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flatbuffers-bigfoot/src/idl_gen_csharp.cpp
Casper e581013e3d Refactor FieldDef to model presense as an enum rather than 2 bools. (#6420) 
* Define presence.

* Migrate to IsRequired and IsOptional methods

* moved stuff around

* Removed optional and required bools from FieldDef

* change assert to return error

* Fix tests.cpp

* MakeFieldPresence helper

* fmt

* old c++ compatibility stuff

Co-authored-by: Casper Neo <cneo@google.com>
2021-01-25 09:29:43 -08:00

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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 "flatbuffers/code_generators.h"
#include "flatbuffers/flatbuffers.h"
#include "flatbuffers/idl.h"
#include "flatbuffers/util.h"
#if defined(FLATBUFFERS_CPP98_STL)
# include <cctype>
#endif // defined(FLATBUFFERS_CPP98_STL)
namespace flatbuffers {
static TypedFloatConstantGenerator CSharpFloatGen("Double.", "Single.", "NaN",
"PositiveInfinity",
"NegativeInfinity");
static CommentConfig comment_config = {
nullptr,
"///",
nullptr,
};
namespace csharp {
class CSharpGenerator : public BaseGenerator {
struct FieldArrayLength {
std::string name;
int length;
};
public:
CSharpGenerator(const Parser &parser, const std::string &path,
const std::string &file_name)
: BaseGenerator(parser, path, file_name, "", ".", "cs"),
cur_name_space_(nullptr) {}
CSharpGenerator &operator=(const CSharpGenerator &);
bool generate() {
std::string one_file_code;
cur_name_space_ = parser_.current_namespace_;
for (auto it = parser_.enums_.vec.begin(); it != parser_.enums_.vec.end();
++it) {
std::string enumcode;
auto &enum_def = **it;
if (!parser_.opts.one_file) cur_name_space_ = enum_def.defined_namespace;
GenEnum(enum_def, &enumcode, parser_.opts);
if (parser_.opts.one_file) {
one_file_code += enumcode;
} else {
if (!SaveType(enum_def.name, *enum_def.defined_namespace, enumcode,
false))
return false;
}
}
for (auto it = parser_.structs_.vec.begin();
it != parser_.structs_.vec.end(); ++it) {
std::string declcode;
auto &struct_def = **it;
if (!parser_.opts.one_file)
cur_name_space_ = struct_def.defined_namespace;
GenStruct(struct_def, &declcode, parser_.opts);
if (parser_.opts.one_file) {
one_file_code += declcode;
} else {
if (!SaveType(struct_def.name, *struct_def.defined_namespace, declcode,
true))
return false;
}
}
if (parser_.opts.one_file) {
return SaveType(file_name_, *parser_.current_namespace_, one_file_code,
true);
}
return true;
}
// Save out the generated code for a single class while adding
// declaration boilerplate.
bool SaveType(const std::string &defname, const Namespace &ns,
const std::string &classcode, bool needs_includes) const {
if (!classcode.length()) return true;
std::string code =
"// <auto-generated>\n"
"// " +
std::string(FlatBuffersGeneratedWarning()) +
"\n"
"// </auto-generated>\n\n";
std::string namespace_name = FullNamespace(".", ns);
if (!namespace_name.empty()) {
code += "namespace " + namespace_name + "\n{\n\n";
}
if (needs_includes) {
code += "using global::System;\n";
code += "using global::System.Collections.Generic;\n";
code += "using global::FlatBuffers;\n\n";
}
code += classcode;
if (!namespace_name.empty()) { code += "\n}\n"; }
auto filename = NamespaceDir(ns) + defname + ".cs";
return SaveFile(filename.c_str(), code, false);
}
const Namespace *CurrentNameSpace() const { return cur_name_space_; }
std::string GenTypeBasic(const Type &type, bool enableLangOverrides) const {
// clang-format off
static const char * const csharp_typename[] = {
#define FLATBUFFERS_TD(ENUM, IDLTYPE, CTYPE, JTYPE, GTYPE, NTYPE, ...) \
#NTYPE,
FLATBUFFERS_GEN_TYPES(FLATBUFFERS_TD)
#undef FLATBUFFERS_TD
};
// clang-format on
if (enableLangOverrides) {
if (IsEnum(type)) return WrapInNameSpace(*type.enum_def);
if (type.base_type == BASE_TYPE_STRUCT) {
return "Offset<" + WrapInNameSpace(*type.struct_def) + ">";
}
}
return csharp_typename[type.base_type];
}
inline std::string GenTypeBasic(const Type &type) const {
return GenTypeBasic(type, true);
}
std::string GenTypePointer(const Type &type) const {
switch (type.base_type) {
case BASE_TYPE_STRING: return "string";
case BASE_TYPE_VECTOR: return GenTypeGet(type.VectorType());
case BASE_TYPE_STRUCT: return WrapInNameSpace(*type.struct_def);
case BASE_TYPE_UNION: return "TTable";
default: return "Table";
}
}
std::string GenTypeGet(const Type &type) const {
return IsScalar(type.base_type)
? GenTypeBasic(type)
: (IsArray(type) ? GenTypeGet(type.VectorType())
: GenTypePointer(type));
}
std::string GenOffsetType(const StructDef &struct_def) const {
return "Offset<" + WrapInNameSpace(struct_def) + ">";
}
std::string GenOffsetConstruct(const StructDef &struct_def,
const std::string &variable_name) const {
return "new Offset<" + WrapInNameSpace(struct_def) + ">(" + variable_name +
")";
}
// Casts necessary to correctly read serialized data
std::string DestinationCast(const Type &type) const {
if (IsSeries(type)) {
return DestinationCast(type.VectorType());
} else {
if (IsEnum(type)) return "(" + WrapInNameSpace(*type.enum_def) + ")";
}
return "";
}
// Cast statements for mutator method parameters.
// In Java, parameters representing unsigned numbers need to be cast down to
// their respective type. For example, a long holding an unsigned int value
// would be cast down to int before being put onto the buffer. In C#, one cast
// directly cast an Enum to its underlying type, which is essential before
// putting it onto the buffer.
std::string SourceCast(const Type &type) const {
if (IsSeries(type)) {
return SourceCast(type.VectorType());
} else {
if (IsEnum(type)) return "(" + GenTypeBasic(type, false) + ")";
}
return "";
}
std::string SourceCastBasic(const Type &type) const {
return IsScalar(type.base_type) ? SourceCast(type) : "";
}
std::string GenEnumDefaultValue(const FieldDef &field) const {
auto &value = field.value;
FLATBUFFERS_ASSERT(value.type.enum_def);
auto &enum_def = *value.type.enum_def;
auto enum_val = enum_def.FindByValue(value.constant);
return enum_val ? (WrapInNameSpace(enum_def) + "." + enum_val->name)
: value.constant;
}
std::string GenDefaultValue(const FieldDef &field,
bool enableLangOverrides) const {
// If it is an optional scalar field, the default is null
if (field.IsScalarOptional()) { return "null"; }
auto &value = field.value;
if (enableLangOverrides) {
// handles both enum case and vector of enum case
if (value.type.enum_def != nullptr &&
value.type.base_type != BASE_TYPE_UNION) {
return GenEnumDefaultValue(field);
}
}
auto longSuffix = "";
switch (value.type.base_type) {
case BASE_TYPE_BOOL: return value.constant == "0" ? "false" : "true";
case BASE_TYPE_ULONG: return value.constant;
case BASE_TYPE_UINT:
case BASE_TYPE_LONG: return value.constant + longSuffix;
default:
if (IsFloat(value.type.base_type))
return CSharpFloatGen.GenFloatConstant(field);
else
return value.constant;
}
}
std::string GenDefaultValue(const FieldDef &field) const {
return GenDefaultValue(field, true);
}
std::string GenDefaultValueBasic(const FieldDef &field,
bool enableLangOverrides) const {
auto &value = field.value;
if (!IsScalar(value.type.base_type)) {
if (enableLangOverrides) {
switch (value.type.base_type) {
case BASE_TYPE_STRING: return "default(StringOffset)";
case BASE_TYPE_STRUCT:
return "default(Offset<" + WrapInNameSpace(*value.type.struct_def) +
">)";
case BASE_TYPE_VECTOR: return "default(VectorOffset)";
default: break;
}
}
return "0";
}
return GenDefaultValue(field, enableLangOverrides);
}
std::string GenDefaultValueBasic(const FieldDef &field) const {
return GenDefaultValueBasic(field, true);
}
void GenEnum(EnumDef &enum_def, std::string *code_ptr,
const IDLOptions &opts) const {
std::string &code = *code_ptr;
if (enum_def.generated) return;
// Generate enum definitions of the form:
// public static (final) int name = value;
// In Java, we use ints rather than the Enum feature, because we want them
// to map directly to how they're used in C/C++ and file formats.
// That, and Java Enums are expensive, and not universally liked.
GenComment(enum_def.doc_comment, code_ptr, &comment_config);
if (opts.cs_gen_json_serializer && opts.generate_object_based_api) {
code +=
"[Newtonsoft.Json.JsonConverter(typeof(Newtonsoft.Json.Converters."
