2020-11-16 14:47:43 +08:00
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/*
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* Copyright 2014 Google Inc. All rights reserved.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#ifndef FLATBUFFERS_H_
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#define FLATBUFFERS_H_
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2022-09-15 20:15:28 +08:00
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// TODO: These includes are for mitigating the pains of users editing their
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// source because they relied on flatbuffers.h to include everything for them.
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#include "flatbuffers/array.h"
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#include "flatbuffers/base.h"
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#include "flatbuffers/buffer.h"
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#include "flatbuffers/buffer_ref.h"
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#include "flatbuffers/detached_buffer.h"
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#include "flatbuffers/flatbuffer_builder.h"
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#include "flatbuffers/stl_emulation.h"
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#include "flatbuffers/string.h"
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#include "flatbuffers/struct.h"
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#include "flatbuffers/table.h"
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#include "flatbuffers/vector.h"
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#include "flatbuffers/vector_downward.h"
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#include "flatbuffers/verifier.h"
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namespace flatbuffers {
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/// @brief This can compute the start of a FlatBuffer from a root pointer, i.e.
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/// it is the opposite transformation of GetRoot().
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/// This may be useful if you want to pass on a root and have the recipient
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/// delete the buffer afterwards.
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inline const uint8_t *GetBufferStartFromRootPointer(const void *root) {
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auto table = reinterpret_cast<const Table *>(root);
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auto vtable = table->GetVTable();
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// Either the vtable is before the root or after the root.
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auto start = (std::min)(vtable, reinterpret_cast<const uint8_t *>(root));
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// Align to at least sizeof(uoffset_t).
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start = reinterpret_cast<const uint8_t *>(reinterpret_cast<uintptr_t>(start) &
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~(sizeof(uoffset_t) - 1));
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// Additionally, there may be a file_identifier in the buffer, and the root
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// offset. The buffer may have been aligned to any size between
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// sizeof(uoffset_t) and FLATBUFFERS_MAX_ALIGNMENT (see "force_align").
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// Sadly, the exact alignment is only known when constructing the buffer,
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// since it depends on the presence of values with said alignment properties.
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// So instead, we simply look at the next uoffset_t values (root,
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// file_identifier, and alignment padding) to see which points to the root.
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// None of the other values can "impersonate" the root since they will either
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// be 0 or four ASCII characters.
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static_assert(flatbuffers::kFileIdentifierLength == sizeof(uoffset_t),
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"file_identifier is assumed to be the same size as uoffset_t");
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for (auto possible_roots = FLATBUFFERS_MAX_ALIGNMENT / sizeof(uoffset_t) + 1;
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possible_roots; possible_roots--) {
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start -= sizeof(uoffset_t);
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if (ReadScalar<uoffset_t>(start) + start ==
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reinterpret_cast<const uint8_t *>(root))
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return start;
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}
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// We didn't find the root, either the "root" passed isn't really a root,
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// or the buffer is corrupt.
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// Assert, because calling this function with bad data may cause reads
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// outside of buffer boundaries.
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FLATBUFFERS_ASSERT(false);
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return nullptr;
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}
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/// @brief This return the prefixed size of a FlatBuffer.
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inline uoffset_t GetPrefixedSize(const uint8_t *buf) {
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return ReadScalar<uoffset_t>(buf);
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}
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// Base class for native objects (FlatBuffer data de-serialized into native
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// C++ data structures).
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// Contains no functionality, purely documentative.
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struct NativeTable {};
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/// @brief Function types to be used with resolving hashes into objects and
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/// back again. The resolver gets a pointer to a field inside an object API
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/// object that is of the type specified in the schema using the attribute
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/// `cpp_type` (it is thus important whatever you write to this address
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/// matches that type). The value of this field is initially null, so you
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/// may choose to implement a delayed binding lookup using this function
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/// if you wish. The resolver does the opposite lookup, for when the object
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/// is being serialized again.
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typedef uint64_t hash_value_t;
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typedef std::function<void(void **pointer_adr, hash_value_t hash)>
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resolver_function_t;
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typedef std::function<hash_value_t(void *pointer)> rehasher_function_t;
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// Helper function to test if a field is present, using any of the field
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// enums in the generated code.
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// `table` must be a generated table type. Since this is a template parameter,
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// this is not typechecked to be a subclass of Table, so beware!
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// Note: this function will return false for fields equal to the default
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// value, since they're not stored in the buffer (unless force_defaults was
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// used).
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template<typename T>
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bool IsFieldPresent(const T *table, typename T::FlatBuffersVTableOffset field) {
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// Cast, since Table is a private baseclass of any table types.
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return reinterpret_cast<const Table *>(table)->CheckField(
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static_cast<voffset_t>(field));
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}
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// Utility function for reverse lookups on the EnumNames*() functions
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// (in the generated C++ code)
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// names must be NULL terminated.
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inline int LookupEnum(const char **names, const char *name) {
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for (const char **p = names; *p; p++)
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if (!strcmp(*p, name)) return static_cast<int>(p - names);
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return -1;
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}
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// These macros allow us to layout a struct with a guarantee that they'll end
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// up looking the same on different compilers and platforms.
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// It does this by disallowing the compiler to do any padding, and then
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// does padding itself by inserting extra padding fields that make every
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// element aligned to its own size.
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// Additionally, it manually sets the alignment of the struct as a whole,
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// which is typically its largest element, or a custom size set in the schema
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// by the force_align attribute.
