// Protocol Buffers - Google's data interchange format // Copyright 2008 Google Inc. All rights reserved. // http://code.google.com/p/protobuf/ // // 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. // // Implements parsing of .proto files to FileDescriptorProtos. #ifndef GOOGLE_PROTOBUF_COMPILER_PARSER_H__ #define GOOGLE_PROTOBUF_COMPILER_PARSER_H__ #include <map> #include <string> #include <utility> #include <google/protobuf/stubs/common.h> #include <google/protobuf/descriptor.h> #include <google/protobuf/descriptor.pb.h> #include <google/protobuf/repeated_field.h> #include <google/protobuf/io/tokenizer.h> namespace google { namespace protobuf { class Message; } namespace protobuf { namespace compiler { // Defined in this file. class Parser; class SourceLocationTable; // Implements parsing of protocol definitions (such as .proto files). // // Note that most users will be more interested in the Importer class. // Parser is a lower-level class which simply converts a single .proto file // to a FileDescriptorProto. It does not resolve import directives or perform // many other kinds of validation needed to construct a complete // FileDescriptor. class LIBPROTOBUF_EXPORT Parser { public: Parser(); ~Parser(); // Parse the entire input and construct a FileDescriptorProto representing // it. Returns true if no errors occurred, false otherwise. bool Parse(io::Tokenizer* input, FileDescriptorProto* file); // Optional fetaures: // DEPRECATED: New code should use the SourceCodeInfo embedded in the // FileDescriptorProto. // // Requests that locations of certain definitions be recorded to the given // SourceLocationTable while parsing. This can be used to look up exact line // and column numbers for errors reported by DescriptorPool during validation. // Set to NULL (the default) to discard source location information. void RecordSourceLocationsTo(SourceLocationTable* location_table) { source_location_table_ = location_table; } // Requests that errors be recorded to the given ErrorCollector while // parsing. Set to NULL (the default) to discard error messages. void RecordErrorsTo(io::ErrorCollector* error_collector) { error_collector_ = error_collector; } // Returns the identifier used in the "syntax = " declaration, if one was // seen during the last call to Parse(), or the empty string otherwise. const string& GetSyntaxIdentifier() { return syntax_identifier_; } // If set true, input files will be required to begin with a syntax // identifier. Otherwise, files may omit this. If a syntax identifier // is provided, it must be 'syntax = "proto2";' and must appear at the // top of this file regardless of whether or not it was required. void SetRequireSyntaxIdentifier(bool value) { require_syntax_identifier_ = value; } // Call SetStopAfterSyntaxIdentifier(true) to tell the parser to stop // parsing as soon as it has seen the syntax identifier, or lack thereof. // This is useful for quickly identifying the syntax of the file without // parsing the whole thing. If this is enabled, no error will be recorded // if the syntax identifier is something other than "proto2" (since // presumably the caller intends to deal with that), but other kinds of // errors (e.g. parse errors) will still be reported. When this is enabled, // you may pass a NULL FileDescriptorProto to Parse(). void SetStopAfterSyntaxIdentifier(bool value) { stop_after_syntax_identifier_ = value; } private: class LocationRecorder; // ================================================================= // Error recovery helpers // Consume the rest of the current statement. This consumes tokens // until it sees one of: // ';' Consumes the token and returns. // '{' Consumes the brace then calls SkipRestOfBlock(). // '}' Returns without consuming. // EOF Returns (can't consume). // The Parser often calls SkipStatement() after encountering a syntax // error. This allows it to go on parsing the following lines, allowing // it to report more than just one error in the file. void SkipStatement(); // Consume the rest of the current block, including nested blocks, // ending after the closing '}' is encountered and consumed, or at EOF. void SkipRestOfBlock(); // ----------------------------------------------------------------- // Single-token consuming helpers // // These make parsing code more readable. // True if the current token is TYPE_END. inline bool AtEnd(); // True if the next token matches the given text. inline bool LookingAt(const char* text); // True if the next token is