"StringEnumConverter))]\n";
}
// In C# this indicates enumeration values can be treated as bit flags.
if (enum_def.attributes.Lookup("bit_flags")) {
code += "[System.FlagsAttribute]\n";
}
if (enum_def.attributes.Lookup("private")) {
code += "internal ";
} else {
code += "public ";
}
code += "enum " + enum_def.name;
code += " : " + GenTypeBasic(enum_def.underlying_type, false);
code += "\n{\n";
for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end(); ++it) {
auto &ev = **it;
GenComment(ev.doc_comment, code_ptr, &comment_config, " ");
code += " ";
code += ev.name + " = ";
code += enum_def.ToString(ev);
code += ",\n";
}
// Close the class
code += "};\n\n";
if (opts.generate_object_based_api) {
GenEnum_ObjectAPI(enum_def, code_ptr, opts);
}
}
bool HasUnionStringValue(const EnumDef &enum_def) const {
if (!enum_def.is_union) return false;
for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end(); ++it) {
auto &val = **it;
if (IsString(val.union_type)) { return true; }
}
return false;
}
// Returns the function name that is able to read a value of the given type.
std::string GenGetter(const Type &type) const {
switch (type.base_type) {
case BASE_TYPE_STRING: return "__p.__string";
case BASE_TYPE_STRUCT: return "__p.__struct";
case BASE_TYPE_UNION: return "__p.__union";
case BASE_TYPE_VECTOR: return GenGetter(type.VectorType());
case BASE_TYPE_ARRAY: return GenGetter(type.VectorType());
default: {
std::string getter = "__p.bb.Get";
if (type.base_type == BASE_TYPE_BOOL) {
getter = "0!=" + getter;
} else if (GenTypeBasic(type, false) != "byte") {
getter += MakeCamel(GenTypeBasic(type, false));
}
return getter;
}
}
}
// Returns the function name that is able to read a value of the given type.
std::string GenGetterForLookupByKey(flatbuffers::FieldDef *key_field,
const std::string &data_buffer,
const char *num = nullptr) const {
auto type = key_field->value.type;
auto dest_mask = "";
auto dest_cast = DestinationCast(type);
auto getter = data_buffer + ".Get";
if (GenTypeBasic(type, false) != "byte") {
getter += MakeCamel(GenTypeBasic(type, false));
}
getter = dest_cast + getter + "(" + GenOffsetGetter(key_field, num) + ")" +
dest_mask;
return getter;
}
// Direct mutation is only allowed for scalar fields.
// Hence a setter method will only be generated for such fields.
std::string GenSetter(const Type &type) const {
if (IsScalar(type.base_type)) {
std::string setter = "__p.bb.Put";
if (GenTypeBasic(type, false) != "byte" &&
type.base_type != BASE_TYPE_BOOL) {
setter += MakeCamel(GenTypeBasic(type, false));
}
return setter;
} else {
return "";
}
}
// Returns the method name for use with add/put calls.
std::string GenMethod(const Type &type) const {
return IsScalar(type.base_type) ? MakeCamel(GenTypeBasic(type, false))
: (IsStruct(type) ? "Struct" : "Offset");
}
// Recursively generate arguments for a constructor, to deal with nested
// structs.
void GenStructArgs(const StructDef &struct_def, std::string *code_ptr,
const char *nameprefix, size_t array_count = 0) const {
std::string &code = *code_ptr;
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
const auto &field_type = field.value.type;
const auto array_field = IsArray(field_type);
const auto &type = array_field ? field_type.VectorType() : field_type;
const auto array_cnt = array_field ? (array_count + 1) : array_count;
if (IsStruct(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.
GenStructArgs(*field_type.struct_def, code_ptr,
(nameprefix + (field.name + "_")).c_str(), array_cnt);
} else {
code += ", ";
code += GenTypeBasic(type);
if (field.IsScalarOptional()) { code += "?"; }
if (array_cnt > 0) {
code += "[";
for (size_t i = 1; i < array_cnt; i++) code += ",";
code += "]";
}
code += " ";
code += nameprefix;
code += MakeCamel(field.name, true);
}
}
}
// Recusively generate struct construction statements of the form:
// builder.putType(name);
// and insert manual padding.
void GenStructBody(const StructDef &struct_def, std::string *code_ptr,
const char *nameprefix, size_t index = 0,
bool in_array = false) const {
std::string &code = *code_ptr;
std::string indent((index + 1) * 2, ' ');
code += indent + " builder.Prep(";
code += 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;
const auto &field_type = field.value.type;
if (field.padding) {
code += indent + " builder.Pad(";
code += NumToString(field.padding) + ");\n";
}
if (IsStruct(field_type)) {
GenStructBody(*field_type.struct_def, code_ptr,
(nameprefix + (field.name + "_")).c_str(), index,
in_array);
} else {
const auto &type =
IsArray(field_type) ? field_type.VectorType() : field_type;
const auto index_var = "_idx" + NumToString(index);
if (IsArray(field_type)) {
code += indent + " for (int " + index_var + " = ";
code += NumToString(field_type.fixed_length);
code += "; " + index_var + " > 0; " + index_var + "--) {\n";
in_array = true;
}
if (IsStruct(type)) {
GenStructBody(*field_type.struct_def, code_ptr,
(nameprefix + (field.name + "_")).c_str(), index + 1,
in_array);
} else {
code += IsArray(field_type) ? " " : "";
code += indent + " builder.Put";
code += GenMethod(type) + "(";
code += SourceCast(type);
auto argname = nameprefix + MakeCamel(field.name, true);
code += argname;
size_t array_cnt = index + (IsArray(field_type) ? 1 : 0);
if (array_cnt > 0) {
code += "[";
for (size_t i = 0; in_array && i < array_cnt; i++) {
code += "_idx" + NumToString(i) + "-1";
if (i != (array_cnt - 1)) code += ",";
}
code += "]";
}
code += ");\n";
}
if (IsArray(field_type)) { code += indent + " }\n"; }
}
}
}
std::string GenOffsetGetter(flatbuffers::FieldDef *key_field,
const char *num = nullptr) const {
std::string key_offset =
"Table.__offset(" + NumToString(key_field->value.offset) + ", ";
if (num) {
key_offset += num;
key_offset += ".Value, builder.DataBuffer)";
} else {
key_offset += "bb.Length";
key_offset += " - tableOffset, bb)";
}
return key_offset;
}
std::string GenLookupKeyGetter(flatbuffers::FieldDef *key_field) const {
std::string key_getter = " ";
key_getter += "int tableOffset = Table.";
key_getter += "__indirect(vectorLocation + 4 * (start + middle)";
key_getter += ", bb);\n ";
if (IsString(key_field->value.type)) {
key_getter += "int comp = Table.";
key_getter += "CompareStrings(";
key_getter += GenOffsetGetter(key_field);
key_getter += ", byteKey, bb);\n";
} else {
auto get_val = GenGetterForLookupByKey(key_field, "bb");
key_getter += "int comp = " + get_val + ".CompareTo(key);\n";
}
return key_getter;
}
std::string GenKeyGetter(flatbuffers::FieldDef *key_field) const {
std::string key_getter = "";
auto data_buffer = "builder.DataBuffer";
if (IsString(key_field->value.type)) {
key_getter += "Table.CompareStrings(";
key_getter += GenOffsetGetter(key_field, "o1") + ", ";
key_getter += GenOffsetGetter(key_field, "o2") + ", " + data_buffer + ")";
} else {
auto field_getter = GenGetterForLookupByKey(key_field, data_buffer, "o1");
key_getter += field_getter;
field_getter = GenGetterForLookupByKey(key_field, data_buffer, "o2");
key_getter += ".CompareTo(" + field_getter + ")";
}
return key_getter;
}
void GenStruct(StructDef &struct_def, std::string *code_ptr,
const IDLOptions &opts) const {
if (struct_def.generated) return;
std::string &code = *code_ptr;
// Generate a struct accessor class, with methods of the form:
// public type name() { return bb.getType(i + offset); }
// or for tables of the form:
// public type name() {
// int o = __offset(offset); return o != 0 ? bb.getType(o + i) : default;
// }
GenComment(struct_def.doc_comment, code_ptr, &comment_config);
if (struct_def.attributes.Lookup("private")) {
code += "internal ";
} else {
code += "public ";
}
if (struct_def.attributes.Lookup("csharp_partial")) {
// generate a partial class for this C# struct/table
code += "partial ";
}
code += "struct " + struct_def.name;
code += " : IFlatbufferObject";
code += "\n{\n";
code += " private ";
code += struct_def.fixed ? "Struct" : "Table";
code += " __p;\n";
code += " public ByteBuffer ByteBuffer { get { return __p.bb; } }\n";
if (!struct_def.fixed) {
// Generate verson check method.
