// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. #include #include #include #include #include namespace google { namespace protobuf { namespace compiler { namespace cpp { namespace { void SetStringVariables(const FieldDescriptor* descriptor, std::map* variables, const Options& options) { SetCommonFieldVariables(descriptor, variables, options); const std::string kNS = "::" + (*variables)["proto_ns"] + "::internal::"; const std::string kArenaStringPtr = kNS + "ArenaStringPtr"; (*variables)["default"] = DefaultValue(options, descriptor); (*variables)["default_length"] = StrCat(descriptor->default_value_string().length()); (*variables)["default_variable_name"] = MakeDefaultName(descriptor); (*variables)["default_variable_field"] = MakeDefaultFieldName(descriptor); if (descriptor->default_value_string().empty()) { (*variables)["default_string"] = kNS + "GetEmptyStringAlreadyInited()"; (*variables)["default_value"] = "&" + (*variables)["default_string"]; (*variables)["lazy_variable_args"] = ""; } else { (*variables)["lazy_variable"] = StrCat(QualifiedClassName(descriptor->containing_type(), options), "::", MakeDefaultFieldName(descriptor)); (*variables)["default_string"] = (*variables)["lazy_variable"] + ".get()"; (*variables)["default_value"] = "nullptr"; (*variables)["lazy_variable_args"] = (*variables)["lazy_variable"] + ", "; } (*variables)["pointer_type"] = descriptor->type() == FieldDescriptor::TYPE_BYTES ? "void" : "char"; (*variables)["setter"] = descriptor->type() == FieldDescriptor::TYPE_BYTES ? "SetBytes" : "Set"; (*variables)["null_check"] = (*variables)["DCHK"] + "(value != nullptr);\n"; // NOTE: Escaped here to unblock proto1->proto2 migration. // TODO(liujisi): Extend this to apply for other conflicting methods. (*variables)["release_name"] = SafeFunctionName(descriptor->containing_type(), descriptor, "release_"); (*variables)["full_name"] = descriptor->full_name(); if (options.opensource_runtime) { (*variables)["string_piece"] = "::std::string"; } else { (*variables)["string_piece"] = "::StringPiece"; } } } // namespace // =================================================================== StringFieldGenerator::StringFieldGenerator(const FieldDescriptor* descriptor, const Options& options) : FieldGenerator(descriptor, options), inlined_(IsStringInlined(descriptor, options)) { SetStringVariables(descriptor, &variables_, options); } StringFieldGenerator::~StringFieldGenerator() {} void StringFieldGenerator::GeneratePrivateMembers(io::Printer* printer) const { Formatter format(printer, variables_); if (!inlined_) { format("::$proto_ns$::internal::ArenaStringPtr $name$_;\n"); } else { // Skips the automatic destruction; rather calls it explicitly if // allocating arena is null. This is required to support message-owned // arena (go/path-to-arenas) where a root proto is destroyed but // InlinedStringField may have arena-allocated memory. format("::$proto_ns$::internal::InlinedStringField $name$_;\n"); } } void StringFieldGenerator::GenerateStaticMembers(io::Printer* printer) const { Formatter format(printer, variables_); if (!descriptor_->default_value_string().empty()) { format( "static const ::$proto_ns$::internal::LazyString" " $default_variable_name$;\n"); } if (inlined_) { // `_init_inline_xxx` is used for initializing default instances. format("static std::true_type _init_inline_$name$_;\n"); } } void StringFieldGenerator::GenerateAccessorDeclarations( io::Printer* printer) const { Formatter format(printer, variables_); // If we're using StringFieldGenerator for a field with a ctype, it's // because that