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fuchsia / third_party / flatbuffers / refs/tags/v1.8.0 / . / include / flatbuffers / idl.h
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/*
* Copyright 2014 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_IDL_H_
#define FLATBUFFERS_IDL_H_
#include <map>
#include <stack>
#include <memory>
#include "flatbuffers/base.h"
#include "flatbuffers/flatbuffers.h"
#include "flatbuffers/hash.h"
#include "flatbuffers/reflection.h"
#include "flatbuffers/flexbuffers.h"
#if !defined(FLATBUFFERS_CPP98_STL)
#include <functional>
#endif // !defined(FLATBUFFERS_CPP98_STL)
// This file defines the data types representing a parsed IDL (Interface
// Definition Language) / schema file.
namespace flatbuffers {
// The order of these matters for Is*() functions below.
// Additionally, Parser::ParseType assumes bool..string is a contiguous range
// of type tokens.
#define FLATBUFFERS_GEN_TYPES_SCALAR(TD) \
TD(NONE, "", uint8_t, byte, byte, byte, uint8) \
TD(UTYPE, "", uint8_t, byte, byte, byte, uint8) /* begin scalar/int */ \
TD(BOOL, "bool", uint8_t, boolean,byte, bool, bool) \
TD(CHAR, "byte", int8_t, byte, int8, sbyte, int8) \
TD(UCHAR, "ubyte", uint8_t, byte, byte, byte, uint8) \
TD(SHORT, "short", int16_t, short, int16, short, int16) \
TD(USHORT, "ushort", uint16_t, short, uint16, ushort, uint16) \
TD(INT, "int", int32_t, int, int32, int, int32) \
TD(UINT, "uint", uint32_t, int, uint32, uint, uint32) \
TD(LONG, "long", int64_t, long, int64, long, int64) \
TD(ULONG, "ulong", uint64_t, long, uint64, ulong, uint64) /* end int */ \
TD(FLOAT, "float", float, float, float32, float, float32) /* begin float */ \
TD(DOUBLE, "double", double, double, float64, double, float64) /* end float/scalar */
#define FLATBUFFERS_GEN_TYPES_POINTER(TD) \
TD(STRING, "string", Offset<void>, int, int, StringOffset, int) \
TD(VECTOR, "", Offset<void>, int, int, VectorOffset, int) \
TD(STRUCT, "", Offset<void>, int, int, int, int) \
TD(UNION, "", Offset<void>, int, int, int, int)
// The fields are:
// - enum
// - FlatBuffers schema type.
// - C++ type.
// - Java type.
// - Go type.
// - C# / .Net type.
// - Python type.
// using these macros, we can now write code dealing with types just once, e.g.
/*
switch (type) {
#define FLATBUFFERS_TD(ENUM, IDLTYPE, CTYPE, JTYPE, GTYPE, NTYPE, PTYPE) \
case BASE_TYPE_ ## ENUM: \
// do something specific to CTYPE here
FLATBUFFERS_GEN_TYPES(FLATBUFFERS_TD)
#undef FLATBUFFERS_TD
}
*/
#define FLATBUFFERS_GEN_TYPES(TD) \
FLATBUFFERS_GEN_TYPES_SCALAR(TD) \
FLATBUFFERS_GEN_TYPES_POINTER(TD)
// Create an enum for all the types above.