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// These are used in the generated code only.
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// clang-format off
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#if defined(_MSC_VER)
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#define FLATBUFFERS_MANUALLY_ALIGNED_STRUCT(alignment) \
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__pragma(pack(1)) \
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struct __declspec(align(alignment))
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#define FLATBUFFERS_STRUCT_END(name, size) \
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__pragma(pack()) \
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static_assert(sizeof(name) == size, "compiler breaks packing rules")
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#elif defined(__GNUC__) || defined(__clang__) || defined(__ICCARM__)
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#define FLATBUFFERS_MANUALLY_ALIGNED_STRUCT(alignment) \
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_Pragma("pack(1)") \
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struct __attribute__((aligned(alignment)))
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#define FLATBUFFERS_STRUCT_END(name, size) \
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_Pragma("pack()") \
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static_assert(sizeof(name) == size, "compiler breaks packing rules")
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#else
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#error Unknown compiler, please define structure alignment macros
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#endif
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// clang-format on
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// Minimal reflection via code generation.
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// Besides full-fat reflection (see reflection.h) and parsing/printing by
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// loading schemas (see idl.h), we can also have code generation for minimal
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// reflection data which allows pretty-printing and other uses without needing
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// a schema or a parser.
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// Generate code with --reflect-types (types only) or --reflect-names (names
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// also) to enable.
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// See minireflect.h for utilities using this functionality.
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// These types are organized slightly differently as the ones in idl.h.
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enum SequenceType { ST_TABLE, ST_STRUCT, ST_UNION, ST_ENUM };
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// Scalars have the same order as in idl.h
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// clang-format off
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#define FLATBUFFERS_GEN_ELEMENTARY_TYPES(ET) \
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ET(ET_UTYPE) \
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ET(ET_BOOL) \
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ET(ET_CHAR) \
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ET(ET_UCHAR) \
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ET(ET_SHORT) \
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ET(ET_USHORT) \
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ET(ET_INT) \
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ET(ET_UINT) \
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ET(ET_LONG) \
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ET(ET_ULONG) \
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ET(ET_FLOAT) \
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ET(ET_DOUBLE) \
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ET(ET_STRING) \
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ET(ET_SEQUENCE) // See SequenceType.
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enum ElementaryType {
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#define FLATBUFFERS_ET(E) E,
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FLATBUFFERS_GEN_ELEMENTARY_TYPES(FLATBUFFERS_ET)
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#undef FLATBUFFERS_ET
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};
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inline const char * const *ElementaryTypeNames() {
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static const char * const names[] = {
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#define FLATBUFFERS_ET(E) #E,
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FLATBUFFERS_GEN_ELEMENTARY_TYPES(FLATBUFFERS_ET)
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#undef FLATBUFFERS_ET
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};
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return names;
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}
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// clang-format on
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// Basic type info cost just 16bits per field!
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// We're explicitly defining the signedness since the signedness of integer
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// bitfields is otherwise implementation-defined and causes warnings on older
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// GCC compilers.
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struct TypeCode {
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// ElementaryType
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unsigned short base_type : 4;
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// Either vector (in table) or array (in struct)
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unsigned short is_repeating : 1;
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// Index into type_refs below, or -1 for none.
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signed short sequence_ref : 11;
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};
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static_assert(sizeof(TypeCode) == 2, "TypeCode");
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struct TypeTable;
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// Signature of the static method present in each type.
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typedef const TypeTable *(*TypeFunction)();
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struct TypeTable {
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SequenceType st;
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size_t num_elems; // of type_codes, values, names (but not type_refs).
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const TypeCode *type_codes; // num_elems count
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const TypeFunction *type_refs; // less than num_elems entries (see TypeCode).
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const int16_t *array_sizes; // less than num_elems entries (see TypeCode).
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const int64_t *values; // Only set for non-consecutive enum/union or structs.
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const char *const *names; // Only set if compiled with --reflect-names.
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};
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// String which identifies the current version of FlatBuffers.
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inline const char *flatbuffers_version_string() {
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return "FlatBuffers " FLATBUFFERS_STRING(FLATBUFFERS_VERSION_MAJOR) "."
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FLATBUFFERS_STRING(FLATBUFFERS_VERSION_MINOR) "."
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FLATBUFFERS_STRING(FLATBUFFERS_VERSION_REVISION);
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}
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// clang-format off
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#define FLATBUFFERS_DEFINE_BITMASK_OPERATORS(E, T)\
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inline E operator | (E lhs, E rhs){\
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return E(T(lhs) | T(rhs));\
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}\
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inline E operator & (E lhs, E rhs){\
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return E(T(lhs) & T(rhs));\
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}\
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inline E operator ^ (E lhs, E rhs){\
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return E(T(lhs) ^ T(rhs));\
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}\
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inline E operator ~ (E lhs){\
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return E(~T(lhs));\
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}\
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inline E operator |= (E &lhs, E rhs){\
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lhs = lhs | rhs;\
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return lhs;\
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}\
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inline E operator &= (E &lhs, E rhs){\
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lhs = lhs & rhs;\
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return lhs;\
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}\
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inline E operator ^= (E &lhs, E rhs){\
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lhs = lhs ^ rhs;\
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return lhs;\
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}\
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inline bool operator !(E rhs) \
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{\
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return !bool(T(rhs)); \
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}
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/// @endcond
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} // namespace flatbuffers
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// clang-format on
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#endif // FLATBUFFERS_H_
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