502 lines
17 KiB
C++
502 lines
17 KiB
C++
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/*
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Copyright (c) 2005-2016 Intel Corporation
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Licensed under the Apache License, Version 2.0 (the "License");
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you may not use this file except in compliance with the License.
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You may obtain a copy of the License at
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http://www.apache.org/licenses/LICENSE-2.0
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Unless required by applicable law or agreed to in writing, software
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distributed under the License is distributed on an "AS IS" BASIS,
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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See the License for the specific language governing permissions and
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limitations under the License.
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*/
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#define TBB_PREVIEW_FLOW_GRAPH_FEATURES 1
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#include "tbb/tbb_config.h"
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#include "../../common/utility/utility.h"
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#if __TBB_PREVIEW_ASYNC_MSG && __TBB_CPP11_LAMBDAS_PRESENT
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#include <iostream>
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#include <fstream>
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#include <string>
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#include <memory>
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#include <queue>
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#include "bzlib.h"
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#include "tbb/flow_graph.h"
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#include "tbb/tick_count.h"
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#include "tbb/compat/thread"
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#include "tbb/concurrent_queue.h"
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// TODO: change memory allocation/deallocation to be managed in constructor/destructor
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struct Buffer {
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size_t len;
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char* b;
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};
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struct BufferMsg {
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BufferMsg() {}
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BufferMsg(Buffer& inputBuffer, Buffer& outputBuffer, size_t seqId, bool isLast = false)
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: inputBuffer(inputBuffer), outputBuffer(outputBuffer), seqId(seqId), isLast(isLast) {}
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static BufferMsg createBufferMsg(size_t seqId, size_t chunkSize) {
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Buffer inputBuffer;
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inputBuffer.b = new char[chunkSize];
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inputBuffer.len = chunkSize;
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Buffer outputBuffer;
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size_t compressedChunkSize = chunkSize * 1.01 + 600; // compression overhead
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outputBuffer.b = new char[compressedChunkSize];
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outputBuffer.len = compressedChunkSize;
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return BufferMsg(inputBuffer, outputBuffer, seqId);
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}
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static void destroyBufferMsg(const BufferMsg& destroyMsg) {
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delete[] destroyMsg.inputBuffer.b;
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delete[] destroyMsg.outputBuffer.b;
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}
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void markLast(size_t lastId) {
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isLast = true;
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seqId = lastId;
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}
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size_t seqId;
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Buffer inputBuffer;
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Buffer outputBuffer;
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bool isLast;
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};
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class BufferCompressor {
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public:
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BufferCompressor(int blockSizeIn100KB) : m_blockSize(blockSizeIn100KB) {}
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BufferMsg operator()(BufferMsg buffer) const {
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if (!buffer.isLast) {
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unsigned int outSize = buffer.outputBuffer.len;
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BZ2_bzBuffToBuffCompress(buffer.outputBuffer.b, &outSize,
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buffer.inputBuffer.b, buffer.inputBuffer.len,
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m_blockSize, 0, 30);
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buffer.outputBuffer.len = outSize;
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}
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return buffer;
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}
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private:
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int m_blockSize;
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};
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class IOOperations {
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public:
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IOOperations(std::ifstream& inputStream, std::ofstream& outputStream, size_t chunkSize)
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: m_inputStream(inputStream), m_outputStream(outputStream), m_chunkSize(chunkSize), m_chunksRead(0) {}
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void readChunk(Buffer& buffer) {
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m_inputStream.read(buffer.b, m_chunkSize);
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buffer.len = static_cast<size_t>(m_inputStream.gcount());
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m_chunksRead++;
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}
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void writeChunk(const Buffer& buffer) {
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m_outputStream.write(buffer.b, buffer.len);
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}
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size_t chunksRead() const {
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return m_chunksRead;
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}
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size_t chunkSize() const {
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return m_chunkSize;
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}
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bool hasDataToRead() const {
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return m_inputStream.is_open() && !m_inputStream.eof();
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}
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private:
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std::ifstream& m_inputStream;
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std::ofstream& m_outputStream;
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size_t m_chunkSize;