// Force compile time error if not using the same version runtime.
code += " public static void ValidateVersion() {";
code += " FlatBufferConstants.";
code += "FLATBUFFERS_1_12_0(); ";
code += "}\n";
// Generate a special accessor for the table that when used as the root
// of a FlatBuffer
std::string method_name = "GetRootAs" + struct_def.name;
std::string method_signature =
" public static " + struct_def.name + " " + method_name;
// create convenience method that doesn't require an existing object
code += method_signature + "(ByteBuffer _bb) ";
code += "{ return " + method_name + "(_bb, new " + struct_def.name +
"()); }\n";
// create method that allows object reuse
code +=
method_signature + "(ByteBuffer _bb, " + struct_def.name + " obj) { ";
code += "return (obj.__assign(_bb.GetInt(_bb.Position";
code += ") + _bb.Position";
code += ", _bb)); }\n";
if (parser_.root_struct_def_ == &struct_def) {
if (parser_.file_identifier_.length()) {
// Check if a buffer has the identifier.
code += " public static ";
code += "bool " + struct_def.name;
code += "BufferHasIdentifier(ByteBuffer _bb) { return ";
code += "Table.__has_identifier(_bb, \"";
code += parser_.file_identifier_;
code += "\"); }\n";
}
}
}
// Generate the __init method that sets the field in a pre-existing
// accessor object. This is to allow object reuse.
code += " public void __init(int _i, ByteBuffer _bb) ";
code += "{ ";
code += "__p = new ";
code += struct_def.fixed ? "Struct" : "Table";
code += "(_i, _bb); ";
code += "}\n";
code +=
" public " + struct_def.name + " __assign(int _i, ByteBuffer _bb) ";
code += "{ __init(_i, _bb); return this; }\n\n";
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
GenComment(field.doc_comment, code_ptr, &comment_config, " ");
std::string type_name = GenTypeGet(field.value.type);
std::string type_name_dest = GenTypeGet(field.value.type);
std::string conditional_cast = "";
std::string optional = "";
if (!struct_def.fixed &&
(field.value.type.base_type == BASE_TYPE_STRUCT ||
field.value.type.base_type == BASE_TYPE_UNION ||
(IsVector(field.value.type) &&
(field.value.type.element == BASE_TYPE_STRUCT ||
field.value.type.element == BASE_TYPE_UNION)))) {
optional = "?";
conditional_cast = "(" + type_name_dest + optional + ")";
}
if (field.IsScalarOptional()) { optional = "?"; }
std::string dest_mask = "";
std::string dest_cast = DestinationCast(field.value.type);
std::string src_cast = SourceCast(field.value.type);
std::string field_name_camel = MakeCamel(field.name, true);
std::string method_start =
" public " + type_name_dest + optional + " " + field_name_camel;
std::string obj = "(new " + type_name + "())";
// Most field accessors need to retrieve and test the field offset first,
// this is the prefix code for that:
auto offset_prefix =
IsArray(field.value.type)
? " { return "
: (" { int o = __p.__offset(" + NumToString(field.value.offset) +
"); return o != 0 ? ");
// Generate the accessors that don't do object reuse.
if (field.value.type.base_type == BASE_TYPE_STRUCT) {
} else if (IsVector(field.value.type) &&
field.value.type.element == BASE_TYPE_STRUCT) {
} else if (field.value.type.base_type == BASE_TYPE_UNION ||
(IsVector(field.value.type) &&
field.value.type.VectorType().base_type == BASE_TYPE_UNION)) {
method_start += "<TTable>";
type_name = type_name_dest;
}
std::string getter = dest_cast + GenGetter(field.value.type);
code += method_start;
std::string default_cast = "";
// only create default casts for c# scalars or vectors of scalars
if ((IsScalar(field.value.type.base_type) ||
(IsVector(field.value.type) &&
IsScalar(field.value.type.element)))) {
// For scalars, default value will be returned by GetDefaultValue().
// If the scalar is an enum, GetDefaultValue() returns an actual c# enum
// that doesn't need to be casted. However, default values for enum
// elements of vectors are integer literals ("0") and are still casted
// for clarity.
// If the scalar is optional and enum, we still need the cast.
if ((field.value.type.enum_def == nullptr ||
IsVector(field.value.type)) ||
(IsEnum(field.value.type) && field.IsScalarOptional())) {
default_cast = "(" + type_name_dest + optional + ")";
}
}
std::string member_suffix = "; ";
if (IsScalar(field.value.type.base_type)) {
code += " { get";
member_suffix += "} ";
if (struct_def.fixed) {
code += " { return " + getter;
code += "(__p.bb_pos + ";
code += NumToString(field.value.offset) + ")";
code += dest_mask;
} else {
code += offset_prefix + getter;
code += "(o + __p.bb_pos)" + dest_mask;
code += " : " + default_cast;
code += GenDefaultValue(field);
}
} else {
switch (field.value.type.base_type) {
case BASE_TYPE_STRUCT:
code += " { get";
member_suffix += "} ";
if (struct_def.fixed) {
code += " { return " + obj + ".__assign(" + "__p.";
code += "bb_pos + " + NumToString(field.value.offset) + ", ";
code += "__p.bb)";
} else {
code += offset_prefix + conditional_cast;
code += obj + ".__assign(";
code += field.value.type.struct_def->fixed
? "o + __p.bb_pos"
: "__p.__indirect(o + __p.bb_pos)";
code += ", __p.bb) : null";
}
break;
case BASE_TYPE_STRING:
code += " { get";
member_suffix += "} ";
code += offset_prefix + getter + "(o + " + "__p.";
code += "bb_pos) : null";
break;
case BASE_TYPE_ARRAY: FLATBUFFERS_FALLTHROUGH(); // fall thru
case BASE_TYPE_VECTOR: {
auto vectortype = field.value.type.VectorType();
if (vectortype.base_type == BASE_TYPE_UNION) {
conditional_cast = "(TTable?)";
getter += "<TTable>";
}
code += "(";
if (vectortype.base_type == BASE_TYPE_STRUCT) {
getter = obj + ".__assign";
} else if (vectortype.base_type == BASE_TYPE_UNION) {
}
code += "int j)";
const auto body = offset_prefix + conditional_cast + getter + "(";
if (vectortype.base_type == BASE_TYPE_UNION) {
code += " where TTable : struct, IFlatbufferObject" + body;
} else {
code += body;
}
std::string index = "__p.";
if (IsArray(field.value.type)) {
index += "bb_pos + " + NumToString(field.value.offset) + " + ";
} else {
index += "__vector(o) + ";
}
index += "j * " + NumToString(InlineSize(vectortype));
if (vectortype.base_type == BASE_TYPE_STRUCT) {
code += vectortype.struct_def->fixed
? index
: "__p.__indirect(" + index + ")";
code += ", __p.bb";
} else {
code += index;
}
code += ")" + dest_mask;
if (!IsArray(field.value.type)) {
code += " : ";
code +=
field.value.type.element == BASE_TYPE_BOOL
? "false"
: (IsScalar(field.value.type.element) ? default_cast + "0"
: "null");
}
if (vectortype.base_type == BASE_TYPE_UNION &&
HasUnionStringValue(*vectortype.enum_def)) {
code += member_suffix;
code += "}\n";
code += " public string " + MakeCamel(field.name, true) +
"AsString(int j)";
code += offset_prefix + GenGetter(Type(BASE_TYPE_STRING));
code += "(" + index + ") : null";
}
break;
}
case BASE_TYPE_UNION:
code += "() where TTable : struct, IFlatbufferObject";
code += offset_prefix + "(TTable?)" + getter;
code += "<TTable>(o + __p.bb_pos) : null";
if (HasUnionStringValue(*field.value.type.enum_def)) {
code += member_suffix;
code += "}\n";
code += " public string " + MakeCamel(field.name, true) +
"AsString()";
code += offset_prefix + GenGetter(Type(BASE_TYPE_STRING));
code += "(o + __p.bb_pos) : null";
}
// As<> accesors for Unions
// Loop through all the possible union types and generate an As
// accessor that casts to the correct type.
for (auto uit = field.value.type.enum_def->Vals().begin();
uit != field.value.type.enum_def->Vals().end(); ++uit) {
auto val = *uit;
if (val->union_type.base_type == BASE_TYPE_NONE) { continue; }
auto union_field_type_name = GenTypeGet(val->union_type);
code += member_suffix + "}\n";
if (val->union_type.base_type == BASE_TYPE_STRUCT &&
val->union_type.struct_def->attributes.Lookup("private")) {
code += " internal ";
} else {
code += " public ";
}
code += union_field_type_name + " ";
code += field_name_camel + "As" + val->name + "() { return ";
code += field_name_camel;
if (IsString(val->union_type)) {
code += "AsString()";
} else {
code += "<" + union_field_type_name + ">().Value";
}
}
break;
default: FLATBUFFERS_ASSERT(0);
}
}
code += member_suffix;
code += "}\n";
if (IsVector(field.value.type)) {
code += " public int " + MakeCamel(field.name, true);
code += "Length";
code += " { get";
code += offset_prefix;
code += "__p.__vector_len(o) : 0; ";
code += "} ";
code += "}\n";
// See if we should generate a by-key accessor.