#ifdef __GNUC__
__extension__ // Stop GCC complaining about trailing comma with -Wpendantic.
#endif
enum BaseType {
#define FLATBUFFERS_TD(ENUM, IDLTYPE, CTYPE, JTYPE, GTYPE, NTYPE, PTYPE) \
BASE_TYPE_ ## ENUM,
FLATBUFFERS_GEN_TYPES(FLATBUFFERS_TD)
#undef FLATBUFFERS_TD
};
#define FLATBUFFERS_TD(ENUM, IDLTYPE, CTYPE, JTYPE, GTYPE, NTYPE, PTYPE) \
static_assert(sizeof(CTYPE) <= sizeof(largest_scalar_t), \
"define largest_scalar_t as " #CTYPE);
FLATBUFFERS_GEN_TYPES(FLATBUFFERS_TD)
#undef FLATBUFFERS_TD
inline bool IsScalar (BaseType t) { return t >= BASE_TYPE_UTYPE &&
t <= BASE_TYPE_DOUBLE; }
inline bool IsInteger(BaseType t) { return t >= BASE_TYPE_UTYPE &&
t <= BASE_TYPE_ULONG; }
inline bool IsFloat (BaseType t) { return t == BASE_TYPE_FLOAT ||
t == BASE_TYPE_DOUBLE; }
inline bool IsLong (BaseType t) { return t == BASE_TYPE_LONG ||
t == BASE_TYPE_ULONG; }
inline bool IsBool (BaseType t) { return t == BASE_TYPE_BOOL; }
extern const char *const kTypeNames[];
extern const char kTypeSizes[];
inline size_t SizeOf(BaseType t) {
return kTypeSizes[t];
}
struct StructDef;
struct EnumDef;
class Parser;
// Represents any type in the IDL, which is a combination of the BaseType
// and additional information for vectors/structs_.
struct Type {
explicit Type(BaseType _base_type = BASE_TYPE_NONE,
StructDef *_sd = nullptr, EnumDef *_ed = nullptr)
: base_type(_base_type),
element(BASE_TYPE_NONE),
struct_def(_sd),
enum_def(_ed)
{}
bool operator==(const Type &o) {
return base_type == o.base_type && element == o.element &&
struct_def == o.struct_def && enum_def == o.enum_def;
}
Type VectorType() const { return Type(element, struct_def, enum_def); }
Offset<reflection::Type> Serialize(FlatBufferBuilder *builder) const;
BaseType base_type;
BaseType element; // only set if t == BASE_TYPE_VECTOR
StructDef *struct_def; // only set if t or element == BASE_TYPE_STRUCT
EnumDef *enum_def; // set if t == BASE_TYPE_UNION / BASE_TYPE_UTYPE,
// or for an integral type derived from an enum.
};
// Represents a parsed scalar value, it's type, and field offset.
struct Value {
Value() : constant("0"), offset(static_cast<voffset_t>(
~(static_cast<voffset_t>(0U)))) {}
Type type;
std::string constant;
voffset_t offset;
};
// Helper class that retains the original order of a set of identifiers and
// also provides quick lookup.
template<typename T> class SymbolTable {
public:
~SymbolTable() {
for (auto it = vec.begin(); it != vec.end(); ++it) {
delete *it;
}
}
bool Add(const std::string &name, T *e) {
vector_emplace_back(&vec, e);
auto it = dict.find(name);
if (it != dict.end()) return true;
dict[name] = e;
return false;
}
void Move(const std::string &oldname, const std::string &newname) {
auto it = dict.find(oldname);
if (it != dict.end()) {
auto obj = it->second;
dict.erase(it);
dict[newname] = obj;
} else {
assert(false);
}
}
T *Lookup(const std::string &name) const {
auto it = dict.find(name);
return it == dict.end() ? nullptr : it->second;
}
public:
std::map<std::string, T *> dict; // quick lookup
std::vector<T *> vec; // Used to iterate in order of insertion
};
// A name space, as set in the schema.
struct Namespace {
Namespace() : from_table(0) {}
// Given a (potentally unqualified) name, return the "fully qualified" name
// which has a full namespaced descriptor.
// With max_components you can request less than the number of components
// the current namespace has.
std::string GetFullyQualifiedName(const std::string &name,
size_t max_components = 1000) const;
std::vector<std::string> components;
size_t from_table; // Part of the namespace corresponds to a message/table.
};
// Base class for all definition types (fields, structs_, enums_).
struct Definition {
Definition() : generated(false), defined_namespace(nullptr),
serialized_location(0), index(-1), refcount(1) {}
flatbuffers::Offset<flatbuffers::Vector<flatbuffers::Offset<
reflection::KeyValue>>>
SerializeAttributes(FlatBufferBuilder *builder,
const Parser &parser) const;
std::string name;
std::string file;
std::vector<std::string> doc_comment;
SymbolTable<Value> attributes;
bool generated; // did we already output code for this definition?
