src/effects.h - platform/external/chromium_org/v8 - Git at Google

 // Copyright 2013 the V8 project 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 V8_EFFECTS_H_
 #define V8_EFFECTS_H_

 #include "src/v8.h"

 #include "src/types.h"

 namespace v8 {
 namespace internal {


 // A simple struct to represent (write) effects. A write is represented as a
 // modification of type bounds (e.g. of a variable).
 //
 // An effect can either be definite, if the write is known to have taken place,
 // or 'possible', if it was optional. The difference is relevant when composing
 // effects.
 //
 // There are two ways to compose effects: sequentially (they happen one after
 // the other) or alternatively (either one or the other happens). A definite
 // effect cancels out any previous effect upon sequencing. A possible effect
 // merges into a previous effect, i.e., type bounds are merged. Alternative
 // composition always merges bounds. It yields a possible effect if at least
 // one was only possible.
 struct Effect {
   enum Modality { POSSIBLE, DEFINITE };

   Modality modality;
   Bounds bounds;

   Effect() : modality(DEFINITE) {}
   explicit Effect(Bounds b, Modality m = DEFINITE) : modality(m), bounds(b) {}

   // The unknown effect.
   static Effect Unknown(Zone* zone) {
     return Effect(Bounds::Unbounded(zone), POSSIBLE);
   }

   static Effect Forget(Zone* zone) {
     return Effect(Bounds::Unbounded(zone), DEFINITE);
   }

   // Sequential composition, as in 'e1; e2'.
   static Effect Seq(Effect e1, Effect e2, Zone* zone) {
     if (e2.modality == DEFINITE) return e2;
     return Effect(Bounds::Either(e1.bounds, e2.bounds, zone), e1.modality);
   }

   // Alternative composition, as in 'cond ? e1 : e2'.
   static Effect Alt(Effect e1, Effect e2, Zone* zone) {
     return Effect(
         Bounds::Either(e1.bounds, e2.bounds, zone),
         e1.modality == POSSIBLE ? POSSIBLE : e2.modality);
   }
 };


 // Classes encapsulating sets of effects on variables.
 //
 // Effects maps variables to effects and supports sequential and alternative
 // composition.
 //
 // NestedEffects is an incremental representation that supports persistence
 // through functional extension. It represents the map as an adjoin of a list
 // of maps, whose tail can be shared.
 //
 // Both classes provide similar interfaces, implemented in parts through the
 // EffectsMixin below (using sandwich style, to work around the style guide's
 // MI restriction).
 //
 // We also (ab)use Effects/NestedEffects as a representation for abstract
 // store typings. In that case, only definite effects are of interest.

 template<class Var, class Base, class Effects>
 class EffectsMixin: public Base {
  public:
   explicit EffectsMixin(Zone* zone) : Base(zone) {}

   Effect Lookup(Var var) {
     Locator locator;
     return this->Find(var, &locator)
         ? locator.value() : Effect::Unknown(Base::zone());
   }

   Bounds LookupBounds(Var var) {
     Effect effect = Lookup(var);
     return effect.modality == Effect::DEFINITE
         ? effect.bounds : Bounds::Unbounded(Base::zone());
   }

   // Sequential composition.
   void Seq(Var var, Effect effect) {
     Locator locator;
     if (!this->Insert(var, &locator)) {
       effect = Effect::Seq(locator.value(), effect, Base::zone());
     }
     locator.set_value(effect);
   }

   void Seq(Effects that) {
     SeqMerger<EffectsMixin> merge = { *this };
     that.ForEach(&merge);
   }

   // Alternative composition.
   void Alt(Var var, Effect effect) {
     Locator locator;
     if (!this->Insert(var, &locator)) {
       effect = Effect::Alt(locator.value(), effect, Base::zone());
     }
     locator.set_value(effect);
   }

   void Alt(Effects that) {
     AltWeakener<EffectsMixin> weaken = { *this, that };
     this->ForEach(&weaken);
     AltMerger<EffectsMixin> merge = { *this };
     that.ForEach(&merge);
   }

