src/gn/ninja_target_writer.h - gn - Git at Google

 // Copyright (c) 2013 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_NINJA_TARGET_WRITER_H_
 #define TOOLS_GN_NINJA_TARGET_WRITER_H_

 #include <iosfwd>

 #include "gn/path_output.h"
 #include "gn/resolved_target_data.h"
 #include "gn/substitution_type.h"

 class OutputFile;
 class Settings;
 class Target;
 struct SubstitutionBits;

 // Generates one target's ".ninja" file. The toplevel "build.ninja" file is
 // generated by the NinjaBuildWriter.
 class NinjaTargetWriter {
  public:
   NinjaTargetWriter(const Target* target, std::ostream& out);
   virtual ~NinjaTargetWriter();

   // Returns a ResolvedTargetData that can be used to retrieve information
   // from targets. The instance can be set through SetResolvedTargetData()
   // or may be created on demand otherwise (which is useful to keep unit-tests
   // simple).
   const ResolvedTargetData& resolved() const;

   // Sets the ResolvedTargetData instance to return for future resolved()
   // calls. Does not transfer ownership, and allows several NinjaTargetWriter
   // instances to share the same cached information.
   void SetResolvedTargetData(ResolvedTargetData* resolved);

   // Set the vector that will receive the Ninja output file paths generated
   // by this writer. A nullptr value means no output files needs to be
   // collected.
   void SetNinjaOutputs(std::vector<OutputFile>* ninja_outputs);

   // Returns the build line to be written to the toolchain build file.
   //
   // Some targets have their rules written to separate files, and some can have
   // their rules coalesced in the main build file. For the coalesced case, this
   // function will return the rules as a string. For the separate file case,
   // the separate ninja file will be written and the return string will be the
   // subninja command to load that file.
   //
   // If |ninja_outputs| is not nullptr, it will be set with the list of
   // Ninja output paths generated by the corresponding writer.
   static std::string RunAndWriteFile(
       const Target* target,
       ResolvedTargetData* resolved = nullptr,
       std::vector<OutputFile>* ninja_outputs = nullptr);

   virtual void Run() = 0;

  protected:
   // Returns a writable pointer to resolved(). Only used internally.
   ResolvedTargetData* GetResolvedTargetData();

   // Writes out the substitution values that are shared between the different
   // types of tools (target gen dir, target label, etc.). Only the substitutions
   // identified by the given bits will be written.
   void WriteSharedVars(const SubstitutionBits& bits);

   // Writes out the substitution values that are shared between C compiler tools
   // and action tools. Only the substitutions identified by the given bits will
   // be written.
   // If respect_source_used is set, the generated substitution values will
   // respect the types of source code used; otherwise they will respect the bits
   // passed in.
   void WriteCCompilerVars(const SubstitutionBits& bits,
                           bool indent,
                           bool respect_source_used);

   // Writes out the substitution values that are shared between Rust tools
   // and action tools. Only the substitutions identified by the given bits will
   // be written, unless 'always_write' is specified.
   void WriteRustCompilerVars(const SubstitutionBits& bits,
                              bool indent,
                              bool always_write);

   // Writes to the output stream a stamp rule for input dependencies, and
   // returns the file to be appended to source rules that encodes the
   // order-only dependencies for the current target.
   // If num_stamp_uses is small, this might return all input dependencies
   // directly, without writing a stamp file.
   // If there are no implicit dependencies and no additional target dependencies
   // are passed in, this returns an empty vector.
   std::vector<OutputFile> WriteInputDepsStampAndGetDep(
       const std::vector<const Target*>& additional_hard_deps,
       size_t num_stamp_uses) const;

   // Writes to the output file a final stamp rule for the target that stamps
   // the given list of files. This function assumes the stamp is for the target
   // as a whole so the stamp file is set as the target's dependency output.
   void WriteStampForTarget(const std::vector<OutputFile>& deps,
                            const std::vector<OutputFile>& order_only_deps);

   const Settings* settings_;  // Non-owning.
   const Target* target_;      // Non-owning.
   std::ostream& out_;
   PathOutput path_output_;

   // Write a Ninja output file to out_, and also add it to |*ninja_outputs_|
   // if needed.
   void WriteOutput(const OutputFile& output) const;
   void WriteOutput(OutputFile&& output) const;

   // Same as WriteOutput() for a list of Ninja output file paths.
   void WriteOutputs(const std::vector<OutputFile>& outputs) const;
   void WriteOutputs(std::vector<OutputFile>&& outputs) const;

   // The list of all Ninja output file paths generated by this writer for
   // this target. Used to implement the --ide=ninja_outputs `gn gen` flag.
   // Needs to be mutable because WriteOutput() and WriteOutputs() need to
   // be const.
   mutable std::vector<OutputFile>* ninja_outputs_ = nullptr;

   // The ResolvedTargetData instance can be set through SetResolvedTargetData()
   // or it will be created lazily when resolved() is called, hence the need
   // for 'mutable' here.
   mutable ResolvedTargetData* resolved_ptr_ = nullptr;
   mutable std::unique_ptr<ResolvedTargetData> resolved_owned_;

  private:
   void WriteCopyRules();
   void WriteEscapedSubstitution(const Substitution* type);

   NinjaTargetWriter(const NinjaTargetWriter&) = delete;
   NinjaTargetWriter& operator=(const NinjaTargetWriter&) = delete;
 };