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size_t m_chunksRead;
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};
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//-----------------------------------------------------------------------------------------------------------------------
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//---------------------------------------Compression example based on async_node-----------------------------------------
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//-----------------------------------------------------------------------------------------------------------------------
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typedef tbb::flow::async_node< tbb::flow::continue_msg, BufferMsg > async_file_reader_node;
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typedef tbb::flow::async_node< BufferMsg, tbb::flow::continue_msg > async_file_writer_node;
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class AsyncNodeActivity {
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public:
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AsyncNodeActivity(IOOperations& io)
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: m_io(io), m_fileWriterThread(&AsyncNodeActivity::writingLoop, this) {}
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~AsyncNodeActivity() {
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m_fileReaderThread.join();
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m_fileWriterThread.join();
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}
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void submitRead(async_file_reader_node::gateway_type& gateway) {
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gateway.reserve_wait();
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std::thread(&AsyncNodeActivity::readingLoop, this, std::ref(gateway)).swap(m_fileReaderThread);
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}
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void submitWrite(const BufferMsg& bufferMsg) {
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m_writeQueue.push(bufferMsg);
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}
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private:
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void readingLoop(async_file_reader_node::gateway_type& gateway) {
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while (m_io.hasDataToRead()) {
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BufferMsg bufferMsg = BufferMsg::createBufferMsg(m_io.chunksRead(), m_io.chunkSize());
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m_io.readChunk(bufferMsg.inputBuffer);
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gateway.try_put(bufferMsg);
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}
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sendLastMessage(gateway);
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gateway.release_wait();
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}
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void writingLoop() {
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BufferMsg buffer;
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m_writeQueue.pop(buffer);
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while (!buffer.isLast) {
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m_io.writeChunk(buffer.outputBuffer);
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m_writeQueue.pop(buffer);
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}
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}
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void sendLastMessage(async_file_reader_node::gateway_type& gateway) {
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BufferMsg lastMsg;
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lastMsg.markLast(m_io.chunksRead());
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gateway.try_put(lastMsg);
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}
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IOOperations& m_io;
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tbb::concurrent_bounded_queue< BufferMsg > m_writeQueue;
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std::thread m_fileReaderThread;
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std::thread m_fileWriterThread;
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};
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void fgCompressionAsyncNode(IOOperations& io, int blockSizeIn100KB) {
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tbb::flow::graph g;
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AsyncNodeActivity asyncNodeActivity(io);
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async_file_reader_node file_reader(g, tbb::flow::unlimited, [&asyncNodeActivity](const tbb::flow::continue_msg& msg, async_file_reader_node::gateway_type& gateway) {
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asyncNodeActivity.submitRead(gateway);
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});
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tbb::flow::function_node< BufferMsg, BufferMsg > compressor(g, tbb::flow::unlimited, BufferCompressor(blockSizeIn100KB));
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tbb::flow::sequencer_node< BufferMsg > ordering(g, [](const BufferMsg& bufferMsg)->size_t {
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return bufferMsg.seqId;
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});
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// The node is serial to preserve the right order of buffers set by the preceding sequencer_node
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async_file_writer_node output_writer(g, tbb::flow::serial, [&asyncNodeActivity](const BufferMsg& bufferMsg, async_file_writer_node::gateway_type& gateway) {
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asyncNodeActivity.submitWrite(bufferMsg);
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});
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make_edge(file_reader, compressor);
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make_edge(compressor, ordering);
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make_edge(ordering, output_writer);
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file_reader.try_put(tbb::flow::continue_msg());
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g.wait_for_all();
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}
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//-----------------------------------------------------------------------------------------------------------------------
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//------------------------------------------Compression example based on async_msg---------------------------------------
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//-----------------------------------------------------------------------------------------------------------------------
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typedef tbb::flow::async_msg< BufferMsg > async_msg_type;
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class AsyncMsgActivity {
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public:
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AsyncMsgActivity(tbb::flow::graph& g, IOOperations& io)
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: m_io(io), m_graph(g), m_fileReaderThread(&AsyncMsgActivity::readingLoop, this),
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m_fileWriterThread(&AsyncMsgActivity::writingLoop, this)
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{
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// Graph synchronization starts here and ends
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// when the last buffer was written in "writing thread"
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m_graph.increment_wait_count();
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}
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~AsyncMsgActivity() {
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m_fileReaderThread.join();
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m_fileWriterThread.join();