   // Invalidation.
   void Forget() {
     Overrider override = {
         Effect::Forget(Base::zone()), Effects(Base::zone()) };
     this->ForEach(&override);
     Seq(override.effects);
   }

  protected:
   typedef typename Base::Locator Locator;

   template<class Self>
   struct SeqMerger {
     void Call(Var var, Effect effect) { self.Seq(var, effect); }
     Self self;
   };

   template<class Self>
   struct AltMerger {
     void Call(Var var, Effect effect) { self.Alt(var, effect); }
     Self self;
   };

   template<class Self>
   struct AltWeakener {
     void Call(Var var, Effect effect) {
       if (effect.modality == Effect::DEFINITE && !other.Contains(var)) {
         effect.modality = Effect::POSSIBLE;
         Locator locator;
         self.Insert(var, &locator);
         locator.set_value(effect);
       }
     }
     Self self;
     Effects other;
   };

   struct Overrider {
     void Call(Var var, Effect effect) { effects.Seq(var, new_effect); }
     Effect new_effect;
     Effects effects;
   };
 };


 template<class Var, Var kNoVar> class Effects;
 template<class Var, Var kNoVar> class NestedEffectsBase;

 template<class Var, Var kNoVar>
 class EffectsBase {
  public:
   explicit EffectsBase(Zone* zone) : map_(new(zone) Mapping(zone)) {}

   bool IsEmpty() { return map_->is_empty(); }

  protected:
   friend class NestedEffectsBase<Var, kNoVar>;
   friend class
       EffectsMixin<Var, NestedEffectsBase<Var, kNoVar>, Effects<Var, kNoVar> >;

   Zone* zone() { return map_->allocator().zone(); }

   struct SplayTreeConfig {
     typedef Var Key;
     typedef Effect Value;
     static const Var kNoKey = kNoVar;
     static Effect NoValue() { return Effect(); }
     static int Compare(int x, int y) { return y - x; }
   };
   typedef ZoneSplayTree<SplayTreeConfig> Mapping;
   typedef typename Mapping::Locator Locator;

   bool Contains(Var var) {
     DCHECK(var != kNoVar);
     return map_->Contains(var);
   }
   bool Find(Var var, Locator* locator) {
     DCHECK(var != kNoVar);
     return map_->Find(var, locator);
   }
   bool Insert(Var var, Locator* locator) {
     DCHECK(var != kNoVar);
     return map_->Insert(var, locator);
   }

   template<class Callback>
   void ForEach(Callback* callback) {
     return map_->ForEach(callback);
   }

  private:
   Mapping* map_;
 };

 template<class Var, Var kNoVar>
 const Var EffectsBase<Var, kNoVar>::SplayTreeConfig::kNoKey;

 template<class Var, Var kNoVar>
 class Effects: public
     EffectsMixin<Var, EffectsBase<Var, kNoVar>, Effects<Var, kNoVar> > {
  public:
   explicit Effects(Zone* zone)
       : EffectsMixin<Var, EffectsBase<Var, kNoVar>, Effects<Var, kNoVar> >(zone)
           {}
 };


 template<class Var, Var kNoVar>
 class NestedEffectsBase {
  public:
   explicit NestedEffectsBase(Zone* zone) : node_(new(zone) Node(zone)) {}

   template<class Callback>
   void ForEach(Callback* callback) {
     if (node_->previous) NestedEffectsBase(node_->previous).ForEach(callback);
     node_->effects.ForEach(callback);
   }

   Effects<Var, kNoVar> Top() { return node_->effects; }

   bool IsEmpty() {
     for (Node* node = node_; node != NULL; node = node->previous) {
       if (!node->effects.IsEmpty()) return false;
     }
     return true;
   }

  protected:
   typedef typename EffectsBase<Var, kNoVar>::Locator Locator;

