fork of https://github.com/oxigraph/rocksdb and https://github.com/facebook/rocksdb for nextgraph and oxigraph
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357 lines
9.3 KiB
357 lines
9.3 KiB
/**
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* Copyright 2012 Facebook
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* @author Tudor Bosman (tudorb@fb.com)
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*/
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#ifndef THRIFT_LIB_CPP_PROTOCOL_NEUTRONIUM_ENCODER_INL_H_
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#define THRIFT_LIB_CPP_PROTOCOL_NEUTRONIUM_ENCODER_INL_H_
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#ifndef THRIFT_INCLUDE_ENCODER_INL
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#error This file may only be included from Encoder.h
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#endif
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#include "folly/Conv.h"
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namespace apache {
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namespace thrift {
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namespace protocol {
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namespace neutronium {
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inline void Encoder::writeFieldBegin(const char* name, TType fieldType,
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int16_t fieldId) {
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auto& s = top();
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DCHECK(s.state == IN_STRUCT);
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s.field = s.dataType->fields.at(fieldId);
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s.tag = fieldId;
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s.state = IN_FIELD;
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}
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inline void Encoder::writeFieldEnd() {
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auto& s = top();
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DCHECK(s.state == DONE_FIELD);
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s.tag = 0;
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s.field.clear();
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s.state = IN_STRUCT;
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}
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inline void Encoder::writeFieldStop() {
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auto& s = top();
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DCHECK(s.state == IN_STRUCT);
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flush();
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}
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inline bool Encoder::EncoderState::inDataState() const {
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return (state == IN_FIELD ||
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state == IN_MAP_KEY ||
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state == IN_MAP_VALUE ||
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state == IN_LIST_VALUE ||
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state == IN_SET_VALUE);
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}
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inline bool Encoder::EncoderState::inFlushableState() const {
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return (state == IN_STRUCT ||
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state == IN_MAP_KEY ||
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state == IN_LIST_VALUE ||
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state == IN_SET_VALUE);
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}
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inline void Encoder::EncoderState::dataWritten() {
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switch (state) {
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case IN_FIELD:
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state = DONE_FIELD;
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break;
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case IN_MAP_KEY:
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state = IN_MAP_VALUE;
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field.type = dataType->valueType;
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break;
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case IN_MAP_VALUE:
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state = IN_MAP_KEY;
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field.type = dataType->mapKeyType;
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break;
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case IN_LIST_VALUE:
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break;
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case IN_SET_VALUE:
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break;
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default:
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LOG(FATAL) << "Invalid state " << state;
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}
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}
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template <class C, class T>
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inline size_t findIndex(const C& container, T val) {
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auto pos = container.find(val);
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if (pos == container.end()) throw std::out_of_range("not found");
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return pos - container.begin();
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}
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inline void Encoder::EncoderState::markFieldSet() {
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// only useful for structs
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if (state != IN_FIELD || field.isRequired) return;
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optionalSet[findIndex(dataType->optionalFields, tag)] = true;
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}
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template <typename... Args>
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inline void Encoder::EncoderState::checkType() const {
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throw TLibraryException(folly::to<std::string>("Invalid type ", field.type));
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}
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template <typename... Args>
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inline void Encoder::EncoderState::checkType(reflection::Type t,
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Args... tail) const {
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if (t == reflection::getType(field.type)) return;
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checkType(tail...);
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}
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template <class Vec>
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inline void Encoder::EncoderState::appendToOutput(const Vec& vec) {
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size_t bytes = vec.size() * sizeof(typename Vec::value_type::second_type);
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for (auto& p : vec) {
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appender.writeBE(p.second);
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}
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bytesWritten += bytes;
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}
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inline void Encoder::writeMapBegin(TType keyType, TType valType,
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uint32_t size) {
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push(reflection::TYPE_MAP, topType(), size);
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}
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inline void Encoder::writeMapEnd() {
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DCHECK_EQ(top().state, IN_MAP_KEY);
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flush();
