// ======================================================================== // // Copyright 2009-2017 Intel Corporation // // // // 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. // // ======================================================================== // #pragma once #include "../common/tasking/taskscheduler.h" #include "../sys/array.h" #include "../math/math.h" #include "../common/math/range.h" namespace embree { /* parallel_for without range */ template __forceinline void parallel_for( const Index N, const Func& func) { #if defined(TASKING_INTERNAL) if (N) { TaskScheduler::spawn(Index(0),N,Index(1),[&] (const range& r) { assert(r.size() == 1); func(r.begin()); }); if (!TaskScheduler::wait()) throw std::runtime_error("task cancelled"); } #elif defined(TASKING_TBB) tbb::parallel_for(Index(0),N,Index(1),[&](Index i) { func(i); }); if (tbb::task::self().is_cancelled()) throw std::runtime_error("task cancelled"); #elif defined(TASKING_PPL) concurrency::parallel_for(Index(0),N,Index(1),[&](Index i) { func(i); }); #else # error "no tasking system enabled" #endif } /* parallel for with range and granulatity */ template __forceinline void parallel_for( const Index first, const Index last, const Index minStepSize, const Func& func) { assert(first <= last); #if defined(TASKING_INTERNAL) TaskScheduler::spawn(first,last,minStepSize,func); if (!TaskScheduler::wait()) throw std::runtime_error("task cancelled"); #elif defined(TASKING_TBB) tbb::parallel_for(tbb::blocked_range(first,last,minStepSize),[&](const tbb::blocked_range& r) { func(range(r.begin(),r.end())); }); if (tbb::task::self().is_cancelled()) throw std::runtime_error("task cancelled"); #elif defined(TASKING_PPL) concurrency::parallel_for(first, last, Index(1) /*minStepSize*/, [&](Index i) { func(range(i,i+1)); }); #else # error "no tasking system enabled" #endif } /* parallel for with range */ template __forceinline void parallel_for( const Index first, const Index last, const Func& func) { assert(first <= last); parallel_for(first,last,(Index)1,func); } #if defined(TASKING_TBB) && (TBB_INTERFACE_VERSION > 4001) template __forceinline void parallel_for_static( const Index N, const Func& func) { tbb::parallel_for(Index(0),N,Index(1),[&](Index i) { func(i); },tbb::simple_partitioner()); if (tbb::task::self().is_cancelled()) throw std::runtime_error("task cancelled"); } typedef tbb::affinity_partitioner affinity_partitioner; template __forceinline void parallel_for_affinity( const Index N, const Func& func, tbb::affinity_partitioner& ap) { tbb::parallel_for(Index(0),N,Index(1),[&](Index i) { func(i); },ap); if (tbb::task::self().is_cancelled()) throw std::runtime_error("task cancelled"); } #else template __forceinline void parallel_for_static( const Index N, const Func& func) { parallel_for(N,func); } struct affinity_partitioner { }; template __forceinline void parallel_for_affinity( const Index N, const Func& func, affinity_partitioner& ap) { parallel_for(N,func); } #endif }