// Copyright 2014 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef TOOLS_GN_SUBSTITUTION_WRITER_H_ #define TOOLS_GN_SUBSTITUTION_WRITER_H_ #include #include #include "base/basictypes.h" #include "tools/gn/substitution_type.h" struct EscapeOptions; class OutputFile; class Settings; class SourceDir; class SourceFile; class SubstitutionList; class SubstitutionPattern; class Target; class Tool; // Help text for script source expansion. extern const char kSourceExpansion_Help[]; // This class handles writing or applying substitution patterns to strings. // // There are several different uses: // // - Source substitutions: These are used to compute action_foreach // outputs and arguments. Functions are provided to expand these in terms // of both OutputFiles (for writing Ninja files) as well as SourceFiles // (for computing lists used by code). // // - Target substitutions: These are specific to the target+tool combination // and are shared between the compiler and linker ones. It includes things // like the target_gen_dir. // // - Compiler substitutions: These are used to compute compiler outputs. // It includes all source substitutions (since they depend on the various // parts of the source file) as well as the target substitutions. // // - Linker substitutions: These are used to compute linker outputs. It // includes the target substitutions. // // The compiler and linker specific substitutions do NOT include the various // cflags, ldflags, libraries, etc. These are written by the ninja target // writer since they depend on traversing the dependency tree. class SubstitutionWriter { public: enum OutputStyle { OUTPUT_ABSOLUTE, // Dirs will be absolute "//foo/bar". OUTPUT_RELATIVE, // Dirs will be relative to a given directory. }; // Writes the pattern to the given stream with no special handling, and with // Ninja variables replacing the patterns. static void WriteWithNinjaVariables( const SubstitutionPattern& pattern, const EscapeOptions& escape_options, std::ostream& out); // NOP substitutions --------------------------------------------------------- // Converts the given SubstitutionList to OutputFiles assuming there are // no substitutions (it will assert if there are). This is used for cases // like actions where the outputs are explicit, but the list is stored as // a SubstitutionList. static void GetListAsSourceFiles( const SubstitutionList& list, std::vector* output); static void GetListAsOutputFiles( const Settings* settings, const SubstitutionList& list, std::vector* output); // Source substitutions ----------------------------------------------------- // Applies the substitution pattern to a source file, returning the result // as either a string, a SourceFile or an OutputFile. If the result is // expected to be a SourceFile or an OutputFile, this will CHECK if the // result isn't in the correct directory. The caller should validate this // first (see for example IsFileInOuputDir). static SourceFile ApplyPatternToSource( const Settings* settings, const SubstitutionPattern& pattern, const SourceFile& source); static std::string ApplyPatternToSourceAsString( const Settings* settings, const SubstitutionPattern& pattern, const SourceFile& source); static OutputFile ApplyPatternToSourceAsOutputFile( const Settings* settings, const SubstitutionPattern& pattern, const SourceFile& source); // Applies the substitution list to a source, APPENDING the result to the // given output vector. It works this way so one can call multiple times to // apply to multiple files and create a list. The result can either be // SourceFiles or OutputFiles. static void ApplyListToSource( const Settings* settings, const SubstitutionList& list, const SourceFile& source, std::vector* output); static void ApplyListToSourceAsString( const Settings* settings, const SubstitutionList& list, const SourceFile& source, std::vector* output); static void ApplyListToSourceAsOutputFile( const Settings* settings, const SubstitutionList& list, const SourceFile& source, std::vector* output); // Like ApplyListToSource but applies the list to all sources and replaces // rather than appesnds the output (this produces the complete output). static void ApplyListToSources( const Settings* settings, const SubstitutionList& list, const std::vector& sources, std::vector* output); static void ApplyListToSourcesAsString( const Settings* settings, const SubstitutionList& list, const std::vector& sources, std::vector* output); static void ApplyListToSourcesAsOutputFile( const Settings* settings, const SubstitutionList& list, const std::vector& sources, std::vector* output); // Given a list of source replacement types used, writes the Ninja variable // definitions for the given source file to use for those replacements. The // variables will be indented two spaces. Since this is for writing to // Ninja files, paths will be relative to the build dir, and no definition // for {{source}} will be written since that maps to Ninja's implicit $in // variable. static void WriteNinjaVariablesForSource( const Settings* settings, const SourceFile& source, const std::vector& types, const EscapeOptions& escape_options, std::ostream& out); // Extracts the given type of substitution related to a source file from the // given source file. If output_style is OUTPUT_RELATIVE, relative_to // indicates the directory that the relative directories should be relative // to, otherwise it is ignored. static std::string GetSourceSubstitution( const Settings* settings, const SourceFile& source, SubstitutionType type, OutputStyle output_style, const SourceDir& relative_to); // Target substitutions ------------------------------------------------------ // // Handles the target substitutions that apply to both compiler and linker // tools. static OutputFile ApplyPatternToTargetAsOutputFile( const Target* target, const Tool* tool, const SubstitutionPattern& pattern); static void ApplyListToTargetAsOutputFile( const Target* target, const Tool* tool, const SubstitutionList& list, std::vector* output); // This function is slightly different than the other substitution getters // since it can handle failure (since it is designed to be used by the // compiler and linker ones which will fall through if it's not a common tool // one). static bool GetTargetSubstitution( const Target* target, SubstitutionType type, std::string* result); static std::string GetTargetSubstitution( const Target* target, SubstitutionType type); // Compiler substitutions ---------------------------------------------------- // // A compiler substitution allows both source and tool substitutions. These // are used to compute output names for compiler tools. static OutputFile ApplyPatternToCompilerAsOutputFile( const Target* target, const SourceFile& source, const SubstitutionPattern& pattern); static void ApplyListToCompilerAsOutputFile( const Target* target, const SourceFile& source, const SubstitutionList& list, std::vector* output); // Like GetSourceSubstitution but for strings based on the target or // toolchain. This type of result will always be relative to the build // directory. static std::string GetCompilerSubstitution( const Target* target, const SourceFile& source, SubstitutionType type); // Linker substitutions ------------------------------------------------------ static OutputFile ApplyPatternToLinkerAsOutputFile( const Target* target, const Tool* tool, const SubstitutionPattern& pattern); static void ApplyListToLinkerAsOutputFile( const Target* target, const Tool* tool, const SubstitutionList& list, std::vector* output); // Like GetSourceSubstitution but for strings based on the target or // toolchain. This type of result will always be relative to the build // directory. static std::string GetLinkerSubstitution( const Target* target, const Tool* tool, SubstitutionType type); }; #endif // TOOLS_GN_SUBSTITUTION_WRITER_H_