include/flatbuffers/buffer.h - third_party/flatbuffers - Git at Google

 /*
  * Copyright 2021 Google Inc. 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.
  */

 #ifndef FLATBUFFERS_BUFFER_H_
 #define FLATBUFFERS_BUFFER_H_

 #include <algorithm>

 #include "flatbuffers/base.h"

 namespace flatbuffers {

 // Wrapper for uoffset_t to allow safe template specialization.
 // Value is allowed to be 0 to indicate a null object (see e.g. AddOffset).
 template<typename T = void> struct Offset {
   // The type of offset to use.
   typedef uoffset_t offset_type;

   offset_type o;
   Offset() : o(0) {}
   Offset(const offset_type _o) : o(_o) {}
   Offset<> Union() const { return o; }
   bool IsNull() const { return !o; }
 };

 // Wrapper for uoffset64_t Offsets.
 template<typename T = void> struct Offset64 {
   // The type of offset to use.
   typedef uoffset64_t offset_type;

   offset_type o;
   Offset64() : o(0) {}
   Offset64(const offset_type offset) : o(offset) {}
   Offset64<> Union() const { return o; }
   bool IsNull() const { return !o; }
 };

 // Litmus check for ensuring the Offsets are the expected size.
 static_assert(sizeof(Offset<>) == 4, "Offset has wrong size");
 static_assert(sizeof(Offset64<>) == 8, "Offset64 has wrong size");

 inline void EndianCheck() {
   int endiantest = 1;
   // If this fails, see FLATBUFFERS_LITTLEENDIAN above.
   FLATBUFFERS_ASSERT(*reinterpret_cast<char *>(&endiantest) ==
                      FLATBUFFERS_LITTLEENDIAN);
   (void)endiantest;
 }

 template<typename T> FLATBUFFERS_CONSTEXPR size_t AlignOf() {
   // clang-format off
   #ifdef _MSC_VER
     return __alignof(T);
   #else
     #ifndef alignof
       return __alignof__(T);
     #else
       return alignof(T);
     #endif
   #endif
   // clang-format on
 }

 // Lexicographically compare two strings (possibly containing nulls), and
 // return true if the first is less than the second.
 static inline bool StringLessThan(const char *a_data, uoffset_t a_size,
                                   const char *b_data, uoffset_t b_size) {
   const auto cmp = memcmp(a_data, b_data, (std::min)(a_size, b_size));
   return cmp == 0 ? a_size < b_size : cmp < 0;
 }

 // When we read serialized data from memory, in the case of most scalars,
 // we want to just read T, but in the case of Offset, we want to actually
 // perform the indirection and return a pointer.
 // The template specialization below does just that.
 // It is wrapped in a struct since function templates can't overload on the
 // return type like this.
 // The typedef is for the convenience of callers of this function
 // (avoiding the need for a trailing return decltype)
 template<typename T> struct IndirectHelper {
   typedef T return_type;
   typedef T mutable_return_type;
   static const size_t element_stride = sizeof(T);

   static return_type Read(const uint8_t *p, const size_t i) {
     return EndianScalar((reinterpret_cast<const T *>(p))[i]);
   }
   static mutable_return_type Read(uint8_t *p, const size_t i) {
     return reinterpret_cast<mutable_return_type>(
         Read(const_cast<const uint8_t *>(p), i));
   }
 };

 // For vector of Offsets.
 template<typename T, template<typename> class OffsetT>
 struct IndirectHelper<OffsetT<T>> {
   typedef const T *return_type;
   typedef T *mutable_return_type;
   typedef typename OffsetT<T>::offset_type offset_type;
   static const offset_type element_stride = sizeof(offset_type);

   static return_type Read(const uint8_t *const p, const offset_type i) {
     // Offsets are relative to themselves, so first update the pointer to
     // point to the offset location.
     const uint8_t *const offset_location = p + i * element_stride;

     // Then read the scalar value of the offset (which may be 32 or 64-bits) and
     // then determine the relative location from the offset location.
     return reinterpret_cast<return_type>(
         offset_location + ReadScalar<offset_type>(offset_location));
   }
   static mutable_return_type Read(uint8_t *const p, const offset_type i) {
     // Offsets are relative to themselves, so first update the pointer to
     // point to the offset location.
     uint8_t *const offset_location = p + i * element_stride;

     // Then read the scalar value of the offset (which may be 32 or 64-bits) and
     // then determine the relative location from the offset location.
     return reinterpret_cast<mutable_return_type>(
         offset_location + ReadScalar<offset_type>(offset_location));
   }
 };

