2023-06-20 04:33:09 +00:00
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#ifndef STAR_DATA_STREAM_HPP
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#define STAR_DATA_STREAM_HPP
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#include "StarString.hpp"
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namespace Star {
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STAR_EXCEPTION(DataStreamException, IOException);
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// Writes complex types to bytes in a portable big-endian fashion.
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class DataStream {
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public:
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DataStream();
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virtual ~DataStream() = default;
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static unsigned const CurrentStreamVersion = 1;
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// DataStream defaults to big-endian order for all primitive types
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ByteOrder byteOrder() const;
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void setByteOrder(ByteOrder byteOrder);
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// DataStream can optionally write strings as null terminated rather than
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// length prefixed
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bool nullTerminatedStrings() const;
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void setNullTerminatedStrings(bool nullTerminatedStrings);
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// streamCompatibilityVersion defaults to CurrentStreamVersion, but can be
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// changed for compatibility with older versions of DataStream serialization.
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unsigned streamCompatibilityVersion() const;
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void setStreamCompatibilityVersion(unsigned streamCompatibilityVersion);
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// Do direct reads and writes
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virtual void readData(char* data, size_t len) = 0;
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virtual void writeData(char const* data, size_t len) = 0;
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// These do not read / write sizes, they simply read / write directly.
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ByteArray readBytes(size_t len);
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void writeBytes(ByteArray const& ba);
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DataStream& operator<<(bool d);
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DataStream& operator<<(char c);
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DataStream& operator<<(int8_t d);
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DataStream& operator<<(uint8_t d);
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DataStream& operator<<(int16_t d);
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DataStream& operator<<(uint16_t d);
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DataStream& operator<<(int32_t d);
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DataStream& operator<<(uint32_t d);
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DataStream& operator<<(int64_t d);
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DataStream& operator<<(uint64_t d);
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DataStream& operator<<(float d);
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DataStream& operator<<(double d);
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DataStream& operator>>(bool& d);
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DataStream& operator>>(char& c);
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DataStream& operator>>(int8_t& d);
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DataStream& operator>>(uint8_t& d);
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DataStream& operator>>(int16_t& d);
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DataStream& operator>>(uint16_t& d);
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DataStream& operator>>(int32_t& d);
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DataStream& operator>>(uint32_t& d);
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DataStream& operator>>(int64_t& d);
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DataStream& operator>>(uint64_t& d);
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DataStream& operator>>(float& d);
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DataStream& operator>>(double& d);
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// Writes and reads a VLQ encoded integer. Can write / read anywhere from 1
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// to 10 bytes of data, with integers of smaller (absolute) value taking up
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// fewer bytes. size_t version can be used to portably write a size_t type,
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// and portably and efficiently handles the case of NPos.
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size_t writeVlqU(uint64_t i);
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size_t writeVlqI(int64_t i);
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size_t writeVlqS(size_t i);
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size_t readVlqU(uint64_t& i);
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size_t readVlqI(int64_t& i);
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size_t readVlqS(size_t& i);
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uint64_t readVlqU();
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int64_t readVlqI();
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size_t readVlqS();
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// The following functions write / read data with length and then content
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// following, but note that the length is encoded as an unsigned VLQ integer.
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// String objects are encoded in utf8, and can optionally be written as null
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// terminated rather than length then content.
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DataStream& operator<<(const char* s);
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DataStream& operator<<(std::string const& d);
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DataStream& operator<<(ByteArray const& d);
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DataStream& operator<<(String const& s);
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DataStream& operator>>(std::string& d);
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DataStream& operator>>(ByteArray& d);
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DataStream& operator>>(String& s);
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// All enum types are automatically serializable
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template <typename EnumType, typename = typename std::enable_if<std::is_enum<EnumType>::value>::type>
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DataStream& operator<<(EnumType const& e);
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template <typename EnumType, typename = typename std::enable_if<std::is_enum<EnumType>::value>::type>
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DataStream& operator>>(EnumType& e);
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// Convenience method to avoid temporary.
