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osrm-backend/third_party/flatbuffers/src/idl_gen_go.cpp

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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.
*/
// independent from idl_parser, since this code is not needed for most clients
#include <sstream>
#include <string>
#include "flatbuffers/code_generators.h"
#include "flatbuffers/flatbuffers.h"
#include "flatbuffers/idl.h"
#include "flatbuffers/util.h"
#ifdef _WIN32
# include <direct.h>
# define PATH_SEPARATOR "\\"
# define mkdir(n, m) _mkdir(n)
#else
# include <sys/stat.h>
# define PATH_SEPARATOR "/"
#endif
namespace flatbuffers {
static std::string GeneratedFileName(const std::string &path,
const std::string &file_name) {
return path + file_name + "_generated.go";
}
namespace go {
// see https://golang.org/ref/spec#Keywords
static const char * const g_golang_keywords[] = {
"break", "default", "func", "interface", "select", "case", "defer",
"go", "map", "struct", "chan", "else", "goto", "package",
"switch", "const", "fallthrough", "if", "range", "type", "continue",
"for", "import", "return", "var",
};
static std::string GoIdentity(const std::string &name) {
for (size_t i = 0;
i < sizeof(g_golang_keywords) / sizeof(g_golang_keywords[0]); i++) {
if (name == g_golang_keywords[i]) { return MakeCamel(name + "_", false); }
}
return MakeCamel(name, false);
}
class GoGenerator : public BaseGenerator {
public:
GoGenerator(const Parser &parser, const std::string &path,
const std::string &file_name, const std::string &go_namespace)
: BaseGenerator(parser, path, file_name, "" /* not used*/,
"" /* not used */),
cur_name_space_(nullptr) {
std::istringstream iss(go_namespace);
std::string component;
while (std::getline(iss, component, '.')) {
go_namespace_.components.push_back(component);
}
}
bool generate() {
std::string one_file_code;
for (auto it = parser_.enums_.vec.begin(); it != parser_.enums_.vec.end();
++it) {
tracked_imported_namespaces_.clear();
std::string enumcode;
GenEnum(**it, &enumcode);
if (parser_.opts.one_file) {
one_file_code += enumcode;
} else {
if (!SaveType(**it, enumcode, false, true)) return false;
}
}
for (auto it = parser_.structs_.vec.begin();
it != parser_.structs_.vec.end(); ++it) {
tracked_imported_namespaces_.clear();
std::string declcode;
GenStruct(**it, &declcode);
if (parser_.opts.one_file) {
one_file_code += declcode;
} else {
if (!SaveType(**it, declcode, true, false)) return false;
}
}
if (parser_.opts.one_file) {
std::string code = "";
const bool is_enum = !parser_.enums_.vec.empty();
BeginFile(LastNamespacePart(go_namespace_), true, is_enum, &code);
code += one_file_code;
const std::string filename = GeneratedFileName(path_, file_name_);
return SaveFile(filename.c_str(), code, false);
}
return true;
}
private:
Namespace go_namespace_;
Namespace *cur_name_space_;
struct NamespacePtrLess {
bool operator()(const Namespace *a, const Namespace *b) const {
return *a < *b;
}
};
std::set<const Namespace *, NamespacePtrLess> tracked_imported_namespaces_;
// Most field accessors need to retrieve and test the field offset first,
// this is the prefix code for that.
std::string OffsetPrefix(const FieldDef &field) {
return "{\n\to := flatbuffers.UOffsetT(rcv._tab.Offset(" +
NumToString(field.value.offset) + "))\n\tif o != 0 {\n";
}
// Begin a class declaration.
void BeginClass(const StructDef &struct_def, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "type " + struct_def.name + " struct {\n\t";
// _ is reserved in flatbuffers field names, so no chance of name conflict:
code += "_tab ";
code += struct_def.fixed ? "flatbuffers.Struct" : "flatbuffers.Table";
code += "\n}\n\n";
}
// Construct the name of the type for this enum.