ctype isn't actually implemented. In particular, this is // true of ctype=CORD and ctype=STRING_PIECE in the open source release. // We aren't releasing Cord because it has too many Google-specific // dependencies and we aren't releasing StringPiece because it's hardly // useful outside of Google and because it would get confusing to have // multiple instances of the StringPiece class in different libraries (PCRE // already includes it for their C++ bindings, which came from Google). // // In any case, we make all the accessors private while still actually // using a string to represent the field internally. This way, we can // guarantee that if we do ever implement the ctype, it won't break any // existing users who might be -- for whatever reason -- already using .proto // files that applied the ctype. The field can still be accessed via the // reflection interface since the reflection interface is independent of // the string's underlying representation. bool unknown_ctype = descriptor_->options().ctype() != EffectiveStringCType(descriptor_, options_); if (unknown_ctype) { format.Outdent(); format( " private:\n" " // Hidden due to unknown ctype option.\n"); format.Indent(); } format( "$deprecated_attr$const std::string& ${1$$name$$}$() const;\n" "template \n" "$deprecated_attr$void ${1$set_$name$$}$(ArgT0&& arg0, ArgT... args);\n", descriptor_); format( "$deprecated_attr$std::string* ${1$mutable_$name$$}$();\n" "PROTOBUF_NODISCARD $deprecated_attr$std::string* " "${1$$release_name$$}$();\n" "$deprecated_attr$void ${1$set_allocated_$name$$}$(std::string* " "$name$);\n", descriptor_); format( "private:\n" "const std::string& _internal_$name$() const;\n" "inline PROTOBUF_ALWAYS_INLINE void " "_internal_set_$name$(const std::string& value);\n" "std::string* _internal_mutable_$name$();\n"); if (inlined_) { format( "inline PROTOBUF_ALWAYS_INLINE bool _internal_$name$_donated() " "const;\n"); } format("public:\n"); if (unknown_ctype) { format.Outdent(); format(" public:\n"); format.Indent(); } } void StringFieldGenerator::GenerateInlineAccessorDefinitions( io::Printer* printer) const { Formatter format(printer, variables_); format( "inline const std::string& $classname$::$name$() const {\n" "$annotate_get$" " // @@protoc_insertion_point(field_get:$full_name$)\n"); if (!descriptor_->default_value_string().empty()) { format( " if ($field$.IsDefault()) return " "$default_variable_field$.get();\n"); } format( " return _internal_$name$();\n" "}\n"); if (!inlined_) { format( "template \n" "inline PROTOBUF_ALWAYS_INLINE\n" "void $classname$::set_$name$(ArgT0&& arg0, ArgT... args) {\n" "$maybe_prepare_split_message$" " $set_hasbit$\n" " $field$.$setter$(static_cast(arg0)," " args..., GetArenaForAllocation());\n" "$annotate_set$" " // @@protoc_insertion_point(field_set:$full_name$)\n" "}\n"); } else { format( "template \n" "inline PROTOBUF_ALWAYS_INLINE\n" "void $classname$::set_$name$(ArgT0&& arg0, ArgT... args) {\n" "$maybe_prepare_split_message$" " $set_hasbit$\n" " $field$.$setter$(static_cast(arg0)," " args..., GetArenaForAllocation(), _internal_$name$_donated(), " "&$donating_states_word$, $mask_for_undonate$, this);\n" "$annotate_set$" " // @@protoc_insertion_point(field_set:$full_name$)\n" "}\n" "inline bool $classname$::_internal_$name$_donated() const {\n" " bool value = $inlined_string_donated$\n" " return value;\n" "}\n"); } format( "inline std::string* $classname$::mutable_$name$() {\n" "$maybe_prepare_split_message$" " std::string* _s = _internal_mutable_$name$();\n" "$annotate_mutable$" " // @@protoc_insertion_point(field_mutable:$full_name$)\n" " return _s;\n" "}\n" "inline const std::string& $classname$::_internal_$name$() const {\n" " return $field$.Get();\n" "}\n" "inline void $classname$::_internal_set_$name$(const std::string& " "value) {\n" " $set_hasbit$\n"); if (!inlined_) { format( " $field$.Set(value, GetArenaForAllocation());\n" "}\n"); } else { format( " $field$.Set(value, GetArenaForAllocation(),\n" " _internal_$name$_donated(), &$donating_states_word$, " "$mask_for_undonate$, this);\n" "}\n"); } format( "inline std::string* $classname$::_internal_mutable_$name$() {\n" " $set_hasbit$\n"); if (!inlined_) { format( " return $field$.Mutable($lazy_variable_args$" "GetArenaForAllocation());\n" "}\n"); } else { format( " return $field$.Mutable($lazy_variable_args$" "GetArenaForAllocation(), _internal_$name$_donated(), " "&$donating_states_word$, $mask_for_undonate$, this);\n" "}\n"); } format( "inline std::string* $classname$::$release_name$() {\n" "$annotate_release$" "$maybe_prepare_split_message$" " // @@protoc_insertion_point(field_release:$full_name$)\n"); if (HasHasbit(descriptor_)) { format( " if (!_internal_has_$name$()) {\n" " return nullptr;\n" " }\n" " $clear_hasbit$\n"); if (!inlined_) { format(" auto* p = $field$.Release();\n"); if (descriptor_->default_value_string().empty()) { format( "#ifdef PROTOBUF_FORCE_COPY_DEFAULT_STRING\n" " if ($field$.IsDefault()) {\n" " $field$.Set(\"\", GetArenaForAllocation());\n" " }\n" "#endif // PROTOBUF_FORCE_COPY_DEFAULT_STRING\n"); } format(" return p;\n"); } else { format( " return $field$.Release(GetArenaForAllocation(), " "_internal_$name$_donated());\n"); } } else { format(" return $field$.Release();\n"); } format( "}\n" "inline void $classname$::set_allocated_$name$(std::string* $name$) {\n" "$maybe_prepare_split_message$" " if ($name$ != nullptr) {\n" " $set_hasbit$\n" " } else {\n" " $clear_hasbit$\n" " }\n"); if (!inlined_) { format(" $field$.SetAllocated($name$, GetArenaForAllocation());\n"); if (descriptor_->default_value_string().empty()) { format( "#ifdef PROTOBUF_FORCE_COPY_DEFAULT_STRING\n" " if ($field$.IsDefault()) {\n" " $field$.Set(\"\", GetArenaForAllocation());\n" " }\n" "#endif // PROTOBUF_FORCE_COPY_DEFAULT_STRING\n"); } } else { // Currently, string fields with default value can't be inlined. format( " $field$.SetAllocated(nullptr, $name$, GetArenaForAllocation(), " "_internal_$name$_donated(), &$donating_states_word$, " "$mask_for_undonate$, this);\n"); } format( "$annotate_set$" " // @@protoc_insertion_point(field_set_allocated:$full_name$)\n" "}\n"); } void StringFieldGenerator::GenerateNonInlineAccessorDefinitions( io::Printer* printer) const { Formatter format(printer, variables_); if (!descriptor_->default_value_string().empty()) { format( "const ::$proto_ns$::internal::LazyString " "$classname$::$default_variable_field$" "{{{$default$, $default_length$}}, {nullptr}};\n"); } } void StringFieldGenerator::GenerateClearingCode(io::Printer* printer) const { Formatter format(printer, variables_); if (descriptor_->default_value_string().empty()) { format("$field$.ClearToEmpty();\n"); } else { GOOGLE_DCHECK(!inlined_); format( "$field$.ClearToDefault($lazy_variable$, GetArenaForAllocation());\n"); } } void StringFieldGenerator::GenerateMessageClearingCode( io::Printer* printer) const { Formatter format(printer, variables_); // Two-dimension specialization here: supporting arenas, field presence, or // not, and default value is the empty string or not. Complexity here ensures // the minimal number of branches / amount of extraneous code at runtime // (given