)\n"
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" {\n"
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" if(aabbs[i].m_maxElems[axis] < (aabbs[j].m_minElems[axis])) \n"
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" {\n"
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" break;\n"
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" }\n"
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" if (TestAabbAgainstAabb2GlobalGlobal(&aabbs[i],&aabbs[j]))\n"
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" {\n"
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" int4 myPair;\n"
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" myPair.x = aabbs[i].m_minIndices[3];\n"
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" myPair.y = aabbs[j].m_minIndices[3];\n"
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" myPair.z = NEW_PAIR_MARKER;\n"
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" myPair.w = NEW_PAIR_MARKER;\n"
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" int curPair = atomic_inc (pairCount);\n"
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" if (curPair<maxPairs)\n"
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" {\n"
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" pairsOut[curPair] = myPair; //flush to main memory\n"
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" }\n"
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" }\n"
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" }\n"
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"}\n"
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"__kernel void computePairsKernelBarrier( __global const btAabbCL* aabbs, volatile __global int4* pairsOut,volatile __global int* pairCount, int numObjects, int axis, int maxPairs)\n"
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"{\n"
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" int i = get_global_id(0);\n"
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" int localId = get_local_id(0);\n"
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" __local int numActiveWgItems[1];\n"
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" __local int breakRequest[1];\n"
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" if (localId==0)\n"
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" {\n"
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" numActiveWgItems[0] = 0;\n"
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" breakRequest[0] = 0;\n"
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" }\n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" atomic_inc(numActiveWgItems);\n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" int localBreak = 0;\n"
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" int j=i+1;\n"
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" do\n"
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" {\n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" \n"
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" if (j<numObjects)\n"
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" {\n"
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" if(aabbs[i].m_maxElems[axis] < (aabbs[j].m_minElems[axis])) \n"
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" {\n"
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" if (!localBreak)\n"
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" {\n"
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" atomic_inc(breakRequest);\n"
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" localBreak = 1;\n"
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" }\n"
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" }\n"
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" }\n"
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" \n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" \n"
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" if (j>=numObjects && !localBreak)\n"
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" {\n"
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" atomic_inc(breakRequest);\n"
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" localBreak = 1;\n"
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" }\n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" \n"
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" if (!localBreak)\n"
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" {\n"
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" if (TestAabbAgainstAabb2GlobalGlobal(&aabbs[i],&aabbs[j]))\n"
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" {\n"
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" int4 myPair;\n"
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" myPair.x = aabbs[i].m_minIndices[3];\n"
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" myPair.y = aabbs[j].m_minIndices[3];\n"
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" myPair.z = NEW_PAIR_MARKER;\n"
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" myPair.w = NEW_PAIR_MARKER;\n"
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" int curPair = atomic_inc (pairCount);\n"
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" if (curPair<maxPairs)\n"
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" {\n"
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" pairsOut[curPair] = myPair; //flush to main memory\n"
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" }\n"
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" }\n"
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" }\n"
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" j++;\n"
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" } while (breakRequest[0]<numActiveWgItems[0]);\n"
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"}\n"
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"__kernel void computePairsKernelLocalSharedMemory( __global const btAabbCL* aabbs, volatile __global int4* pairsOut,volatile __global int* pairCount, int numObjects, int axis, int maxPairs)\n"
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"{\n"
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" int i = get_global_id(0);\n"
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" int localId = get_local_id(0);\n"
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" __local int numActiveWgItems[1];\n"
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" __local int breakRequest[1];\n"
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" __local btAabbCL localAabbs[128];// = aabbs[i];\n"
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" \n"
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" btAabbCL myAabb;\n"
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" \n"
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" myAabb = (i<numObjects)? aabbs[i]:aabbs[0];\n"
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" float testValue = myAabb.m_maxElems[axis];\n"
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" \n"
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" if (localId==0)\n"
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" {\n"
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" numActiveWgItems[0] = 0;\n"
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" breakRequest[0] = 0;\n"
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" }\n"
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" int localCount=0;\n"
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" int block=0;\n"
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" localAabbs[localId] = (i+block)<numObjects? aabbs[i+block] : aabbs[0];\n"
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" localAabbs[localId+64] = (i+block+64)<numObjects? aabbs[i+block+64]: aabbs[0];\n"
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" \n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" atomic_inc(numActiveWgItems);\n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" int localBreak = 0;\n"
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" \n"
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" int j=i+1;\n"
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" do\n"
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" {\n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" \n"
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" if (j<numObjects)\n"
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" {\n"
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" if(testValue < (localAabbs[localCount+localId+1].m_minElems[axis])) \n"