std::string GetEnumTypeName(const EnumDef &enum_def) {
return WrapInNameSpaceAndTrack(enum_def.defined_namespace, GoIdentity(enum_def.name));
}
// Create a type for the enum values.
void GenEnumType(const EnumDef &enum_def, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "type " + GetEnumTypeName(enum_def) + " ";
code += GenTypeBasic(enum_def.underlying_type) + "\n\n";
}
// Begin enum code with a class declaration.
void BeginEnum(std::string *code_ptr) {
std::string &code = *code_ptr;
code += "const (\n";
}
// A single enum member.
void EnumMember(const EnumDef &enum_def, const EnumVal &ev,
size_t max_name_length, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "\t";
code += enum_def.name;
code += ev.name;
code += " ";
code += std::string(max_name_length - ev.name.length(), ' ');
code += GetEnumTypeName(enum_def);
code += " = ";
code += enum_def.ToString(ev) + "\n";
}
// End enum code.
void EndEnum(std::string *code_ptr) {
std::string &code = *code_ptr;
code += ")\n\n";
}
// Begin enum name map.
void BeginEnumNames(const EnumDef &enum_def, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "var EnumNames";
code += enum_def.name;
code += " = map[" + GetEnumTypeName(enum_def) + "]string{\n";
}
// A single enum name member.
void EnumNameMember(const EnumDef &enum_def, const EnumVal &ev,
size_t max_name_length, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "\t";
code += enum_def.name;
code += ev.name;
code += ": ";
code += std::string(max_name_length - ev.name.length(), ' ');
code += "\"";
code += ev.name;
code += "\",\n";
}
// End enum name map.
void EndEnumNames(std::string *code_ptr) {
std::string &code = *code_ptr;
code += "}\n\n";
}
// Generate String() method on enum type.
void EnumStringer(const EnumDef &enum_def, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "func (v " + enum_def.name + ") String() string {\n";
code += "\tif s, ok := EnumNames" + enum_def.name + "[v]; ok {\n";
code += "\t\treturn s\n";
code += "\t}\n";
code += "\treturn \""+ enum_def.name;
code += "(\" + strconv.FormatInt(int64(v), 10) + \")\"\n";
code += "}\n\n";
}
// Begin enum value map.
void BeginEnumValues(const EnumDef &enum_def, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "var EnumValues";
code += enum_def.name;
code += " = map[string]" + GetEnumTypeName(enum_def) + "{\n";
}
// A single enum value member.
void EnumValueMember(const EnumDef &enum_def, const EnumVal &ev,
size_t max_name_length, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "\t\"";
code += ev.name;
code += "\": ";
code += std::string(max_name_length - ev.name.length(), ' ');
code += enum_def.name;
code += ev.name;
code += ",\n";
}
// End enum value map.
void EndEnumValues(std::string *code_ptr) {
std::string &code = *code_ptr;
code += "}\n\n";
}
// Initialize a new struct or table from existing data.
void NewRootTypeFromBuffer(const StructDef &struct_def,
std::string *code_ptr) {
std::string &code = *code_ptr;
code += "func GetRootAs";
code += struct_def.name;
code += "(buf []byte, offset flatbuffers.UOffsetT) ";
code += "*" + struct_def.name + "";
code += " {\n";
code += "\tn := flatbuffers.GetUOffsetT(buf[offset:])\n";
code += "\tx := &" + struct_def.name + "{}\n";
code += "\tx.Init(buf, n+offset)\n";
code += "\treturn x\n";
code += "}\n\n";
}
// Initialize an existing object with other data, to avoid an allocation.
void InitializeExisting(const StructDef &struct_def, std::string *code_ptr) {
std::string &code = *code_ptr;
GenReceiver(struct_def, code_ptr);
code += " Init(buf []byte, i flatbuffers.UOffsetT) ";
code += "{\n";
code += "\trcv._tab.Bytes = buf\n";
code += "\trcv._tab.Pos = i\n";
code += "}\n\n";
}
// Implement the table accessor
void GenTableAccessor(const StructDef &struct_def, std::string *code_ptr) {
std::string &code = *code_ptr;
GenReceiver(struct_def, code_ptr);
code += " Table() flatbuffers.Table ";
code += "{\n";
if (struct_def.fixed) {
code += "\treturn rcv._tab.Table\n";
} else {
code += "\treturn rcv._tab\n";
}
code += "}\n\n";
}
// Get the length of a vector.