Namespace *defined_namespace; // Where it was defined.
// For use with Serialize()
uoffset_t serialized_location;
int index; // Inside the vector it is stored.
int refcount;
};
struct FieldDef : public Definition {
FieldDef() : deprecated(false), required(false), key(false),
native_inline(false), flexbuffer(false), nested_flatbuffer(NULL),
padding(0) {}
Offset<reflection::Field> Serialize(FlatBufferBuilder *builder, uint16_t id,
const Parser &parser) const;
Value value;
bool deprecated; // Field is allowed to be present in old data, but can't be.
// written in new data nor accessed in new code.
bool required; // Field must always be present.
bool key; // Field functions as a key for creating sorted vectors.
bool native_inline; // Field will be defined inline (instead of as a pointer)
// for native tables if field is a struct.
bool flexbuffer; // This field contains FlexBuffer data.
StructDef *nested_flatbuffer; // This field contains nested FlatBuffer data.
size_t padding; // Bytes to always pad after this field.
};
struct StructDef : public Definition {
StructDef()
: fixed(false),
predecl(true),
sortbysize(true),
has_key(false),
minalign(1),
bytesize(0)
{}
void PadLastField(size_t min_align) {
auto padding = PaddingBytes(bytesize, min_align);
bytesize += padding;
if (fields.vec.size()) fields.vec.back()->padding = padding;
}
Offset<reflection::Object> Serialize(FlatBufferBuilder *builder,
const Parser &parser) const;
SymbolTable<FieldDef> fields;
bool fixed; // If it's struct, not a table.
bool predecl; // If it's used before it was defined.
bool sortbysize; // Whether fields come in the declaration or size order.
bool has_key; // It has a key field.
size_t minalign; // What the whole object needs to be aligned to.
size_t bytesize; // Size if fixed.
flatbuffers::unique_ptr<std::string> original_location;
};
inline bool IsStruct(const Type &type) {
return type.base_type == BASE_TYPE_STRUCT && type.struct_def->fixed;
}
inline size_t InlineSize(const Type &type) {
return IsStruct(type) ? type.struct_def->bytesize : SizeOf(type.base_type);
}
inline size_t InlineAlignment(const Type &type) {
return IsStruct(type) ? type.struct_def->minalign : SizeOf(type.base_type);
}
struct EnumVal {
EnumVal(const std::string &_name, int64_t _val)
: name(_name), value(_val) {}
Offset<reflection::EnumVal> Serialize(FlatBufferBuilder *builder) const;
std::string name;
std::vector<std::string> doc_comment;
int64_t value;
Type union_type;
};
struct EnumDef : public Definition {
EnumDef() : is_union(false), uses_type_aliases(false) {}
EnumVal *ReverseLookup(int enum_idx, bool skip_union_default = true) {
for (auto it = vals.vec.begin() + static_cast<int>(is_union &&
skip_union_default);
it != vals.vec.end(); ++it) {
if ((*it)->value == enum_idx) {
return *it;
}
}
return nullptr;
}
Offset<reflection::Enum> Serialize(FlatBufferBuilder *builder,
const Parser &parser) const;
SymbolTable<EnumVal> vals;
bool is_union;
bool uses_type_aliases;
Type underlying_type;
};
inline bool EqualByName(const Type &a, const Type &b) {
return a.base_type == b.base_type && a.element == b.element &&
(a.struct_def == b.struct_def ||
a.struct_def->name == b.struct_def->name) &&
(a.enum_def == b.enum_def ||
a.enum_def->name == b.enum_def->name);
}
struct RPCCall {
std::string name;
SymbolTable<Value> attributes;
StructDef *request, *response;
};
struct ServiceDef : public Definition {
SymbolTable<RPCCall> calls;
};
// Container of options that may apply to any of the source/text generators.