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" {\n"
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" if (!localBreak)\n"
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" {\n"
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" atomic_inc(breakRequest);\n"
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" localBreak = 1;\n"
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" }\n"
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" }\n"
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" }\n"
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" \n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" \n"
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" if (j>=numObjects && !localBreak)\n"
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" {\n"
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" atomic_inc(breakRequest);\n"
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" localBreak = 1;\n"
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" }\n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" \n"
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" if (!localBreak)\n"
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" {\n"
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" if (TestAabbAgainstAabb2(&myAabb,&localAabbs[localCount+localId+1]))\n"
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" {\n"
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" int4 myPair;\n"
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" myPair.x = myAabb.m_minIndices[3];\n"
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" myPair.y = localAabbs[localCount+localId+1].m_minIndices[3];\n"
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" myPair.z = NEW_PAIR_MARKER;\n"
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" myPair.w = NEW_PAIR_MARKER;\n"
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" int curPair = atomic_inc (pairCount);\n"
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" if (curPair<maxPairs)\n"
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" {\n"
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" pairsOut[curPair] = myPair; //flush to main memory\n"
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" }\n"
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" }\n"
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" }\n"
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" \n"
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" barrier(CLK_LOCAL_MEM_FENCE);\n"
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" localCount++;\n"
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" if (localCount==64)\n"
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" {\n"
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" localCount = 0;\n"
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" block+=64; \n"
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" localAabbs[localId] = ((i+block)<numObjects) ? aabbs[i+block] : aabbs[0];\n"
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" localAabbs[localId+64] = ((i+64+block)<numObjects) ? aabbs[i+block+64] : aabbs[0];\n"
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" }\n"
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" j++;\n"
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" \n"
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" } while (breakRequest[0]<numActiveWgItems[0]);\n"
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" \n"
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"}\n"
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"//http://stereopsis.com/radix.html\n"
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"unsigned int FloatFlip(float fl);\n"
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"unsigned int FloatFlip(float fl)\n"
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"{\n"
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" unsigned int f = *(unsigned int*)&fl;\n"
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" unsigned int mask = -(int)(f >> 31) | 0x80000000;\n"
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" return f ^ mask;\n"
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"}\n"
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"float IFloatFlip(unsigned int f);\n"
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"float IFloatFlip(unsigned int f)\n"
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"{\n"
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" unsigned int mask = ((f >> 31) - 1) | 0x80000000;\n"
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" unsigned int fl = f ^ mask;\n"
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" return *(float*)&fl;\n"
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"}\n"
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"__kernel void copyAabbsKernel( __global const btAabbCL* allAabbs, __global btAabbCL* destAabbs, int numObjects)\n"
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"{\n"
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" int i = get_global_id(0);\n"
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" if (i>=numObjects)\n"
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" return;\n"
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" int src = destAabbs[i].m_maxIndices[3];\n"
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" destAabbs[i] = allAabbs[src];\n"
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" destAabbs[i].m_maxIndices[3] = src;\n"
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"}\n"
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"__kernel void flipFloatKernel( __global const btAabbCL* allAabbs, __global const int* smallAabbMapping, __global int2* sortData, int numObjects, int axis)\n"
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"{\n"
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" int i = get_global_id(0);\n"
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" if (i>=numObjects)\n"
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" return;\n"
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" \n"
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" \n"
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" sortData[i].x = FloatFlip(allAabbs[smallAabbMapping[i]].m_minElems[axis]);\n"
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" sortData[i].y = i;\n"
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" \n"
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"}\n"
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"__kernel void scatterKernel( __global const btAabbCL* allAabbs, __global const int* smallAabbMapping, volatile __global const int2* sortData, __global btAabbCL* sortedAabbs, int numObjects)\n"
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"{\n"
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" int i = get_global_id(0);\n"
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" if (i>=numObjects)\n"
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" return;\n"
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" \n"
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" sortedAabbs[i] = allAabbs[smallAabbMapping[sortData[i].y]];\n"
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"}\n"
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"__kernel void prepareSumVarianceKernel( __global const btAabbCL* allAabbs, __global const int* smallAabbMapping, __global float4* sum, __global float4* sum2,int numAabbs)\n"
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"{\n"
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" int i = get_global_id(0);\n"
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" if (i>=numAabbs)\n"
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" return;\n"
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" \n"
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" btAabbCL smallAabb = allAabbs[smallAabbMapping[i]];\n"
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" \n"
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" float4 s;\n"
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" s = (smallAabb.m_max+smallAabb.m_min)*0.5f;\n"
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" sum[i]=s;\n"
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" sum2[i]=s*s; \n"
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"}\n"
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;
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