src/gn/builder_record.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_BUILDER_RECORD_H_
 #define TOOLS_GN_BUILDER_RECORD_H_

 #include <memory>
 #include <utility>

 #include "gn/item.h"
 #include "gn/location.h"
 #include "gn/pointer_set.h"

 class ParseNode;

 // This class is used by the builder to manage the loading of the dependency
 // tree. It holds a reference to an item and links to other records that the
 // item depends on, both resolved ones, and unresolved ones.
 //
 // If a target depends on another one that hasn't been defined yet, we'll make
 // a placeholder BuilderRecord with no item, and try to load the buildfile
 // associated with the new item. The item will get filled in when we encounter
 // the declaration for the item (or when we're done and realize there are
 // undefined items).
 //
 // You can also have null item pointers when the target is not required for
 // the current build (should_generate is false).
 class BuilderRecord {
  public:
   using BuilderRecordSet = PointerSet<BuilderRecord>;

   enum ItemType {
     ITEM_UNKNOWN,
     ITEM_TARGET,
     ITEM_CONFIG,
     ITEM_TOOLCHAIN,
     ITEM_POOL
   };

   BuilderRecord(ItemType type,
                 const Label& label,
                 const ParseNode* originally_referenced_from);

   ItemType type() const { return type_; }
   const Label& label() const { return label_; }

   // Returns a user-ready name for the given type. e.g. "target".
   static const char* GetNameForType(ItemType type);

   // Returns true if the given item is of the given type.
   static bool IsItemOfType(const Item* item, ItemType type);

   // Returns the type enum for the given item.
   static ItemType TypeOfItem(const Item* item);

   Item* item() { return item_.get(); }
   const Item* item() const { return item_.get(); }
   void set_item(std::unique_ptr<Item> item) { item_ = std::move(item); }

   // Indicates from where this item was originally referenced from that caused
   // it to be loaded. For targets for which we encountered the declaration
   // before a reference, this will be the empty range.
   const ParseNode* originally_referenced_from() const {
     return originally_referenced_from_;
   }

   bool should_generate() const { return should_generate_; }
   void set_should_generate(bool sg) { should_generate_ = sg; }

   bool resolved() const { return resolved_; }
   void set_resolved(bool r) { resolved_ = r; }

   bool can_resolve() const { return item_ && unresolved_count_ == 0; }

   // All records this one is depending on. Note that this includes gen_deps for
   // targets, which can have cycles.
   BuilderRecordSet& all_deps() { return all_deps_; }
   const BuilderRecordSet& all_deps() const { return all_deps_; }

   // Get the set of unresolved records this one depends on,
   // as a list sorted by label.
   std::vector<const BuilderRecord*> GetSortedUnresolvedDeps() const;

   // Call this method to notify the record that its dependency |dep| was
   // just resolved. This returns true to indicate that the current record
   // should now be resolved.
   bool OnResolvedDep(const BuilderRecord* dep);

   // Records that are waiting on this one to be resolved. This is the other
   // end of the "unresolved deps" arrow.
   BuilderRecordSet& waiting_on_resolution() { return waiting_on_resolution_; }
   const BuilderRecordSet& waiting_on_resolution() const {
     return waiting_on_resolution_;
   }

   void AddGenDep(BuilderRecord* record);
   void AddDep(BuilderRecord* record);

   // Comparator function used to sort records from their label.
   static bool LabelCompare(const BuilderRecord* a, const BuilderRecord* b) {
     return a->label_ < b->label_;
   }

  private:
   ItemType type_;
   bool should_generate_ = false;
   bool resolved_ = false;
   Label label_;
   std::unique_ptr<Item> item_;
   const ParseNode* originally_referenced_from_ = nullptr;

   size_t unresolved_count_ = 0;
   BuilderRecordSet all_deps_;
   BuilderRecordSet waiting_on_resolution_;

