tools/gn/builder.h - chromium/src.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_BUILDER_H_
 #define TOOLS_GN_BUILDER_H_

 #include "base/basictypes.h"
 #include "base/callback.h"
 #include "base/containers/hash_tables.h"
 #include "base/memory/ref_counted.h"
 #include "tools/gn/builder_record.h"
 #include "tools/gn/label.h"
 #include "tools/gn/label_ptr.h"
 #include "tools/gn/unique_vector.h"

 class Config;
 class Err;
 class Loader;
 class ParseNode;

 class Builder : public base::RefCountedThreadSafe<Builder> {
  public:
   typedef base::Callback<void(const BuilderRecord*)> ResolvedCallback;

   explicit Builder(Loader* loader);

   // The resolved callback is called whenever a target has been resolved. This
   // will be executed only on the main thread.
   void set_resolved_callback(const ResolvedCallback& cb) {
     resolved_callback_ = cb;
   }

   Loader* loader() const { return loader_; }

   void ItemDefined(scoped_ptr<Item> item);

   // Returns NULL if there is not a thing with the corresponding label.
   const Item* GetItem(const Label& label) const;
   const Toolchain* GetToolchain(const Label& label) const;

   std::vector<const BuilderRecord*> GetAllRecords() const;

   // Returns targets which should be generated and which are defined.
   std::vector<const Target*> GetAllResolvedTargets() const;

   // Returns the record for the given label, or NULL if it doesn't exist.
   // Mostly used for unit tests.
   const BuilderRecord* GetRecord(const Label& label) const;
   BuilderRecord* GetRecord(const Label& label);

   // If there are any undefined references, returns false and sets the error.
   bool CheckForBadItems(Err* err) const;

  private:
   friend class base::RefCountedThreadSafe<Builder>;

   virtual ~Builder();

   bool TargetDefined(BuilderRecord* record, Err* err);
   bool ToolchainDefined(BuilderRecord* record, Err* err);

   // Returns the record associated with the given label. This function checks
   // that if we already have references for it, the type matches. If no record
   // exists yet, a new one will be created.
   //
   // If any of the conditions fail, the return value will be null and the error
   // will be set. request_from is used as the source of the error.
   BuilderRecord* GetOrCreateRecordOfType(const Label& label,
                                          const ParseNode* request_from,
                                          BuilderRecord::ItemType type,
                                          Err* err);

   // Returns the record associated with the given label. This function checks
   // that it's already been resolved to the correct type.
   //
   // If any of the conditions fail, the return value will be null and the error
   // will be set. request_from is used as the source of the error.
   BuilderRecord* GetResolvedRecordOfType(const Label& label,
                                          const ParseNode* request_from,
                                          BuilderRecord::ItemType type,
                                          Err* err);

   bool AddDeps(BuilderRecord* record,
                const LabelConfigVector& configs,
                Err* err);
   bool AddDeps(BuilderRecord* record,
                const UniqueVector<LabelConfigPair>& configs,
                Err* err);
   bool AddDeps(BuilderRecord* record,
                const LabelTargetVector& targets,
                Err* err);
   bool AddToolchainDep(BuilderRecord* record,
                        const Target* target,
                        Err* err);

   // Given a target, sets the "should generate" bit and pushes it through the
   // dependency tree. Any time the bit it set, we ensure that the given item is
   // scheduled to be loaded.
   //
   // If the force flag is set, we'll ignore the current state of the record's
   // should_generate flag, and set it on the dependents every time. This is
   // used when defining a target: the "should generate" may have been set
   // before the item was defined (if it is required by something that is
   // required). In this case, we need to re-push the "should generate" flag
   // to the item's dependencies.
   void RecursiveSetShouldGenerate(BuilderRecord* record, bool force);

   void ScheduleItemLoadIfNecessary(BuilderRecord* record);

   // This takes a BuilderRecord with resolved depdencies, and fills in the
   // target's Label*Vectors with the resolved pointers.
   bool ResolveItem(BuilderRecord* record, Err* err);

   // Fills in the pointers in the given vector based on the labels. We assume
   // that everything should be resolved by this point, so will return an error
   // if anything isn't found or if the type doesn't match.
   bool ResolveDeps(LabelTargetVector* deps, Err* err);
   bool ResolveConfigs(UniqueVector<LabelConfigPair>* configs, Err* err);
   bool ResolveForwardDependentConfigs(Target* target, Err* err);
   bool ResolveToolchain(Target* target, Err* err);

   // Given a list of unresolved records, tries to find any circular
   // dependencies and returns the string describing the problem. If no circular
   // deps were found, returns the empty string.
   std::string CheckForCircularDependencies(
       const std::vector<const BuilderRecord*>& bad_records) const;

   // Non owning pointer.
   Loader* loader_;

   // Owning pointers.
   typedef base::hash_map<Label, BuilderRecord*> RecordMap;
   RecordMap records_;

   ResolvedCallback resolved_callback_;

   DISALLOW_COPY_AND_ASSIGN(Builder);
 };

