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439 lines
11 KiB
439 lines
11 KiB
13 years ago
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/**
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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_DECODER_INL_H_
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#define THRIFT_LIB_CPP_PROTOCOL_NEUTRONIUM_DECODER_INL_H_
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#ifndef THRIFT_INCLUDE_DECODER_INL
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#error This file may only be included from Decoder.h
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#endif
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#include "folly/GroupVarint.h"
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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 const char* CH(const uint8_t* p) {
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return reinterpret_cast<const char*>(p);
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}
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inline char* CH(uint8_t* p) {
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return reinterpret_cast<char*>(p);
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}
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template <class P>
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inline auto CH(P p) -> std::pair<decltype(CH(p.first)), decltype(p.second)> {
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return std::make_pair(CH(p.first), p.second);
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}
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inline folly::StringPiece SP(std::pair<const uint8_t*, size_t> p) {
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return folly::StringPiece(CH(p.first), p.second);
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}
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inline void Decoder::setRootType(int64_t rootType) {
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CHECK(stack_.empty());
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rootType_ = rootType;
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}
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inline void Decoder::readStructBegin() {
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push(reflection::TYPE_STRUCT, nextType(), 0);
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}
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inline void Decoder::readStructEnd() {
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DCHECK_EQ(top().state, IN_STRUCT);
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// The last readFieldBegin returned T_STOP and so didn't change the state
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// to IN_FIELD
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pop();
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}
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inline int64_t Decoder::nextType() {
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int64_t type;
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if (!stack_.empty()) {
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auto& s = top();
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s.nextValue();
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type = s.type.typeVal;
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} else {
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type = rootType_;
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}
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return type;
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}
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inline void Decoder::readMapBegin(TType& keyType, TType& valType,
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uint32_t& size) {
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size = peekElementCount();
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push(reflection::TYPE_MAP, nextType(), size);
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keyType = top().list.mapKeyType.ttype();
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valType = top().list.valueType.ttype();
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size = top().list.remaining;
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}
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inline void Decoder::readMapEnd() {
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DCHECK_EQ(top().state, IN_MAP_VALUE);
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DCHECK_EQ(top().list.remaining, 0);
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pop();
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}
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inline void Decoder::readListBegin(TType& elemType, uint32_t& size) {
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size = peekElementCount();
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push(reflection::TYPE_LIST, nextType(), size);
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elemType = top().list.valueType.ttype();
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size = top().list.remaining;
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}
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inline void Decoder::readListEnd() {
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DCHECK_EQ(top().state, IN_LIST_VALUE);
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DCHECK_EQ(top().list.remaining, 0);
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pop();
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}
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inline void Decoder::readSetBegin(TType& elemType, uint32_t& size) {
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size = peekElementCount();
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push(reflection::TYPE_SET, nextType(), size);
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elemType = top().list.valueType.ttype();
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size = top().list.remaining;
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}
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inline void Decoder::readSetEnd() {
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DCHECK_EQ(top().state, IN_SET_VALUE);
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DCHECK_EQ(top().list.remaining, 0);
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pop();
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}
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inline void Decoder::push(reflection::Type rtype, int64_t type, uint32_t size) {
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if (rtype != reflection::getType(type)) {
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throw TProtocolException(folly::to<std::string>(
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"Invalid type ", reflection::getType(type), " expected ", rtype));
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}
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const DataType* dt = &(schema_->map().at(type));
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stack_.emplace_back(schema_, type, dt, size);
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read();
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}
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inline Decoder::TypeInfo::TypeInfo(const Schema* schema, int64_t t)
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: typeVal(t),
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length(kVariableLength),
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dataType(nullptr),
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terminator('\0') {
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if (!reflection::isBaseType(type())) {
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dataType = &(schema->map().at(t));
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length = dataType->fixedSize;
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}
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}
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inline Decoder::TypeInfo::TypeInfo(int64_t t)
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: typeVal(t),
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length(kVariableLength),
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dataType(nullptr),
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terminator('\0') {
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DCHECK(reflection::isBaseType(type()));
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}
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template <typename T>
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inline void Decoder::DecoderState::setStateList(T& ts) {
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if (UNLIKELY(++ts.index == ts.count)) {
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throw TProtocolException("type mismatch");
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}
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}
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inline void Decoder::DecoderState::nextList() {
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switch (state) {
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case IN_MAP_KEY:
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state = IN_MAP_VALUE;
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type = list.valueType;
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break; // don't advance to next
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case IN_MAP_VALUE:
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state = IN_MAP_KEY;
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type = list.mapKeyType;
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DCHECK_NE(list.remaining, 0);
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--list.remaining;
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break;
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case IN_LIST_VALUE:
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case IN_SET_VALUE:
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type = list.valueType;
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DCHECK_NE(list.remaining, 0);
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--list.remaining;
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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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// Advance to next element
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switch (type.typeVal) {
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case reflection::TYPE_BOOL:
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setStateList(bools);
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break;
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case reflection::TYPE_BYTE:
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setStateList(bytes);
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break;
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case reflection::TYPE_I16: // fallthrough