   Zone* zone() { return node_->zone; }

   void push() { node_ = new(node_->zone) Node(node_->zone, node_); }
   void pop() { node_ = node_->previous; }
   bool is_empty() { return node_ == NULL; }

   bool Contains(Var var) {
     DCHECK(var != kNoVar);
     for (Node* node = node_; node != NULL; node = node->previous) {
       if (node->effects.Contains(var)) return true;
     }
     return false;
   }

   bool Find(Var var, Locator* locator) {
     DCHECK(var != kNoVar);
     for (Node* node = node_; node != NULL; node = node->previous) {
       if (node->effects.Find(var, locator)) return true;
     }
     return false;
   }

   bool Insert(Var var, Locator* locator);

  private:
   struct Node: ZoneObject {
     Zone* zone;
     Effects<Var, kNoVar> effects;
     Node* previous;
     explicit Node(Zone* zone, Node* previous = NULL)
         : zone(zone), effects(zone), previous(previous) {}
   };

   explicit NestedEffectsBase(Node* node) : node_(node) {}

   Node* node_;
 };


 template<class Var, Var kNoVar>
 bool NestedEffectsBase<Var, kNoVar>::Insert(Var var, Locator* locator) {
   DCHECK(var != kNoVar);
   if (!node_->effects.Insert(var, locator)) return false;
   Locator shadowed;
   for (Node* node = node_->previous; node != NULL; node = node->previous) {
     if (node->effects.Find(var, &shadowed)) {
       // Initialize with shadowed entry.
       locator->set_value(shadowed.value());
       return false;
     }
   }
   return true;
 }


 template<class Var, Var kNoVar>
 class NestedEffects: public
     EffectsMixin<Var, NestedEffectsBase<Var, kNoVar>, Effects<Var, kNoVar> > {
  public:
   explicit NestedEffects(Zone* zone) :
       EffectsMixin<Var, NestedEffectsBase<Var, kNoVar>, Effects<Var, kNoVar> >(
           zone) {}

   // Create an extension of the current effect set. The current set should not
   // be modified while the extension is in use.
   NestedEffects Push() {
     NestedEffects result = *this;
     result.push();
     return result;
   }

   NestedEffects Pop() {
     NestedEffects result = *this;
     result.pop();
     DCHECK(!this->is_empty());
     return result;
   }
 };

 } }  // namespace v8::internal

 #endif  // V8_EFFECTS_H_
	// Copyright 2013 the V8 project 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 V8_EFFECTS_H_
	#define V8_EFFECTS_H_

	#include "src/v8.h"

	#include "src/types.h"

	namespace v8 {
	namespace internal {


	// A simple struct to represent (write) effects. A write is represented as a
	// modification of type bounds (e.g. of a variable).
	//
	// An effect can either be definite, if the write is known to have taken place,
	// or 'possible', if it was optional. The difference is relevant when composing
	// effects.
	//
	// There are two ways to compose effects: sequentially (they happen one after
	// the other) or alternatively (either one or the other happens). A definite
	// effect cancels out any previous effect upon sequencing. A possible effect
	// merges into a previous effect, i.e., type bounds are merged. Alternative
	// composition always merges bounds. It yields a possible effect if at least
	// one was only possible.
	struct Effect {
	enum Modality { POSSIBLE, DEFINITE };

	Modality modality;
	Bounds bounds;

	Effect() : modality(DEFINITE) {}
	explicit Effect(Bounds b, Modality m = DEFINITE) : modality(m), bounds(b) {}

	// The unknown effect.
	static Effect Unknown(Zone* zone) {
	return Effect(Bounds::Unbounded(zone), POSSIBLE);
	}

	static Effect Forget(Zone* zone) {
	return Effect(Bounds::Unbounded(zone), DEFINITE);
	}

	// Sequential composition, as in 'e1; e2'.
	static Effect Seq(Effect e1, Effect e2, Zone* zone) {
	if (e2.modality == DEFINITE) return e2;
	return Effect(Bounds::Either(e1.bounds, e2.bounds, zone), e1.modality);
	}

	// Alternative composition, as in 'cond ? e1 : e2'.
	static Effect Alt(Effect e1, Effect e2, Zone* zone) {
	return Effect(
	Bounds::Either(e1.bounds, e2.bounds, zone),
	e1.modality == POSSIBLE ? POSSIBLE : e2.modality);
	}
	};