 #endif  // TOOLS_GN_BUILDER_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_BUILDER_H_
	#define TOOLS_GN_BUILDER_H_

	#include "base/basictypes.h"
	#include "base/callback.h"
	#include "base/containers/hash_tables.h"
	#include "base/memory/ref_counted.h"
	#include "tools/gn/builder_record.h"
	#include "tools/gn/label.h"
	#include "tools/gn/label_ptr.h"
	#include "tools/gn/unique_vector.h"

	class Config;
	class Err;
	class Loader;
	class ParseNode;

	class Builder : public base::RefCountedThreadSafe<Builder> {
	public:
	typedef base::Callback<void(const BuilderRecord*)> ResolvedCallback;

	explicit Builder(Loader* loader);

	// The resolved callback is called whenever a target has been resolved. This
	// will be executed only on the main thread.
	void set_resolved_callback(const ResolvedCallback& cb) {
	resolved_callback_ = cb;
	}

	Loader* loader() const { return loader_; }

	void ItemDefined(scoped_ptr<Item> item);

	// Returns NULL if there is not a thing with the corresponding label.
	const Item* GetItem(const Label& label) const;
	const Toolchain* GetToolchain(const Label& label) const;

	std::vector<const BuilderRecord*> GetAllRecords() const;

	// Returns targets which should be generated and which are defined.
	std::vector<const Target*> GetAllResolvedTargets() const;

	// Returns the record for the given label, or NULL if it doesn't exist.
	// Mostly used for unit tests.
	const BuilderRecord* GetRecord(const Label& label) const;
	BuilderRecord* GetRecord(const Label& label);

	// If there are any undefined references, returns false and sets the error.
	bool CheckForBadItems(Err* err) const;

	private:
	friend class base::RefCountedThreadSafe<Builder>;

	virtual ~Builder();

	bool TargetDefined(BuilderRecord* record, Err* err);
	bool ToolchainDefined(BuilderRecord* record, Err* err);

	// Returns the record associated with the given label. This function checks
	// that if we already have references for it, the type matches. If no record
	// exists yet, a new one will be created.
	//
	// If any of the conditions fail, the return value will be null and the error
	// will be set. request_from is used as the source of the error.
	BuilderRecord* GetOrCreateRecordOfType(const Label& label,
	const ParseNode* request_from,
	BuilderRecord::ItemType type,
	Err* err);

	// Returns the record associated with the given label. This function checks
	// that it's already been resolved to the correct type.
	//
	// If any of the conditions fail, the return value will be null and the error
	// will be set. request_from is used as the source of the error.
	BuilderRecord* GetResolvedRecordOfType(const Label& label,
	const ParseNode* request_from,
	BuilderRecord::ItemType type,
	Err* err);

	bool AddDeps(BuilderRecord* record,
	const LabelConfigVector& configs,
	Err* err);
	bool AddDeps(BuilderRecord* record,
	const UniqueVector<LabelConfigPair>& configs,
	Err* err);
	bool AddDeps(BuilderRecord* record,
	const LabelTargetVector& targets,
	Err* err);
	bool AddToolchainDep(BuilderRecord* record,
	const Target* target,
	Err* err);

	// Given a target, sets the "should generate" bit and pushes it through the
	// dependency tree. Any time the bit it set, we ensure that the given item is
	// scheduled to be loaded.
	//
	// If the force flag is set, we'll ignore the current state of the record's
	// should_generate flag, and set it on the dependents every time. This is
	// used when defining a target: the "should generate" may have been set
	// before the item was defined (if it is required by something that is
	// required). In this case, we need to re-push the "should generate" flag
	// to the item's dependencies.
	void RecursiveSetShouldGenerate(BuilderRecord* record, bool force);

	void ScheduleItemLoadIfNecessary(BuilderRecord* record);

	// This takes a BuilderRecord with resolved depdencies, and fills in the
	// target's Label*Vectors with the resolved pointers.
	bool ResolveItem(BuilderRecord* record, Err* err);

	// Fills in the pointers in the given vector based on the labels. We assume
	// that everything should be resolved by this point, so will return an error
	// if anything isn't found or if the type doesn't match.
	bool ResolveDeps(LabelTargetVector* deps, Err* err);
	bool ResolveConfigs(UniqueVector<LabelConfigPair>* configs, Err* err);
	bool ResolveForwardDependentConfigs(Target* target, Err* err);
	bool ResolveToolchain(Target* target, Err* err);

	// Given a list of unresolved records, tries to find any circular
	// dependencies and returns the string describing the problem. If no circular
	// deps were found, returns the empty string.
	std::string CheckForCircularDependencies(
	const std::vector<const BuilderRecord*>& bad_records) const;

	// Non owning pointer.
	Loader* loader_;

	// Owning pointers.
	typedef base::hash_map<Label, BuilderRecord*> RecordMap;
	RecordMap records_;

	ResolvedCallback resolved_callback_;

	DISALLOW_COPY_AND_ASSIGN(Builder);
	};

	#endif // TOOLS_GN_BUILDER_H_