tools/gn/toolchain.h - gn.git - 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_TOOLCHAIN_H_
 #define TOOLS_GN_TOOLCHAIN_H_

 #include <memory>

 #include "base/logging.h"
 #include "base/strings/string_piece.h"
 #include "tools/gn/item.h"
 #include "tools/gn/label_ptr.h"
 #include "tools/gn/scope.h"
 #include "tools/gn/source_file_type.h"
 #include "tools/gn/substitution_type.h"
 #include "tools/gn/tool.h"
 #include "tools/gn/value.h"

 // Holds information on a specific toolchain. This data is filled in when we
 // encounter a toolchain definition.
 //
 // This class is an Item so it can participate in dependency management. In
 // particular, when a target uses a toolchain, it should have a dependency on
 // that toolchain's object so that we can be sure we loaded the toolchain
 // before generating the build for that target.
 //
 // Note on threadsafety: The label of the toolchain never changes so can
 // safely be accessed from any thread at any time (we do this when asking for
 // the toolchain name). But the values in the toolchain do, so these can't
 // be accessed until this Item is resolved.
 class Toolchain : public Item {
  public:
   enum ToolType {
     TYPE_NONE = 0,
     TYPE_CC,
     TYPE_CXX,
     TYPE_OBJC,
     TYPE_OBJCXX,
     TYPE_RC,
     TYPE_ASM,
     TYPE_ALINK,
     TYPE_SOLINK,
     TYPE_SOLINK_MODULE,
     TYPE_LINK,
     TYPE_STAMP,
     TYPE_COPY,
     TYPE_COPY_BUNDLE_DATA,
     TYPE_COMPILE_XCASSETS,
     TYPE_ACTION,

     TYPE_NUMTYPES  // Must be last.
   };

   static const char* kToolCc;
   static const char* kToolCxx;
   static const char* kToolObjC;
   static const char* kToolObjCxx;
   static const char* kToolRc;
   static const char* kToolAsm;
   static const char* kToolAlink;
   static const char* kToolSolink;
   static const char* kToolSolinkModule;
   static const char* kToolLink;
   static const char* kToolStamp;
   static const char* kToolCopy;
   static const char* kToolCopyBundleData;
   static const char* kToolCompileXCAssets;
   static const char* kToolAction;

   // The Settings of an Item is always the context in which the Item was
   // defined. For a toolchain this is confusing because this is NOT the
   // settings object that applies to the things in the toolchain.
   //
   // To get the Settings object corresponding to objects loaded in the context
   // of this toolchain (probably what you want instead), see
   // Loader::GetToolchainSettings(). Many toolchain objects may be created in a
   // given build, but only a few might be used, and the Loader is in charge of
   // this process.
   //
   // We also track the set of build files that may affect this target, please
   // refer to Scope for how this is determined.
   Toolchain(const Settings* settings,
             const Label& label,
             const std::set<SourceFile>& build_dependency_files = {});
   ~Toolchain() override;

   // Item overrides.
   Toolchain* AsToolchain() override;
   const Toolchain* AsToolchain() const override;

   // Returns TYPE_NONE on failure.
   static ToolType ToolNameToType(const base::StringPiece& str);
   static std::string ToolTypeToName(ToolType type);

   // Returns null if the tool hasn't been defined.
   Tool* GetTool(ToolType type);
   const Tool* GetTool(ToolType type) const;

   // Set a tool. When all tools are configured, you should call
   // ToolchainSetupComplete().
   void SetTool(ToolType type, std::unique_ptr<Tool> t);

   // Does final setup on the toolchain once all tools are known.
   void ToolchainSetupComplete();

   // Targets that must be resolved before compiling any targets.
   const LabelTargetVector& deps() const { return deps_; }
   LabelTargetVector& deps() { return deps_; }

   // Specifies build argument overrides that will be set on the base scope. It
   // will be as if these arguments were passed in on the command line. This
   // allows a toolchain to override the OS type of the default toolchain or
   // pass in other settings.
   Scope::KeyValueMap& args() { return args_; }
   const Scope::KeyValueMap& args() const { return args_; }

   // Specifies whether public_configs and all_dependent_configs in this
   // toolchain propagate to targets in other toolchains.
   bool propagates_configs() const { return propagates_configs_; }
   void set_propagates_configs(bool propagates_configs) {
     propagates_configs_ = propagates_configs;
   }

   // Returns the tool for compiling the given source file type.
   static ToolType GetToolTypeForSourceType(SourceFileType type);
   const Tool* GetToolForSourceType(SourceFileType type);

   // Returns the tool that produces the final output for the given target type.
   // This isn't necessarily the tool you would expect. For copy target, this
   // will return the stamp tool instead since the final output of a copy
   // target is to stamp the set of copies done so there is one output.
   static ToolType GetToolTypeForTargetFinalOutput(const Target* target);
   const Tool* GetToolForTargetFinalOutput(const Target* target) const;

   const SubstitutionBits& substitution_bits() const {
     DCHECK(setup_complete_);
     return substitution_bits_;
   }

  private:
   std::unique_ptr<Tool> tools_[TYPE_NUMTYPES];

   bool setup_complete_ = false;

   // Substitutions used by the tools in this toolchain.
   SubstitutionBits substitution_bits_;

   LabelTargetVector deps_;
   Scope::KeyValueMap args_;
   bool propagates_configs_ = false;
 };