of the given type. inline bool LookingAtType(io::Tokenizer::TokenType token_type); // If the next token exactly matches the text given, consume it and return // true. Otherwise, return false without logging an error. bool TryConsume(const char* text); // These attempt to read some kind of token from the input. If successful, // they return true. Otherwise they return false and add the given error // to the error list. // Consume a token with the exact text given. bool Consume(const char* text, const char* error); // Same as above, but automatically generates the error "Expected \"text\".", // where "text" is the expected token text. bool Consume(const char* text); // Consume a token of type IDENTIFIER and store its text in "output". bool ConsumeIdentifier(string* output, const char* error); // Consume an integer and store its value in "output". bool ConsumeInteger(int* output, const char* error); // Consume a signed integer and store its value in "output". bool ConsumeSignedInteger(int* output, const char* error); // Consume a 64-bit integer and store its value in "output". If the value // is greater than max_value, an error will be reported. bool ConsumeInteger64(uint64 max_value, uint64* output, const char* error); // Consume a number and store its value in "output". This will accept // tokens of either INTEGER or FLOAT type. bool ConsumeNumber(double* output, const char* error); // Consume a string literal and store its (unescaped) value in "output". bool ConsumeString(string* output, const char* error); // Consume a token representing the end of the statement. Comments between // this token and the next will be harvested for documentation. The given // LocationRecorder should refer to the declaration that was just parsed; // it will be populated with these comments. // // TODO(kenton): The LocationRecorder is const because historically locations // have been passed around by const reference, for no particularly good // reason. We should probably go through and change them all to mutable // pointer to make this more intuitive. bool TryConsumeEndOfDeclaration(const char* text, const LocationRecorder* location); bool ConsumeEndOfDeclaration(const char* text, const LocationRecorder* location); // ----------------------------------------------------------------- // Error logging helpers // Invokes error_collector_->AddError(), if error_collector_ is not NULL. void AddError(int line, int column, const string& error); // Invokes error_collector_->AddError() with the line and column number // of the current token. void AddError(const string& error); // Records a location in the SourceCodeInfo.location table (see // descriptor.proto). We use RAII to ensure that the start and end locations // are recorded -- the constructor records the start location and the // destructor records the end location. Since the parser is // recursive-descent, this works out beautifully. class LIBPROTOBUF_EXPORT LocationRecorder { public: // Construct the file's "root" location. LocationRecorder(Parser* parser); // Construct a location that represents a declaration nested within the // given parent. E.g. a field's location is nested within the location // for a message type. The parent's path will be copied, so you should // call AddPath() only to add the path components leading from the parent // to the child (as opposed to leading from the root to the child). LocationRecorder(const LocationRecorder& parent); // Convenience constructors that call AddPath() one or two times. LocationRecorder(const LocationRecorder& parent, int path1); LocationRecorder(const LocationRecorder& parent, int path1, int path2); ~LocationRecorder(); // Add a path component. See SourceCodeInfo.Location.path in // descriptor.proto. void AddPath(int path_component); // By default the location is considered to start at the current token at // the time the LocationRecorder is created. StartAt() sets the start // location to the given token instead. void StartAt(const io::Tokenizer::Token& token); // By default the location is considered to end at the previous token at // the time the LocationRecorder is destroyed. EndAt() sets the end // location to the given token instead. void EndAt(const io::Tokenizer::Token& token); // Records the start point of this location to the SourceLocationTable that // was passed to RecordSourceLocationsTo(), if any. SourceLocationTable // is an older way of keeping track of source locations which is still // used in some places. void