 // For vector of structs.
 template<typename T> struct IndirectHelper<const T *> {
   typedef const T *return_type;
   typedef T *mutable_return_type;
   static const size_t element_stride = sizeof(T);

   static return_type Read(const uint8_t *const p, const size_t i) {
     // Structs are stored inline, relative to the first struct pointer.
     return reinterpret_cast<return_type>(p + i * element_stride);
   }
   static mutable_return_type Read(uint8_t *const p, const size_t i) {
     // Structs are stored inline, relative to the first struct pointer.
     return reinterpret_cast<mutable_return_type>(p + i * element_stride);
   }
 };

 /// @brief Get a pointer to the file_identifier section of the buffer.
 /// @return Returns a const char pointer to the start of the file_identifier
 /// characters in the buffer.  The returned char * has length
 /// 'flatbuffers::FlatBufferBuilder::kFileIdentifierLength'.
 /// This function is UNDEFINED for FlatBuffers whose schema does not include
 /// a file_identifier (likely points at padding or the start of a the root
 /// vtable).
 inline const char *GetBufferIdentifier(const void *buf,
                                        bool size_prefixed = false) {
   return reinterpret_cast<const char *>(buf) +
          ((size_prefixed) ? 2 * sizeof(uoffset_t) : sizeof(uoffset_t));
 }

 // Helper to see if the identifier in a buffer has the expected value.
 inline bool BufferHasIdentifier(const void *buf, const char *identifier,
                                 bool size_prefixed = false) {
   return strncmp(GetBufferIdentifier(buf, size_prefixed), identifier,
                  flatbuffers::kFileIdentifierLength) == 0;
 }

 /// @cond FLATBUFFERS_INTERNAL
 // Helpers to get a typed pointer to the root object contained in the buffer.
 template<typename T> T *GetMutableRoot(void *buf) {
   if (!buf) return nullptr;
   EndianCheck();
   return reinterpret_cast<T *>(
       reinterpret_cast<uint8_t *>(buf) +
       EndianScalar(*reinterpret_cast<uoffset_t *>(buf)));
 }

 template<typename T, typename SizeT = uoffset_t>
 T *GetMutableSizePrefixedRoot(void *buf) {
   return GetMutableRoot<T>(reinterpret_cast<uint8_t *>(buf) + sizeof(SizeT));
 }

 template<typename T> const T *GetRoot(const void *buf) {
   return GetMutableRoot<T>(const_cast<void *>(buf));
 }

 template<typename T, typename SizeT = uoffset_t>
 const T *GetSizePrefixedRoot(const void *buf) {
   return GetRoot<T>(reinterpret_cast<const uint8_t *>(buf) + sizeof(SizeT));
 }

 }  // namespace flatbuffers

 #endif  // FLATBUFFERS_BUFFER_H_
	/*
	* Copyright 2021 Google Inc. 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.
	*/

	#ifndef FLATBUFFERS_BUFFER_H_
	#define FLATBUFFERS_BUFFER_H_

	#include <algorithm>

	#include "flatbuffers/base.h"

	namespace flatbuffers {

	// Wrapper for uoffset_t to allow safe template specialization.
	// Value is allowed to be 0 to indicate a null object (see e.g. AddOffset).
	template<typename T = void> struct Offset {
	// The type of offset to use.
	typedef uoffset_t offset_type;

	offset_type o;
	Offset() : o(0) {}
	Offset(const offset_type _o) : o(_o) {}
	Offset<> Union() const { return o; }
	bool IsNull() const { return !o; }
	};

	// Wrapper for uoffset64_t Offsets.
	template<typename T = void> struct Offset64 {
	// The type of offset to use.
	typedef uoffset64_t offset_type;

	offset_type o;
	Offset64() : o(0) {}
	Offset64(const offset_type offset) : o(offset) {}
	Offset64<> Union() const { return o; }
	bool IsNull() const { return !o; }
	};

	// Litmus check for ensuring the Offsets are the expected size.
	static_assert(sizeof(Offset<>) == 4, "Offset has wrong size");
	static_assert(sizeof(Offset64<>) == 8, "Offset64 has wrong size");

	inline void EndianCheck() {
	int endiantest = 1;
	// If this fails, see FLATBUFFERS_LITTLEENDIAN above.
	FLATBUFFERS_ASSERT(reinterpret_cast<char >(&endiantest) ==
	FLATBUFFERS_LITTLEENDIAN);
	(void)endiantest;
	}

	template<typename T> FLATBUFFERS_CONSTEXPR size_t AlignOf() {
	// clang-format off
	#ifdef _MSC_VER
	return __alignof(T);
	#else
	#ifndef alignof
	return __alignof__(T);
	#else
	return alignof(T);
	#endif
	#endif
	// clang-format on
	}

	// Lexicographically compare two strings (possibly containing nulls), and
	// return true if the first is less than the second.
	static inline bool StringLessThan(const char *a_data, uoffset_t a_size,
	const char *b_data, uoffset_t b_size) {
	const auto cmp = memcmp(a_data, b_data, (std::min)(a_size, b_size));
	return cmp == 0 ? a_size < b_size : cmp < 0;
	}

