Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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507 lines
19 KiB
507 lines
19 KiB
// Protocol Buffers - Google's data interchange format |
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// Copyright 2023 Google LLC. All rights reserved. |
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// https://developers.google.com/protocol-buffers/ |
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// |
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// Redistribution and use in source and binary forms, with or without |
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// modification, are permitted provided that the following conditions are |
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// met: |
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// |
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// * Redistributions of source code must retain the above copyright |
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// notice, this list of conditions and the following disclaimer. |
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// * Redistributions in binary form must reproduce the above |
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// copyright notice, this list of conditions and the following disclaimer |
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// in the documentation and/or other materials provided with the |
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// distribution. |
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// * Neither the name of Google LLC nor the names of its |
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// contributors may be used to endorse or promote products derived from |
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// this software without specific prior written permission. |
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// |
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
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#include "upb/protos_generator/gen_messages.h" |
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#include <string> |
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#include <vector> |
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#include "google/protobuf/descriptor.pb.h" |
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#include "absl/strings/str_cat.h" |
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#include "google/protobuf/descriptor.h" |
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#include "upb/protos_generator/gen_accessors.h" |
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#include "upb/protos_generator/gen_enums.h" |
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#include "upb/protos_generator/gen_extensions.h" |
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#include "upb/protos_generator/gen_utils.h" |
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#include "upb/protos_generator/names.h" |
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#include "upb/protos_generator/output.h" |
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#include "upb/upbc/common.h" |
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#include "upb/upbc/file_layout.h" |
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namespace protos_generator { |
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namespace protobuf = ::google::protobuf; |
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void WriteModelAccessDeclaration(const protobuf::Descriptor* descriptor, |
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Output& output); |
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void WriteModelPublicDeclaration( |
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const protobuf::Descriptor* descriptor, |
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const std::vector<const protobuf::FieldDescriptor*>& file_exts, |
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const std::vector<const protobuf::EnumDescriptor*>& file_enums, |
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Output& output); |
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void WriteExtensionIdentifiersInClassHeader( |
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const protobuf::Descriptor* message, |
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const std::vector<const protobuf::FieldDescriptor*>& file_exts, |
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Output& output); |
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void WriteModelProxyDeclaration(const protobuf::Descriptor* descriptor, |
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Output& output); |
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void WriteModelCProxyDeclaration(const protobuf::Descriptor* descriptor, |
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Output& output); |
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void WriteInternalForwardDeclarationsInHeader( |
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const protobuf::Descriptor* message, Output& output); |
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void WriteDefaultInstanceHeader(const protobuf::Descriptor* message, |
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Output& output); |
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void WriteExtensionIdentifiersImplementation( |
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const protobuf::Descriptor* message, |
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const std::vector<const protobuf::FieldDescriptor*>& file_exts, |
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Output& output); |
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void WriteUsingEnumsInHeader( |
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const protobuf::Descriptor* message, |
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const std::vector<const protobuf::EnumDescriptor*>& file_enums, |
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Output& output); |
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// Writes message class declarations into .upb.proto.h. |
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// |
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// For each proto Foo, FooAccess and FooProxy/FooCProxy are generated |
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// that are exposed to users as Foo , Ptr<Foo> and Ptr<const Foo>. |
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void WriteMessageClassDeclarations( |
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const protobuf::Descriptor* descriptor, |
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const std::vector<const protobuf::FieldDescriptor*>& file_exts, |
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const std::vector<const protobuf::EnumDescriptor*>& file_enums, |
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Output& output) { |
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if (IsMapEntryMessage(descriptor)) { |
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// Skip map entry generation. Low level accessors for maps are |
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// generated that don't require a separate map type. |
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return; |
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} |
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// Forward declaration of Proto Class for GCC handling of free friend method. |
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output("class $0;\n", ClassName(descriptor)); |
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output("namespace internal {\n\n"); |
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WriteModelAccessDeclaration(descriptor, output); |
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output("\n"); |
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WriteInternalForwardDeclarationsInHeader(descriptor, output); |
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output("\n"); |