	// Classes encapsulating sets of effects on variables.
	//
	// Effects maps variables to effects and supports sequential and alternative
	// composition.
	//
	// NestedEffects is an incremental representation that supports persistence
	// through functional extension. It represents the map as an adjoin of a list
	// of maps, whose tail can be shared.
	//
	// Both classes provide similar interfaces, implemented in parts through the
	// EffectsMixin below (using sandwich style, to work around the style guide's
	// MI restriction).
	//
	// We also (ab)use Effects/NestedEffects as a representation for abstract
	// store typings. In that case, only definite effects are of interest.

	template<class Var, class Base, class Effects>
	class EffectsMixin: public Base {
	public:
	explicit EffectsMixin(Zone* zone) : Base(zone) {}

	Effect Lookup(Var var) {
	Locator locator;
	return this->Find(var, &locator)
	? locator.value() : Effect::Unknown(Base::zone());
	}

	Bounds LookupBounds(Var var) {
	Effect effect = Lookup(var);
	return effect.modality == Effect::DEFINITE
	? effect.bounds : Bounds::Unbounded(Base::zone());
	}

	// Sequential composition.
	void Seq(Var var, Effect effect) {
	Locator locator;
	if (!this->Insert(var, &locator)) {
	effect = Effect::Seq(locator.value(), effect, Base::zone());
	}
	locator.set_value(effect);
	}

	void Seq(Effects that) {
	SeqMerger<EffectsMixin> merge = { *this };
	that.ForEach(&merge);
	}

	// Alternative composition.
	void Alt(Var var, Effect effect) {
	Locator locator;
	if (!this->Insert(var, &locator)) {
	effect = Effect::Alt(locator.value(), effect, Base::zone());
	}
	locator.set_value(effect);
	}

	void Alt(Effects that) {
	AltWeakener<EffectsMixin> weaken = { *this, that };
	this->ForEach(&weaken);
	AltMerger<EffectsMixin> merge = { *this };
	that.ForEach(&merge);
	}

	// Invalidation.
	void Forget() {
	Overrider override = {
	Effect::Forget(Base::zone()), Effects(Base::zone()) };
	this->ForEach(&override);
	Seq(override.effects);
	}

	protected:
	typedef typename Base::Locator Locator;

	template<class Self>
	struct SeqMerger {
	void Call(Var var, Effect effect) { self.Seq(var, effect); }
	Self self;
	};

	template<class Self>
	struct AltMerger {
	void Call(Var var, Effect effect) { self.Alt(var, effect); }
	Self self;
	};

	template<class Self>
	struct AltWeakener {
	void Call(Var var, Effect effect) {
	if (effect.modality == Effect::DEFINITE && !other.Contains(var)) {
	effect.modality = Effect::POSSIBLE;
	Locator locator;
	self.Insert(var, &locator);
	locator.set_value(effect);
	}
	}
	Self self;
	Effects other;
	};

	struct Overrider {
	void Call(Var var, Effect effect) { effects.Seq(var, new_effect); }
	Effect new_effect;
	Effects effects;
	};
	};


	template<class Var, Var kNoVar> class Effects;
	template<class Var, Var kNoVar> class NestedEffectsBase;

	template<class Var, Var kNoVar>
	class EffectsBase {
	public:
	explicit EffectsBase(Zone* zone) : map_(new(zone) Mapping(zone)) {}

	bool IsEmpty() { return map_->is_empty(); }

	protected:
	friend class NestedEffectsBase<Var, kNoVar>;
	friend class
	EffectsMixin<Var, NestedEffectsBase<Var, kNoVar>, Effects<Var, kNoVar> >;