if (field.value.type.element == BASE_TYPE_STRUCT &&
!field.value.type.struct_def->fixed) {
auto &sd = *field.value.type.struct_def;
auto &fields = sd.fields.vec;
for (auto kit = fields.begin(); kit != fields.end(); ++kit) {
auto &key_field = **kit;
if (key_field.key) {
auto qualified_name = WrapInNameSpace(sd);
code += " public " + qualified_name + "? ";
code += MakeCamel(field.name, true) + "ByKey(";
code += GenTypeGet(key_field.value.type) + " key)";
code += offset_prefix;
code += qualified_name + ".__lookup_by_key(";
code += "__p.__vector(o), key, ";
code += "__p.bb) : null; ";
code += "}\n";
break;
}
}
}
}
// Generate a ByteBuffer accessor for strings & vectors of scalars.
if ((IsVector(field.value.type) &&
IsScalar(field.value.type.VectorType().base_type)) ||
IsString(field.value.type)) {
code += "#if ENABLE_SPAN_T\n";
code += " public Span<" + GenTypeBasic(field.value.type.VectorType()) +
"> Get";
code += MakeCamel(field.name, true);
code += "Bytes() { return ";
code += "__p.__vector_as_span<" +
GenTypeBasic(field.value.type.VectorType()) + ">(";
code += NumToString(field.value.offset);
code +=
", " + NumToString(SizeOf(field.value.type.VectorType().base_type));
code += "); }\n";
code += "#else\n";
code += " public ArraySegment<byte>? Get";
code += MakeCamel(field.name, true);
code += "Bytes() { return ";
code += "__p.__vector_as_arraysegment(";
code += NumToString(field.value.offset);
code += "); }\n";
code += "#endif\n";
// For direct blockcopying the data into a typed array
code += " public ";
code += GenTypeBasic(field.value.type.VectorType());
code += "[] Get";
code += MakeCamel(field.name, true);
code += "Array() { ";
if (IsEnum(field.value.type.VectorType())) {
// Since __vector_as_array does not work for enum types,
// fill array using an explicit loop.
code += "int o = __p.__offset(";
code += NumToString(field.value.offset);
code += "); if (o == 0) return null; int p = ";
code += "__p.__vector(o); int l = ";
code += "__p.__vector_len(o); ";
code += GenTypeBasic(field.value.type.VectorType());
code += "[] a = new ";
code += GenTypeBasic(field.value.type.VectorType());
code += "[l]; for (int i = 0; i < l; i++) { a[i] = " + getter;
code += "(p + i * ";
code += NumToString(InlineSize(field.value.type.VectorType()));
code += "); } return a;";
} else {
code += "return ";
code += "__p.__vector_as_array<";
code += GenTypeBasic(field.value.type.VectorType());
code += ">(";
code += NumToString(field.value.offset);
code += ");";
}
code += " }\n";
}
// generate object accessors if is nested_flatbuffer
if (field.nested_flatbuffer) {
auto nested_type_name = WrapInNameSpace(*field.nested_flatbuffer);
auto nested_method_name =
MakeCamel(field.name, true) + "As" + field.nested_flatbuffer->name;
auto get_nested_method_name = nested_method_name;
get_nested_method_name = "Get" + nested_method_name;
conditional_cast = "(" + nested_type_name + "?)";
obj = "(new " + nested_type_name + "())";
code += " public " + nested_type_name + "? ";
code += get_nested_method_name + "(";
code += ") { int o = __p.__offset(";
code += NumToString(field.value.offset) + "); ";
code += "return o != 0 ? " + conditional_cast + obj + ".__assign(";
code += "__p.";
code += "__indirect(__p.__vector(o)), ";
code += "__p.bb) : null; }\n";
}
// Generate mutators for scalar fields or vectors of scalars.
if (parser_.opts.mutable_buffer) {
auto is_series = (IsSeries(field.value.type));
const auto &underlying_type =
is_series ? field.value.type.VectorType() : field.value.type;
// Boolean parameters have to be explicitly converted to byte
// representation.
auto setter_parameter = underlying_type.base_type == BASE_TYPE_BOOL
? "(byte)(" + field.name + " ? 1 : 0)"
: field.name;
auto mutator_prefix = MakeCamel("mutate", true);
// A vector mutator also needs the index of the vector element it should
// mutate.
auto mutator_params = (is_series ? "(int j, " : "(") +
GenTypeGet(underlying_type) + " " + field.name +
") { ";
auto setter_index =
is_series
? "__p." +
(IsArray(field.value.type)
? "bb_pos + " + NumToString(field.value.offset)
: "__vector(o)") +
+" + j * " + NumToString(InlineSize(underlying_type))
: (struct_def.fixed
? "__p.bb_pos + " + NumToString(field.value.offset)
: "o + __p.bb_pos");
if (IsScalar(underlying_type.base_type) && !IsUnion(field.value.type)) {
code += " public ";
code += struct_def.fixed ? "void " : "bool ";
code += mutator_prefix + MakeCamel(field.name, true);
code += mutator_params;
if (struct_def.fixed) {
code += GenSetter(underlying_type) + "(" + setter_index + ", ";
code += src_cast + setter_parameter + "); }\n";
} else {
code += "int o = __p.__offset(";
code += NumToString(field.value.offset) + ");";
code += " if (o != 0) { " + GenSetter(underlying_type);
code += "(" + setter_index + ", " + src_cast + setter_parameter +
"); return true; } else { return false; } }\n";
}
}
}
if (parser_.opts.java_primitive_has_method &&
IsScalar(field.value.type.base_type) && !struct_def.fixed) {
auto vt_offset_constant = " public static final int VT_" +
MakeScreamingCamel(field.name) + " = " +
NumToString(field.value.offset) + ";";
code += vt_offset_constant;
code += "\n";
}
}
code += "\n";
auto struct_has_create = false;
std::set<flatbuffers::FieldDef *> field_has_create_set;
flatbuffers::FieldDef *key_field = nullptr;
if (struct_def.fixed) {
struct_has_create = true;
// create a struct constructor function
code += " public static " + GenOffsetType(struct_def) + " ";
code += "Create";
code += struct_def.name + "(FlatBufferBuilder builder";
GenStructArgs(struct_def, code_ptr, "");
code += ") {\n";
GenStructBody(struct_def, code_ptr, "");
code += " return ";
code += GenOffsetConstruct(struct_def, "builder.Offset");
code += ";\n }\n";
} else {
// Generate a method that creates a table in one go. This is only possible
// when the table has no struct fields, since those have to be created
// inline, and there's no way to do so in Java.
bool has_no_struct_fields = true;
int num_fields = 0;
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
if (IsStruct(field.value.type)) {
has_no_struct_fields = false;
} else {
num_fields++;
}
}
// JVM specifications restrict default constructor params to be < 255.
// Longs and doubles take up 2 units, so we set the limit to be < 127.
if ((has_no_struct_fields || opts.generate_object_based_api) &&
num_fields && num_fields < 127) {
struct_has_create = true;
// Generate a table constructor of the form:
// public static int createName(FlatBufferBuilder builder, args...)
code += " public static " + GenOffsetType(struct_def) + " ";
code += "Create" + struct_def.name;
code += "(FlatBufferBuilder builder";
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
code += ",\n ";
if (IsStruct(field.value.type) && opts.generate_object_based_api) {
code += WrapInNameSpace(
field.value.type.struct_def->defined_namespace,
GenTypeName_ObjectAPI(field.value.type.struct_def->name, opts));
code += " ";
code += field.name;
code += " = null";
} else {
code += GenTypeBasic(field.value.type);
if (field.IsScalarOptional()) { code += "?"; }
code += " ";
code += field.name;
if (!IsScalar(field.value.type.base_type)) code += "Offset";
code += " = ";
code += GenDefaultValueBasic(field);
}
}
code += ") {\n builder.";
code += "StartTable(";
code += NumToString(struct_def.fields.vec.size()) + ");\n";
for (size_t size = struct_def.sortbysize ? sizeof(largest_scalar_t) : 1;
size; size /= 2) {
for (auto it = struct_def.fields.vec.rbegin();
it != struct_def.fields.vec.rend(); ++it) {
auto &field = **it;
if (!field.deprecated &&
(!struct_def.sortbysize ||
size == SizeOf(field.value.type.base_type))) {
code += " " + struct_def.name + ".";
code += "Add";
code += MakeCamel(field.name) + "(builder, ";
if (IsStruct(field.value.type) &&
opts.generate_object_based_api) {
code += GenTypePointer(field.value.type) + ".Pack(builder, " +
field.name + ")";
} else {
code += field.name;
if (!IsScalar(field.value.type.base_type)) code += "Offset";
}
code += ");\n";
}
}
}
code += " return " + struct_def.name + ".";
code += "End" + struct_def.name;
code += "(builder);\n }\n\n";
}
// Generate a set of static methods that allow table construction,
// of the form:
// public static void addName(FlatBufferBuilder builder, short name)
// { builder.addShort(id, name, default); }
// Unlike the Create function, these always work.