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output("} // namespace internal\n\n"); |
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WriteModelPublicDeclaration(descriptor, file_exts, file_enums, output); |
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output("namespace internal {\n"); |
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WriteModelCProxyDeclaration(descriptor, output); |
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WriteModelProxyDeclaration(descriptor, output); |
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output("} // namespace internal\n\n"); |
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} |
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void WriteModelAccessDeclaration(const protobuf::Descriptor* descriptor, |
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Output& output) { |
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output( |
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R"cc( |
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class $0Access { |
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public: |
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$0Access() {} |
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$0Access($1* msg, upb_Arena* arena) : msg_(msg), arena_(arena) { |
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assert(arena != nullptr); |
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} // NOLINT |
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$0Access(const $1* msg, upb_Arena* arena) |
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: msg_(const_cast<$1*>(msg)), arena_(arena) { |
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assert(arena != nullptr); |
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} // NOLINT |
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void* GetInternalArena() const { return arena_; } |
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)cc", |
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ClassName(descriptor), MessageName(descriptor)); |
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WriteFieldAccessorsInHeader(descriptor, output); |
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WriteOneofAccessorsInHeader(descriptor, output); |
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output.Indent(); |
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output( |
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R"cc( |
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private: |
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friend class $2; |
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friend class $0Proxy; |
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friend class $0CProxy; |
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friend struct ::protos::internal::PrivateAccess; |
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$1* msg_; |
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upb_Arena* arena_; |
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)cc", |
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ClassName(descriptor), MessageName(descriptor), |
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QualifiedClassName(descriptor)); |
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output.Outdent(); |
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output("};\n"); |
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} |
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void WriteModelPublicDeclaration( |
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const protobuf::Descriptor* descriptor, |
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const std::vector<const protobuf::FieldDescriptor*>& file_exts, |
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const std::vector<const protobuf::EnumDescriptor*>& file_enums, |
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Output& output) { |
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output( |
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R"cc( |
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class $0 final : private internal::$0Access { |
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public: |
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using Access = internal::$0Access; |
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using Proxy = internal::$0Proxy; |
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using CProxy = internal::$0CProxy; |
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$0(); |
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$0(const $0& from); |
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$0& operator=(const $3& from); |
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$0(const CProxy& from); |
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$0(const Proxy& from); |
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$0& operator=(const CProxy& from); |
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$0($0&& m) |
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: Access(absl::exchange(m.msg_, nullptr), |
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absl::exchange(m.arena_, nullptr)), |
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owned_arena_(std::move(m.owned_arena_)) {} |
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$0& operator=($0&& m) { |
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msg_ = absl::exchange(m.msg_, nullptr); |
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arena_ = absl::exchange(m.arena_, nullptr); |
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owned_arena_ = std::move(m.owned_arena_); |
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return *this; |
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} |
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)cc", |
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ClassName(descriptor), ::upbc::MessageInit(descriptor->full_name()), |
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MessageName(descriptor), QualifiedClassName(descriptor)); |
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WriteUsingAccessorsInHeader(descriptor, MessageClassType::kMessage, output); |
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WriteUsingEnumsInHeader(descriptor, file_enums, output); |
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WriteDefaultInstanceHeader(descriptor, output); |
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WriteExtensionIdentifiersInClassHeader(descriptor, file_exts, output); |
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if (descriptor->extension_range_count()) { |
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// for typetrait checking |
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output("using ExtendableType = $0;\n", ClassName(descriptor)); |
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} |
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// Note: free function friends that are templates such as ::protos::Parse |
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// require explicit <$2> type parameter in declaration to be able to compile |
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// with gcc otherwise the compiler will fail with |
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// "has not been declared within namespace" error. Even though there is a |
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// namespace qualifier, cross namespace matching fails. |
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output.Indent(); |
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output( |
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R"cc( |
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static const upb_MiniTable* minitable(); |
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using $0Access::GetInternalArena; |
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)cc", |
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ClassName(descriptor)); |
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output("\n"); |
