/* * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you 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. */ #ifdef HAVE_CONFIG_H #include #endif #include #define _USE_MATH_DEFINES #include #include #include "thrift/protocol/TBinaryProtocol.h" #include "thrift/transport/TBufferTransports.h" #include "gen-cpp/DebugProtoTest_types.h" #ifdef HAVE_SYS_TIME_H #include #endif class Timer { public: timeval vStart; Timer() { THRIFT_GETTIMEOFDAY(&vStart, nullptr); } void start() { THRIFT_GETTIMEOFDAY(&vStart, nullptr); } double frame() { timeval vEnd; THRIFT_GETTIMEOFDAY(&vEnd, nullptr); double dstart = vStart.tv_sec + ((double)vStart.tv_usec / 1000000.0); double dend = vEnd.tv_sec + ((double)vEnd.tv_usec / 1000000.0); return dend - dstart; } }; int main() { using namespace thrift::test::debug; using namespace apache::thrift::transport; using namespace apache::thrift::protocol; using std::cout; using std::endl; OneOfEach ooe; ooe.im_true = true; ooe.im_false = false; ooe.a_bite = 0x7f; ooe.integer16 = 27000; ooe.integer32 = 1 << 24; ooe.integer64 = (uint64_t)6000 * 1000 * 1000; ooe.double_precision = M_PI; ooe.some_characters = "JSON THIS! \"\1"; ooe.zomg_unicode = "\xd7\n\a\t"; ooe.base64 = "\1\2\3\255"; int num = 100000; std::shared_ptr buf(new TMemoryBuffer(num*1000)); uint8_t* data = nullptr; uint32_t datasize = 0; { buf->resetBuffer(); TBinaryProtocolT prot(buf); double elapsed = 0.0; Timer timer; for (int i = 0; i < num; i++) { ooe.write(&prot); } elapsed = timer.frame(); cout << "Write big endian: " << num / (1000 * elapsed) << " kHz" << endl; } buf->getBuffer(&data, &datasize); { std::shared_ptr buf2(new TMemoryBuffer(data, datasize)); TBinaryProtocolT prot(buf2); OneOfEach ooe2; double elapsed = 0.0; Timer timer; for (int i = 0; i < num; i++) { ooe2.read(&prot); } elapsed = timer.frame(); cout << " Read big endian: " << num / (1000 * elapsed) << " kHz" << endl; } { buf->resetBuffer(); TBinaryProtocolT prot(buf); double elapsed = 0.0; Timer timer; for (int i = 0; i < num; i++) { ooe.write(&prot); } elapsed = timer.frame(); cout << "Write little endian: " << num / (1000 * elapsed) << " kHz" << endl; } { OneOfEach ooe2; std::shared_ptr buf2(new TMemoryBuffer(data, datasize)); TBinaryProtocolT prot(buf2); double elapsed = 0.0; Timer timer; for (int i = 0; i < num; i++) { ooe2.read(&prot); } elapsed = timer.frame(); cout << " Read little endian: " << num / (1000 * elapsed) << " kHz" << endl; } { buf->resetBuffer(); TBinaryProtocolT prot(buf); double elapsed = 0.0; Timer timer; for (int i = 0; i < num; i++) { ooe.write(&prot); } elapsed = timer.frame(); cout << "Write big endian: " << num / (1000 * elapsed) << " kHz" << endl; } { std::shared_ptr buf2(new TMemoryBuffer(data, datasize)); TBinaryProtocolT prot(buf2); OneOfEach ooe2; double elapsed = 0.0; Timer timer; for (int i = 0; i < num; i++) { ooe2.read(&prot); } elapsed = timer.frame(); cout << " Read big endian: " << num / (1000 * elapsed) << " kHz" << endl; } data = nullptr; datasize = 0; num = 10000000; ListDoublePerf listDoublePerf; listDoublePerf.field.reserve(num); for (int x = 0; x < num; ++x) listDoublePerf.field.push_back(double(x)); buf.reset(new TMemoryBuffer(num * 100)); { buf->resetBuffer(); TBinaryProtocolT prot(buf); double elapsed = 0.0; Timer timer; listDoublePerf.write(&prot); elapsed = timer.frame(); cout << "Double write big endian: " << num / (1000 * elapsed) << " kHz" << endl; } buf->getBuffer(&data, &datasize); { std::shared_ptr buf2(new TMemoryBuffer(data, datasize)); TBinaryProtocolT prot(buf2); ListDoublePerf listDoublePerf2; double elapsed = 0.0; Timer timer; listDoublePerf2.read(&prot); elapsed = timer.frame(); cout << " Double read big endian: " << num / (1000 * elapsed) << " kHz" << endl; } { buf->resetBuffer(); TBinaryProtocolT prot(buf); double elapsed = 0.0; Timer timer; listDoublePerf.write(&prot); elapsed = timer.frame(); cout << "Double write little endian: " << num / (1000 * elapsed) << " kHz" << endl; } { ListDoublePerf listDoublePerf2; std::shared_ptr buf2(new TMemoryBuffer(data, datasize)); TBinaryProtocolT prot(buf2); double elapsed = 0.0; Timer timer; listDoublePerf2.read(&prot); elapsed = timer.frame(); cout << " Double read little endian: " << num / (1000 * elapsed) << " kHz" << endl; } { buf->resetBuffer(); TBinaryProtocolT prot(buf); double elapsed = 0.0; Timer timer; listDoublePerf.write(&prot); elapsed = timer.frame(); cout << "Double write big endian: " << num / (1000 * elapsed) << " kHz" << endl; } { std::shared_ptr buf2(new TMemoryBuffer(data, datasize)); TBinaryProtocolT prot(buf2); ListDoublePerf listDoublePerf2; double elapsed = 0.0; Timer timer; listDoublePerf2.read(&prot); elapsed = timer.frame(); cout << " Double read big endian: " << num / (1000 * elapsed) << " kHz" << endl; } return 0; }