that the below methods are inlined one-liners)! // If we have a hasbit, then the Clear() method of the protocol buffer // will have checked that this field is set. If so, we can avoid redundant // checks against the default variable. const bool must_be_present = HasHasbit(descriptor_); if (inlined_ && must_be_present) { // Calling mutable_$name$() gives us a string reference and sets the has bit // for $name$ (in proto2). We may get here when the string field is inlined // but the string's contents have not been changed by the user, so we cannot // make an assertion about the contents of the string and could never make // an assertion about the string instance. // // For non-inlined strings, we distinguish from non-default by comparing // instances, rather than contents. format("$DCHK$(!$field$.IsDefault());\n"); } if (descriptor_->default_value_string().empty()) { if (must_be_present) { format("$field$.ClearNonDefaultToEmpty();\n"); } else { format("$field$.ClearToEmpty();\n"); } } else { // Clear to a non-empty default is more involved, as we try to use the // Arena if one is present and may need to reallocate the string. format( "$field$.ClearToDefault($lazy_variable$, GetArenaForAllocation());\n "); } } void StringFieldGenerator::GenerateMergingCode(io::Printer* printer) const { Formatter format(printer, variables_); // TODO(gpike): improve this format("_this->_internal_set_$name$(from._internal_$name$());\n"); } void StringFieldGenerator::GenerateSwappingCode(io::Printer* printer) const { Formatter format(printer, variables_); if (!inlined_) { format( "::$proto_ns$::internal::ArenaStringPtr::InternalSwap(\n" " &$field$, lhs_arena,\n" " &other->$field$, rhs_arena\n" ");\n"); } else { format( "::$proto_ns$::internal::InlinedStringField::InternalSwap(\n" " &$field$, lhs_arena, " "($inlined_string_donated_array$[0] & 0x1u) == 0, this,\n" " &other->$field$, rhs_arena, " "(other->$inlined_string_donated_array$[0] & 0x1u) == 0, other);\n"); } } void StringFieldGenerator::GenerateConstructorCode(io::Printer* printer) const { Formatter format(printer, variables_); if (inlined_ && descriptor_->default_value_string().empty()) { return; } GOOGLE_DCHECK(!inlined_); format("$field$.InitDefault();\n"); if (IsString(descriptor_, options_) && descriptor_->default_value_string().empty()) { format( "#ifdef PROTOBUF_FORCE_COPY_DEFAULT_STRING\n" " $field$.Set(\"\", GetArenaForAllocation());\n" "#endif // PROTOBUF_FORCE_COPY_DEFAULT_STRING\n"); } } void StringFieldGenerator::GenerateCreateSplitMessageCode( io::Printer* printer) const { GOOGLE_CHECK(ShouldSplit(descriptor_, options_)); GOOGLE_CHECK(!inlined_); Formatter format(printer, variables_); format("ptr->$name$_.InitDefault();\n"); if (IsString(descriptor_, options_) && descriptor_->default_value_string().empty()) { format( "#ifdef PROTOBUF_FORCE_COPY_DEFAULT_STRING\n" " ptr->$name$_.Set(\"\", GetArenaForAllocation());\n" "#endif // PROTOBUF_FORCE_COPY_DEFAULT_STRING\n"); } } void StringFieldGenerator::GenerateCopyConstructorCode( io::Printer* printer) const { Formatter format(printer, variables_); GenerateConstructorCode(printer); if (inlined_) { format("new (&_this->$field$) ::_pbi::InlinedStringField();\n"); } if (HasHasbit(descriptor_)) { format("if (from._internal_has_$name$()) {\n"); } else { format("if (!from._internal_$name$().empty()) {\n"); } format.Indent(); if (!inlined_) { format( "_this->$field$.Set(from._internal_$name$(), \n" " _this->GetArenaForAllocation());\n"); } else { format( "_this->$field$.Set(from._internal_$name$(),\n" " _this->GetArenaForAllocation(), _this->_internal_$name$_donated(), " "&_this->$donating_states_word$, $mask_for_undonate$, _this);\n"); } format.Outdent(); format("}\n"); } void StringFieldGenerator::GenerateDestructorCode(io::Printer* printer) const { Formatter format(printer, variables_); if (!inlined_) { if (ShouldSplit(descriptor_, options_)) { format("$cached_split_ptr$->$name$_.Destroy();\n"); return; } format("$field$.Destroy();\n"); return; } // Explicitly calls ~InlinedStringField as its automatic call is disabled. // Destructor has been implicitly skipped as a union, and even the // message-owned arena is enabled, arena could still be missing for // Arena::CreateMessage(nullptr). GOOGLE_DCHECK(!ShouldSplit(descriptor_, options_)); format("$field$.~InlinedStringField();\n"); } ArenaDtorNeeds StringFieldGenerator::NeedsArenaDestructor() const { return inlined_ ? ArenaDtorNeeds::kOnDemand : ArenaDtorNeeds::kNone; } void StringFieldGenerator::GenerateArenaDestructorCode( io::Printer* printer) const { if (!inlined_) return; Formatter format(printer, variables_); // _this is the object being destructed (we are inside a static method here). format( "if (!_this->_internal_$name$_donated()) {\n" " _this->$field$.~InlinedStringField();\n" "}\n"); } void StringFieldGenerator::GenerateSerializeWithCachedSizesToArray( io::Printer* printer) const { Formatter format(printer, variables_); if (descriptor_->type() == FieldDescriptor::TYPE_STRING) { GenerateUtf8CheckCodeForString( descriptor_, options_, false, "this->_internal_$name$().data(), " "static_cast(this->_internal_$name$().length()),\n", format); } format( "target = stream->Write$declared_type$MaybeAliased(\n" " $number$, this->_internal_$name$(), target);\n"); } void StringFieldGenerator::GenerateByteSize(io::Printer* printer) const { Formatter format(printer, variables_); format( "total_size += $tag_size$ +\n" " ::$proto_ns$::internal::WireFormatLite::$declared_type$Size(\n" " this->_internal_$name$());\n"); } void StringFieldGenerator::GenerateConstexprAggregateInitializer( io::Printer* printer) const { Formatter format(printer, variables_); if (inlined_) { format("/*decltype($field$)*/{nullptr, false}"); return; } if (descriptor_->default_value_string().empty()) { format( "/*decltype($field$)*/{&::_pbi::fixed_address_empty_string, " "::_pbi::ConstantInitialized{}}"); } else { format("/*decltype($field$)*/{nullptr, ::_pbi::ConstantInitialized{}}"); } } void StringFieldGenerator::GenerateAggregateInitializer( io::Printer* printer) const { Formatter format(printer, variables_); if (ShouldSplit(descriptor_, options_)) { GOOGLE_CHECK(!inlined_); format("decltype(Impl_::Split::$name$_){}"); return; } if (!inlined_) { format("decltype($field$){}"); } else { format("decltype($field$)(arena)"); } } void StringFieldGenerator::GenerateCopyAggregateInitializer( io::Printer* printer) const { Formatter format(printer, variables_); format("decltype($field$){}"); } // =================================================================== StringOneofFieldGenerator::StringOneofFieldGenerator( const FieldDescriptor* descriptor, const Options& options) : StringFieldGenerator(descriptor, options) { SetCommonOneofFieldVariables(descriptor, &variables_); variables_["field_name"] = UnderscoresToCamelCase(descriptor->name(), true); variables_["oneof_index"] = StrCat(descriptor->containing_oneof()->index()); } StringOneofFieldGenerator::~StringOneofFieldGenerator() {} void StringOneofFieldGenerator::GenerateInlineAccessorDefinitions( io::Printer* printer) const { Formatter format(printer, variables_); format( "inline const std::string& $classname$::$name$() const {\n" "$annotate_get$" " // @@protoc_insertion_point(field_get:$full_name$)\n" " return _internal_$name$();\n" "}\n" "template \n" "inline void $classname$::set_$name$(ArgT0&& arg0, ArgT... args) {\n" " if (!