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output( |
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R"cc( |
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private: |
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const void* msg() const { return msg_; } |
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void* msg() { return msg_; } |
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$0(upb_Message* msg, upb_Arena* arena) : $0Access() { |
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msg_ = ($1*)msg; |
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arena_ = owned_arena_.ptr(); |
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upb_Arena_Fuse(arena_, arena); |
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} |
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::protos::Arena owned_arena_; |
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friend struct ::protos::internal::PrivateAccess; |
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friend Proxy; |
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friend CProxy; |
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friend absl::StatusOr<$2>(::protos::Parse<$2>(absl::string_view bytes, |
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int options)); |
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friend absl::StatusOr<$2>(::protos::Parse<$2>( |
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absl::string_view bytes, |
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const ::protos::ExtensionRegistry& extension_registry, |
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int options)); |
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friend upb_Arena* ::protos::internal::GetArena<$0>($0* message); |
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friend upb_Arena* ::protos::internal::GetArena<$0>(::protos::Ptr<$0> message); |
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friend $0(::protos::internal::MoveMessage<$0>(upb_Message* msg, |
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upb_Arena* arena)); |
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)cc", |
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ClassName(descriptor), MessageName(descriptor), |
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QualifiedClassName(descriptor)); |
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output.Outdent(); |
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output("};\n\n"); |
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} |
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void WriteModelProxyDeclaration(const protobuf::Descriptor* descriptor, |
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Output& output) { |
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// Foo::Proxy. |
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output( |
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R"cc( |
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class $0Proxy final : private internal::$0Access { |
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public: |
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$0Proxy() = delete; |
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$0Proxy(const $0Proxy& m) : internal::$0Access() { |
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msg_ = m.msg_; |
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arena_ = m.arena_; |
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} |
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$0Proxy($0* m) : internal::$0Access() { |
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msg_ = m->msg_; |
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arena_ = m->arena_; |
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} |
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$0Proxy operator=(const $0Proxy& m) { |
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msg_ = m.msg_; |
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arena_ = m.arena_; |
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return *this; |
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} |
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using $0Access::GetInternalArena; |
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)cc", |
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ClassName(descriptor)); |
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WriteUsingAccessorsInHeader(descriptor, MessageClassType::kMessageProxy, |
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output); |
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output("\n"); |
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output.Indent(1); |
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output( |
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R"cc( |
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private: |
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void* msg() const { return msg_; } |
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$0Proxy(void* msg, upb_Arena* arena) : internal::$0Access(($1*)msg, arena) {} |
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friend $0::Proxy(::protos::CreateMessage<$0>(::protos::Arena& arena)); |
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friend $0::Proxy(::protos::internal::CreateMessageProxy<$0>( |
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upb_Message*, upb_Arena*)); |
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friend struct ::protos::internal::PrivateAccess; |
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friend class RepeatedFieldProxy; |
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friend class $0CProxy; |
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friend class $0Access; |
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friend class ::protos::Ptr<$0>; |
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friend class ::protos::Ptr<const $0>; |
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static const upb_MiniTable* minitable() { return $0::minitable(); } |
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friend const upb_MiniTable* ::protos::internal::GetMiniTable<$0Proxy>( |
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const $0Proxy* message); |
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friend const upb_MiniTable* ::protos::internal::GetMiniTable<$0Proxy>( |
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::protos::Ptr<$0Proxy> message); |
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friend upb_Arena* ::protos::internal::GetArena<$2>($2* message); |
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friend upb_Arena* ::protos::internal::GetArena<$2>(::protos::Ptr<$2> message); |
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static void Rebind($0Proxy& lhs, const $0Proxy& rhs) { |
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lhs.msg_ = rhs.msg_; |
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lhs.arena_ = rhs.arena_; |
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} |
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)cc", |
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ClassName(descriptor), MessageName(descriptor), |
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QualifiedClassName(descriptor)); |
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output.Outdent(1); |
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output("};\n\n"); |
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} |
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void WriteModelCProxyDeclaration(const protobuf::Descriptor* descriptor, |
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Output& output) { |
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// Foo::CProxy. |
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output( |
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R"cc( |
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class $0CProxy final : private internal::$0Access { |
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public: |