code += " public static void Start";
code += struct_def.name;
code += "(FlatBufferBuilder builder) { builder.";
code += "StartTable(";
code += NumToString(struct_def.fields.vec.size()) + "); }\n";
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
if (field.key) key_field = &field;
code += " public static void Add";
code += MakeCamel(field.name);
code += "(FlatBufferBuilder builder, ";
code += GenTypeBasic(field.value.type);
auto argname = MakeCamel(field.name, false);
if (!IsScalar(field.value.type.base_type)) argname += "Offset";
if (field.IsScalarOptional()) { code += "?"; }
code += " " + argname + ") { builder.Add";
code += GenMethod(field.value.type) + "(";
code += NumToString(it - struct_def.fields.vec.begin()) + ", ";
code += SourceCastBasic(field.value.type);
code += argname;
if (!IsScalar(field.value.type.base_type) &&
field.value.type.base_type != BASE_TYPE_UNION) {
code += ".Value";
}
if (!field.IsScalarOptional()) {
// When the scalar is optional, use the builder method that doesn't
// supply a default value. Otherwise, we to continue to use the
// default value method.
code += ", ";
code += GenDefaultValue(field, false);
}
code += "); }\n";
if (IsVector(field.value.type)) {
auto vector_type = field.value.type.VectorType();
auto alignment = InlineAlignment(vector_type);
auto elem_size = InlineSize(vector_type);
if (!IsStruct(vector_type)) {
field_has_create_set.insert(&field);
code += " public static VectorOffset ";
code += "Create";
code += MakeCamel(field.name);
code += "Vector(FlatBufferBuilder builder, ";
code += GenTypeBasic(vector_type) + "[] data) ";
code += "{ builder.StartVector(";
code += NumToString(elem_size);
code += ", data.Length, ";
code += NumToString(alignment);
code += "); for (int i = data.";
code += "Length - 1; i >= 0; i--) builder.";
code += "Add";
code += GenMethod(vector_type);
code += "(";
code += SourceCastBasic(vector_type);
code += "data[i]";
if (vector_type.base_type == BASE_TYPE_STRUCT ||
IsString(vector_type))
code += ".Value";
code += "); return ";
code += "builder.EndVector(); }\n";
code += " public static VectorOffset ";
code += "Create";
code += MakeCamel(field.name);
code += "VectorBlock(FlatBufferBuilder builder, ";
code += GenTypeBasic(vector_type) + "[] data) ";
code += "{ builder.StartVector(";
code += NumToString(elem_size);
code += ", data.Length, ";
code += NumToString(alignment);
code += "); builder.Add(data); return builder.EndVector(); }\n";
}
// Generate a method to start a vector, data to be added manually
// after.
code += " public static void Start";
code += MakeCamel(field.name);
code += "Vector(FlatBufferBuilder builder, int numElems) ";
code += "{ builder.StartVector(";
code += NumToString(elem_size);
code += ", numElems, " + NumToString(alignment);
code += "); }\n";
}
}
code += " public static " + GenOffsetType(struct_def) + " ";
code += "End" + struct_def.name;
code += "(FlatBufferBuilder builder) {\n int o = builder.";
code += "EndTable();\n";
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (!field.deprecated && field.IsRequired()) {
code += " builder.Required(o, ";
code += NumToString(field.value.offset);
code += "); // " + field.name + "\n";
}
}
code += " return " + GenOffsetConstruct(struct_def, "o") + ";\n }\n";
if (parser_.root_struct_def_ == &struct_def) {
std::string size_prefix[] = { "", "SizePrefixed" };
for (int i = 0; i < 2; ++i) {
code += " public static void ";
code += "Finish" + size_prefix[i] + struct_def.name;
code +=
"Buffer(FlatBufferBuilder builder, " + GenOffsetType(struct_def);
code += " offset) {";
code += " builder.Finish" + size_prefix[i] + "(offset";
code += ".Value";
if (parser_.file_identifier_.length())
code += ", \"" + parser_.file_identifier_ + "\"";
code += "); }\n";
}
}
}
// Only generate key compare function for table,
// because `key_field` is not set for struct
if (struct_def.has_key && !struct_def.fixed) {
FLATBUFFERS_ASSERT(key_field);
code += "\n public static VectorOffset ";
code += "CreateSortedVectorOf" + struct_def.name;
code += "(FlatBufferBuilder builder, ";
code += "Offset<" + struct_def.name + ">";
code += "[] offsets) {\n";
code += " Array.Sort(offsets, (Offset<" + struct_def.name +
"> o1, Offset<" + struct_def.name + "> o2) => " +
GenKeyGetter(key_field);
code += ");\n";
code += " return builder.CreateVectorOfTables(offsets);\n }\n";
code += "\n public static " + struct_def.name + "?";
code += " __lookup_by_key(";
code += "int vectorLocation, ";
code += GenTypeGet(key_field->value.type);
code += " key, ByteBuffer bb) {\n";
if (IsString(key_field->value.type)) {
code += " byte[] byteKey = ";
code += "System.Text.Encoding.UTF8.GetBytes(key);\n";
}
code += " int span = ";
code += "bb.GetInt(vectorLocation - 4);\n";
code += " int start = 0;\n";
code += " while (span != 0) {\n";
code += " int middle = span / 2;\n";
code += GenLookupKeyGetter(key_field);
code += " if (comp > 0) {\n";
code += " span = middle;\n";
code += " } else if (comp < 0) {\n";
code += " middle++;\n";
code += " start += middle;\n";
code += " span -= middle;\n";
code += " } else {\n";
code += " return ";
code += "new " + struct_def.name + "()";
code += ".__assign(tableOffset, bb);\n";
code += " }\n }\n";
code += " return null;\n";
code += " }\n";
}
if (opts.generate_object_based_api) {
GenPackUnPack_ObjectAPI(struct_def, code_ptr, opts, struct_has_create,
field_has_create_set);
}
code += "};\n\n";
if (opts.generate_object_based_api) {
GenStruct_ObjectAPI(struct_def, code_ptr, opts);
}
}
void GenVectorAccessObject(StructDef &struct_def,
std::string *code_ptr) const {
auto &code = *code_ptr;
// Generate a vector of structs accessor class.
code += "\n";
code += " ";
if (!struct_def.attributes.Lookup("private")) code += "public ";
code += "static struct Vector : BaseVector\n{\n";
// Generate the __assign method that sets the field in a pre-existing
// accessor object. This is to allow object reuse.
std::string method_indent = " ";
code += method_indent + "public Vector ";
code += "__assign(int _vector, int _element_size, ByteBuffer _bb) { ";
code += "__reset(_vector, _element_size, _bb); return this; }\n\n";
auto type_name = struct_def.name;
auto method_start = method_indent + "public " + type_name + " Get";
// Generate the accessors that don't do object reuse.
code += method_start + "(int j) { return Get";
code += "(new " + type_name + "(), j); }\n";
code += method_start + "(" + type_name + " obj, int j) { ";
code += " return obj.__assign(";
code += struct_def.fixed ? "__p.__element(j)"
: "__p.__indirect(__p.__element(j), bb)";
code += ", __p.bb); }\n";
// See if we should generate a by-key accessor.