_internal_has_$name$()) {\n" " clear_$oneof_name$();\n" " set_has_$name$();\n" " $field$.InitDefault();\n" " }\n" " $field$.$setter$(" " static_cast(arg0), args..., GetArenaForAllocation());\n" "$annotate_set$" " // @@protoc_insertion_point(field_set:$full_name$)\n" "}\n" "inline std::string* $classname$::mutable_$name$() {\n" " std::string* _s = _internal_mutable_$name$();\n" "$annotate_mutable$" " // @@protoc_insertion_point(field_mutable:$full_name$)\n" " return _s;\n" "}\n" "inline const std::string& $classname$::_internal_$name$() const {\n" " if (_internal_has_$name$()) {\n" " return $field$.Get();\n" " }\n" " return $default_string$;\n" "}\n" "inline void $classname$::_internal_set_$name$(const std::string& " "value) {\n" " if (!_internal_has_$name$()) {\n" " clear_$oneof_name$();\n" " set_has_$name$();\n" " $field$.InitDefault();\n" " }\n" " $field$.Set(value, GetArenaForAllocation());\n" "}\n"); format( "inline std::string* $classname$::_internal_mutable_$name$() {\n" " if (!_internal_has_$name$()) {\n" " clear_$oneof_name$();\n" " set_has_$name$();\n" " $field$.InitDefault();\n" " }\n" " return $field$.Mutable($lazy_variable_args$" " GetArenaForAllocation());\n" "}\n" "inline std::string* $classname$::$release_name$() {\n" "$annotate_release$" " // @@protoc_insertion_point(field_release:$full_name$)\n" " if (_internal_has_$name$()) {\n" " clear_has_$oneof_name$();\n" " return $field$.Release();\n" " } else {\n" " return nullptr;\n" " }\n" "}\n" "inline void $classname$::set_allocated_$name$(std::string* $name$) {\n" " if (has_$oneof_name$()) {\n" " clear_$oneof_name$();\n" " }\n" " if ($name$ != nullptr) {\n" " set_has_$name$();\n" " $field$.InitAllocated($name$, GetArenaForAllocation());\n" " }\n" "$annotate_set$" " // @@protoc_insertion_point(field_set_allocated:$full_name$)\n" "}\n"); } void StringOneofFieldGenerator::GenerateClearingCode( io::Printer* printer) const { Formatter format(printer, variables_); format("$field$.Destroy();\n"); } void StringOneofFieldGenerator::GenerateMessageClearingCode( io::Printer* printer) const { return GenerateClearingCode(printer); } void StringOneofFieldGenerator::GenerateSwappingCode( io::Printer* printer) const { // Don't print any swapping code. Swapping the union will swap this field. } void StringOneofFieldGenerator::GenerateConstructorCode( io::Printer* printer) const { // Nothing required here. } // =================================================================== RepeatedStringFieldGenerator::RepeatedStringFieldGenerator( const FieldDescriptor* descriptor, const Options& options) : FieldGenerator(descriptor, options) { SetStringVariables(descriptor, &variables_, options); } RepeatedStringFieldGenerator::~RepeatedStringFieldGenerator() {} void RepeatedStringFieldGenerator::GeneratePrivateMembers( io::Printer* printer) const { Formatter format(printer, variables_); format("::$proto_ns$::RepeatedPtrField $name$_;\n"); } void RepeatedStringFieldGenerator::GenerateAccessorDeclarations( io::Printer* printer) const { Formatter format(printer, variables_); // See comment above about unknown ctypes. bool unknown_ctype = descriptor_->options().ctype() != EffectiveStringCType(descriptor_, options_); if (unknown_ctype) { format.Outdent(); format( " private:\n" " // Hidden due to unknown ctype option.