struct IDLOptions {
bool strict_json;
bool skip_js_exports;
bool use_goog_js_export_format;
bool output_default_scalars_in_json;
int indent_step;
bool output_enum_identifiers;
bool prefixed_enums;
bool scoped_enums;
bool include_dependence_headers;
bool mutable_buffer;
bool one_file;
bool proto_mode;
bool generate_all;
bool skip_unexpected_fields_in_json;
bool generate_name_strings;
bool generate_object_based_api;
std::string cpp_object_api_pointer_type;
std::string cpp_object_api_string_type;
bool gen_nullable;
std::string object_prefix;
std::string object_suffix;
bool union_value_namespacing;
bool allow_non_utf8;
std::string include_prefix;
bool keep_include_path;
bool binary_schema_comments;
bool skip_flatbuffers_import;
std::string go_import;
std::string go_namespace;
bool reexport_ts_modules;
bool protobuf_ascii_alike;
// Possible options for the more general generator below.
enum Language {
kJava = 1 << 0,
kCSharp = 1 << 1,
kGo = 1 << 2,
kCpp = 1 << 3,
kJs = 1 << 4,
kPython = 1 << 5,
kPhp = 1 << 6,
kJson = 1 << 7,
kBinary = 1 << 8,
kTs = 1 << 9,
kJsonSchema = 1 << 10,
kMAX
};
Language lang;
enum MiniReflect { kNone, kTypes, kTypesAndNames };
MiniReflect mini_reflect;
// The corresponding language bit will be set if a language is included
// for code generation.
unsigned long lang_to_generate;
IDLOptions()
: strict_json(false),
skip_js_exports(false),
use_goog_js_export_format(false),
output_default_scalars_in_json(false),
indent_step(2),
output_enum_identifiers(true), prefixed_enums(true), scoped_enums(false),
include_dependence_headers(true),
mutable_buffer(false),
one_file(false),
proto_mode(false),
generate_all(false),
skip_unexpected_fields_in_json(false),
generate_name_strings(false),
generate_object_based_api(false),
cpp_object_api_pointer_type("std::unique_ptr"),
gen_nullable(false),
object_suffix("T"),
union_value_namespacing(true),
allow_non_utf8(false),
keep_include_path(false),
binary_schema_comments(false),
skip_flatbuffers_import(false),
reexport_ts_modules(true),
protobuf_ascii_alike(false),
lang(IDLOptions::kJava),
mini_reflect(IDLOptions::kNone),
lang_to_generate(0) {}
};
// This encapsulates where the parser is in the current source file.
struct ParserState {
ParserState() : cursor_(nullptr), line_(1), token_(-1) {}
protected:
const char *cursor_;
int line_; // the current line being parsed
int token_;
std::string attribute_;
std::vector<std::string> doc_comment_;
};
// A way to make error propagation less error prone by requiring values to be
// checked.
// Once you create a value of this type you must either:
// - Call Check() on it.
// - Copy or assign it to another value.
// Failure to do so leads to an assert.
// This guarantees that this as return value cannot be ignored.
class CheckedError {
public:
explicit CheckedError(bool error)
: is_error_(error), has_been_checked_(false) {}
CheckedError &operator=(const CheckedError &other) {
is_error_ = other.is_error_;
has_been_checked_ = false;
other.has_been_checked_ = true;
return *this;
}
CheckedError(const CheckedError &other) {
*this = other; // Use assignment operator.
}
~CheckedError() { assert(has_been_checked_); }
bool Check() { has_been_checked_ = true; return is_error_; }
private:
bool is_error_;
mutable bool has_been_checked_;
};
// Additionally, in GCC we can get these errors statically, for additional
// assurance:
#ifdef __GNUC__
#define FLATBUFFERS_CHECKED_ERROR CheckedError \
__attribute__((warn_unused_result))
#else
#define FLATBUFFERS_CHECKED_ERROR CheckedError
#endif
class Parser : public ParserState {
public:
explicit Parser(const IDLOptions &options = IDLOptions())
: current_namespace_(nullptr),
empty_namespace_(nullptr),
root_struct_def_(nullptr),
opts(options),
uses_flexbuffers_(false),
source_(nullptr),
anonymous_counter(0) {
// Start out with the empty namespace being current.