 #endif  // TOOLS_GN_NINJA_TARGET_WRITER_H_
	// Copyright (c) 2013 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_NINJA_TARGET_WRITER_H_
	#define TOOLS_GN_NINJA_TARGET_WRITER_H_

	#include <iosfwd>

	#include "gn/path_output.h"
	#include "gn/resolved_target_data.h"
	#include "gn/substitution_type.h"

	class OutputFile;
	class Settings;
	class Target;
	struct SubstitutionBits;

	// Generates one target's ".ninja" file. The toplevel "build.ninja" file is
	// generated by the NinjaBuildWriter.
	class NinjaTargetWriter {
	public:
	NinjaTargetWriter(const Target* target, std::ostream& out);
	virtual ~NinjaTargetWriter();

	// Returns a ResolvedTargetData that can be used to retrieve information
	// from targets. The instance can be set through SetResolvedTargetData()
	// or may be created on demand otherwise (which is useful to keep unit-tests
	// simple).
	const ResolvedTargetData& resolved() const;

	// Sets the ResolvedTargetData instance to return for future resolved()
	// calls. Does not transfer ownership, and allows several NinjaTargetWriter
	// instances to share the same cached information.
	void SetResolvedTargetData(ResolvedTargetData* resolved);

	// Set the vector that will receive the Ninja output file paths generated
	// by this writer. A nullptr value means no output files needs to be
	// collected.
	void SetNinjaOutputs(std::vector<OutputFile>* ninja_outputs);

	// Returns the build line to be written to the toolchain build file.
	//
	// Some targets have their rules written to separate files, and some can have
	// their rules coalesced in the main build file. For the coalesced case, this
	// function will return the rules as a string. For the separate file case,
	// the separate ninja file will be written and the return string will be the
	// subninja command to load that file.
	//
	// If \|ninja_outputs\| is not nullptr, it will be set with the list of
	// Ninja output paths generated by the corresponding writer.
	static std::string RunAndWriteFile(
	const Target* target,
	ResolvedTargetData* resolved = nullptr,
	std::vector<OutputFile>* ninja_outputs = nullptr);

	virtual void Run() = 0;

	protected:
	// Returns a writable pointer to resolved(). Only used internally.
	ResolvedTargetData* GetResolvedTargetData();

	// Writes out the substitution values that are shared between the different
	// types of tools (target gen dir, target label, etc.). Only the substitutions
	// identified by the given bits will be written.
	void WriteSharedVars(const SubstitutionBits& bits);

	// Writes out the substitution values that are shared between C compiler tools
	// and action tools. Only the substitutions identified by the given bits will
	// be written.
	// If respect_source_used is set, the generated substitution values will
	// respect the types of source code used; otherwise they will respect the bits
	// passed in.
	void WriteCCompilerVars(const SubstitutionBits& bits,
	bool indent,
	bool respect_source_used);

	// Writes out the substitution values that are shared between Rust tools
	// and action tools. Only the substitutions identified by the given bits will
	// be written, unless 'always_write' is specified.
	void WriteRustCompilerVars(const SubstitutionBits& bits,
	bool indent,
	bool always_write);

	// Writes to the output stream a stamp rule for input dependencies, and
	// returns the file to be appended to source rules that encodes the
	// order-only dependencies for the current target.
	// If num_stamp_uses is small, this might return all input dependencies
	// directly, without writing a stamp file.
	// If there are no implicit dependencies and no additional target dependencies
	// are passed in, this returns an empty vector.
	std::vector<OutputFile> WriteInputDepsStampAndGetDep(
	const std::vector<const Target*>& additional_hard_deps,
	size_t num_stamp_uses) const;

	// Writes to the output file a final stamp rule for the target that stamps
	// the given list of files. This function assumes the stamp is for the target
	// as a whole so the stamp file is set as the target's dependency output.
	void WriteStampForTarget(const std::vector<OutputFile>& deps,
	const std::vector<OutputFile>& order_only_deps);

	const Settings* settings_; // Non-owning.
	const Target* target_; // Non-owning.
	std::ostream& out_;
	PathOutput path_output_;

	// Write a Ninja output file to out_, and also add it to \|*ninja_outputs_\|
	// if needed.
	void WriteOutput(const OutputFile& output) const;
	void WriteOutput(OutputFile&& output) const;

	// Same as WriteOutput() for a list of Ninja output file paths.
	void WriteOutputs(const std::vector<OutputFile>& outputs) const;
	void WriteOutputs(std::vector<OutputFile>&& outputs) const;

	// The list of all Ninja output file paths generated by this writer for
	// this target. Used to implement the --ide=ninja_outputs `gn gen` flag.
	// Needs to be mutable because WriteOutput() and WriteOutputs() need to
	// be const.
	mutable std::vector<OutputFile>* ninja_outputs_ = nullptr;

	// The ResolvedTargetData instance can be set through SetResolvedTargetData()
	// or it will be created lazily when resolved() is called, hence the need
	// for 'mutable' here.
	mutable ResolvedTargetData* resolved_ptr_ = nullptr;
	mutable std::unique_ptr<ResolvedTargetData> resolved_owned_;

	private:
	void WriteCopyRules();
	void WriteEscapedSubstitution(const Substitution* type);

	NinjaTargetWriter(const NinjaTargetWriter&) = delete;
	NinjaTargetWriter& operator=(const NinjaTargetWriter&) = delete;
	};

	#endif // TOOLS_GN_NINJA_TARGET_WRITER_H_