\n"); format.Indent(); } format( "$deprecated_attr$const std::string& ${1$$name$$}$(int index) const;\n" "$deprecated_attr$std::string* ${1$mutable_$name$$}$(int index);\n" "$deprecated_attr$void ${1$set_$name$$}$(int index, const " "std::string& value);\n" "$deprecated_attr$void ${1$set_$name$$}$(int index, std::string&& " "value);\n" "$deprecated_attr$void ${1$set_$name$$}$(int index, const " "char* value);\n", descriptor_); if (!options_.opensource_runtime) { format( "$deprecated_attr$void ${1$set_$name$$}$(int index, " "StringPiece value);\n", descriptor_); } format( "$deprecated_attr$void ${1$set_$name$$}$(" "int index, const $pointer_type$* value, size_t size);\n" "$deprecated_attr$std::string* ${1$add_$name$$}$();\n" "$deprecated_attr$void ${1$add_$name$$}$(const std::string& value);\n" "$deprecated_attr$void ${1$add_$name$$}$(std::string&& value);\n" "$deprecated_attr$void ${1$add_$name$$}$(const char* value);\n", descriptor_); if (!options_.opensource_runtime) { format( "$deprecated_attr$void ${1$add_$name$$}$(StringPiece value);\n", descriptor_); } format( "$deprecated_attr$void ${1$add_$name$$}$(const $pointer_type$* " "value, size_t size)" ";\n" "$deprecated_attr$const ::$proto_ns$::RepeatedPtrField& " "${1$$name$$}$() " "const;\n" "$deprecated_attr$::$proto_ns$::RepeatedPtrField* " "${1$mutable_$name$$}$()" ";\n" "private:\n" "const std::string& ${1$_internal_$name$$}$(int index) const;\n" "std::string* _internal_add_$name$();\n" "public:\n", descriptor_); if (unknown_ctype) { format.Outdent(); format(" public:\n"); format.Indent(); } } void RepeatedStringFieldGenerator::GenerateInlineAccessorDefinitions( io::Printer* printer) const { Formatter format(printer, variables_); format( "inline std::string* $classname$::add_$name$() {\n" " std::string* _s = _internal_add_$name$();\n" "$annotate_add_mutable$" " // @@protoc_insertion_point(field_add_mutable:$full_name$)\n" " return _s;\n" "}\n"); if (options_.safe_boundary_check) { format( "inline const std::string& $classname$::_internal_$name$(int index) " "const {\n" " return $field$.InternalCheckedGet(\n" " index, ::$proto_ns$::internal::GetEmptyStringAlreadyInited());\n" "}\n"); } else { format( "inline const std::string& $classname$::_internal_$name$(int index) " "const {\n" " return $field$.Get(index);\n" "}\n"); } format( "inline const std::string& $classname$::$name$(int index) const {\n" "$annotate_get$" " // @@protoc_insertion_point(field_get:$full_name$)\n" " return _internal_$name$(index);\n" "}\n" "inline std::string* $classname$::mutable_$name$(int index) {\n" "$annotate_mutable$" " // @@protoc_insertion_point(field_mutable:$full_name$)\n" " return $field$.Mutable(index);\n" "}\n" "inline void $classname$::set_$name$(int index, const std::string& " "value) " "{\n" " $field$.Mutable(index)->assign(value);\n" "$annotate_set$" " // @@protoc_insertion_point(field_set:$full_name$)\n" "}\n" "inline void $classname$::set_$name$(int index, std::string&& value) {\n" " $field$.Mutable(index)->assign(std::move(value));\n" "$annotate_set$" " // @@protoc_insertion_point(field_set:$full_name$)\n" "}\n" "inline void $classname$::set_$name$(int index, const char* value) {\n" " $null_check$" " $field$.Mutable(index)->assign(value);\n" "$annotate_set$" " // @@protoc_insertion_point(field_set_char:$full_name$)\n" "}\n"); if (!options_.opensource_runtime) { format( "inline void " "$classname$::set_$name$(int index, StringPiece value) {\n" " $field$.Mutable(index)->assign(value.data(), value.size());\n" "$annotate_set$" " // @@protoc_insertion_point(field_set_string_piece:$full_name$)\n" "}\n"); } format( "inline