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$0CProxy() = delete; |
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$0CProxy(const $0* m) |
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: internal::$0Access(m->msg_, ::protos::internal::GetArena(m)) {} |
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$0CProxy($0Proxy m); |
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using $0Access::GetInternalArena; |
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)cc", |
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ClassName(descriptor), MessageName(descriptor)); |
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WriteUsingAccessorsInHeader(descriptor, MessageClassType::kMessageCProxy, |
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output); |
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output.Indent(1); |
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output( |
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R"cc( |
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private: |
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using AsNonConst = $0Proxy; |
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const void* msg() const { return msg_; } |
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$0CProxy(const void* msg, upb_Arena* arena) |
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: internal::$0Access(($1*)msg, arena){}; |
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friend struct ::protos::internal::PrivateAccess; |
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friend class RepeatedFieldProxy; |
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friend class ::protos::Ptr<$0>; |
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friend class ::protos::Ptr<const $0>; |
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static const upb_MiniTable* minitable() { return $0::minitable(); } |
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friend const upb_MiniTable* ::protos::internal::GetMiniTable<$0CProxy>( |
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const $0CProxy* message); |
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friend const upb_MiniTable* ::protos::internal::GetMiniTable<$0CProxy>( |
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::protos::Ptr<$0CProxy> message); |
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static void Rebind($0CProxy& lhs, const $0CProxy& rhs) { |
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lhs.msg_ = rhs.msg_; |
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lhs.arena_ = rhs.arena_; |
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} |
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)cc", |
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ClassName(descriptor), MessageName(descriptor)); |
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output.Outdent(1); |
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output("};\n\n"); |
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} |
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void WriteDefaultInstanceHeader(const protobuf::Descriptor* message, |
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Output& output) { |
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output(" static ::protos::Ptr<const $0> default_instance();\n", |
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ClassName(message)); |
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} |
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void WriteMessageImplementation( |
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const protobuf::Descriptor* descriptor, |
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const std::vector<const protobuf::FieldDescriptor*>& file_exts, |
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Output& output) { |
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bool message_is_map_entry = descriptor->options().map_entry(); |
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if (!message_is_map_entry) { |
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// Constructor. |
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output( |
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R"cc( |
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$0::$0() : $0Access() { |
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arena_ = owned_arena_.ptr(); |
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msg_ = $1_new(arena_); |
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} |
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$0::$0(const $0& from) : $0Access() { |
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arena_ = owned_arena_.ptr(); |
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msg_ = ($1*)::protos::internal::DeepClone(from.msg_, &$2, arena_); |
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} |
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$0::$0(const CProxy& from) : $0Access() { |
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arena_ = owned_arena_.ptr(); |
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msg_ = ($1*)::protos::internal::DeepClone( |
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::protos::internal::GetInternalMsg(&from), &$2, arena_); |
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} |
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$0::$0(const Proxy& from) : $0(static_cast<const CProxy&>(from)) {} |
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internal::$0CProxy::$0CProxy($0Proxy m) : $0Access() { |
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arena_ = m.arena_; |
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msg_ = ($1*)::protos::internal::GetInternalMsg(&m); |
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} |
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$0& $0::operator=(const $3& from) { |
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arena_ = owned_arena_.ptr(); |
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msg_ = ($1*)::protos::internal::DeepClone(from.msg_, &$2, arena_); |
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return *this; |
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} |
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$0& $0::operator=(const CProxy& from) { |
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arena_ = owned_arena_.ptr(); |
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msg_ = ($1*)::protos::internal::DeepClone( |
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::protos::internal::GetInternalMsg(&from), &$2, arena_); |
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return *this; |
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} |
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)cc", |
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ClassName(descriptor), MessageName(descriptor), |
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::upbc::MessageInit(descriptor->full_name()), |
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QualifiedClassName(descriptor)); |
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output("\n"); |
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// Minitable |
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output( |
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R"cc( |
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const upb_MiniTable* $0::minitable() { return &$1; } |
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)cc", |
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ClassName(descriptor), ::upbc::MessageInit(descriptor->full_name())); |
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output("\n"); |
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} |
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WriteAccessorsInSource(descriptor, output); |
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if (!message_is_map_entry) { |
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output( |
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R"cc( |