 #endif  // TOOLS_GN_TOOLCHAIN_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_TOOLCHAIN_H_
	#define TOOLS_GN_TOOLCHAIN_H_

	#include <memory>

	#include "base/logging.h"
	#include "base/strings/string_piece.h"
	#include "tools/gn/item.h"
	#include "tools/gn/label_ptr.h"
	#include "tools/gn/scope.h"
	#include "tools/gn/source_file_type.h"
	#include "tools/gn/substitution_type.h"
	#include "tools/gn/tool.h"
	#include "tools/gn/value.h"

	// Holds information on a specific toolchain. This data is filled in when we
	// encounter a toolchain definition.
	//
	// This class is an Item so it can participate in dependency management. In
	// particular, when a target uses a toolchain, it should have a dependency on
	// that toolchain's object so that we can be sure we loaded the toolchain
	// before generating the build for that target.
	//
	// Note on threadsafety: The label of the toolchain never changes so can
	// safely be accessed from any thread at any time (we do this when asking for
	// the toolchain name). But the values in the toolchain do, so these can't
	// be accessed until this Item is resolved.
	class Toolchain : public Item {
	public:
	enum ToolType {
	TYPE_NONE = 0,
	TYPE_CC,
	TYPE_CXX,
	TYPE_OBJC,
	TYPE_OBJCXX,
	TYPE_RC,
	TYPE_ASM,
	TYPE_ALINK,
	TYPE_SOLINK,
	TYPE_SOLINK_MODULE,
	TYPE_LINK,
	TYPE_STAMP,
	TYPE_COPY,
	TYPE_COPY_BUNDLE_DATA,
	TYPE_COMPILE_XCASSETS,
	TYPE_ACTION,

	TYPE_NUMTYPES // Must be last.
	};

	static const char* kToolCc;
	static const char* kToolCxx;
	static const char* kToolObjC;
	static const char* kToolObjCxx;
	static const char* kToolRc;
	static const char* kToolAsm;
	static const char* kToolAlink;
	static const char* kToolSolink;
	static const char* kToolSolinkModule;
	static const char* kToolLink;
	static const char* kToolStamp;
	static const char* kToolCopy;
	static const char* kToolCopyBundleData;
	static const char* kToolCompileXCAssets;
	static const char* kToolAction;

	// The Settings of an Item is always the context in which the Item was
	// defined. For a toolchain this is confusing because this is NOT the
	// settings object that applies to the things in the toolchain.
	//
	// To get the Settings object corresponding to objects loaded in the context
	// of this toolchain (probably what you want instead), see
	// Loader::GetToolchainSettings(). Many toolchain objects may be created in a
	// given build, but only a few might be used, and the Loader is in charge of
	// this process.
	//
	// We also track the set of build files that may affect this target, please
	// refer to Scope for how this is determined.
	Toolchain(const Settings* settings,
	const Label& label,
	const std::set<SourceFile>& build_dependency_files = {});
	~Toolchain() override;

	// Item overrides.
	Toolchain* AsToolchain() override;
	const Toolchain* AsToolchain() const override;

	// Returns TYPE_NONE on failure.
	static ToolType ToolNameToType(const base::StringPiece& str);
	static std::string ToolTypeToName(ToolType type);

	// Returns null if the tool hasn't been defined.
	Tool* GetTool(ToolType type);
	const Tool* GetTool(ToolType type) const;

	// Set a tool. When all tools are configured, you should call
	// ToolchainSetupComplete().
	void SetTool(ToolType type, std::unique_ptr<Tool> t);

	// Does final setup on the toolchain once all tools are known.
	void ToolchainSetupComplete();

	// Targets that must be resolved before compiling any targets.
	const LabelTargetVector& deps() const { return deps_; }
	LabelTargetVector& deps() { return deps_; }

	// Specifies build argument overrides that will be set on the base scope. It
	// will be as if these arguments were passed in on the command line. This
	// allows a toolchain to override the OS type of the default toolchain or
	// pass in other settings.
	Scope::KeyValueMap& args() { return args_; }
	const Scope::KeyValueMap& args() const { return args_; }

	// Specifies whether public_configs and all_dependent_configs in this
	// toolchain propagate to targets in other toolchains.
	bool propagates_configs() const { return propagates_configs_; }
	void set_propagates_configs(bool propagates_configs) {
	propagates_configs_ = propagates_configs;
	}

	// Returns the tool for compiling the given source file type.
	static ToolType GetToolTypeForSourceType(SourceFileType type);
	const Tool* GetToolForSourceType(SourceFileType type);

	// Returns the tool that produces the final output for the given target type.
	// This isn't necessarily the tool you would expect. For copy target, this
	// will return the stamp tool instead since the final output of a copy
	// target is to stamp the set of copies done so there is one output.
	static ToolType GetToolTypeForTargetFinalOutput(const Target* target);
	const Tool* GetToolForTargetFinalOutput(const Target* target) const;

	const SubstitutionBits& substitution_bits() const {
	DCHECK(setup_complete_);
	return substitution_bits_;
	}

	private:
	std::unique_ptr<Tool> tools_[TYPE_NUMTYPES];

	bool setup_complete_ = false;

	// Substitutions used by the tools in this toolchain.
	SubstitutionBits substitution_bits_;

	LabelTargetVector deps_;
	Scope::KeyValueMap args_;
	bool propagates_configs_ = false;
	};

	#endif // TOOLS_GN_TOOLCHAIN_H_