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case reflection::TYPE_I32:
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setStateList(ints);
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break;
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case reflection::TYPE_I64: // fallthrough
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case reflection::TYPE_DOUBLE:
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setStateList(int64s);
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break;
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case reflection::TYPE_STRING: // fallthrough
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default:
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setStateList(strings);
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}
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}
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template <typename TS, typename TV>
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bool Decoder::DecoderState::setStateStruct(
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TS& ts,
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const TV& tv,
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FieldState nextState) {
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if (++ts.index == ts.count) {
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str.fieldState = nextState;
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return false;
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} else {
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auto& p = tv[ts.index];
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str.tag = p.first;
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type = p.second;
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return true;
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}
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}
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inline bool Decoder::DecoderState::nextStruct() {
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switch (str.fieldState) {
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case FS_START:
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str.fieldState = FS_INT;
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ints.index = -1;
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// fallthrough
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case FS_INT:
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if (setStateStruct(ints, str.intTags, FS_INT64)) {
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break;
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}
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// fallthrough
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case FS_INT64:
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if (setStateStruct(int64s, str.int64Tags, FS_BOOL)) {
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break;
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}
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// fallthrough
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case FS_BOOL:
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if (setStateStruct(bools, str.boolTags, FS_STRICT_ENUM)) {
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break;
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}
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case FS_STRICT_ENUM:
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if (setStateStruct(strictEnums, str.strictEnumTags, FS_BYTE)) {
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break;
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}
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// fallthrough
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case FS_BYTE:
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if (setStateStruct(bytes, str.byteTags, FS_INTERNED_STRING)) {
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break;
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}
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// fallthrough
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case FS_INTERNED_STRING:
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if (setStateStruct(internedStrings, str.internedStringTags, FS_STRING)) {
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break;
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}
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case FS_STRING:
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if (setStateStruct(strings, str.stringTags, FS_END)) {
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break;
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}
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// fallthrough
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case FS_END:
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return false;
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}
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return true;
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}
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inline bool Decoder::DecoderState::nextField() {
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DCHECK_EQ(state, IN_STRUCT);
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if (!nextStruct()) {
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return false;
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}
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state = IN_FIELD;
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setLength();
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return true;
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}
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inline void Decoder::DecoderState::nextValue() {
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DCHECK_NE(state, IN_STRUCT);
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if (state != IN_FIELD) {
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nextList();
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setLength();
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}
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}
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inline void Decoder::DecoderState::setLength() {
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if (type.type() == reflection::TYPE_STRING &&
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type.length == kVariableLength) {
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// Variable size, read length
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if (++vars.index == vars.count) {
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throw TProtocolException("too many vars");
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}
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type.length = vars.values[vars.index];
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}
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}
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inline uint32_t Decoder::peekElementCount() {
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uint32_t len;
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cursor_.gather(folly::GroupVarint32::maxSize(1));
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folly::GroupVarint32Decoder decoder(SP(cursor_.peek()));
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uint32_t count;
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if (!decoder.next(&count)) {
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throw TProtocolException("underflow");
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}
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return count;
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}
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inline void Decoder::readFieldBegin(TType& fieldType, int16_t& fieldId) {
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auto& s = top();
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if (s.nextField()) {
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fieldType = s.type.ttype();
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fieldId = s.str.tag;
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} else {
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fieldType = T_STOP;
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fieldId = 0;
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}
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}
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inline void Decoder::readFieldEnd() {
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auto& s = top();
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CHECK_EQ(s.state, IN_FIELD);
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s.state = IN_STRUCT;
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}
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inline void Decoder::readBool(bool& value) {
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auto& s = top();
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s.nextValue();
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if (UNLIKELY(s.type.typeVal != reflection::TYPE_BOOL)) {
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throw TProtocolException("invalid type");
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}
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value = testBit(s.bools.values, s.boolStartBit + s.bools.index);
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}
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inline void Decoder::readByte(int8_t& value) {
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auto& s = top();
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s.nextValue();
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if (UNLIKELY(s.type.typeVal != reflection::TYPE_BYTE)) {
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throw TProtocolException("invalid type");
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}
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value = s.bytes.values[s.bytes.index];
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}
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inline void Decoder::readI16(int16_t& value) {
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auto& s = top();
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s.nextValue();
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if (UNLIKELY(s.type.typeVal != reflection::TYPE_I16)) {
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throw TProtocolException("invalid type");
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}
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value = s.ints.values[s.ints.index];
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}
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inline void Decoder::readI32(int32_t& value) {
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auto& s = top();
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s.nextValue();
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// Strict enums only occur in structs
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// TODO(tudorb): Relax?