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pop();
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}
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inline void Encoder::writeListBegin(TType elemType, uint32_t size) {
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push(reflection::TYPE_LIST, topType(), size);
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}
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inline void Encoder::writeListEnd() {
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DCHECK_EQ(top().state, IN_LIST_VALUE);
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flush();
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pop();
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}
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inline void Encoder::writeSetBegin(TType elemType, uint32_t size) {
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push(reflection::TYPE_SET, topType(), size);
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}
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inline void Encoder::writeSetEnd() {
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DCHECK_EQ(top().state, IN_SET_VALUE);
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flush();
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pop();
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}
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inline void Encoder::writeStructBegin(const char* name) {
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push(reflection::TYPE_STRUCT, topType(), 0);
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}
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inline void Encoder::writeStructEnd() {
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DCHECK_EQ(top().state, FLUSHED);
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// writeFieldStop() called flush()
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pop();
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}
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inline void Encoder::push(reflection::Type rtype, int64_t type,
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uint32_t size) {
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DCHECK(stack_.empty() || top().inDataState());
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if (reflection::getType(type) != rtype) {
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throw TLibraryException(folly::to<std::string>(
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"Invalid aggregate type ", reflection::getType(type),
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" expected ", rtype));
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}
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const DataType* dt = &(schema_->map().at(type));
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stack_.emplace_back(new EncoderState(type, dt, size));
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}
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inline void Encoder::pop() {
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auto& s = top();
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DCHECK_EQ(s.state, FLUSHED);
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int64_t size = s.dataType->fixedSize;
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DCHECK(size == -1 || size == s.buf->computeChainDataLength());
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size_t bytesWritten = s.bytesWritten;
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DCHECK_EQ(bytesWritten, s.buf->computeChainDataLength());
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auto buf = std::move(s.buf);
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stack_.pop_back();
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if (stack_.empty()) {
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outputBuf_->prependChain(std::move(buf));
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bytesWritten_ = bytesWritten;
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} else {
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writeData(std::move(buf));
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top().bytesWritten += bytesWritten;
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}
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}
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inline Encoder::EncoderState& Encoder::top() {
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DCHECK(!stack_.empty());
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DCHECK(stack_.back());
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return *stack_.back();
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}
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inline const Encoder::EncoderState& Encoder::top() const {
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DCHECK(!stack_.empty());
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DCHECK(stack_.back());
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return *stack_.back();
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}
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inline int64_t Encoder::topType() const {
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return (stack_.empty() ? rootType_ : top().field.type);
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}
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inline void Encoder::writeBool(bool v) {
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auto& s = top();
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DCHECK(s.inDataState());
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s.checkType(reflection::TYPE_BOOL);
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s.markFieldSet();
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s.bools.emplace_back(s.tag, v);
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s.dataWritten();
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}
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inline void Encoder::writeByte(int8_t v) {
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auto& s = top();
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DCHECK(s.inDataState());
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s.markFieldSet();
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s.checkType(reflection::TYPE_BYTE);
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s.bytes.emplace_back(s.tag, v);
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s.dataWritten();
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}
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inline void Encoder::writeI16(int16_t v) {
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auto& s = top();
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DCHECK(s.inDataState());
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s.checkType(reflection::TYPE_I16);
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s.markFieldSet();
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if (s.field.isFixed) {
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s.fixedInt16s.emplace_back(s.tag, v);
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} else {
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s.varInts.emplace_back(s.tag, v);
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}
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s.dataWritten();
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}
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inline void Encoder::writeI32(int32_t v) {
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auto& s = top();
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DCHECK(s.inDataState());
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s.checkType(reflection::TYPE_I32, reflection::TYPE_ENUM);
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s.markFieldSet();
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if (reflection::getType(s.field.type) == reflection::TYPE_ENUM &&
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s.field.isStrictEnum) {
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auto& dt = schema_->map().at(s.field.type);
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uint8_t nbits = dt.enumBits();
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uint32_t value = findIndex(dt.enumValues, v);
