/******************************************************************************* * Copyright (c) 2015-2018 Skymind, Inc. * * This program and the accompanying materials are made available under the * terms of the Apache License, Version 2.0 which is available at * https://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. * * SPDX-License-Identifier: Apache-2.0 ******************************************************************************/ // // @author raver119@gmail.com // #include #include namespace samediff { CallableInterface::CallableInterface() { // initial state is available _available = true; _filled = false; _finished = false; } bool CallableInterface::available() { return _available.load(); } void CallableInterface::markUnavailable() { _available = false; } void CallableInterface::markAvailable() { _available = true; } void CallableInterface::fill(int threadID, int numThreads, FUNC_DO func) { _function_do = std::move(func); _branch = 0; _num_threads = numThreads; _thread_id = threadID; _finished = false; { std::unique_lock l(_ms); _filled = true; } _starter.notify_one(); } void CallableInterface::fill(int threadID, int numThreads, FUNC_1D func, int64_t startX, int64_t stopX, int64_t incX) { _function_1d = std::move(func); _arguments[0] = startX; _arguments[1] = stopX; _arguments[2] = incX; _branch = 1; _num_threads = numThreads; _thread_id = threadID; _finished = false; { std::unique_lock l(_ms); _filled = true; } _starter.notify_one(); } void CallableInterface::fill(int threadID, int numThreads, FUNC_2D func, int64_t startX, int64_t stopX, int64_t incX, int64_t start_y, int64_t stop_y, int64_t inc_y) { _function_2d = std::move(func); _arguments[0] = startX; _arguments[1] = stopX; _arguments[2] = incX; _arguments[3] = start_y; _arguments[4] = stop_y; _arguments[5] = inc_y; _branch = 2; _num_threads = numThreads; _thread_id = threadID; _finished = false; { std::unique_lock l(_ms); _filled = true; } _starter.notify_one(); } void CallableInterface::fill(int threadID, int numThreads, FUNC_3D func, int64_t startX, int64_t stopX, int64_t incX, int64_t start_y, int64_t stop_y, int64_t inc_y, int64_t start_z, int64_t stop_z, int64_t inc_z) { _function_3d = std::move(func); _arguments[0] = startX; _arguments[1] = stopX; _arguments[2] = incX; _arguments[3] = start_y; _arguments[4] = stop_y; _arguments[5] = inc_y; _arguments[6] = start_z; _arguments[7] = stop_z; _arguments[8] = inc_z; _branch = 3; _num_threads = numThreads; _thread_id = threadID; _finished = false; { std::unique_lock l(_ms); _filled = true; } _starter.notify_one(); } void CallableInterface::fill(int threadID, int numThreads, int64_t *lptr, FUNC_RL func, int64_t startX, int64_t stopX, int64_t incX) { _function_rl = std::move(func); _arguments[0] = startX; _arguments[1] = stopX; _arguments[2] = incX; _lptr = lptr; _branch = 4; _num_threads = numThreads; _thread_id = threadID; _finished = false; { std::unique_lock l(_ms); _filled = true; } _starter.notify_one(); } void CallableInterface::fill(int threadID, int numThreads, double *dptr, FUNC_RD func, int64_t startX, int64_t stopX, int64_t incX) { _function_rd = std::move(func); _arguments[0] = startX; _arguments[1] = stopX; _arguments[2] = incX; _dptr = dptr; _branch = 5; _num_threads = numThreads; _thread_id = threadID; _finished = false; { std::unique_lock l(_ms); _filled = true; } _starter.notify_one(); } void CallableInterface::waitForTask() { // block until task is available std::unique_lock lock(_ms); _starter.wait(lock, [&]{ return _filled.load(); }); } void CallableInterface::waitForCompletion() { //while (!_finished.load()); // block until finished std::unique_lock lock(_mf); _finisher.wait(lock, [&] { return _finished.load(); }); } void CallableInterface::finish() { // mark as finished { std::unique_lock l(_mf); _finished.store(true); } _finisher.notify_one(); } void CallableInterface::execute() { // mark it as consumed _filled = false; // actually executing op switch (_branch) { case 0: _function_do(_thread_id, _num_threads); break; case 1: _function_1d(_thread_id, _arguments[0], _arguments[1], _arguments[2]); break; case 2: _function_2d(_thread_id, _arguments[0], _arguments[1], _arguments[2], _arguments[3], _arguments[4], _arguments[5]); break; case 3: _function_3d(_thread_id, _arguments[0], _arguments[1], _arguments[2], _arguments[3], _arguments[4], _arguments[5], _arguments[6], _arguments[7], _arguments[8]); break; case 4: _lptr[0] = _function_rl(_thread_id, _arguments[0], _arguments[1], _arguments[2]); break; case 5: _dptr[0] = _function_rd(_thread_id, _arguments[0], _arguments[1], _arguments[2]); break; } // notify that thread finished the job this->finish(); } }