// SPDX-FileCopyrightText: 2024 Connor McLaughlin // SPDX-License-Identifier: (GPL-3.0 OR CC-BY-NC-ND-4.0) #include "types.h" #include #include #include #include class SmallStringBase; class BinarySpanReader { public: BinarySpanReader(); BinarySpanReader(std::span buf); ALWAYS_INLINE const std::span& GetSpan() const { return m_buf; } ALWAYS_INLINE bool IsValid() const { return !m_buf.empty(); } ALWAYS_INLINE bool CheckRemaining(size_t size) { return ((m_pos + size) <= m_buf.size()); } ALWAYS_INLINE size_t GetBufferRemaining() const { return (m_buf.size() - m_pos); } ALWAYS_INLINE size_t GetBufferConsumed() const { return m_pos; } // clang-format off template ALWAYS_INLINE bool ReadT(T* dst) { return Read(dst, sizeof(T)); } ALWAYS_INLINE bool ReadU8(u8* dst) { return ReadT(dst); } ALWAYS_INLINE bool ReadU16(u16* dst) { return ReadT(dst); } ALWAYS_INLINE bool ReadU32(u32* dst) { return ReadT(dst); } ALWAYS_INLINE bool ReadU64(u64* dst) { return ReadT(dst); } ALWAYS_INLINE bool ReadFloat(float* dst) { return ReadT(dst); } bool ReadCString(std::string* dst); bool ReadCString(std::string_view* dst); bool ReadCString(SmallStringBase* dst); template ALWAYS_INLINE T ReadT() { T ret; if (!Read(&ret, sizeof(ret))) [[unlikely]] { ret = {}; } return ret; } ALWAYS_INLINE u8 ReadU8() { return ReadT(); } ALWAYS_INLINE u16 ReadU16() { return ReadT(); } ALWAYS_INLINE u32 ReadU32() { return ReadT(); } ALWAYS_INLINE u64 ReadU64() { return ReadT(); } ALWAYS_INLINE float ReadFloat() { return ReadT(); } std::string_view ReadCString(); template ALWAYS_INLINE bool PeekT(T* dst) { return Peek(dst, sizeof(T)); } ALWAYS_INLINE bool PeekU8(u8* dst) { return PeekT(dst); } ALWAYS_INLINE bool PeekU16(u16* dst) { return PeekT(dst); } ALWAYS_INLINE bool PeekU32(u32* dst) { return PeekT(dst); } ALWAYS_INLINE bool PeekU64(u64* dst) { return PeekT(dst); } ALWAYS_INLINE bool PeekFloat(float* dst) { return PeekT(dst); } bool PeekCString(std::string* dst); bool PeekCString(std::string_view* dst); bool PeekCString(SmallStringBase* dst); ALWAYS_INLINE BinarySpanReader& operator>>(u8& val) { val = ReadT(); return *this; } ALWAYS_INLINE BinarySpanReader& operator>>(u16& val) { val = ReadT(); return *this; } ALWAYS_INLINE BinarySpanReader& operator>>(u32& val) { val = ReadT(); return *this; } ALWAYS_INLINE BinarySpanReader& operator>>(u64& val) { val = ReadT(); return *this; } ALWAYS_INLINE BinarySpanReader& operator>>(float& val) { val = ReadT(); return *this; } ALWAYS_INLINE BinarySpanReader& operator>>(std::string_view val) { val = ReadCString(); return *this; } // clang-format on private: ALWAYS_INLINE bool Read(void* buf, size_t size) { if ((m_pos + size) < m_buf.size()) [[likely]] { std::memcpy(buf, &m_buf[m_pos], size); m_pos += size; return true; } return false; } ALWAYS_INLINE bool Peek(void* buf, size_t size) { if ((m_pos + size) < m_buf.size()) [[likely]] { std::memcpy(buf, &m_buf[m_pos], size); return true; } return false; } private: std::span m_buf; size_t m_pos = 0; }; class BinarySpanWriter { public: BinarySpanWriter(); BinarySpanWriter(std::span buf); ALWAYS_INLINE const std::span& GetSpan() const { return m_buf; } ALWAYS_INLINE bool IsValid() const { return !m_buf.empty(); } ALWAYS_INLINE size_t GetBufferRemaining() const { return (m_buf.size() - m_pos); } ALWAYS_INLINE size_t GetBufferWritten() const { return m_pos; } // clang-format off template ALWAYS_INLINE bool WriteT(T dst) { return Write(&dst, sizeof(T)); } ALWAYS_INLINE bool WriteU8(u8 val) { return WriteT(val); } ALWAYS_INLINE bool WriteU16(u16 val) { return WriteT(val); } ALWAYS_INLINE bool WriteU32(u32 val) { return WriteT(val); } ALWAYS_INLINE bool WriteU64(u64 val) { return WriteT(val); } ALWAYS_INLINE bool WriteFloat(float val) { return WriteT(val); } bool WriteCString(std::string_view val); ALWAYS_INLINE BinarySpanWriter& operator<<(u8 val) { WriteU8(val); return *this; } ALWAYS_INLINE BinarySpanWriter& operator<<(u16 val) { WriteU16(val); return *this; } ALWAYS_INLINE BinarySpanWriter& operator<<(u32 val) { WriteU32(val); return *this; } ALWAYS_INLINE BinarySpanWriter& operator<<(u64 val) { WriteU64(val); return *this; } ALWAYS_INLINE BinarySpanWriter& operator<<(float val) { WriteFloat(val); return *this; } ALWAYS_INLINE BinarySpanWriter& operator<<(std::string_view val) { WriteCString(val); return *this; } // clang-format on private: ALWAYS_INLINE bool Write(void* buf, size_t size) { if ((m_pos + size) < m_buf.size()) [[likely]] { std::memcpy(&m_buf[m_pos], buf, size); m_pos += size; return true; } return false; } private: std::span m_buf; size_t m_pos = 0; };