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template <typename T>
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T read();
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// Convenient argument style reading / writing
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template <typename Data>
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void read(Data& data);
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template <typename Data>
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void write(Data const& data);
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// Argument style reading / writing with casting.
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template <typename ReadType, typename Data>
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void cread(Data& data);
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template <typename WriteType, typename Data>
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void cwrite(Data const& data);
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// Argument style reading / writing of variable length integers. Arguments
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// are explicitly casted, so things like enums are allowed.
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template <typename IntegralType>
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void vuread(IntegralType& data);
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template <typename IntegralType>
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void viread(IntegralType& data);
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template <typename IntegralType>
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void vsread(IntegralType& data);
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template <typename IntegralType>
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void vuwrite(IntegralType const& data);
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template <typename IntegralType>
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void viwrite(IntegralType const& data);
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template <typename IntegralType>
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void vswrite(IntegralType const& data);
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// Store a fixed point number as a variable length integer
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template <typename FloatType>
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void vfread(FloatType& data, FloatType base);
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template <typename FloatType>
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void vfwrite(FloatType const& data, FloatType base);
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// Read a shared / unique ptr, and store whether the pointer is initialized.
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template <typename PointerType, typename ReadFunction>
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void pread(PointerType& pointer, ReadFunction readFunction);
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template <typename PointerType, typename WriteFunction>
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void pwrite(PointerType const& pointer, WriteFunction writeFunction);
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template <typename PointerType>
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void pread(PointerType& pointer);
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template <typename PointerType>
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void pwrite(PointerType const& pointer);
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// WriteFunction should be void (DataStream& ds, Element const& e)
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template <typename Container, typename WriteFunction>
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void writeContainer(Container const& container, WriteFunction function);
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// ReadFunction should be void (DataStream& ds, Element& e)
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template <typename Container, typename ReadFunction>
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void readContainer(Container& container, ReadFunction function);
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template <typename Container, typename WriteFunction>
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void writeMapContainer(Container& map, WriteFunction function);
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// Specialization of readContainer for map types (whose elements are a pair
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// with the key type marked const)
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template <typename Container, typename ReadFunction>
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void readMapContainer(Container& map, ReadFunction function);
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template <typename Container>
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void writeContainer(Container const& container);
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template <typename Container>
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void readContainer(Container& container);
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template <typename Container>
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void writeMapContainer(Container const& container);
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template <typename Container>
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void readMapContainer(Container& container);
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private:
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void writeStringData(char const* data, size_t len);
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ByteOrder m_byteOrder;
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bool m_nullTerminatedStrings;
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unsigned m_streamCompatibilityVersion;
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};
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template <typename EnumType, typename>
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DataStream& DataStream::operator<<(EnumType const& e) {
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*this << (typename std::underlying_type<EnumType>::type)e;
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return *this;
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}
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template <typename EnumType, typename>
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DataStream& DataStream::operator>>(EnumType& e) {
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typename std::underlying_type<EnumType>::type i;
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*this >> i;
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e = (EnumType)i;
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return *this;
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}
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template <typename T>
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T DataStream::read() {
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T t;
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*this >> t;
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return t;
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}
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template <typename Data>
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void DataStream::read(Data& data) {
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*this >> data;
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}
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template <typename Data>
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void DataStream::write(Data const& data) {
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*this << data;
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}
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template <typename ReadType, typename Data>
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void DataStream::cread(Data& data) {
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ReadType v;
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*this >> v;
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data = (Data)v;
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}
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template <typename WriteType, typename Data>
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void DataStream::cwrite(Data const& data) {
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WriteType v = (WriteType)data;
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*this << v;
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}
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template <typename IntegralType>
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void DataStream::vuread(IntegralType& data) {
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uint64_t i = readVlqU();
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data = (IntegralType)i;
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}
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template <typename IntegralType>
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void DataStream::viread(IntegralType& data) {
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int64_t i = readVlqI();
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data = (IntegralType)i;
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}
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template <typename IntegralType>
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void DataStream::vsread(IntegralType& data) {