if (!struct_def.fixed) {
auto &fields = struct_def.fields.vec;
for (auto kit = fields.begin(); kit != fields.end(); ++kit) {
auto &key_field = **kit;
if (key_field.key) {
auto nullable_annotation =
parser_.opts.gen_nullable ? "@Nullable " : "";
code += method_indent + nullable_annotation;
code += "public " + type_name + "? ";
code += "GetByKey(";
code += GenTypeGet(key_field.value.type) + " key) { ";
code += " return __lookup_by_key(null, ";
code += "__p.__vector(), key, ";
code += "__p.bb); ";
code += "}\n";
code += method_indent + nullable_annotation;
code += "public " + type_name + "?" + " ";
code += "GetByKey(";
code += type_name + "? obj, ";
code += GenTypeGet(key_field.value.type) + " key) { ";
code += " return __lookup_by_key(obj, ";
code += "__p.__vector(), key, ";
code += "__p.bb); ";
code += "}\n";
break;
}
}
}
code += " }\n";
}
void GenEnum_ObjectAPI(EnumDef &enum_def, std::string *code_ptr,
const IDLOptions &opts) const {
auto &code = *code_ptr;
if (enum_def.generated) return;
if (!enum_def.is_union) return;
if (enum_def.attributes.Lookup("private")) {
code += "internal ";
} else {
code += "public ";
}
auto union_name = enum_def.name + "Union";
code += "class " + union_name + " {\n";
// Type
code += " public " + enum_def.name + " Type { get; set; }\n";
// Value
code += " public object Value { get; set; }\n";
code += "\n";
// Constructor
code += " public " + union_name + "() {\n";
code += " this.Type = " + enum_def.name + "." +
enum_def.Vals()[0]->name + ";\n";
code += " this.Value = null;\n";
code += " }\n\n";
// As<T>
code += " public T As<T>() where T : class { return this.Value as T; }\n";
// As
for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end(); ++it) {
auto &ev = **it;
if (ev.union_type.base_type == BASE_TYPE_NONE) continue;
auto type_name = GenTypeGet_ObjectAPI(ev.union_type, opts);
if (ev.union_type.base_type == BASE_TYPE_STRUCT &&
ev.union_type.struct_def->attributes.Lookup("private")) {
code += " internal ";
} else {
code += " public ";
}
code += type_name + " As" + ev.name + "() { return this.As<" + type_name +
">(); }\n";
}
code += "\n";
// Pack()
code += " public static int Pack(FlatBuffers.FlatBufferBuilder builder, " +
union_name + " _o) {\n";
code += " switch (_o.Type) {\n";
for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end(); ++it) {
auto &ev = **it;
if (ev.union_type.base_type == BASE_TYPE_NONE) {
code += " default: return 0;\n";
} else {
code += " case " + enum_def.name + "." + ev.name + ": return ";
if (IsString(ev.union_type)) {
code += "builder.CreateString(_o.As" + ev.name + "()).Value;\n";
} else {
code += GenTypeGet(ev.union_type) + ".Pack(builder, _o.As" + ev.name +
"()).Value;\n";
}
}
}
code += " }\n";
code += " }\n";
code += "}\n\n";
// JsonConverter
if (opts.cs_gen_json_serializer) {
if (enum_def.attributes.Lookup("private")) {
code += "internal ";
} else {
code += "public ";
}
code += "class " + union_name +
"_JsonConverter : Newtonsoft.Json.JsonConverter {\n";
code += " public override bool CanConvert(System.Type objectType) {\n";
code += " return objectType == typeof(" + union_name +
") || objectType == typeof(System.Collections.Generic.List<" +
union_name + ">);\n";
code += " }\n";
code +=
" public override void WriteJson(Newtonsoft.Json.JsonWriter writer, "
"object value, "
"Newtonsoft.Json.JsonSerializer serializer) {\n";
code += " var _olist = value as System.Collections.Generic.List<" +
union_name + ">;\n";
code += " if (_olist != null) {\n";
code += " writer.WriteStartArray();\n";
code +=
" foreach (var _o in _olist) { this.WriteJson(writer, _o, "
"serializer); }\n";
code += " writer.WriteEndArray();\n";
code += " } else {\n";
code += " this.WriteJson(writer, value as " + union_name +
", serializer);\n";
code += " }\n";
code += " }\n";
code += " public void WriteJson(Newtonsoft.Json.JsonWriter writer, " +
union_name +
" _o, "
"Newtonsoft.Json.JsonSerializer serializer) {\n";
code += " if (_o == null) return;\n";
code += " serializer.Serialize(writer, _o.Value);\n";
code += " }\n";
code +=
" public override object ReadJson(Newtonsoft.Json.JsonReader "
"reader, "
"System.Type objectType, "
"object existingValue, Newtonsoft.Json.JsonSerializer serializer) "
"{\n";
code +=
" var _olist = existingValue as System.Collections.Generic.List<" +
union_name + ">;\n";
code += " if (_olist != null) {\n";
code += " for (var _j = 0; _j < _olist.Count; ++_j) {\n";
code += " reader.Read();\n";
code +=
" _olist[_j] = this.ReadJson(reader, _olist[_j], "
"serializer);\n";
code += " }\n";
code += " reader.Read();\n";
code += " return _olist;\n";
code += " } else {\n";
code += " return this.ReadJson(reader, existingValue as " +
union_name + ", serializer);\n";
code += " }\n";
code += " }\n";
code += " public " + union_name +
" ReadJson(Newtonsoft.Json.JsonReader reader, " + union_name +
" _o, Newtonsoft.Json.JsonSerializer serializer) {\n";
code += " if (_o == null) return null;\n";
code += " switch (_o.Type) {\n";
for (auto it = enum_def.Vals().begin(); it != enum_def.Vals().end();
++it) {
auto &ev = **it;
if (ev.union_type.base_type == BASE_TYPE_NONE) {
code += " default: break;\n";
} else {
auto type_name = GenTypeGet_ObjectAPI(ev.union_type, opts);
code += " case " + enum_def.name + "." + ev.name +
": _o.Value = serializer.Deserialize<" + type_name +
">(reader); break;\n";
}
}
code += " }\n";
code += " return _o;\n";
code += " }\n";
code += "}\n\n";
}
}
std::string GenTypeName_ObjectAPI(const std::string &name,
const IDLOptions &opts) const {
return opts.object_prefix + name + opts.object_suffix;
}
void GenUnionUnPack_ObjectAPI(const EnumDef &enum_def, std::string *code_ptr,
const std::string &camel_name,
bool is_vector) const {
auto &code = *code_ptr;
std::string varialbe_name = "_o." + camel_name;
std::string type_suffix = "";
std::string func_suffix = "()";
std::string indent = " ";
if (is_vector) {
varialbe_name = "_o_" + camel_name;
type_suffix = "(_j)";
func_suffix = "(_j)";
indent = " ";
}
if (is_vector) {
code += indent + "var " + varialbe_name + " = new ";
} else {
code += indent + varialbe_name + " = new ";
}
code += WrapInNameSpace(enum_def) + "Union();\n";
code += indent + varialbe_name + ".Type = this." + camel_name + "Type" +
type_suffix + ";\n";
code +=
indent + "switch (this." + camel_name + "Type" + type_suffix + ") {\n";
for (auto eit = enum_def.Vals().begin(); eit != enum_def.Vals().end();
++eit) {
auto &ev = **eit;
if (ev.union_type.base_type == BASE_TYPE_NONE) {
code += indent + " default: break;\n";
} else {
code += indent + " case " + WrapInNameSpace(enum_def) + "." + ev.name +
":\n";
code += indent + " " + varialbe_name + ".Value = this." + camel_name;
if (IsString(ev.union_type)) {
code += "AsString" + func_suffix + ";\n";
} else {
code += "<" + GenTypeGet(ev.union_type) + ">" + func_suffix;
code += ".HasValue ? this." + camel_name;
code += "<" + GenTypeGet(ev.union_type) + ">" + func_suffix +
".Value.UnPack() : null;\n";
}
code += indent + " break;\n";
}
}
code += indent + "}\n";
if (is_vector) {
code += indent + "_o." + camel_name + ".Add(" + varialbe_name + ");\n";
}
}
void GenPackUnPack_ObjectAPI(
StructDef &struct_def, std::string *code_ptr, const IDLOptions &opts,
bool struct_has_create,
const std::set<FieldDef *> &field_has_create) const {
auto &code = *code_ptr;
auto struct_name = GenTypeName_ObjectAPI(struct_def.name, opts);
// UnPack()
code += " public " + struct_name + " UnPack() {\n";
code += " var _o = new " + struct_name + "();\n";
code += " this.UnPackTo(_o);\n";
code += " return _o;\n";
code += " }\n";
// UnPackTo()
code += " public void UnPackTo(" + struct_name + " _o) {\n";
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
auto camel_name = MakeCamel(field.name);
auto start = " _o." + camel_name + " = ";
switch (field.value.type.base_type) {
case BASE_TYPE_STRUCT: {
auto fixed = struct_def.fixed && field.value.type.struct_def->fixed;
if (fixed) {
code += start + "this." + camel_name + ".UnPack();\n";
} else {
code += start + "this." + camel_name + ".HasValue ? this." +
camel_name + ".Value.UnPack() : null;\n";
}
break;
}
case BASE_TYPE_ARRAY: {
auto type_name = GenTypeGet_ObjectAPI(field.value.type, opts);
auto length_str = NumToString(field.value.type.fixed_length);
auto unpack_method = field.value.type.struct_def == nullptr