void GetVectorLen(const StructDef &struct_def, const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name) + "Length(";
code += ") int " + OffsetPrefix(field);
code += "\t\treturn rcv._tab.VectorLen(o)\n\t}\n";
code += "\treturn 0\n}\n\n";
}
// Get a [ubyte] vector as a byte slice.
void GetUByteSlice(const StructDef &struct_def, const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name) + "Bytes(";
code += ") []byte " + OffsetPrefix(field);
code += "\t\treturn rcv._tab.ByteVector(o + rcv._tab.Pos)\n\t}\n";
code += "\treturn nil\n}\n\n";
}
// Get the value of a struct's scalar.
void GetScalarFieldOfStruct(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
std::string getter = GenGetter(field.value.type);
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name);
code += "() " + TypeName(field) + " {\n";
code += "\treturn " + CastToEnum(
field.value.type,
getter + "(rcv._tab.Pos + flatbuffers.UOffsetT(" +
NumToString(field.value.offset) + "))");
code += "\n}\n";
}
// Get the value of a table's scalar.
void GetScalarFieldOfTable(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
std::string getter = GenGetter(field.value.type);
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name);
code += "() " + TypeName(field) + " ";
code += OffsetPrefix(field) + "\t\treturn ";
code += CastToEnum(field.value.type, getter + "(o + rcv._tab.Pos)");
code += "\n\t}\n";
code += "\treturn " + GenConstant(field) + "\n";
code += "}\n\n";
}
// Get a struct by initializing an existing struct.
// Specific to Struct.
void GetStructFieldOfStruct(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name);
code += "(obj *" + TypeName(field);
code += ") *" + TypeName(field);
code += " {\n";
code += "\tif obj == nil {\n";
code += "\t\tobj = new(" + TypeName(field) + ")\n";
code += "\t}\n";
code += "\tobj.Init(rcv._tab.Bytes, rcv._tab.Pos+";
code += NumToString(field.value.offset) + ")";
code += "\n\treturn obj\n";
code += "}\n";
}
// Get a struct by initializing an existing struct.
// Specific to Table.
void GetStructFieldOfTable(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name);
code += "(obj *";
code += TypeName(field);
code += ") *" + TypeName(field) + " " + OffsetPrefix(field);
if (field.value.type.struct_def->fixed) {
code += "\t\tx := o + rcv._tab.Pos\n";
} else {
code += "\t\tx := rcv._tab.Indirect(o + rcv._tab.Pos)\n";
}
code += "\t\tif obj == nil {\n";
code += "\t\t\tobj = new(" + TypeName(field) + ")\n";
code += "\t\t}\n";
code += "\t\tobj.Init(rcv._tab.Bytes, x)\n";
code += "\t\treturn obj\n\t}\n\treturn nil\n";
code += "}\n\n";
}
// Get the value of a string.
void GetStringField(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name);
code += "() " + TypeName(field) + " ";
code += OffsetPrefix(field) + "\t\treturn " + GenGetter(field.value.type);
code += "(o + rcv._tab.Pos)\n\t}\n\treturn nil\n";
code += "}\n\n";
}
// Get the value of a union from an object.
void GetUnionField(const StructDef &struct_def, const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name) + "(";
code += "obj " + GenTypePointer(field.value.type) + ") bool ";
code += OffsetPrefix(field);
code += "\t\t" + GenGetter(field.value.type);
code += "(obj, o)\n\t\treturn true\n\t}\n";
code += "\treturn false\n";
code += "}\n\n";
}
// Get the value of a vector's struct member.