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size_t s = readVlqS();
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data = (IntegralType)s;
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}
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template <typename IntegralType>
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void DataStream::vuwrite(IntegralType const& data) {
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writeVlqU((uint64_t)data);
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}
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template <typename IntegralType>
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void DataStream::viwrite(IntegralType const& data) {
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writeVlqI((int64_t)data);
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}
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template <typename IntegralType>
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void DataStream::vswrite(IntegralType const& data) {
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writeVlqS((size_t)data);
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}
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template <typename FloatType>
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void DataStream::vfread(FloatType& data, FloatType base) {
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int64_t i = readVlqI();
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data = (FloatType)i * base;
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}
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template <typename FloatType>
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void DataStream::vfwrite(FloatType const& data, FloatType base) {
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writeVlqI((int64_t)round(data / base));
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}
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template <typename PointerType, typename ReadFunction>
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void DataStream::pread(PointerType& pointer, ReadFunction readFunction) {
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bool initialized = read<bool>();
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if (initialized) {
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auto element = make_unique<typename std::decay<typename PointerType::element_type>::type>();
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readFunction(*this, *element);
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pointer.reset(element.release());
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} else {
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pointer.reset();
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}
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}
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template <typename PointerType, typename WriteFunction>
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void DataStream::pwrite(PointerType const& pointer, WriteFunction writeFunction) {
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if (pointer) {
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write(true);
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writeFunction(*this, *pointer);
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} else {
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write(false);
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}
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}
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template <typename PointerType>
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void DataStream::pread(PointerType& pointer) {
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return pread(pointer, [](DataStream& ds, typename std::decay<typename PointerType::element_type>::type& value) {
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ds.read(value);
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});
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}
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template <typename PointerType>
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void DataStream::pwrite(PointerType const& pointer) {
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return pwrite(pointer, [](DataStream& ds, typename std::decay<typename PointerType::element_type>::type const& value) {
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ds.write(value);
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});
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}
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template <typename Container, typename WriteFunction>
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void DataStream::writeContainer(Container const& container, WriteFunction function) {
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writeVlqU(container.size());
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for (auto const& elem : container)
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function(*this, elem);
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}
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template <typename Container, typename ReadFunction>
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void DataStream::readContainer(Container& container, ReadFunction function) {
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container.clear();
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size_t size = readVlqU();
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for (size_t i = 0; i < size; ++i) {
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typename Container::value_type elem;
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function(*this, elem);
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container.insert(container.end(), elem);
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}
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}
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template <typename Container, typename WriteFunction>
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void DataStream::writeMapContainer(Container& map, WriteFunction function) {
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writeVlqU(map.size());
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for (auto const& elem : map)
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function(*this, elem.first, elem.second);
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}
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template <typename Container, typename ReadFunction>
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void DataStream::readMapContainer(Container& map, ReadFunction function) {
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map.clear();
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size_t size = readVlqU();
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for (size_t i = 0; i < size; ++i) {
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typename Container::key_type key;
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typename Container::mapped_type mapped;
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function(*this, key, mapped);
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2024-02-19 15:55:19 +00:00
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map.insert(make_pair(std::move(key), std::move(mapped)));
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2023-06-20 04:33:09 +00:00
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}
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}
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template <typename Container>
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void DataStream::writeContainer(Container const& container) {
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writeContainer(container, [](DataStream& ds, typename Container::value_type const& element) { ds << element; });
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}
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template <typename Container>
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void DataStream::readContainer(Container& container) {
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readContainer(container, [](DataStream& ds, typename Container::value_type& element) { ds >> element; });
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}
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template <typename Container>
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void DataStream::writeMapContainer(Container const& container) {
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writeMapContainer(container, [](DataStream& ds, typename Container::key_type const& key, typename Container::mapped_type const& mapped) {
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ds << key;
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ds << mapped;
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});
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}
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template <typename Container>
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void DataStream::readMapContainer(Container& container) {
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readMapContainer(container, [](DataStream& ds, typename Container::key_type& key, typename Container::mapped_type& mapped) {
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ds >> key;
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ds >> mapped;
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});
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}
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}
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#endif
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