RecordLegacyLocation(const Message* descriptor, DescriptorPool::ErrorCollector::ErrorLocation location); // Attaches leading and trailing comments to the location. The two strings // will be swapped into place, so after this is called *leading and // *trailing will be empty. // // TODO(kenton): See comment on TryConsumeEndOfDeclaration(), above, for // why this is const. void AttachComments(string* leading, string* trailing) const; private: Parser* parser_; SourceCodeInfo::Location* location_; void Init(const LocationRecorder& parent); }; // ================================================================= // Parsers for various language constructs // Parses the "syntax = \"proto2\";" line at the top of the file. Returns // false if it failed to parse or if the syntax identifier was not // recognized. bool ParseSyntaxIdentifier(); // These methods parse various individual bits of code. They return // false if they completely fail to parse the construct. In this case, // it is probably necessary to skip the rest of the statement to recover. // However, if these methods return true, it does NOT mean that there // were no errors; only that there were no *syntax* errors. For instance, // if a service method is defined using proper syntax but uses a primitive // type as its input or output, ParseMethodField() still returns true // and only reports the error by calling AddError(). In practice, this // makes logic much simpler for the caller. // Parse a top-level message, enum, service, etc. bool ParseTopLevelStatement(FileDescriptorProto* file, const LocationRecorder& root_location); // Parse various language high-level language construrcts. bool ParseMessageDefinition(DescriptorProto* message, const LocationRecorder& message_location); bool ParseEnumDefinition(EnumDescriptorProto* enum_type, const LocationRecorder& enum_location); bool ParseServiceDefinition(ServiceDescriptorProto* service, const LocationRecorder& service_location); bool ParsePackage(FileDescriptorProto* file, const LocationRecorder& root_location); bool ParseImport(RepeatedPtrField<string>* dependency, RepeatedField<int32>* public_dependency, RepeatedField<int32>* weak_dependency, const LocationRecorder& root_location); bool ParseOption(Message* options, const LocationRecorder& options_location); // These methods parse the contents of a message, enum, or service type and // add them to the given object. They consume the entire block including // the beginning and ending brace. bool ParseMessageBlock(DescriptorProto* message, const LocationRecorder& message_location); bool ParseEnumBlock(EnumDescriptorProto* enum_type, const LocationRecorder& enum_location); bool ParseServiceBlock(ServiceDescriptorProto* service, const LocationRecorder& service_location); // Parse one statement within a message, enum, or service block, inclunding // final semicolon. bool ParseMessageStatement(DescriptorProto* message, const LocationRecorder& message_location); bool ParseEnumStatement(EnumDescriptorProto* message, const LocationRecorder& enum_location); bool ParseServiceStatement(ServiceDescriptorProto* message, const LocationRecorder& service_location); // Parse a field of a message. If the field is a group, its type will be // added to "messages". // // parent_location and location_field_number_for_nested_type are needed when // parsing groups -- we need to generate a nested message type within the // parent and record its location accordingly. Since the parent could be // either a FileDescriptorProto or a DescriptorProto, we must pass in the // correct field number to use. bool ParseMessageField(FieldDescriptorProto* field, RepeatedPtrField<DescriptorProto>* messages, const LocationRecorder& parent_location, int location_field_number_for_nested_type, const LocationRecorder& field_location); // Parse an "extensions" declaration. bool ParseExtensions(DescriptorProto* message, const LocationRecorder& extensions_location); // Parse an "extend" declaration. (See also comments for // ParseMessageField().) bool ParseExtend(RepeatedPtrField<FieldDescriptorProto>* extensions, RepeatedPtrField<DescriptorProto>* messages, const LocationRecorder& parent_location, int location_field_number_for_nested_type, const LocationRecorder& extend_location); // Parse a single enum value within an enum block. bool ParseEnumConstant(EnumValueDescriptorProto* enum_value, const LocationRecorder& enum_value_location); // Parse enum constant options, i.e. the list in square brackets at the end // of the enum constant