/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved. 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. */ // NOTE: This file was originally created by tensorflow // (https://github.com/tensorflow/tensorflow/) we borrow this // file and did some modifications so that we can send gRPC // requests without too much copying of the tensor data. #pragma once #include #include "grpc++/grpc++.h" #include "paddle/fluid/platform/enforce.h" namespace paddle { namespace operators { namespace distributed { char* EncodeVarint32(char* dst, uint32_t v) { // Operate on characters as unsigneds unsigned char* ptr = reinterpret_cast(dst); static const int B = 128; if (v < (1 << 7)) { *(ptr++) = v; } else if (v < (1 << 14)) { *(ptr++) = v | B; *(ptr++) = v >> 7; } else if (v < (1 << 21)) { *(ptr++) = v | B; *(ptr++) = (v >> 7) | B; *(ptr++) = v >> 14; } else if (v < (1 << 28)) { *(ptr++) = v | B; *(ptr++) = (v >> 7) | B; *(ptr++) = (v >> 14) | B; *(ptr++) = v >> 21; } else { *(ptr++) = v | B; *(ptr++) = (v >> 7) | B; *(ptr++) = (v >> 14) | B; *(ptr++) = (v >> 21) | B; *(ptr++) = v >> 28; } return reinterpret_cast(ptr); } char* EncodeVarint64(char* dst, uint64_t v) { static const int B = 128; unsigned char* ptr = reinterpret_cast(dst); while (v >= B) { *(ptr++) = (v & (B - 1)) | B; v >>= 7; } *(ptr++) = static_cast(v); return reinterpret_cast(ptr); } int VarintLength(uint64_t v) { int len = 1; while (v >= 128) { v >>= 7; len++; } return len; } class ProtoEncodeHelper { public: ProtoEncodeHelper(char* buf, int max_size) : base_(buf), p_(buf), limit_(base_ + max_size) {} ~ProtoEncodeHelper() {} const char* data() const { return base_; } size_t size() const { return p_ - base_; } void WriteUint64(int tag, uint64_t v) { Encode32(combine(tag, WIRETYPE_VARINT)); Encode64(v); } void WriteBool(int tag, bool v) { Encode32(combine(tag, WIRETYPE_VARINT)); EncodeBool(v); } void WriteString(int tag, const std::string& v) { Encode32(combine(tag, WIRETYPE_LENGTH_DELIMITED)); Encode32(v.size()); EncodeBytes(v.data(), v.size()); } void WriteVarlengthBeginning(int tag, uint32_t len) { Encode32(combine(tag, WIRETYPE_LENGTH_DELIMITED)); Encode32(len); } void WriteRawBytes(const std::string& v) { EncodeBytes(v.data(), v.size()); } private: // Note: this module's behavior must match the protocol buffer wire encoding // format. enum { WIRETYPE_VARINT = 0, WIRETYPE_LENGTH_DELIMITED = 2, }; static uint32_t combine(uint32_t tag, uint32_t type) { return ((tag << 3) | type); } inline void Encode32(uint32_t v) { if (v < 128) { // Fast path for single-byte values. Many of the calls will use a // constant value for v, so the comparison will get optimized away // when Encode32 is inlined into the caller. *p_ = v; p_++; } else { p_ = EncodeVarint32(p_, v); } } void Encode64(uint64_t v) { p_ = EncodeVarint64(p_, v); } void EncodeBool(bool v) { *p_ = (v ? 1 : 0); // Equal to varint32 encoding of 0 or 1 p_++; } void EncodeBytes(const char* bytes, int N) { memcpy(p_, bytes, N); p_ += N; } char* base_; char* p_; char* limit_; // Just for CHECKs }; } // namespace distributed } // namespace operators } // namespace paddle