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// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd // Author: kenton@google.com (Kenton Varda) // Based on original Protocol Buffers design by // Sanjay Ghemawat, Jeff Dean, and others. #ifndef GOOGLE_PROTOBUF_COMPILER_JAVA_HELPERS_H__ #define GOOGLE_PROTOBUF_COMPILER_JAVA_HELPERS_H__ #include #include #include "absl/status/status.h" #include "absl/strings/string_view.h" #include "google/protobuf/compiler/java/names.h" #include "google/protobuf/compiler/java/options.h" #include "google/protobuf/descriptor.h" #include "google/protobuf/descriptor.pb.h" #include "google/protobuf/io/printer.h" // Must be last. #include "google/protobuf/port_def.inc" namespace google { namespace protobuf { namespace compiler { namespace java { // Commonly-used separator comments. Thick is a line of '=', thin is a line // of '-'. extern const char kThickSeparator[]; extern const char kThinSeparator[]; bool IsForbiddenKotlin(absl::string_view field_name); // If annotation_file is non-empty, prints a javax.annotation.Generated // annotation to the given Printer. annotation_file will be referenced in the // annotation's comments field. delimiter should be the Printer's delimiter // character. annotation_file will be included verbatim into a Java literal // string, so it should not contain quotes or invalid Java escape sequences; // however, these are unlikely to appear in practice, as the value of // annotation_file should be generated from the filename of the source file // being annotated (which in turn must be a Java identifier plus ".java"). void PrintGeneratedAnnotation(io::Printer* printer, char delimiter = '$', absl::string_view annotation_file = "", Options options = {}); // If a GeneratedMessageLite contains non-lite enums, then its verifier // must be instantiated inline, rather than retrieved from the enum class. void PrintEnumVerifierLogic( io::Printer* printer, const FieldDescriptor* descriptor, const absl::flat_hash_map& variables, absl::string_view var_name, absl::string_view terminating_string, bool enforce_lite); // Prints the Protobuf Java Version validator checking that the runtime and // gencode versions are compatible. void PrintGencodeVersionValidator(io::Printer* printer, bool oss_runtime, absl::string_view java_class_name); // Converts a name to camel-case. If cap_first_letter is true, capitalize the // first letter. std::string ToCamelCase(absl::string_view input, bool lower_first); // Similar to UnderscoresToCamelCase, but guarantees that the result is a // complete Java identifier by adding a _ if needed. std::string CamelCaseFieldName(const FieldDescriptor* field); // Get an identifier that uniquely identifies this type within the file. // This is used to declare static variables related to this type at the // outermost file scope. std::string UniqueFileScopeIdentifier(const Descriptor* descriptor); // Gets the unqualified class name for the file. For each .proto file, there // will be one Java class containing all the immutable messages and another // Java class containing all the mutable messages. std::string FileClassName(const FileDescriptor* file, bool immutable); // Returns the file's Java package name. std::string FileJavaPackage(const FileDescriptor* file, bool immutable, Options options = {}); // Returns output directory for the given package name. std::string JavaPackageToDir(std::string package_name); // Returns the name with Kotlin keywords enclosed in backticks std::string EscapeKotlinKeywords(std::string name); // Comma-separate list of option-specified interfaces implemented by the // Message, to follow the "implements" declaration of the Message definition. std::string ExtraMessageInterfaces(const Descriptor* descriptor); // Comma-separate list of option-specified interfaces implemented by the // MutableMessage, to follow the "implements" declaration of the MutableMessage // definition. std::string ExtraMutableMessageInterfaces(const Descriptor* descriptor); // Comma-separate list of option-specified interfaces implemented by the // Builder, to follow the "implements" declaration of the Builder definition. std::string ExtraBuilderInterfaces(const Descriptor* descriptor); // Comma-separate list of option-specified interfaces extended by the // MessageOrBuilder, to follow the "extends" declaration of the // MessageOrBuilder definition. std::string ExtraMessageOrBuilderInterfaces(const Descriptor* descriptor); // Get the unqualified Java class name for mutable messages. i.e. without // package or outer classnames. inline std::string ShortMutableJavaClassName(const Descriptor* descriptor) { return std::string(descriptor->name()); } // Whether the given descriptor is for one of the core descriptor protos. We // cannot currently use the new runtime with core protos since there is a // bootstrapping problem with obtaining their descriptors. inline bool IsDescriptorProto(const Descriptor* descriptor) { return descriptor->file()->name() == "net/proto2/proto/descriptor.proto" || descriptor->file()->name() == "google/protobuf/descriptor.proto"; } // Returns the stored type string used by the experimental runtime