? ""
: field.value.type.struct_def->fixed
? ".UnPack()"
: "?.UnPack()";
code += start + "new " + type_name.substr(0, type_name.length() - 1) +
length_str + "];\n";
code += " for (var _j = 0; _j < " + length_str + "; ++_j) { _o." +
camel_name + "[_j] = this." + camel_name + "(_j)" +
unpack_method + "; }\n";
break;
}
case BASE_TYPE_VECTOR:
if (field.value.type.element == BASE_TYPE_UNION) {
code += start + "new " +
GenTypeGet_ObjectAPI(field.value.type, opts) + "();\n";
code += " for (var _j = 0; _j < this." + camel_name +
"Length; ++_j) {\n";
GenUnionUnPack_ObjectAPI(*field.value.type.enum_def, code_ptr,
camel_name, true);
code += " }\n";
} else if (field.value.type.element != BASE_TYPE_UTYPE) {
auto fixed = field.value.type.struct_def == nullptr;
code += start + "new " +
GenTypeGet_ObjectAPI(field.value.type, opts) + "();\n";
code += " for (var _j = 0; _j < this." + camel_name +
"Length; ++_j) {";
code += "_o." + camel_name + ".Add(";
if (fixed) {
code += "this." + camel_name + "(_j)";
} else {
code += "this." + camel_name + "(_j).HasValue ? this." +
camel_name + "(_j).Value.UnPack() : null";
}
code += ");}\n";
}
break;
case BASE_TYPE_UTYPE: break;
case BASE_TYPE_UNION: {
GenUnionUnPack_ObjectAPI(*field.value.type.enum_def, code_ptr,
camel_name, false);
break;
}
default: {
code += start + "this." + camel_name + ";\n";
break;
}
}
}
code += " }\n";
// Pack()
code += " public static " + GenOffsetType(struct_def) +
" Pack(FlatBufferBuilder builder, " + struct_name + " _o) {\n";
code += " if (_o == null) return default(" + GenOffsetType(struct_def) +
");\n";
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
auto camel_name = MakeCamel(field.name);
// pre
switch (field.value.type.base_type) {
case BASE_TYPE_STRUCT: {
if (!field.value.type.struct_def->fixed) {
code += " var _" + field.name + " = _o." + camel_name +
" == null ? default(" +
GenOffsetType(*field.value.type.struct_def) +
") : " + GenTypeGet(field.value.type) +
".Pack(builder, _o." + camel_name + ");\n";
} else if (struct_def.fixed && struct_has_create) {
std::vector<FieldArrayLength> array_lengths;
FieldArrayLength tmp_array_length = {
field.name,
field.value.type.fixed_length,
};
array_lengths.push_back(tmp_array_length);
GenStructPackDecl_ObjectAPI(*field.value.type.struct_def, code_ptr,
array_lengths);
}
break;
}
case BASE_TYPE_STRING: {
std::string create_string =
field.shared ? "CreateSharedString" : "CreateString";
code += " var _" + field.name + " = _o." + camel_name +
" == null ? default(StringOffset) : "
"builder." +
create_string + "(_o." + camel_name + ");\n";
break;
}
case BASE_TYPE_VECTOR: {
if (field_has_create.find(&field) != field_has_create.end()) {
auto property_name = camel_name;
auto gen_for_loop = true;
std::string array_name = "__" + field.name;
std::string array_type = "";
std::string to_array = "";
switch (field.value.type.element) {
case BASE_TYPE_STRING: {
std::string create_string =
field.shared ? "CreateSharedString" : "CreateString";
array_type = "StringOffset";
to_array += "builder." + create_string + "(_o." +
property_name + "[_j])";
break;
}
case BASE_TYPE_STRUCT:
array_type = "Offset<" + GenTypeGet(field.value.type) + ">";
to_array = GenTypeGet(field.value.type) + ".Pack(builder, _o." +
property_name + "[_j])";
break;
case BASE_TYPE_UTYPE:
property_name = camel_name.substr(0, camel_name.size() - 4);
array_type = WrapInNameSpace(*field.value.type.enum_def);
to_array = "_o." + property_name + "[_j].Type";
break;
case BASE_TYPE_UNION:
array_type = "int";
to_array = WrapInNameSpace(*field.value.type.enum_def) +
"Union.Pack(builder, _o." + property_name + "[_j])";
break;
default: gen_for_loop = false; break;
}
code += " var _" + field.name + " = default(VectorOffset);\n";
code += " if (_o." + property_name + " != null) {\n";
if (gen_for_loop) {
code += " var " + array_name + " = new " + array_type +
"[_o." + property_name + ".Count];\n";
code += " for (var _j = 0; _j < " + array_name +
".Length; ++_j) { ";
code += array_name + "[_j] = " + to_array + "; }\n";
} else {
code += " var " + array_name + " = _o." + property_name +
".ToArray();\n";
}
code += " _" + field.name + " = Create" + camel_name +
"Vector(builder, " + array_name + ");\n";
code += " }\n";
} else {
auto pack_method =
field.value.type.struct_def == nullptr
? "builder.Add" + GenMethod(field.value.type.VectorType()) +
"(_o." + camel_name + "[_j]);"
: GenTypeGet(field.value.type) + ".Pack(builder, _o." +
camel_name + "[_j]);";
code += " var _" + field.name + " = default(VectorOffset);\n";
code += " if (_o." + camel_name + " != null) {\n";
code += " Start" + camel_name + "Vector(builder, _o." +
camel_name + ".Count);\n";
code += " for (var _j = _o." + camel_name +
".Count - 1; _j >= 0; --_j) { " + pack_method + " }\n";
code += " _" + field.name + " = builder.EndVector();\n";
code += " }\n";
}
break;
}
case BASE_TYPE_ARRAY: {
if (field.value.type.struct_def != nullptr) {
std::vector<FieldArrayLength> array_lengths;
FieldArrayLength tmp_array_length = {
field.name,
field.value.type.fixed_length,
};
array_lengths.push_back(tmp_array_length);
GenStructPackDecl_ObjectAPI(*field.value.type.struct_def, code_ptr,
array_lengths);
} else {
code += " var _" + field.name + " = _o." + camel_name + ";\n";
}
break;
}
case BASE_TYPE_UNION: {
code += " var _" + field.name + "_type = _o." + camel_name +
" == null ? " + WrapInNameSpace(*field.value.type.enum_def) +
".NONE : " + "_o." + camel_name + ".Type;\n";
code +=
" var _" + field.name + " = _o." + camel_name +
" == null ? 0 : " + GenTypeGet_ObjectAPI(field.value.type, opts) +
".Pack(builder, _o." + camel_name + ");\n";
break;
}
default: break;
}
}
if (struct_has_create) {
// Create
code += " return Create" + struct_def.name + "(\n";
code += " builder";
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
auto camel_name = MakeCamel(field.name);
switch (field.value.type.base_type) {
case BASE_TYPE_STRUCT: {
if (struct_def.fixed) {
GenStructPackCall_ObjectAPI(*field.value.type.struct_def,
code_ptr,
" _" + field.name + "_");
} else {
code += ",\n";
if (field.value.type.struct_def->fixed) {
if (opts.generate_object_based_api)
code += " _o." + camel_name;
else
code += " " + GenTypeGet(field.value.type) +
".Pack(builder, _o." + camel_name + ")";
} else {
code += " _" + field.name;
}
}
break;
}
case BASE_TYPE_ARRAY: {
if (field.value.type.struct_def != nullptr) {
GenStructPackCall_ObjectAPI(*field.value.type.struct_def,
code_ptr,
" _" + field.name + "_");
} else {
code += ",\n";
code += " _" + field.name;
}
break;
}
case BASE_TYPE_UNION: FLATBUFFERS_FALLTHROUGH(); // fall thru
case BASE_TYPE_UTYPE: FLATBUFFERS_FALLTHROUGH(); // fall thru
case BASE_TYPE_STRING: FLATBUFFERS_FALLTHROUGH(); // fall thru
case BASE_TYPE_VECTOR: {
code += ",\n";
code += " _" + field.name;
break;
}
default: // scalar
code += ",\n";
code += " _o." + camel_name;
break;
}
}
code += ");\n";
} else {
// Start, End
code += " Start" + struct_def.name + "(builder);\n";
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
auto camel_name = MakeCamel(field.name);
switch (field.value.type.base_type) {
case BASE_TYPE_STRUCT: {
if (field.value.type.struct_def->fixed) {
code += " Add" + camel_name + "(builder, " +
GenTypeGet(field.value.type) + ".Pack(builder, _o." +
camel_name + "));\n";
} else {
code +=
" Add" + camel_name + "(builder, _" + field.name + ");\n";
}
break;
}
case BASE_TYPE_STRING: FLATBUFFERS_FALLTHROUGH(); // fall thru
case BASE_TYPE_ARRAY: FLATBUFFERS_FALLTHROUGH(); // fall thru
case BASE_TYPE_VECTOR: {
code +=
" Add" + camel_name + "(builder, _" + field.name + ");\n";
break;
}
case BASE_TYPE_UTYPE: break;
case BASE_TYPE_UNION: {
code += " Add" + camel_name + "Type(builder, _" + field.name +
"_type);\n";
code +=
" Add" + camel_name + "(builder, _" + field.name + ");\n";
break;
}
// scalar
default: {
code +=
" Add" + camel_name + "(builder, _o." + camel_name + ");\n";
break;
}
}
}
code += " return End" + struct_def.name + "(builder);\n";
}
code += " }\n";
}
void GenStructPackDecl_ObjectAPI(
const StructDef &struct_def, std::string *code_ptr,
std::vector<FieldArrayLength> &array_lengths) const {
auto &code = *code_ptr;
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
auto is_array = IsArray(field.value.type);
const auto &field_type =