void GetMemberOfVectorOfStruct(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
auto vectortype = field.value.type.VectorType();
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name);
code += "(obj *" + TypeName(field);
code += ", j int) bool " + OffsetPrefix(field);
code += "\t\tx := rcv._tab.Vector(o)\n";
code += "\t\tx += flatbuffers.UOffsetT(j) * ";
code += NumToString(InlineSize(vectortype)) + "\n";
if (!(vectortype.struct_def->fixed)) {
code += "\t\tx = rcv._tab.Indirect(x)\n";
}
code += "\t\tobj.Init(rcv._tab.Bytes, x)\n";
code += "\t\treturn true\n\t}\n";
code += "\treturn false\n";
code += "}\n\n";
}
// Get the value of a vector's non-struct member.
void GetMemberOfVectorOfNonStruct(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
auto vectortype = field.value.type.VectorType();
GenReceiver(struct_def, code_ptr);
code += " " + MakeCamel(field.name);
code += "(j int) " + TypeName(field) + " ";
code += OffsetPrefix(field);
code += "\t\ta := rcv._tab.Vector(o)\n";
code += "\t\treturn " + CastToEnum(
field.value.type,
GenGetter(field.value.type) + "(a + flatbuffers.UOffsetT(j*" +
NumToString(InlineSize(vectortype)) + "))");
code += "\n\t}\n";
if (vectortype.base_type == BASE_TYPE_STRING) {
code += "\treturn nil\n";
} else if (vectortype.base_type == BASE_TYPE_BOOL) {
code += "\treturn false\n";
} else {
code += "\treturn 0\n";
}
code += "}\n\n";
}
// Begin the creator function signature.
void BeginBuilderArgs(const StructDef &struct_def, std::string *code_ptr) {
std::string &code = *code_ptr;
if (code.substr(code.length() - 2) != "\n\n") {
// a previous mutate has not put an extra new line
code += "\n";
}
code += "func Create" + struct_def.name;
code += "(builder *flatbuffers.Builder";
}
// Recursively generate arguments for a constructor, to deal with nested
// structs.
void StructBuilderArgs(const StructDef &struct_def, const char *nameprefix,
std::string *code_ptr) {
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (IsStruct(field.value.type)) {
// Generate arguments for a struct inside a struct. To ensure names
// don't clash, and to make it obvious these arguments are constructing
// a nested struct, prefix the name with the field name.
StructBuilderArgs(*field.value.type.struct_def,
(nameprefix + (field.name + "_")).c_str(), code_ptr);
} else {
std::string &code = *code_ptr;
code += std::string(", ") + nameprefix;
code += GoIdentity(field.name);
code += " " + TypeName(field);
}
}
}
// End the creator function signature.
void EndBuilderArgs(std::string *code_ptr) {
std::string &code = *code_ptr;
code += ") flatbuffers.UOffsetT {\n";
}
// Recursively generate struct construction statements and instert manual
// padding.
void StructBuilderBody(const StructDef &struct_def,
const char *nameprefix, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "\tbuilder.Prep(" + NumToString(struct_def.minalign) + ", ";
code += NumToString(struct_def.bytesize) + ")\n";
for (auto it = struct_def.fields.vec.rbegin();
it != struct_def.fields.vec.rend(); ++it) {
auto &field = **it;
if (field.padding)
code += "\tbuilder.Pad(" + NumToString(field.padding) + ")\n";
if (IsStruct(field.value.type)) {
StructBuilderBody(*field.value.type.struct_def,
(nameprefix + (field.name + "_")).c_str(), code_ptr);
} else {
code += "\tbuilder.Prepend" + GenMethod(field) + "(";
code += CastToBaseType(field.value.type, nameprefix + GoIdentity(field.name)) + ")\n";
}
}
}
void EndBuilderBody(std::string *code_ptr) {
std::string &code = *code_ptr;
code += "\treturn builder.Offset()\n";
code += "}\n";
}
// Get the value of a table's starting offset.
void GetStartOfTable(const StructDef &struct_def, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "func " + struct_def.name + "Start";
code += "(builder *flatbuffers.Builder) {\n";
code += "\tbuilder.StartObject(";
code += NumToString(struct_def.fields.vec.size());
code += ")\n}\n";
}
// Set the value of a table's field.