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if (s.state == IN_FIELD && s.str.fieldState == DecoderState::FS_STRICT_ENUM) {
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value = s.strictEnums.values[s.strictEnums.index];
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} else if (UNLIKELY(s.type.typeVal != reflection::TYPE_I32)) {
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throw TProtocolException("invalid type");
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} else {
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value = s.ints.values[s.ints.index];
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}
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}
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inline void Decoder::readI64(int64_t& value) {
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auto& s = top();
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s.nextValue();
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if (UNLIKELY(s.type.typeVal != reflection::TYPE_I64)) {
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throw TProtocolException("invalid type");
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}
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value = s.int64s.values[s.int64s.index];
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}
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inline void Decoder::readDouble(double& value) {
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auto& s = top();
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s.nextValue();
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if (UNLIKELY(s.type.typeVal != reflection::TYPE_DOUBLE)) {
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throw TProtocolException("invalid type");
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}
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int64_t i64 = s.int64s.values[s.int64s.index];
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value = bitwise_cast<double>(i64);
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}
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inline bool Decoder::beginReadString() {
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auto& s = top();
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s.nextValue();
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if (UNLIKELY(s.type.typeVal != reflection::TYPE_STRING)) {
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throw TProtocolException("invalid type");
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}
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// Interned strings only occur in structs,
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// TODO(tudorb): Relax?
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return (s.state == IN_FIELD &&
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s.str.fieldState == DecoderState::FS_INTERNED_STRING);
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}
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template <typename StrType>
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inline void Decoder::readString(StrType& str) {
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if (beginReadString()) {
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// interned
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auto& s = top();
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auto sp = s.internedStrings.values[s.internedStrings.index];
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str.assign(sp.data(), sp.size());
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} else {
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// not interned
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str.clear();
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int64_t len = top().type.length;
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DCHECK(len >= 0 || len == kTerminated);
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if (len == kTerminated) {
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char terminator = top().type.terminator;
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const uint8_t* term = nullptr;
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while (!term) {
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auto p = cursor_.peek();
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if (p.second == 0) throw TLibraryException("eof");
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term = static_cast<const uint8_t*>(
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memchr(p.first, terminator, p.second));
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size_t n = term ? term - p.first : p.second;
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str.append(reinterpret_cast<const char*>(p.first), n);
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cursor_.skip(n);
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top().bytesRead += n;
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}
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} else {
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while (len) {
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auto p = cursor_.peek();
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if (p.second == 0) throw TLibraryException("eof");
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auto n = std::min(len, static_cast<int64_t>(p.second));
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str.append(reinterpret_cast<const char*>(p.first), n);
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cursor_.skip(n);
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top().bytesRead += n;
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len -= n;
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}
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}
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}
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}
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inline Decoder::DecoderState& Decoder::top() {
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DCHECK(!stack_.empty());
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return stack_.back();
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}
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inline void Decoder::pop() {
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DCHECK(!stack_.empty());
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size_t bytesRead = stack_.back().bytesRead;
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stack_.pop_back();
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if (stack_.empty()) {
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bytesRead_ = bytesRead;
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} else {
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top().bytesRead += bytesRead;
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}
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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_DECODER_INL_H_ */
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