void " "$classname$::set_$name$" "(int index, const $pointer_type$* value, size_t size) {\n" " $field$.Mutable(index)->assign(\n" " reinterpret_cast(value), size);\n" "$annotate_set$" " // @@protoc_insertion_point(field_set_pointer:$full_name$)\n" "}\n" "inline std::string* $classname$::_internal_add_$name$() {\n" " return $field$.Add();\n" "}\n" "inline void $classname$::add_$name$(const std::string& value) {\n" " $field$.Add()->assign(value);\n" "$annotate_add$" " // @@protoc_insertion_point(field_add:$full_name$)\n" "}\n" "inline void $classname$::add_$name$(std::string&& value) {\n" " $field$.Add(std::move(value));\n" "$annotate_add$" " // @@protoc_insertion_point(field_add:$full_name$)\n" "}\n" "inline void $classname$::add_$name$(const char* value) {\n" " $null_check$" " $field$.Add()->assign(value);\n" "$annotate_add$" " // @@protoc_insertion_point(field_add_char:$full_name$)\n" "}\n"); if (!options_.opensource_runtime) { format( "inline void $classname$::add_$name$(StringPiece value) {\n" " $field$.Add()->assign(value.data(), value.size());\n" "$annotate_add$" " // @@protoc_insertion_point(field_add_string_piece:$full_name$)\n" "}\n"); } format( "inline void " "$classname$::add_$name$(const $pointer_type$* value, size_t size) {\n" " $field$.Add()->assign(reinterpret_cast(value), size);\n" "$annotate_add$" " // @@protoc_insertion_point(field_add_pointer:$full_name$)\n" "}\n" "inline const ::$proto_ns$::RepeatedPtrField&\n" "$classname$::$name$() const {\n" "$annotate_list$" " // @@protoc_insertion_point(field_list:$full_name$)\n" " return $field$;\n" "}\n" "inline ::$proto_ns$::RepeatedPtrField*\n" "$classname$::mutable_$name$() {\n" "$annotate_mutable_list$" " // @@protoc_insertion_point(field_mutable_list:$full_name$)\n" " return &$field$;\n" "}\n"); } void RepeatedStringFieldGenerator::GenerateClearingCode( io::Printer* printer) const { Formatter format(printer, variables_); format("$field$.Clear();\n"); } void RepeatedStringFieldGenerator::GenerateMergingCode( io::Printer* printer) const { Formatter format(printer, variables_); format("_this->$field$.MergeFrom(from.$field$);\n"); } void RepeatedStringFieldGenerator::GenerateSwappingCode( io::Printer* printer) const { Formatter format(printer, variables_); format("$field$.InternalSwap(&other->$field$);\n"); } void RepeatedStringFieldGenerator::GenerateDestructorCode( io::Printer* printer) const { Formatter format(printer, variables_); format("$field$.~RepeatedPtrField();\n"); } void RepeatedStringFieldGenerator::GenerateSerializeWithCachedSizesToArray( io::Printer* printer) const { Formatter format(printer, variables_); format( "for (int i = 0, n = this->_internal_$name$_size(); i < n; i++) {\n" " const auto& s = this->_internal_$name$(i);\n"); // format("for (const std::string& s : this->$name$()) {\n"); format.Indent(); if (descriptor_->type() == FieldDescriptor::TYPE_STRING) { GenerateUtf8CheckCodeForString(descriptor_, options_, false, "s.data(), static_cast(s.length()),\n", format); } format.Outdent(); format( " target = stream->Write$declared_type$($number$, s, target);\n" "}\n"); } void RepeatedStringFieldGenerator::GenerateByteSize( io::Printer* printer) const { Formatter format(printer, variables_); format( "total_size += $tag_size$ *\n" " ::$proto_ns$::internal::FromIntSize($field$.size());\n" "for (int i = 0, n = $field$.size(); i < n; i++) {\n" " total_size += " "::$proto_ns$::internal::WireFormatLite::$declared_type$Size(\n" " $field$.Get(i));\n" "}\n"); } } // namespace cpp } // namespace compiler } // namespace protobuf } // namespace google