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// Lets release resources that async
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// activity and graph were acquired
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freeBuffers();
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}
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async_msg_type submitRead(BufferMsg& bufferMsg) {
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async_msg_type msg;
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work_type readWork = { bufferMsg, msg };
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m_readQueue.push(readWork);
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return msg;
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}
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async_msg_type submitWrite(const BufferMsg& bufferMsg) {
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async_msg_type msg;
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work_type writeWork = { bufferMsg, msg };
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m_writeQueue.push(writeWork);
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return msg;
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}
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private:
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struct work_type {
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BufferMsg bufferMsg;
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async_msg_type msg;
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};
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void readingLoop() {
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work_type readWork;
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m_readQueue.pop(readWork);
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// Reading thread waits for buffers to be received
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// (the graph reuses limitted number of buffers)
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// and reads the file while there is something to read
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while (m_io.hasDataToRead()) {
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readWork.bufferMsg.seqId = m_io.chunksRead();
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m_io.readChunk(readWork.bufferMsg.inputBuffer);
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readWork.msg.set(readWork.bufferMsg);
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m_readQueue.pop(readWork);
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}
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// Pass message with an end flag to the graph
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sendLastMessage(readWork);
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}
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void sendLastMessage(work_type& work) {
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work.bufferMsg.markLast(m_io.chunksRead());
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work.msg.set(work.bufferMsg);
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}
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void writingLoop() {
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work_type writeWork;
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m_writeQueue.pop(writeWork);
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// Writing thread writes all buffers that it gets
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// and reuses them. At the end all reusing buffers
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// is stored in read queue
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while (!writeWork.bufferMsg.isLast) {
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m_io.writeChunk(writeWork.bufferMsg.outputBuffer);
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writeWork.msg.set(writeWork.bufferMsg);
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m_writeQueue.pop(writeWork);
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}
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// Store last message to the reading queue to free resources later
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writeWork.msg.set(writeWork.bufferMsg);
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// After all buffers have been written
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// the synchronization ends
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m_graph.decrement_wait_count();
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}
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void freeBuffers() {
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int buffersNumber = m_readQueue.size();
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for (int i = 0; i < buffersNumber; i++) {
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work_type workToDelete;
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m_readQueue.pop(workToDelete);
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BufferMsg::destroyBufferMsg(workToDelete.bufferMsg);
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}
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}
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IOOperations& m_io;
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tbb::flow::graph& m_graph;
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tbb::concurrent_bounded_queue< work_type > m_writeQueue;
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tbb::concurrent_bounded_queue< work_type > m_readQueue;
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std::thread m_fileReaderThread;
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std::thread m_fileWriterThread;
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};
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void fgCompressionAsyncMsg(IOOperations& io, int blockSizeIn100KB, size_t memoryLimitIn1MB) {
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// Memory limit sets the number of buffers that can be reused
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int buffersNumber = memoryLimitIn1MB * 1000 * 1024 / io.chunkSize();
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tbb::flow::graph g;
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AsyncMsgActivity asyncMsgActivity(g, io);
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tbb::flow::function_node< BufferMsg, async_msg_type > file_reader(g, tbb::flow::unlimited, [&asyncMsgActivity](BufferMsg bufferMsg) -> async_msg_type {
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return asyncMsgActivity.submitRead(bufferMsg);
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});
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tbb::flow::function_node< BufferMsg, BufferMsg > compressor(g, tbb::flow::unlimited, BufferCompressor(blockSizeIn100KB));
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tbb::flow::sequencer_node< BufferMsg > ordering(g, [](const BufferMsg& bufferMsg) -> size_t {
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return bufferMsg.seqId;
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});
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// The node is serial to preserve the right order of buffers set by the preceding sequencer_node
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tbb::flow::function_node< BufferMsg, async_msg_type > output_writer(g, tbb::flow::serial, [&asyncMsgActivity](const BufferMsg& bufferMsg) -> async_msg_type {
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return asyncMsgActivity.submitWrite(bufferMsg);
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});
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make_edge(file_reader, compressor);
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make_edge(compressor, ordering);
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make_edge(ordering, output_writer);
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make_edge(output_writer, file_reader);
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// Creating buffers to be reused in read/compress/write graph loop
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for (int i = 0; i < buffersNumber; i++) {