empty_namespace_ = new Namespace();
namespaces_.push_back(empty_namespace_);
current_namespace_ = empty_namespace_;
known_attributes_["deprecated"] = true;
known_attributes_["required"] = true;
known_attributes_["key"] = true;
known_attributes_["hash"] = true;
known_attributes_["id"] = true;
known_attributes_["force_align"] = true;
known_attributes_["bit_flags"] = true;
known_attributes_["original_order"] = true;
known_attributes_["nested_flatbuffer"] = true;
known_attributes_["csharp_partial"] = true;
known_attributes_["streaming"] = true;
known_attributes_["idempotent"] = true;
known_attributes_["cpp_type"] = true;
known_attributes_["cpp_ptr_type"] = true;
known_attributes_["cpp_str_type"] = true;
known_attributes_["native_inline"] = true;
known_attributes_["native_type"] = true;
known_attributes_["native_default"] = true;
known_attributes_["flexbuffer"] = true;
}
~Parser() {
for (auto it = namespaces_.begin(); it != namespaces_.end(); ++it) {
delete *it;
}
}
// Parse the string containing either schema or JSON data, which will
// populate the SymbolTable's or the FlatBufferBuilder above.
// include_paths is used to resolve any include statements, and typically
// should at least include the project path (where you loaded source_ from).
// include_paths must be nullptr terminated if specified.
// If include_paths is nullptr, it will attempt to load from the current
// directory.
// If the source was loaded from a file and isn't an include file,
// supply its name in source_filename.
// All paths specified in this call must be in posix format, if you accept
// paths from user input, please call PosixPath on them first.
bool Parse(const char *_source, const char **include_paths = nullptr,
const char *source_filename = nullptr);
// Set the root type. May override the one set in the schema.
bool SetRootType(const char *name);
// Mark all definitions as already having code generated.
void MarkGenerated();
// Get the files recursively included by the given file. The returned
// container will have at least the given file.
std::set<std::string> GetIncludedFilesRecursive(
const std::string &file_name) const;
// Fills builder_ with a binary version of the schema parsed.
// See reflection/reflection.fbs
void Serialize();
// Checks that the schema represented by this parser is a safe evolution
// of the schema provided. Returns non-empty error on any problems.
std::string ConformTo(const Parser &base);
// Similar to Parse(), but now only accepts JSON to be parsed into a
// FlexBuffer.
bool ParseFlexBuffer(const char *source, const char *source_filename,
flexbuffers::Builder *builder);
FLATBUFFERS_CHECKED_ERROR CheckInRange(int64_t val, int64_t min, int64_t max);
StructDef *LookupStruct(const std::string &id) const;
private:
void Message(const std::string &msg);
void Warning(const std::string &msg);
FLATBUFFERS_CHECKED_ERROR Error(const std::string &msg);
FLATBUFFERS_CHECKED_ERROR ParseHexNum(int nibbles, uint64_t *val);
FLATBUFFERS_CHECKED_ERROR Next();
FLATBUFFERS_CHECKED_ERROR SkipByteOrderMark();
bool Is(int t);
bool IsIdent(const char *id);
FLATBUFFERS_CHECKED_ERROR Expect(int t);
std::string TokenToStringId(int t);
EnumDef *LookupEnum(const std::string &id);
FLATBUFFERS_CHECKED_ERROR ParseNamespacing(std::string *id,
std::string *last);
FLATBUFFERS_CHECKED_ERROR ParseTypeIdent(Type &type);
FLATBUFFERS_CHECKED_ERROR ParseType(Type &type);
FLATBUFFERS_CHECKED_ERROR AddField(StructDef &struct_def,
const std::string &name, const Type &type,
FieldDef **dest);
FLATBUFFERS_CHECKED_ERROR ParseField(StructDef &struct_def);
FLATBUFFERS_CHECKED_ERROR ParseString(Value &val);
FLATBUFFERS_CHECKED_ERROR ParseComma();
FLATBUFFERS_CHECKED_ERROR ParseAnyValue(Value &val, FieldDef *field,
size_t parent_fieldn,
const StructDef *parent_struct_def);
#if defined(FLATBUFFERS_CPP98_STL)
typedef CheckedError (*ParseTableDelimitersBody)(
const std::string &name, size_t &fieldn, const StructDef *struct_def,
void *state);
#else