is_array ? field.value.type.VectorType() : field.value.type;
FieldArrayLength tmp_array_length = {
field.name,
field_type.fixed_length,
};
array_lengths.push_back(tmp_array_length);
if (field_type.struct_def != nullptr) {
GenStructPackDecl_ObjectAPI(*field_type.struct_def, code_ptr,
array_lengths);
} else {
std::vector<FieldArrayLength> array_only_lengths;
for (size_t i = 0; i < array_lengths.size(); ++i) {
if (array_lengths[i].length > 0) {
array_only_lengths.push_back(array_lengths[i]);
}
}
std::string name;
for (size_t i = 0; i < array_lengths.size(); ++i) {
name += "_" + array_lengths[i].name;
}
code += " var " + name + " = ";
if (array_only_lengths.size() > 0) {
code += "new " + GenTypeBasic(field_type) + "[";
for (size_t i = 0; i < array_only_lengths.size(); ++i) {
if (i != 0) { code += ","; }
code += NumToString(array_only_lengths[i].length);
}
code += "];\n";
code += " ";
// initialize array
for (size_t i = 0; i < array_only_lengths.size(); ++i) {
auto idx = "idx" + NumToString(i);
code += "for (var " + idx + " = 0; " + idx + " < " +
NumToString(array_only_lengths[i].length) + "; ++" + idx +
") {";
}
for (size_t i = 0; i < array_only_lengths.size(); ++i) {
auto idx = "idx" + NumToString(i);
if (i == 0) {
code += name + "[" + idx;
} else {
code += "," + idx;
}
}
code += "] = _o";
for (size_t i = 0, j = 0; i < array_lengths.size(); ++i) {
code += "." + MakeCamel(array_lengths[i].name);
if (array_lengths[i].length <= 0) continue;
code += "[idx" + NumToString(j++) + "]";
}
code += ";";
for (size_t i = 0; i < array_only_lengths.size(); ++i) {
code += "}";
}
} else {
code += "_o";
for (size_t i = 0; i < array_lengths.size(); ++i) {
code += "." + MakeCamel(array_lengths[i].name);
}
code += ";";
}
code += "\n";
}
array_lengths.pop_back();
}
}
void GenStructPackCall_ObjectAPI(const StructDef &struct_def,
std::string *code_ptr,
std::string prefix) const {
auto &code = *code_ptr;
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
const auto &field_type = field.value.type;
if (field_type.struct_def != nullptr) {
GenStructPackCall_ObjectAPI(*field_type.struct_def, code_ptr,
prefix + field.name + "_");
} else {
code += ",\n";
code += prefix + field.name;
}
}
}
std::string GenTypeGet_ObjectAPI(flatbuffers::Type type,
const IDLOptions &opts) const {
auto type_name = GenTypeGet(type);
// Replace to ObjectBaseAPI Type Name
switch (type.base_type) {
case BASE_TYPE_STRUCT: FLATBUFFERS_FALLTHROUGH(); // fall thru
case BASE_TYPE_ARRAY: FLATBUFFERS_FALLTHROUGH(); // fall thru
case BASE_TYPE_VECTOR: {
if (type.struct_def != nullptr) {
auto type_name_length = type.struct_def->name.length();
auto new_type_name =
GenTypeName_ObjectAPI(type.struct_def->name, opts);
type_name.replace(type_name.length() - type_name_length,
type_name_length, new_type_name);
} else if (type.element == BASE_TYPE_UNION) {
type_name = WrapInNameSpace(*type.enum_def) + "Union";
}
break;
}
case BASE_TYPE_UNION: {
type_name = WrapInNameSpace(*type.enum_def) + "Union";
break;
}
default: break;
}
switch (type.base_type) {
case BASE_TYPE_ARRAY: {
type_name = type_name + "[]";
break;
}
case BASE_TYPE_VECTOR: {
type_name = "List<" + type_name + ">";
break;
}
default: break;
}
return type_name;
}
void GenStruct_ObjectAPI(StructDef &struct_def, std::string *code_ptr,
const IDLOptions &opts) const {
auto &code = *code_ptr;
if (struct_def.attributes.Lookup("private")) {
code += "internal ";
} else {
code += "public ";
}
if (struct_def.attributes.Lookup("csharp_partial")) {
// generate a partial class for this C# struct/table
code += "partial ";
}
auto class_name = GenTypeName_ObjectAPI(struct_def.name, opts);
code += "class " + class_name;
code += "\n{\n";
// Generate Properties
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
if (field.value.type.base_type == BASE_TYPE_UTYPE) continue;
if (field.value.type.element == BASE_TYPE_UTYPE) continue;
auto type_name = GenTypeGet_ObjectAPI(field.value.type, opts);
if (field.IsScalarOptional()) type_name += "?";
auto camel_name = MakeCamel(field.name, true);
if (opts.cs_gen_json_serializer) {
if (IsUnion(field.value.type)) {
auto utype_name = WrapInNameSpace(*field.value.type.enum_def);
code +=
" [Newtonsoft.Json.JsonProperty(\"" + field.name + "_type\")]\n";
if (IsVector(field.value.type)) {
code += " private " + utype_name + "[] " + camel_name + "Type {\n";
code += " get {\n";
code += " if (this." + camel_name + " == null) return null;\n";
code += " var _o = new " + utype_name + "[this." + camel_name +
".Count];\n";
code +=
" for (var _j = 0; _j < _o.Length; ++_j) { _o[_j] = "
"this." +
camel_name + "[_j].Type; }\n";
code += " return _o;\n";
code += " }\n";
code += " set {\n";
code += " this." + camel_name + " = new List<" + utype_name +
"Union>();\n";
code += " for (var _j = 0; _j < value.Length; ++_j) {\n";
code += " var _o = new " + utype_name + "Union();\n";
code += " _o.Type = value[_j];\n";
code += " this." + camel_name + ".Add(_o);\n";
code += " }\n";
code += " }\n";
code += " }\n";
} else {
code += " private " + utype_name + " " + camel_name + "Type {\n";
code += " get {\n";
code += " return this." + camel_name + " != null ? this." +
camel_name + ".Type : " + utype_name + ".NONE;\n";
code += " }\n";
code += " set {\n";
code += " this." + camel_name + " = new " + utype_name +
"Union();\n";
code += " this." + camel_name + ".Type = value;\n";
code += " }\n";
code += " }\n";
}
}
code += " [Newtonsoft.Json.JsonProperty(\"" + field.name + "\")]\n";
if (IsUnion(field.value.type)) {
auto union_name =
(IsVector(field.value.type))
? GenTypeGet_ObjectAPI(field.value.type.VectorType(), opts)
: type_name;
code += " [Newtonsoft.Json.JsonConverter(typeof(" + union_name +
"_JsonConverter))]\n";
}
if (field.attributes.Lookup("hash")) {
code += " [Newtonsoft.Json.JsonIgnore()]\n";
}
}
code += " public " + type_name + " " + camel_name + " { get; set; }\n";
}
// Generate Constructor
code += "\n";
code += " public " + class_name + "() {\n";
for (auto it = struct_def.fields.vec.begin();
it != struct_def.fields.vec.end(); ++it) {
auto &field = **it;
if (field.deprecated) continue;
if (field.value.type.base_type == BASE_TYPE_UTYPE) continue;
if (field.value.type.element == BASE_TYPE_UTYPE) continue;
code += " this." + MakeCamel(field.name) + " = ";
auto type_name = GenTypeGet_ObjectAPI(field.value.type, opts);
if (IsScalar(field.value.type.base_type)) {
code += GenDefaultValue(field) + ";\n";
} else {
switch (field.value.type.base_type) {
case BASE_TYPE_STRUCT: {
if (IsStruct(field.value.type)) {
code += "new " + type_name + "();\n";
} else {
code += "null;\n";
}
break;
}
case BASE_TYPE_ARRAY: {
code += "new " + type_name.substr(0, type_name.length() - 1) +
NumToString(field.value.type.fixed_length) + "];\n";
break;
}
default: {
code += "null;\n";
break;
}
}
}
}
code += " }\n";
// Generate Serialization
if (opts.cs_gen_json_serializer &&
parser_.root_struct_def_ == &struct_def) {
code += "\n";
code += " public static " + class_name +
" DeserializeFromJson(string jsonText) {\n";
code += " return Newtonsoft.Json.JsonConvert.DeserializeObject<" +
class_name + ">(jsonText);\n";
code += " }\n";
code += " public string SerializeToJson() {\n";
code +=
" return Newtonsoft.Json.JsonConvert.SerializeObject(this, "
"Newtonsoft.Json.Formatting.Indented);\n";
code += " }\n";
}
if (parser_.root_struct_def_ == &struct_def) {
code += " public static " + class_name +
" DeserializeFromBinary(byte[] fbBuffer) {\n";
code += " return " + struct_def.name + ".GetRootAs" + struct_def.name +
"(new ByteBuffer(fbBuffer)).UnPack();\n";
code += " }\n";
code += " public byte[] SerializeToBinary() {\n";
code += " var fbb = new FlatBufferBuilder(0x10000);\n";
code += " " + struct_def.name + ".Finish" + struct_def.name +
"Buffer(fbb, " + struct_def.name + ".Pack(fbb, this));\n";
code += " return fbb.DataBuffer.ToSizedArray();\n";
code += " }\n";
}
code += "}\n\n";
}
// This tracks the current namespace used to determine if a type need to be
// prefixed by its namespace
const Namespace *cur_name_space_;
};
} // namespace csharp
bool GenerateCSharp(const Parser &parser, const std::string &path,
const std::string &file_name) {
csharp::CSharpGenerator generator(parser, path, file_name);
return generator.generate();
}
} // namespace flatbuffers
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