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BufferMsg reuseBufferMsg = BufferMsg::createBufferMsg(0, io.chunkSize());
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file_reader.try_put(reuseBufferMsg);
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}
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g.wait_for_all();
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}
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//-----------------------------------------------------------------------------------------------------------------------
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//---------------------------------------------Simple compression example------------------------------------------------
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//-----------------------------------------------------------------------------------------------------------------------
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void fgCompression(IOOperations& io, int blockSizeIn100KB) {
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tbb::flow::graph g;
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tbb::flow::source_node< BufferMsg > file_reader(g, [&io](BufferMsg& bufferMsg)->bool {
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if (io.hasDataToRead()) {
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bufferMsg = BufferMsg::createBufferMsg(io.chunksRead(), io.chunkSize());
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io.readChunk(bufferMsg.inputBuffer);
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return true;
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}
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return false;
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});
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tbb::flow::function_node< BufferMsg, BufferMsg > compressor(g, tbb::flow::unlimited, BufferCompressor(blockSizeIn100KB));
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tbb::flow::sequencer_node< BufferMsg > ordering(g, [](const BufferMsg& buffer)->size_t {
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return buffer.seqId;
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});
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tbb::flow::function_node< BufferMsg > output_writer(g, tbb::flow::serial, [&io](const BufferMsg& bufferMsg) {
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io.writeChunk(bufferMsg.outputBuffer);
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BufferMsg::destroyBufferMsg(bufferMsg);
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});
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make_edge(file_reader, compressor);
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make_edge(compressor, ordering);
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make_edge(ordering, output_writer);
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g.wait_for_all();
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}
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//-----------------------------------------------------------------------------------------------------------------------
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bool endsWith(const std::string& str, const std::string& suffix) {
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return str.find(suffix, str.length() - suffix.length()) != std::string::npos;
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}
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//-----------------------------------------------------------------------------------------------------------------------
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int main(int argc, char* argv[]) {
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try {
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tbb::tick_count mainStartTime = tbb::tick_count::now();
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const std::string archiveExtension = ".bz2";
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bool verbose = false;
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std::string asyncType;
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std::string inputFileName;
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int blockSizeIn100KB = 1; // block size in 100KB chunks
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size_t memoryLimitIn1MB = 1; // memory limit for compression in megabytes granularity
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utility::parse_cli_arguments(argc, argv,
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utility::cli_argument_pack()
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//"-h" option for displaying help is present implicitly
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.arg(blockSizeIn100KB, "-b", "\t block size in 100KB chunks, [1 .. 9]")
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.arg(verbose, "-v", "verbose mode")
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.arg(memoryLimitIn1MB, "-l", "used memory limit for compression algorithm in 1MB (minimum) granularity")
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.arg(asyncType, "-a", "name of the used graph async implementation - can be async_node or async_msg")
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.positional_arg(inputFileName, "filename", "input file name")
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);
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if (inputFileName.empty()) {
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throw std::invalid_argument("Input file name is not specified. Try 'fgbzip2 -h' for more information.");
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}
|
||
|
|
||
|
if (blockSizeIn100KB < 1 || blockSizeIn100KB > 9) {
|
||
|
throw std::invalid_argument("Incorrect block size. Try 'fgbzip2 -h' for more information.");
|
||
|
}
|
||
|
|
||
|
if (memoryLimitIn1MB < 1) {
|
||
|
throw std::invalid_argument("Incorrect memory limit size. Try 'fgbzip2 -h' for more information.");
|
||
|
}
|
||
|
|
||
|
if (verbose) std::cout << "Input file name: " << inputFileName << std::endl;
|
||
|
if (endsWith(inputFileName, archiveExtension)) {
|
||
|
throw std::invalid_argument("Input file already have " + archiveExtension + " extension.");
|
||
|
}
|
||
|
|
||
|
std::ifstream inputStream(inputFileName.c_str(), std::ios::in | std::ios::binary);
|
||
|
if (!inputStream.is_open()) {
|
||
|
throw std::invalid_argument("Cannot open " + inputFileName + " file.");
|
||
|
}
|
||
|
|
||
|
std::string outputFileName(inputFileName + archiveExtension);
|
||
|
|
||
|
std::ofstream outputStream(outputFileName.c_str(), std::ios::out | std::ios::binary | std::ios::trunc);
|
||
|
if (!outputStream.is_open()) {
|
||
|
throw std::invalid_argument("Cannot open " + outputFileName + " file.");
|
||
|
}
|
||
|
|
||
|
// General interface to work with I/O buffers operations
|
||
|
size_t chunkSize = blockSizeIn100KB * 100 * 1024;
|
||
|
IOOperations io(inputStream, outputStream, chunkSize);
|
||
|
|
||
|
if (asyncType.empty()) {
|
||
|
if (verbose) std::cout << "Running flow graph based compression algorithm." << std::endl;
|
||
|
fgCompression(io, blockSizeIn100KB);
|
||
|
} else if (asyncType == "async_node") {
|
||
|
if (verbose) std::cout << "Running flow graph based compression algorithm with async_node based asynchronious IO operations." << std::endl;
|
||
|
fgCompressionAsyncNode(io, blockSizeIn100KB);
|
||
|
} else if (asyncType == "async_msg") {
|
||
|
if (verbose) std::cout << "Running flow graph based compression algorithm with async_msg based asynchronious IO operations. Using limited memory: " << memoryLimitIn1MB << "MB." << std::endl;
|
||
|
fgCompressionAsyncMsg(io, blockSizeIn100KB, memoryLimitIn1MB);
|
||
|
}
|
||
|
|
||
|
inputStream.close();
|
||
|
outputStream.close();
|
||
|
|
||
|
utility::report_elapsed_time((tbb::tick_count::now() - mainStartTime).seconds());
|
||
|
|
||
|
return 0;
|
||
|
} catch (std::exception& e) {
|
||
|
std::cerr << "Error occurred. Error text is : \"" << e.what() << "\"\n";
|
||
|
return -1;
|
||
|
}
|
||
|
}
|
||
|
#else
|
||
|
int main() {
|
||
|
utility::report_skipped();
|
||
|
return 0;
|
||
|
}
|
||
|
#endif /* __TBB_PREVIEW_ASYNC_NODE && __TBB_CPP11_LAMBDAS_PRESENT */
|