void BuildFieldOfTable(const StructDef &struct_def, const FieldDef &field,
const size_t offset, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "func " + struct_def.name + "Add" + MakeCamel(field.name);
code += "(builder *flatbuffers.Builder, ";
code += GoIdentity(field.name) + " ";
if (!IsScalar(field.value.type.base_type) && (!struct_def.fixed)) {
code += "flatbuffers.UOffsetT";
} else {
code += TypeName(field);
}
code += ") {\n";
code += "\tbuilder.Prepend";
code += GenMethod(field) + "Slot(";
code += NumToString(offset) + ", ";
if (!IsScalar(field.value.type.base_type) && (!struct_def.fixed)) {
code += "flatbuffers.UOffsetT";
code += "(";
code += GoIdentity(field.name) + ")";
} else {
code += CastToBaseType(field.value.type, GoIdentity(field.name));
}
code += ", " + GenConstant(field);
code += ")\n}\n";
}
// Set the value of one of the members of a table's vector.
void BuildVectorOfTable(const StructDef &struct_def,
const FieldDef &field, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "func " + struct_def.name + "Start";
code += MakeCamel(field.name);
code += "Vector(builder *flatbuffers.Builder, numElems int) ";
code += "flatbuffers.UOffsetT {\n\treturn builder.StartVector(";
auto vector_type = field.value.type.VectorType();
auto alignment = InlineAlignment(vector_type);
auto elem_size = InlineSize(vector_type);
code += NumToString(elem_size);
code += ", numElems, " + NumToString(alignment);
code += ")\n}\n";
}
// Get the offset of the end of a table.
void GetEndOffsetOnTable(const StructDef &struct_def, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "func " + struct_def.name + "End";
code += "(builder *flatbuffers.Builder) flatbuffers.UOffsetT ";
code += "{\n\treturn builder.EndObject()\n}\n";
}
// Generate the receiver for function signatures.
void GenReceiver(const StructDef &struct_def, std::string *code_ptr) {
std::string &code = *code_ptr;
code += "func (rcv *" + struct_def.name + ")";
}
// Generate a struct field getter, conditioned on its child type(s).
void GenStructAccessor(const StructDef &struct_def,
const FieldDef &field, std::string *code_ptr) {
GenComment(field.doc_comment, code_ptr, nullptr, "");
if (IsScalar(field.value.type.base_type)) {
if (struct_def.fixed) {
GetScalarFieldOfStruct(struct_def, field, code_ptr);
} else {
GetScalarFieldOfTable(struct_def, field, code_ptr);
}
} else {
switch (field.value.type.base_type) {
case BASE_TYPE_STRUCT:
if (struct_def.fixed) {
GetStructFieldOfStruct(struct_def, field, code_ptr);
} else {
GetStructFieldOfTable(struct_def, field, code_ptr);
}
break;
case BASE_TYPE_STRING: GetStringField(struct_def, field, code_ptr); break;
case BASE_TYPE_VECTOR: {
auto vectortype = field.value.type.VectorType();
if (vectortype.base_type == BASE_TYPE_STRUCT) {
GetMemberOfVectorOfStruct(struct_def, field, code_ptr);
} else {
GetMemberOfVectorOfNonStruct(struct_def, field, code_ptr);
}
break;
}
case BASE_TYPE_UNION: GetUnionField(struct_def, field, code_ptr); break;
default: FLATBUFFERS_ASSERT(0);
}
}
if (field.value.type.base_type == BASE_TYPE_VECTOR) {
GetVectorLen(struct_def, field, code_ptr);
if (field.value.type.element == BASE_TYPE_UCHAR) {
GetUByteSlice(struct_def, field, code_ptr);
}
}
}
// Mutate the value of a struct's scalar.