	Zone* zone() { return map_->allocator().zone(); }

	struct SplayTreeConfig {
	typedef Var Key;
	typedef Effect Value;
	static const Var kNoKey = kNoVar;
	static Effect NoValue() { return Effect(); }
	static int Compare(int x, int y) { return y - x; }
	};
	typedef ZoneSplayTree<SplayTreeConfig> Mapping;
	typedef typename Mapping::Locator Locator;

	bool Contains(Var var) {
	DCHECK(var != kNoVar);
	return map_->Contains(var);
	}
	bool Find(Var var, Locator* locator) {
	DCHECK(var != kNoVar);
	return map_->Find(var, locator);
	}
	bool Insert(Var var, Locator* locator) {
	DCHECK(var != kNoVar);
	return map_->Insert(var, locator);
	}

	template<class Callback>
	void ForEach(Callback* callback) {
	return map_->ForEach(callback);
	}

	private:
	Mapping* map_;
	};

	template<class Var, Var kNoVar>
	const Var EffectsBase<Var, kNoVar>::SplayTreeConfig::kNoKey;

	template<class Var, Var kNoVar>
	class Effects: public
	EffectsMixin<Var, EffectsBase<Var, kNoVar>, Effects<Var, kNoVar> > {
	public:
	explicit Effects(Zone* zone)
	: EffectsMixin<Var, EffectsBase<Var, kNoVar>, Effects<Var, kNoVar> >(zone)
	{}
	};


	template<class Var, Var kNoVar>
	class NestedEffectsBase {
	public:
	explicit NestedEffectsBase(Zone* zone) : node_(new(zone) Node(zone)) {}

	template<class Callback>
	void ForEach(Callback* callback) {
	if (node_->previous) NestedEffectsBase(node_->previous).ForEach(callback);
	node_->effects.ForEach(callback);
	}

	Effects<Var, kNoVar> Top() { return node_->effects; }

	bool IsEmpty() {
	for (Node* node = node_; node != NULL; node = node->previous) {
	if (!node->effects.IsEmpty()) return false;
	}
	return true;
	}

	protected:
	typedef typename EffectsBase<Var, kNoVar>::Locator Locator;

	Zone* zone() { return node_->zone; }

	void push() { node_ = new(node_->zone) Node(node_->zone, node_); }
	void pop() { node_ = node_->previous; }
	bool is_empty() { return node_ == NULL; }

	bool Contains(Var var) {
	DCHECK(var != kNoVar);
	for (Node* node = node_; node != NULL; node = node->previous) {
	if (node->effects.Contains(var)) return true;
	}
	return false;
	}

	bool Find(Var var, Locator* locator) {
	DCHECK(var != kNoVar);
	for (Node* node = node_; node != NULL; node = node->previous) {
	if (node->effects.Find(var, locator)) return true;
	}
	return false;
	}

	bool Insert(Var var, Locator* locator);

	private:
	struct Node: ZoneObject {
	Zone* zone;
	Effects<Var, kNoVar> effects;
	Node* previous;
	explicit Node(Zone* zone, Node* previous = NULL)
	: zone(zone), effects(zone), previous(previous) {}
	};

	explicit NestedEffectsBase(Node* node) : node_(node) {}

	Node* node_;
	};


	template<class Var, Var kNoVar>
	bool NestedEffectsBase<Var, kNoVar>::Insert(Var var, Locator* locator) {
	DCHECK(var != kNoVar);
	if (!node_->effects.Insert(var, locator)) return false;
	Locator shadowed;
	for (Node* node = node_->previous; node != NULL; node = node->previous) {
	if (node->effects.Find(var, &shadowed)) {
	// Initialize with shadowed entry.
	locator->set_value(shadowed.value());
	return false;
	}
	}
	return true;
	}


	template<class Var, Var kNoVar>
	class NestedEffects: public
	EffectsMixin<Var, NestedEffectsBase<Var, kNoVar>, Effects<Var, kNoVar> > {
	public:
	explicit NestedEffects(Zone* zone) :
	EffectsMixin<Var, NestedEffectsBase<Var, kNoVar>, Effects<Var, kNoVar> >(
	zone) {}

	// Create an extension of the current effect set. The current set should not
	// be modified while the extension is in use.
	NestedEffects Push() {
	NestedEffects result = *this;
	result.push();
	return result;
	}

	NestedEffects Pop() {
	NestedEffects result = *this;
	result.pop();
	DCHECK(!this->is_empty());
	return result;
	}
	};

	} } // namespace v8::internal

	#endif // V8_EFFECTS_H_