for oneof // fields. std::string GetOneofStoredType(const FieldDescriptor* field); // We use either the proto1 enums if the enum is generated, otherwise fall back // to use integers. enum class Proto1EnumRepresentation { kEnum, kInteger, }; // Returns which representation we should use. inline Proto1EnumRepresentation GetProto1EnumRepresentation( const EnumDescriptor* descriptor) { if (descriptor->containing_type() != nullptr) { return Proto1EnumRepresentation::kEnum; } return Proto1EnumRepresentation::kInteger; } absl::Status ValidateNestInFileClassFeature(const Descriptor& descriptor); absl::Status ValidateNestInFileClassFeature(const EnumDescriptor& descriptor); // Returns true if the generated class for the type is nested in the generated // proto file Java class. // `immutable` should be set to true if we're generating for the immutable API. bool NestedInFileClass(const Descriptor& descriptor, bool immutable); bool NestedInFileClass(const EnumDescriptor& descriptor, bool immutable); bool NestedInFileClass(const ServiceDescriptor& descriptor, bool immutable); // Returns true if `descriptor` will be written to its own .java file. // `immutable` should be set to true if we're generating for the immutable API. // For nested messages, this always returns false, since their generated Java // class is always nested in their parent message's Java class i.e. they never // have their own standalone Java file. template bool IsOwnFile(const Descriptor* descriptor, bool immutable) { return descriptor->containing_type() == nullptr && !NestedInFileClass(*descriptor, immutable); } template <> inline bool IsOwnFile(const ServiceDescriptor* descriptor, bool immutable) { return !NestedInFileClass(*descriptor, immutable); } // If `descriptor` describes an object with its own .java file, // returns the name (relative to that .java file) of the file that stores // annotation data for that descriptor. `suffix` is usually empty, but may // (e.g.) be "OrBuilder" for some generated interfaces. template std::string AnnotationFileName(const Descriptor* descriptor, absl::string_view suffix) { return absl::StrCat(descriptor->name(), suffix, ".java.pb.meta"); } // Get the unqualified name that should be used for a field's field // number constant. std::string FieldConstantName(const FieldDescriptor* field); // Returns the type of the FieldDescriptor. // This does nothing interesting for the open source release, but is used for // hacks that improve compatibility with version 1 protocol buffers at Google. FieldDescriptor::Type GetType(const FieldDescriptor* field); enum JavaType { JAVATYPE_INT, JAVATYPE_LONG, JAVATYPE_FLOAT, JAVATYPE_DOUBLE, JAVATYPE_BOOLEAN, JAVATYPE_STRING, JAVATYPE_BYTES, JAVATYPE_ENUM, JAVATYPE_MESSAGE }; JavaType GetJavaType(const FieldDescriptor* field); absl::string_view PrimitiveTypeName(JavaType type); // Get the fully-qualified class name for a boxed primitive type, e.g. // "java.lang.Integer" for JAVATYPE_INT. Returns NULL for enum and message // types. absl::string_view BoxedPrimitiveTypeName(JavaType type); // Kotlin source does not distinguish between primitives and non-primitives, // but does use Kotlin-specific qualified types for them. absl::string_view KotlinTypeName(JavaType type); // Get the name of the java enum constant representing this type. E.g., // "INT32" for FieldDescriptor::TYPE_INT32. The enum constant's full // name is "com.google.protobuf.WireFormat.FieldType.INT32". absl::string_view FieldTypeName(FieldDescriptor::Type field_type); class ClassNameResolver; std::string DefaultValue(const FieldDescriptor* field, bool immutable, ClassNameResolver* name_resolver, Options options = {}); inline std::string ImmutableDefaultValue(const FieldDescriptor* field, ClassNameResolver* name_resolver, Options options = {}) { return DefaultValue(field, true, name_resolver, options); } bool IsDefaultValueJavaDefault(const FieldDescriptor* field); bool IsByteStringWithCustomDefaultValue(const FieldDescriptor* field); // Does this message class have descriptor and reflection methods? inline bool HasDescriptorMethods(const Descriptor* /* descriptor */, bool enforce_lite) { return !enforce_lite; } inline bool HasDescriptorMethods(const EnumDescriptor* /* descriptor */, bool enforce_lite) { return !enforce_lite; } inline bool HasDescriptorMethods(const FileDescriptor* /* descriptor */, bool enforce_lite) { return !enforce_lite; } // Should we generate generic services for this file? inline bool HasGenericServices(const FileDescriptor* file, bool enforce_lite) { return file->service_count() > 0 && HasDescriptorMethods(file, enforce_lite) && file->options().java_generic_services(); } // Methods for shared bitfields. // Gets the name of the shared bitfield for the given index. std::string GetBitFieldName(int index); // Gets the name of the shared bitfield for the given bit index. // Effectively, GetBitFieldName(bitIndex / 32) std::string GetBitFieldNameForBit(int bitIndex); // Generates the java code for the expression that returns the boolean value // of the bit of the shared bitfields for the given bit index. // Example: "((bitField1_ & 0x04) == 0x04)" std::string