void MutateScalarFieldOfStruct(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
std::string type = MakeCamel(GenTypeBasic(field.value.type));
std::string setter = "rcv._tab.Mutate" + type;
GenReceiver(struct_def, code_ptr);
code += " Mutate" + MakeCamel(field.name);
code += "(n " + TypeName(field) + ") bool {\n\treturn " + setter;
code += "(rcv._tab.Pos+flatbuffers.UOffsetT(";
code += NumToString(field.value.offset) + "), ";
code += CastToBaseType(field.value.type, "n") + ")\n}\n\n";
}
// Mutate the value of a table's scalar.
void MutateScalarFieldOfTable(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
std::string type = MakeCamel(GenTypeBasic(field.value.type));
std::string setter = "rcv._tab.Mutate" + type + "Slot";
GenReceiver(struct_def, code_ptr);
code += " Mutate" + MakeCamel(field.name);
code += "(n " + TypeName(field) + ") bool {\n\treturn ";
code += setter + "(" + NumToString(field.value.offset) + ", ";
code += CastToBaseType(field.value.type, "n") + ")\n";
code += "}\n\n";
}
// Mutate an element of a vector of scalars.
void MutateElementOfVectorOfNonStruct(const StructDef &struct_def,
const FieldDef &field,
std::string *code_ptr) {
std::string &code = *code_ptr;
auto vectortype = field.value.type.VectorType();
std::string type = MakeCamel(GenTypeBasic(vectortype));
std::string setter = "rcv._tab.Mutate" + type;
GenReceiver(struct_def, code_ptr);
code += " Mutate" + MakeCamel(field.name);
code += "(j int, n " + TypeName(field) + ") bool ";
code += OffsetPrefix(field);
code += "\t\ta := rcv._tab.Vector(o)\n";
code += "\t\treturn " + setter + "(";
code += "a+flatbuffers.UOffsetT(j*";
code += NumToString(InlineSize(vectortype)) + "), ";
code += CastToBaseType(vectortype, "n") + ")\n";
code += "\t}\n";
code += "\treturn false\n";
code += "}\n\n";
}
// Generate a struct field setter, conditioned on its child type(s).
void GenStructMutator(const StructDef &struct_def, const FieldDef &field,
std::string *code_ptr) {
GenComment(field.doc_comment, code_ptr, nullptr, "");
if (IsScalar(field.value.type.base_type)) {
if (struct_def.fixed) {
MutateScalarFieldOfStruct(struct_def, field, code_ptr);
} else {
MutateScalarFieldOfTable(struct_def, field, code_ptr);
}
} else if (field.value.type.base_type == BASE_TYPE_VECTOR) {
if (IsScalar(field.value.type.element)) {
MutateElementOfVectorOfNonStruct(struct_def, field, code_ptr);
}
}
}
// Generate table constructors, conditioned on its members' types.
void GenTableBuilders(const StructDef &struct_def, std::string *code_ptr) {
GetStartOfTable(struct_def, code_ptr);
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
auto offset = it - struct_def.fields.vec.begin();
BuildFieldOfTable(struct_def, field, offset, code_ptr);
if (field.value.type.base_type == BASE_TYPE_VECTOR) {
BuildVectorOfTable(struct_def, field, code_ptr);
}
}
GetEndOffsetOnTable(struct_def, code_ptr);
}
// Generate struct or table methods.
void GenStruct(const StructDef &struct_def, std::string *code_ptr) {
if (struct_def.generated) return;
cur_name_space_ = struct_def.defined_namespace;
GenComment(struct_def.doc_comment, code_ptr, nullptr);
BeginClass(struct_def, code_ptr);
if (!struct_def.fixed) {
// Generate a special accessor for the table that has been declared as
// the root type.
NewRootTypeFromBuffer(struct_def, code_ptr);
}
// Generate the Init method that sets the field in a pre-existing
// accessor object. This is to allow object reuse.
InitializeExisting(struct_def, code_ptr);
// Generate _tab accessor
GenTableAccessor(struct_def, code_ptr);
// Generate struct fields accessors
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
GenStructAccessor(struct_def, field, code_ptr);
GenStructMutator(struct_def, field, code_ptr);
}
// Generate builders
if (struct_def.fixed) {
// create a struct constructor function
GenStructBuilder(struct_def, code_ptr);
} else {
// Create a set of functions that allow table construction.