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struct $0DefaultTypeInternal { |
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$1* msg; |
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upb_Arena* arena; |
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}; |
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static $0DefaultTypeInternal _$0DefaultTypeBuilder() { |
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upb_Arena* arena = upb_Arena_New(); |
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return $0DefaultTypeInternal{$1_new(arena), arena}; |
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} |
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$0DefaultTypeInternal _$0_default_instance_ = _$0DefaultTypeBuilder(); |
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)cc", |
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ClassName(descriptor), MessageName(descriptor)); |
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output( |
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R"cc( |
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::protos::Ptr<const $0> $0::default_instance() { |
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return ::protos::internal::CreateMessage<$0>( |
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(upb_Message *)_$0_default_instance_.msg, |
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_$0_default_instance_.arena); |
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} |
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)cc", |
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ClassName(descriptor)); |
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WriteExtensionIdentifiersImplementation(descriptor, file_exts, output); |
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} |
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} |
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void WriteInternalForwardDeclarationsInHeader( |
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const protobuf::Descriptor* message, Output& output) { |
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// Write declaration for internal re-usable default_instance without |
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// leaking implementation. |
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output( |
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R"cc( |
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struct $0DefaultTypeInternal; |
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extern $0DefaultTypeInternal _$0_default_instance_; |
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)cc", |
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ClassName(message)); |
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} |
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void WriteExtensionIdentifiersInClassHeader( |
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const protobuf::Descriptor* message, |
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const std::vector<const protobuf::FieldDescriptor*>& file_exts, |
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Output& output) { |
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for (auto* ext : file_exts) { |
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if (ext->extension_scope() && |
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ext->extension_scope()->full_name() == message->full_name()) { |
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WriteExtensionIdentifierHeader(ext, output); |
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} |
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} |
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} |
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void WriteExtensionIdentifiersImplementation( |
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const protobuf::Descriptor* message, |
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const std::vector<const protobuf::FieldDescriptor*>& file_exts, |
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Output& output) { |
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for (auto* ext : file_exts) { |
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if (ext->extension_scope() && |
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ext->extension_scope()->full_name() == message->full_name()) { |
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WriteExtensionIdentifier(ext, output); |
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} |
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} |
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} |
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void WriteUsingEnumsInHeader( |
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const protobuf::Descriptor* message, |
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const std::vector<const protobuf::EnumDescriptor*>& file_enums, |
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Output& output) { |
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for (auto* enum_descriptor : file_enums) { |
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std::string enum_type_name = EnumTypeName(enum_descriptor); |
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std::string enum_resolved_type_name = |
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enum_descriptor->file()->package().empty() && |
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enum_descriptor->containing_type() == nullptr |
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? absl::StrCat(kNoPackageNamePrefix, |
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ToCIdent(enum_descriptor->name())) |
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: enum_type_name; |
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if (enum_descriptor->containing_type() == nullptr || |
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enum_descriptor->containing_type()->full_name() != |
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message->full_name()) { |
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continue; |
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} |
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output("using $0", enum_descriptor->name()); |
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if (enum_descriptor->options().deprecated()) { |
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output(" ABSL_DEPRECATED(\"Proto enum $0\")", enum_descriptor->name()); |
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} |
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output(" = $0;", enum_resolved_type_name); |
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output("\n"); |
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int value_count = enum_descriptor->value_count(); |
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for (int i = 0; i < value_count; i++) { |
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output("static constexpr $0 $1", enum_descriptor->name(), |
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enum_descriptor->value(i)->name()); |
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if (enum_descriptor->options().deprecated() || |
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enum_descriptor->value(i)->options().deprecated()) { |
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output(" ABSL_DEPRECATED(\"Proto enum value $0\") ", |
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enum_descriptor->value(i)->name()); |
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} |
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output(" = $0;\n", EnumValueSymbolInNameSpace(enum_descriptor, |
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enum_descriptor->value(i))); |
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} |
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} |
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} |
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} // namespace protos_generator
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