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

 #endif  // TOOLS_GN_BUILDER_RECORD_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_RECORD_H_
	#define TOOLS_GN_BUILDER_RECORD_H_

	#include <memory>
	#include <utility>

	#include "gn/item.h"
	#include "gn/location.h"
	#include "gn/pointer_set.h"

	class ParseNode;

	// This class is used by the builder to manage the loading of the dependency
	// tree. It holds a reference to an item and links to other records that the
	// item depends on, both resolved ones, and unresolved ones.
	//
	// If a target depends on another one that hasn't been defined yet, we'll make
	// a placeholder BuilderRecord with no item, and try to load the buildfile
	// associated with the new item. The item will get filled in when we encounter
	// the declaration for the item (or when we're done and realize there are
	// undefined items).
	//
	// You can also have null item pointers when the target is not required for
	// the current build (should_generate is false).
	class BuilderRecord {
	public:
	using BuilderRecordSet = PointerSet<BuilderRecord>;

	enum ItemType {
	ITEM_UNKNOWN,
	ITEM_TARGET,
	ITEM_CONFIG,
	ITEM_TOOLCHAIN,
	ITEM_POOL
	};

	BuilderRecord(ItemType type,
	const Label& label,
	const ParseNode* originally_referenced_from);

	ItemType type() const { return type_; }
	const Label& label() const { return label_; }

	// Returns a user-ready name for the given type. e.g. "target".
	static const char* GetNameForType(ItemType type);

	// Returns true if the given item is of the given type.
	static bool IsItemOfType(const Item* item, ItemType type);

	// Returns the type enum for the given item.
	static ItemType TypeOfItem(const Item* item);

	Item* item() { return item_.get(); }
	const Item* item() const { return item_.get(); }
	void set_item(std::unique_ptr<Item> item) { item_ = std::move(item); }

	// Indicates from where this item was originally referenced from that caused
	// it to be loaded. For targets for which we encountered the declaration
	// before a reference, this will be the empty range.
	const ParseNode* originally_referenced_from() const {
	return originally_referenced_from_;
	}

	bool should_generate() const { return should_generate_; }
	void set_should_generate(bool sg) { should_generate_ = sg; }

	bool resolved() const { return resolved_; }
	void set_resolved(bool r) { resolved_ = r; }

	bool can_resolve() const { return item_ && unresolved_count_ == 0; }

	// All records this one is depending on. Note that this includes gen_deps for
	// targets, which can have cycles.
	BuilderRecordSet& all_deps() { return all_deps_; }
	const BuilderRecordSet& all_deps() const { return all_deps_; }

	// Get the set of unresolved records this one depends on,
	// as a list sorted by label.
	std::vector<const BuilderRecord*> GetSortedUnresolvedDeps() const;

	// Call this method to notify the record that its dependency \|dep\| was
	// just resolved. This returns true to indicate that the current record
	// should now be resolved.
	bool OnResolvedDep(const BuilderRecord* dep);

	// Records that are waiting on this one to be resolved. This is the other
	// end of the "unresolved deps" arrow.
	BuilderRecordSet& waiting_on_resolution() { return waiting_on_resolution_; }
	const BuilderRecordSet& waiting_on_resolution() const {
	return waiting_on_resolution_;
	}

	void AddGenDep(BuilderRecord* record);
	void AddDep(BuilderRecord* record);

	// Comparator function used to sort records from their label.
	static bool LabelCompare(const BuilderRecord* a, const BuilderRecord* b) {
	return a->label_ < b->label_;
	}

	private:
	ItemType type_;
	bool should_generate_ = false;
	bool resolved_ = false;
	Label label_;
	std::unique_ptr<Item> item_;
	const ParseNode* originally_referenced_from_ = nullptr;

	size_t unresolved_count_ = 0;
	BuilderRecordSet all_deps_;
	BuilderRecordSet waiting_on_resolution_;

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

	#endif // TOOLS_GN_BUILDER_RECORD_H_