GenTableBuilders(struct_def, code_ptr);
}
}
// Generate enum declarations.
void GenEnum(const EnumDef &enum_def, std::string *code_ptr) {
if (enum_def.generated) return;
auto max_name_length = MaxNameLength(enum_def);
cur_name_space_ = enum_def.defined_namespace;
GenComment(enum_def.doc_comment, code_ptr, nullptr);
GenEnumType(enum_def, code_ptr);
BeginEnum(code_ptr);
for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end(); ++it) {
auto &ev = **it;
GenComment(ev.doc_comment, code_ptr, nullptr, "\t");
EnumMember(enum_def, ev, max_name_length, code_ptr);
}
EndEnum(code_ptr);
BeginEnumNames(enum_def, code_ptr);
for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end(); ++it) {
auto &ev = **it;
EnumNameMember(enum_def, ev, max_name_length, code_ptr);
}
EndEnumNames(code_ptr);
BeginEnumValues(enum_def, code_ptr);
for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end();
++it) {
auto &ev = **it;
EnumValueMember(enum_def, ev, max_name_length, code_ptr);
}
EndEnumValues(code_ptr);
EnumStringer(enum_def, code_ptr);
}
// Returns the function name that is able to read a value of the given type.
std::string GenGetter(const Type &type) {
switch (type.base_type) {
case BASE_TYPE_STRING: return "rcv._tab.ByteVector";
case BASE_TYPE_UNION: return "rcv._tab.Union";
case BASE_TYPE_VECTOR: return GenGetter(type.VectorType());
default: return "rcv._tab.Get" + MakeCamel(GenTypeBasic(type));
}
}
// Returns the method name for use with add/put calls.
std::string GenMethod(const FieldDef &field) {
return IsScalar(field.value.type.base_type)
? MakeCamel(GenTypeBasic(field.value.type))
: (IsStruct(field.value.type) ? "Struct" : "UOffsetT");
}
std::string GenTypeBasic(const Type &type) {
static const char *ctypename[] = {
// clang-format off
#define FLATBUFFERS_TD(ENUM, IDLTYPE, \
CTYPE, JTYPE, GTYPE, NTYPE, PTYPE, RTYPE, KTYPE) \
#GTYPE,
FLATBUFFERS_GEN_TYPES(FLATBUFFERS_TD)
#undef FLATBUFFERS_TD
// clang-format on
};
return ctypename[type.base_type];
}
std::string GenTypePointer(const Type &type) {
switch (type.base_type) {
case BASE_TYPE_STRING: return "[]byte";
case BASE_TYPE_VECTOR: return GenTypeGet(type.VectorType());
case BASE_TYPE_STRUCT: return WrapInNameSpaceAndTrack(*type.struct_def);
case BASE_TYPE_UNION:
// fall through
default: return "*flatbuffers.Table";
}
}
std::string GenTypeGet(const Type &type) {
if (type.enum_def != nullptr) {
return GetEnumTypeName(*type.enum_def);
}
return IsScalar(type.base_type) ? GenTypeBasic(type) : GenTypePointer(type);
}
std::string TypeName(const FieldDef &field) {
return GenTypeGet(field.value.type);
}
// If type is an enum, returns value with a cast to the enum type, otherwise
// returns value as-is.
std::string CastToEnum(const Type &type, std::string value) {
if (type.enum_def == nullptr) {
return value;
} else {
return GenTypeGet(type) + "(" + value + ")";
}
}
// If type is an enum, returns value with a cast to the enum base type,
// otherwise returns value as-is.
std::string CastToBaseType(const Type &type, std::string value) {
if (type.enum_def == nullptr) {
return value;
} else {
return GenTypeBasic(type) + "(" + value + ")";
}
}
std::string GenConstant(const FieldDef &field) {
switch (field.value.type.base_type) {
case BASE_TYPE_BOOL: return field.value.constant == "0" ? "false" : "true";;
default: return field.value.constant;
}
}
// Create a struct with a builder and the struct's arguments.