value definition. bool ParseEnumConstantOptions(EnumValueDescriptorProto* value, const LocationRecorder& enum_value_location); // Parse a single method within a service definition. bool ParseServiceMethod(MethodDescriptorProto* method, const LocationRecorder& method_location); // Parse options of a single method or stream. bool ParseOptions(const LocationRecorder& parent_location, const int optionsFieldNumber, Message* mutable_options); // Parse "required", "optional", or "repeated" and fill in "label" // with the value. bool ParseLabel(FieldDescriptorProto::Label* label); // Parse a type name and fill in "type" (if it is a primitive) or // "type_name" (if it is not) with the type parsed. bool ParseType(FieldDescriptorProto::Type* type, string* type_name); // Parse a user-defined type and fill in "type_name" with the name. // If a primitive type is named, it is treated as an error. bool ParseUserDefinedType(string* type_name); // Parses field options, i.e. the stuff in square brackets at the end // of a field definition. Also parses default value. bool ParseFieldOptions(FieldDescriptorProto* field, const LocationRecorder& field_location); // Parse the "default" option. This needs special handling because its // type is the field's type. bool ParseDefaultAssignment(FieldDescriptorProto* field, const LocationRecorder& field_location); enum OptionStyle { OPTION_ASSIGNMENT, // just "name = value" OPTION_STATEMENT // "option name = value;" }; // Parse a single option name/value pair, e.g. "ctype = CORD". The name // identifies a field of the given Message, and the value of that field // is set to the parsed value. bool ParseOption(Message* options, const LocationRecorder& options_location, OptionStyle style); // Parses a single part of a multipart option name. A multipart name consists // of names separated by dots. Each name is either an identifier or a series // of identifiers separated by dots and enclosed in parentheses. E.g., // "foo.(bar.baz).qux". bool ParseOptionNamePart(UninterpretedOption* uninterpreted_option, const LocationRecorder& part_location); // Parses a string surrounded by balanced braces. Strips off the outer // braces and stores the enclosed string in *value. // E.g., // { foo } *value gets 'foo' // { foo { bar: box } } *value gets 'foo { bar: box }' // {} *value gets '' // // REQUIRES: LookingAt("{") // When finished successfully, we are looking at the first token past // the ending brace. bool ParseUninterpretedBlock(string* value); // ================================================================= io::Tokenizer* input_; io::ErrorCollector* error_collector_; SourceCodeInfo* source_code_info_; SourceLocationTable* source_location_table_; // legacy bool had_errors_; bool require_syntax_identifier_; bool stop_after_syntax_identifier_; string syntax_identifier_; // Leading doc comments for the next declaration. These are not complete // yet; use ConsumeEndOfDeclaration() to get the complete comments. string upcoming_doc_comments_; GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(Parser); }; // A table mapping (descriptor, ErrorLocation) pairs -- as reported by // DescriptorPool when validating descriptors -- to line and column numbers // within the original source code. // // This is semi-obsolete: FileDescriptorProto.source_code_info now contains // far more complete information about source locations. However, as of this // writing you still need to use SourceLocationTable when integrating with // DescriptorPool. class LIBPROTOBUF_EXPORT SourceLocationTable { public: SourceLocationTable(); ~SourceLocationTable(); // Finds the precise location of the given error and fills in *line and // *column with the line and column numbers. If not found, sets *line to // -1 and *column to 0 (since line = -1 is used to mean "error has no exact // location" in the ErrorCollector interface). Returns true if found, false // otherwise. bool Find(const Message* descriptor, DescriptorPool::ErrorCollector::ErrorLocation location, int* line, int* column) const; // Adds a location to the table. void Add(const Message* descriptor, DescriptorPool::ErrorCollector::ErrorLocation location, int line, int column); // Clears the contents of the table. void Clear(); private: typedef map< pair<const Message*, DescriptorPool::ErrorCollector::ErrorLocation>, pair<int, int> > LocationMap; LocationMap location_map_; }; } // namespace compiler } // namespace protobuf } // namespace google #endif // GOOGLE_PROTOBUF_COMPILER_PARSER_H__