GenerateGetBit(int bitIndex); // Generates the java code for the expression that sets the bit of the shared // bitfields for the given bit index. // Example: "bitField1_ = (bitField1_ | 0x04)" std::string GenerateSetBit(int bitIndex); // Generates the java code for the expression that clears the bit of the shared // bitfields for the given bit index. // Example: "bitField1_ = (bitField1_ & ~0x04)" std::string GenerateClearBit(int bitIndex); // Does the same as GenerateGetBit but operates on the bit field on a local // variable. This is used by the builder to copy the value in the builder to // the message. // Example: "((from_bitField1_ & 0x04) == 0x04)" std::string GenerateGetBitFromLocal(int bitIndex); // Does the same as GenerateSetBit but operates on the bit field on a local // variable. This is used by the builder to copy the value in the builder to // the message. // Example: "to_bitField1_ = (to_bitField1_ | 0x04)" std::string GenerateSetBitToLocal(int bitIndex); // Does the same as GenerateGetBit but operates on the bit field on a local // variable. This is used by the parsing constructor to record if a repeated // field is mutable. // Example: "((mutable_bitField1_ & 0x04) == 0x04)" std::string GenerateGetBitMutableLocal(int bitIndex); // Does the same as GenerateSetBit but operates on the bit field on a local // variable. This is used by the parsing constructor to record if a repeated // field is mutable. // Example: "mutable_bitField1_ = (mutable_bitField1_ | 0x04)" std::string GenerateSetBitMutableLocal(int bitIndex); // Returns whether the JavaType is a reference type. bool IsReferenceType(JavaType type); // Returns the capitalized name for calling relative functions in // CodedInputStream absl::string_view GetCapitalizedType(const FieldDescriptor* field, bool immutable, Options options); // For encodings with fixed sizes, returns that size in bytes. Otherwise // returns -1. int FixedSize(FieldDescriptor::Type type); // Comparators used to sort fields in MessageGenerator struct FieldOrderingByNumber { inline bool operator()(const FieldDescriptor* a, const FieldDescriptor* b) const { return a->number() < b->number(); } }; struct ExtensionRangeOrdering { bool operator()(const Descriptor::ExtensionRange* a, const Descriptor::ExtensionRange* b) const { return a->start_number() < b->start_number(); } }; // Sort the fields of the given Descriptor by number into a new[]'d array // and return it. The caller should delete the returned array. const FieldDescriptor** SortFieldsByNumber(const Descriptor* descriptor); // Does this message class have any packed fields? inline bool HasPackedFields(const Descriptor* descriptor) { for (int i = 0; i < descriptor->field_count(); i++) { if (descriptor->field(i)->is_packed()) { return true; } } return false; } // Check a message type and its sub-message types recursively to see if any of // them has a required field. Return true if a required field is found. bool HasRequiredFields(const Descriptor* descriptor); bool IsRealOneof(const FieldDescriptor* descriptor); inline bool HasHasbit(const FieldDescriptor* descriptor) { return descriptor->has_presence() && !descriptor->real_containing_oneof(); } // Check whether a message has repeated fields. bool HasRepeatedFields(const Descriptor* descriptor); inline bool IsMapEntry(const Descriptor* descriptor) { return descriptor->options().map_entry(); } inline bool IsMapField(const FieldDescriptor* descriptor) { return descriptor->is_map(); } inline bool IsAnyMessage(const Descriptor* descriptor) { return descriptor->full_name() == "google.protobuf.Any"; } inline bool IsWrappersProtoFile(const FileDescriptor* descriptor) { return descriptor->name() == "google/protobuf/wrappers.proto"; } void WriteUInt32ToUtf16CharSequence(uint32_t number, std::vector* output); inline void WriteIntToUtf16CharSequence(int value, std::vector* output) { WriteUInt32ToUtf16CharSequence(static_cast(value), output); } // Escape a UTF-16 character so it can be embedded in a Java string literal. void EscapeUtf16ToString(uint16_t code, std::string* output); // To get the total number of entries need to be built for experimental runtime // and the first field number that are not in the table part std::pair GetTableDrivenNumberOfEntriesAndLookUpStartFieldNumber( const FieldDescriptor** fields, int count); const FieldDescriptor* MapKeyField(const FieldDescriptor* descriptor); const FieldDescriptor* MapValueField(const FieldDescriptor* descriptor); inline std::string JvmSynthetic(bool jvm_dsl) { return jvm_dsl ? "@kotlin.jvm.JvmSynthetic\n" : ""; } struct JvmNameContext { const Options& options; io::Printer* printer; bool lite = true; }; inline void JvmName(absl::string_view name, const JvmNameContext& context) { if (context.lite && !context.options.jvm_dsl) return; context.printer->Emit("@kotlin.jvm.JvmName(\""); // Note: `name` will likely have vars in it that we do want to interpolate. context.printer->Emit(name); context.printer->Emit("\")\n"); } } // namespace java } // namespace compiler } // namespace protobuf } // namespace google #include "google/protobuf/port_undef.inc" #endif // GOOGLE_PROTOBUF_COMPILER_JAVA_HELPERS_H__