void GenStructBuilder(const StructDef &struct_def, std::string *code_ptr) {
BeginBuilderArgs(struct_def, code_ptr);
StructBuilderArgs(struct_def, "", code_ptr);
EndBuilderArgs(code_ptr);
StructBuilderBody(struct_def, "", code_ptr);
EndBuilderBody(code_ptr);
}
// Begin by declaring namespace and imports.
void BeginFile(const std::string &name_space_name, const bool needs_imports,
const bool is_enum, std::string *code_ptr) {
std::string &code = *code_ptr;
code = code + "// Code generated by the FlatBuffers compiler. DO NOT EDIT.\n\n";
code += "package " + name_space_name + "\n\n";
if (needs_imports) {
code += "import (\n";
if (is_enum) {
code += "\t\"strconv\"\n\n";
}
if (!parser_.opts.go_import.empty()) {
code += "\tflatbuffers \"" + parser_.opts.go_import + "\"\n";
} else {
code += "\tflatbuffers \"github.com/google/flatbuffers/go\"\n";
}
if (tracked_imported_namespaces_.size() > 0) {
code += "\n";
for (auto it = tracked_imported_namespaces_.begin();
it != tracked_imported_namespaces_.end();
++it) {
code += "\t" + NamespaceImportName(*it) + " \"" + \
NamespaceImportPath(*it) + "\"\n";
}
}
code += ")\n\n";
} else {
if (is_enum) {
code += "import \"strconv\"\n\n";
}
}
}
// Save out the generated code for a Go Table type.
bool SaveType(const Definition &def, const std::string &classcode,
const bool needs_imports, const bool is_enum) {
if (!classcode.length()) return true;
Namespace &ns = go_namespace_.components.empty() ? *def.defined_namespace
: go_namespace_;
std::string code = "";
BeginFile(LastNamespacePart(ns), needs_imports, is_enum, &code);
code += classcode;
// Strip extra newlines at end of file to make it gofmt-clean.
while (code.length() > 2 && code.substr(code.length() - 2) == "\n\n") {
code.pop_back();
}
std::string filename = NamespaceDir(ns) + def.name + ".go";
return SaveFile(filename.c_str(), code, false);
}
// Create the full name of the imported namespace (format: A__B__C).
std::string NamespaceImportName(const Namespace *ns) {
std::string s = "";
for (auto it = ns->components.begin(); it != ns->components.end(); ++it) {
if (s.size() == 0) {
s += *it;
} else {
s += "__" + *it;
}
}
return s;
}
// Create the full path for the imported namespace (format: A/B/C).
std::string NamespaceImportPath(const Namespace *ns) {
std::string s = "";
for (auto it = ns->components.begin(); it != ns->components.end(); ++it) {
if (s.size() == 0) {
s += *it;
} else {
s += "/" + *it;
}
}
return s;
}
// Ensure that a type is prefixed with its go package import name if it is
// used outside of its namespace.
std::string WrapInNameSpaceAndTrack(const Namespace *ns,
const std::string &name) {
if (CurrentNameSpace() == ns) return name;
tracked_imported_namespaces_.insert(ns);
std::string import_name = NamespaceImportName(ns);
return import_name + "." + name;
}
std::string WrapInNameSpaceAndTrack(const Definition &def) {
return WrapInNameSpaceAndTrack(def.defined_namespace, def.name);
}
const Namespace *CurrentNameSpace() const { return cur_name_space_; }
static size_t MaxNameLength(const EnumDef &enum_def) {
size_t max = 0;
for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end();
++it) {
max = std::max((*it)->name.length(), max);
}
return max;
}
};
} // namespace go
bool GenerateGo(const Parser &parser, const std::string &path,
const std::string &file_name) {
go::GoGenerator generator(parser, path, file_name, parser.opts.go_namespace);
return generator.generate();
}
} // namespace flatbuffers
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