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s.strictEnums.push_back({s.tag, {nbits, value}});
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s.totalStrictEnumBits += nbits;
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} else {
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if (s.field.isFixed) {
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s.fixedInt32s.emplace_back(s.tag, v);
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} else {
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s.varInts.emplace_back(s.tag, v);
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}
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}
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s.dataWritten();
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}
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inline void Encoder::writeI64(int64_t v) {
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innerWriteI64(v, reflection::TYPE_I64);
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}
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inline void Encoder::writeDouble(double v) {
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innerWriteI64(bitwise_cast<int64_t>(v), reflection::TYPE_DOUBLE);
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}
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inline void Encoder::innerWriteI64(int64_t v, reflection::Type expected) {
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auto& s = top();
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DCHECK(s.inDataState());
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s.markFieldSet();
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s.checkType(expected);
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if (s.field.isFixed) {
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s.fixedInt64s.emplace_back(s.tag, v);
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} else {
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s.varInt64s.emplace_back(s.tag, v);
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}
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s.dataWritten();
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}
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namespace {
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std::unique_ptr<folly::IOBuf> copyBufferToSize(
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const void* data, size_t dataSize, size_t outSize, char pad) {
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auto buf = folly::IOBuf::create(outSize);
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dataSize = std::min(dataSize, outSize);
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memcpy(buf->writableData(), data, dataSize);
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if (dataSize < outSize) {
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memset(buf->writableData() + dataSize, pad, outSize - dataSize);
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}
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buf->append(outSize);
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return buf;
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}
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std::unique_ptr<folly::IOBuf> copyBufferAndTerminate(
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const void* data, size_t dataSize, char terminator) {
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if (memchr(data, terminator, dataSize)) {
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throw TProtocolException("terminator found in terminated string");
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}
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// 1 byte of tailroom for the terminator
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auto buf = folly::IOBuf::copyBuffer(data, dataSize, 0, 1);
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buf->writableTail()[0] = terminator;
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buf->append(1);
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return buf;
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}
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} // namespace
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// TODO(tudorb): Zero-copy version
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inline void Encoder::writeBytes(folly::StringPiece data) {
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auto& s = top();
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DCHECK(s.inDataState());
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s.checkType(reflection::TYPE_STRING);
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s.markFieldSet();
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if (s.field.isInterned) {
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CHECK(internTable_);
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s.varInternIds.emplace_back(s.tag, internTable_->add(data));
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} else if (s.field.isFixed) {
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s.strings.emplace_back(
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s.tag, copyBufferToSize(data.data(), data.size(),
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s.field.fixedStringSize, s.field.pad));
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s.bytesWritten += s.field.fixedStringSize;
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} else if (s.field.isTerminated) {
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s.strings.emplace_back(
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s.tag, copyBufferAndTerminate(data.data(), data.size(),
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s.field.terminator));
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s.bytesWritten += data.size() + 1;
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} else {
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s.varLengths.emplace_back(s.tag, data.size());
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s.strings.emplace_back(
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s.tag, folly::IOBuf::copyBuffer(data.data(), data.size()));
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s.bytesWritten += data.size();
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}
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s.dataWritten();
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}
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inline void Encoder::writeData(std::unique_ptr<folly::IOBuf>&& data) {
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auto& s = top();
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DCHECK(s.inDataState());
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s.markFieldSet();
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s.strings.emplace_back(s.tag, std::move(data));
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s.dataWritten();
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}
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inline void Encoder::flush() {
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auto& s = top();
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DCHECK(s.inFlushableState());
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if (s.state == IN_STRUCT) {
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// TODO(tudorb): Check that all required fields were actually specified.
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flushStruct();
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}
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flushData(s.state == IN_STRUCT);
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s.state = FLUSHED;
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}
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} // namespace neutronium
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} // namespace protocol
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} // namespace thrift
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} // namespace apache
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#endif /* THRIFT_LIB_CPP_PROTOCOL_NEUTRONIUM_ENCODER_INL_H_ */
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