typedef std::function<CheckedError(const std::string&, size_t&,
const StructDef*, void*)>
ParseTableDelimitersBody;
#endif // defined(FLATBUFFERS_CPP98_STL)
FLATBUFFERS_CHECKED_ERROR ParseTableDelimiters(size_t &fieldn,
const StructDef *struct_def,
ParseTableDelimitersBody body,
void *state);
FLATBUFFERS_CHECKED_ERROR ParseTable(const StructDef &struct_def,
std::string *value, uoffset_t *ovalue);
void SerializeStruct(const StructDef &struct_def, const Value &val);
void AddVector(bool sortbysize, int count);
#if defined(FLATBUFFERS_CPP98_STL)
typedef CheckedError (*ParseVectorDelimitersBody)(size_t &count,
void *state);
#else
typedef std::function<CheckedError(size_t&, void*)>
ParseVectorDelimitersBody;
#endif // defined(FLATBUFFERS_CPP98_STL)
FLATBUFFERS_CHECKED_ERROR ParseVectorDelimiters(
size_t &count, ParseVectorDelimitersBody body, void *state);
FLATBUFFERS_CHECKED_ERROR ParseVector(const Type &type, uoffset_t *ovalue);
FLATBUFFERS_CHECKED_ERROR ParseNestedFlatbuffer(Value &val, FieldDef *field,
size_t fieldn,
const StructDef *parent_struct_def);
FLATBUFFERS_CHECKED_ERROR ParseMetaData(SymbolTable<Value> *attributes);
FLATBUFFERS_CHECKED_ERROR TryTypedValue(int dtoken, bool check, Value &e,
BaseType req, bool *destmatch);
FLATBUFFERS_CHECKED_ERROR ParseHash(Value &e, FieldDef* field);
FLATBUFFERS_CHECKED_ERROR TokenError();
FLATBUFFERS_CHECKED_ERROR ParseSingleValue(Value &e);
FLATBUFFERS_CHECKED_ERROR ParseEnumFromString(Type &type, int64_t *result);
StructDef *LookupCreateStruct(const std::string &name,
bool create_if_new = true,
bool definition = false);
FLATBUFFERS_CHECKED_ERROR ParseEnum(bool is_union, EnumDef **dest);
FLATBUFFERS_CHECKED_ERROR ParseNamespace();
FLATBUFFERS_CHECKED_ERROR StartStruct(const std::string &name,
StructDef **dest);
FLATBUFFERS_CHECKED_ERROR ParseDecl();
FLATBUFFERS_CHECKED_ERROR ParseService();
FLATBUFFERS_CHECKED_ERROR ParseProtoFields(StructDef *struct_def,
bool isextend, bool inside_oneof);
FLATBUFFERS_CHECKED_ERROR ParseProtoOption();
FLATBUFFERS_CHECKED_ERROR ParseProtoKey();
FLATBUFFERS_CHECKED_ERROR ParseProtoDecl();
FLATBUFFERS_CHECKED_ERROR ParseProtoCurliesOrIdent();
FLATBUFFERS_CHECKED_ERROR ParseTypeFromProtoType(Type *type);
FLATBUFFERS_CHECKED_ERROR SkipAnyJsonValue();
FLATBUFFERS_CHECKED_ERROR ParseFlexBufferValue(flexbuffers::Builder *builder);
FLATBUFFERS_CHECKED_ERROR StartParseFile(const char *source,
const char *source_filename);
FLATBUFFERS_CHECKED_ERROR ParseRoot(const char *_source,
const char **include_paths,
const char *source_filename);
FLATBUFFERS_CHECKED_ERROR DoParse(const char *_source,
const char **include_paths,
const char *source_filename,
const char *include_filename);
FLATBUFFERS_CHECKED_ERROR CheckClash(std::vector<FieldDef*> &fields,
StructDef *struct_def,
const char *suffix,
BaseType baseType);
bool SupportsVectorOfUnions() const;
Namespace *UniqueNamespace(Namespace *ns);
public:
SymbolTable<Type> types_;
SymbolTable<StructDef> structs_;
SymbolTable<EnumDef> enums_;
SymbolTable<ServiceDef> services_;
std::vector<Namespace *> namespaces_;
Namespace *current_namespace_;
Namespace *empty_namespace_;
std::string error_; // User readable error_ if Parse() == false
FlatBufferBuilder builder_; // any data contained in the file
StructDef *root_struct_def_;
std::string file_identifier_;
std::string file_extension_;
std::map<std::string, std::string> included_files_;
std::map<std::string, std::set<std::string>> files_included_per_file_;
std::vector<std::string> native_included_files_;
std::map<std::string, bool> known_attributes_;
IDLOptions opts;
bool uses_flexbuffers_;
private:
const char *source_;
std::string file_being_parsed_;
std::vector<std::pair<Value, FieldDef *>> field_stack_;
int anonymous_counter;
};
// Utility functions for multiple generators:
extern std::string MakeCamel(const std::string &in, bool first = true);
// Generate text (JSON) from a given FlatBuffer, and a given Parser
// object that has been populated with the corresponding schema.