	// When we read serialized data from memory, in the case of most scalars,
	// we want to just read T, but in the case of Offset, we want to actually
	// perform the indirection and return a pointer.
	// The template specialization below does just that.
	// It is wrapped in a struct since function templates can't overload on the
	// return type like this.
	// The typedef is for the convenience of callers of this function
	// (avoiding the need for a trailing return decltype)
	template<typename T> struct IndirectHelper {
	typedef T return_type;
	typedef T mutable_return_type;
	static const size_t element_stride = sizeof(T);

	static return_type Read(const uint8_t *p, const size_t i) {
	return EndianScalar((reinterpret_cast<const T *>(p))[i]);
	}
	static mutable_return_type Read(uint8_t *p, const size_t i) {
	return reinterpret_cast<mutable_return_type>(
	Read(const_cast<const uint8_t *>(p), i));
	}
	};

	// For vector of Offsets.
	template<typename T, template<typename> class OffsetT>
	struct IndirectHelper<OffsetT<T>> {
	typedef const T *return_type;
	typedef T *mutable_return_type;
	typedef typename OffsetT<T>::offset_type offset_type;
	static const offset_type element_stride = sizeof(offset_type);

	static return_type Read(const uint8_t *const p, const offset_type i) {
	// Offsets are relative to themselves, so first update the pointer to
	// point to the offset location.
	const uint8_t const offset_location = p + i element_stride;

	// Then read the scalar value of the offset (which may be 32 or 64-bits) and
	// then determine the relative location from the offset location.
	return reinterpret_cast<return_type>(
	offset_location + ReadScalar<offset_type>(offset_location));
	}
	static mutable_return_type Read(uint8_t *const p, const offset_type i) {
	// Offsets are relative to themselves, so first update the pointer to
	// point to the offset location.
	uint8_t const offset_location = p + i element_stride;

	// Then read the scalar value of the offset (which may be 32 or 64-bits) and
	// then determine the relative location from the offset location.
	return reinterpret_cast<mutable_return_type>(
	offset_location + ReadScalar<offset_type>(offset_location));
	}
	};

	// For vector of structs.
	template<typename T> struct IndirectHelper<const T *> {
	typedef const T *return_type;
	typedef T *mutable_return_type;
	static const size_t element_stride = sizeof(T);

	static return_type Read(const uint8_t *const p, const size_t i) {
	// Structs are stored inline, relative to the first struct pointer.
	return reinterpret_cast<return_type>(p + i * element_stride);
	}
	static mutable_return_type Read(uint8_t *const p, const size_t i) {
	// Structs are stored inline, relative to the first struct pointer.
	return reinterpret_cast<mutable_return_type>(p + i * element_stride);
	}
	};

	/// @brief Get a pointer to the file_identifier section of the buffer.
	/// @return Returns a const char pointer to the start of the file_identifier
	/// characters in the buffer. The returned char * has length
	/// 'flatbuffers::FlatBufferBuilder::kFileIdentifierLength'.
	/// This function is UNDEFINED for FlatBuffers whose schema does not include
	/// a file_identifier (likely points at padding or the start of a the root
	/// vtable).
	inline const char GetBufferIdentifier(const void buf,
	bool size_prefixed = false) {
	return reinterpret_cast<const char *>(buf) +
	((size_prefixed) ? 2 * sizeof(uoffset_t) : sizeof(uoffset_t));
	}

	// Helper to see if the identifier in a buffer has the expected value.
	inline bool BufferHasIdentifier(const void buf, const char identifier,
	bool size_prefixed = false) {
	return strncmp(GetBufferIdentifier(buf, size_prefixed), identifier,
	flatbuffers::kFileIdentifierLength) == 0;
	}

	/// @cond FLATBUFFERS_INTERNAL
	// Helpers to get a typed pointer to the root object contained in the buffer.
	template<typename T> T GetMutableRoot(void buf) {
	if (!buf) return nullptr;
	EndianCheck();
	return reinterpret_cast<T *>(
	reinterpret_cast<uint8_t *>(buf) +
	EndianScalar(reinterpret_cast<uoffset_t >(buf)));
	}

	template<typename T, typename SizeT = uoffset_t>
	T GetMutableSizePrefixedRoot(void buf) {
	return GetMutableRoot<T>(reinterpret_cast<uint8_t *>(buf) + sizeof(SizeT));
	}

	template<typename T> const T GetRoot(const void buf) {
	return GetMutableRoot<T>(const_cast<void *>(buf));
	}

	template<typename T, typename SizeT = uoffset_t>
	const T GetSizePrefixedRoot(const void buf) {
	return GetRoot<T>(reinterpret_cast<const uint8_t *>(buf) + sizeof(SizeT));
	}

	} // namespace flatbuffers

	#endif // FLATBUFFERS_BUFFER_H_