// If ident_step is 0, no indentation will be generated. Additionally,
// if it is less than 0, no linefeeds will be generated either.
// See idl_gen_text.cpp.
// strict_json adds "quotes" around field names if true.
// If the flatbuffer cannot be encoded in JSON (e.g., it contains non-UTF-8
// byte arrays in String values), returns false.
extern bool GenerateText(const Parser &parser,
const void *flatbuffer,
std::string *text);
extern bool GenerateTextFile(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate binary files from a given FlatBuffer, and a given Parser
// object that has been populated with the corresponding schema.
// See idl_gen_general.cpp.
extern bool GenerateBinary(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate a C++ header from the definitions in the Parser object.
// See idl_gen_cpp.
extern std::string GenerateCPP(const Parser &parser,
const std::string &include_guard_ident);
extern bool GenerateCPP(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate JavaScript or TypeScript code from the definitions in the Parser object.
// See idl_gen_js.
extern std::string GenerateJS(const Parser &parser);
extern bool GenerateJS(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate Go files from the definitions in the Parser object.
// See idl_gen_go.cpp.
extern bool GenerateGo(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate Java files from the definitions in the Parser object.
// See idl_gen_java.cpp.
extern bool GenerateJava(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate Php code from the definitions in the Parser object.
// See idl_gen_php.
extern bool GeneratePhp(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate Python files from the definitions in the Parser object.
// See idl_gen_python.cpp.
extern bool GeneratePython(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate Json schema file
// See idl_gen_json_schema.cpp.
extern bool GenerateJsonSchema(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate C# files from the definitions in the Parser object.
// See idl_gen_csharp.cpp.
extern bool GenerateCSharp(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate Java/C#/.. files from the definitions in the Parser object.
// See idl_gen_general.cpp.
extern bool GenerateGeneral(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate a schema file from the internal representation, useful after
// parsing a .proto schema.
extern std::string GenerateFBS(const Parser &parser,
const std::string &file_name);
extern bool GenerateFBS(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate a make rule for the generated JavaScript or TypeScript code.
// See idl_gen_js.cpp.
extern std::string JSMakeRule(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate a make rule for the generated C++ header.
// See idl_gen_cpp.cpp.
extern std::string CPPMakeRule(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate a make rule for the generated Java/C#/... files.
// See idl_gen_general.cpp.
extern std::string GeneralMakeRule(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate a make rule for the generated text (JSON) files.
// See idl_gen_text.cpp.
extern std::string TextMakeRule(const Parser &parser,
const std::string &path,
const std::string &file_names);
// Generate a make rule for the generated binary files.
// See idl_gen_general.cpp.
extern std::string BinaryMakeRule(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate GRPC Cpp interfaces.
// See idl_gen_grpc.cpp.
bool GenerateCppGRPC(const Parser &parser,
const std::string &path,
const std::string &file_name);
// Generate GRPC Go interfaces.
// See idl_gen_grpc.cpp.
bool GenerateGoGRPC(const Parser &parser,
const std::string &path,
const std::string &file_name);
} // namespace flatbuffers
#endif // FLATBUFFERS_IDL_H_