src/interface.cc - platform/external/chromium_org/v8 - Git at Google

 // Copyright 2012 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.

 #include "src/v8.h"

 #include "src/interface.h"

 namespace v8 {
 namespace internal {

 static bool Match(void* key1, void* key2) {
   String* name1 = *static_cast<String**>(key1);
   String* name2 = *static_cast<String**>(key2);
   ASSERT(name1->IsInternalizedString());
   ASSERT(name2->IsInternalizedString());
   return name1 == name2;
 }


 Interface* Interface::Lookup(Handle<String> name, Zone* zone) {
   ASSERT(IsModule());
   ZoneHashMap* map = Chase()->exports_;
   if (map == NULL) return NULL;
   ZoneAllocationPolicy allocator(zone);
   ZoneHashMap::Entry* p = map->Lookup(name.location(), name->Hash(), false,
                                       allocator);
   if (p == NULL) return NULL;
   ASSERT(*static_cast<String**>(p->key) == *name);
   ASSERT(p->value != NULL);
   return static_cast<Interface*>(p->value);
 }


 #ifdef DEBUG
 // Current nesting depth for debug output.
 class Nesting {
  public:
   Nesting()  { current_ += 2; }
   ~Nesting() { current_ -= 2; }
   static int current() { return current_; }
  private:
   static int current_;
 };

 int Nesting::current_ = 0;
 #endif


 void Interface::DoAdd(
     void* name, uint32_t hash, Interface* interface, Zone* zone, bool* ok) {
   MakeModule(ok);
   if (!*ok) return;

 #ifdef DEBUG
   if (FLAG_print_interface_details) {
     PrintF("%*s# Adding...\n", Nesting::current(), "");
     PrintF("%*sthis = ", Nesting::current(), "");
     this->Print(Nesting::current());
     PrintF("%*s%s : ", Nesting::current(), "",
            (*static_cast<String**>(name))->ToAsciiArray());
     interface->Print(Nesting::current());
   }
 #endif

   ZoneHashMap** map = &Chase()->exports_;
   ZoneAllocationPolicy allocator(zone);

   if (*map == NULL) {
     *map = new(zone->New(sizeof(ZoneHashMap)))
         ZoneHashMap(Match, ZoneHashMap::kDefaultHashMapCapacity, allocator);
   }

   ZoneHashMap::Entry* p = (*map)->Lookup(name, hash, !IsFrozen(), allocator);
   if (p == NULL) {
     // This didn't have name but was frozen already, that's an error.
     *ok = false;
   } else if (p->value == NULL) {
     p->value = interface;
   } else {
 #ifdef DEBUG
     Nesting nested;
 #endif
     static_cast<Interface*>(p->value)->Unify(interface, zone, ok);
   }

 #ifdef DEBUG
   if (FLAG_print_interface_details) {
     PrintF("%*sthis' = ", Nesting::current(), "");
     this->Print(Nesting::current());
     PrintF("%*s# Added.\n", Nesting::current(), "");
   }
 #endif
 }


 void Interface::Unify(Interface* that, Zone* zone, bool* ok) {
   if (this->forward_) return this->Chase()->Unify(that, zone, ok);
   if (that->forward_) return this->Unify(that->Chase(), zone, ok);
   ASSERT(this->forward_ == NULL);
   ASSERT(that->forward_ == NULL);

   *ok = true;
   if (this == that) return;
   if (this->IsValue()) {
     that->MakeValue(ok);
     if (*ok && this->IsConst()) that->MakeConst(ok);
     return;
   }
   if (that->IsValue()) {
     this->MakeValue(ok);
     if (*ok && that->IsConst()) this->MakeConst(ok);
     return;
   }

 #ifdef DEBUG
   if (FLAG_print_interface_details) {
     PrintF("%*s# Unifying...\n", Nesting::current(), "");
     PrintF("%*sthis = ", Nesting::current(), "");
     this->Print(Nesting::current());
     PrintF("%*sthat = ", Nesting::current(), "");
     that->Print(Nesting::current());
   }
 #endif

   // Merge the smaller interface into the larger, for performance.
   if (this->exports_ != NULL && (that->exports_ == NULL ||
       this->exports_->occupancy() >= that->exports_->occupancy())) {
     this->DoUnify(that, ok, zone);
   } else {
     that->DoUnify(this, ok, zone);
   }

 #ifdef DEBUG
   if (FLAG_print_interface_details) {
     PrintF("%*sthis' = ", Nesting::current(), "");
     this->Print(Nesting::current());
     PrintF("%*sthat' = ", Nesting::current(), "");
     that->Print(Nesting::current());
     PrintF("%*s# Unified.\n", Nesting::current(), "");
   }
 #endif
 }


 void Interface::DoUnify(Interface* that, bool* ok, Zone* zone) {
   ASSERT(this->forward_ == NULL);
   ASSERT(that->forward_ == NULL);
   ASSERT(!this->IsValue());
   ASSERT(!that->IsValue());
   ASSERT(this->index_ == -1);
   ASSERT(that->index_ == -1);
   ASSERT(*ok);

 #ifdef DEBUG
     Nesting nested;
 #endif

   // Try to merge all members from that into this.
   ZoneHashMap* map = that->exports_;
   if (map != NULL) {
     for (ZoneHashMap::Entry* p = map->Start(); p != NULL; p = map->Next(p)) {
       this->DoAdd(p->key, p->hash, static_cast<Interface*>(p->value), zone, ok);
       if (!*ok) return;
     }
   }

   // If the new interface is larger than that's, then there were members in
   // 'this' which 'that' didn't have. If 'that' was frozen that is an error.
   int this_size = this->exports_ == NULL ? 0 : this->exports_->occupancy();
   int that_size = map == NULL ? 0 : map->occupancy();
   if (that->IsFrozen() && this_size > that_size) {
     *ok = false;
     return;
   }

   // Merge interfaces.
   this->flags_ |= that->flags_;
   that->forward_ = this;
 }


 #ifdef DEBUG
 void Interface::Print(int n) {
   int n0 = n > 0 ? n : 0;

   if (FLAG_print_interface_details) {
     PrintF("%p", static_cast<void*>(this));
     for (Interface* link = this->forward_; link != NULL; link = link->forward_)
       PrintF("->%p", static_cast<void*>(link));
     PrintF(" ");
   }

   if (IsUnknown()) {
     PrintF("unknown\n");
   } else if (IsConst()) {
     PrintF("const\n");
   } else if (IsValue()) {
     PrintF("value\n");
   } else if (IsModule()) {
     PrintF("module %d %s{", Index(), IsFrozen() ? "" : "(unresolved) ");
     ZoneHashMap* map = Chase()->exports_;
     if (map == NULL || map->occupancy() == 0) {
       PrintF("}\n");
     } else if (n < 0 || n0 >= 2 * FLAG_print_interface_depth) {
       // Avoid infinite recursion on cyclic types.
       PrintF("...}\n");
     } else {
       PrintF("\n");
       for (ZoneHashMap::Entry* p = map->Start(); p != NULL; p = map->Next(p)) {
         String* name = *static_cast<String**>(p->key);
         Interface* interface = static_cast<Interface*>(p->value);
         PrintF("%*s%s : ", n0 + 2, "", name->ToAsciiArray());
         interface->Print(n0 + 2);
       }
       PrintF("%*s}\n", n0, "");
     }
   }
 }
 #endif

 } }  // namespace v8::internal
	// Copyright 2012 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.

	#include "src/v8.h"

	#include "src/interface.h"

	namespace v8 {
	namespace internal {

	static bool Match(void* key1, void* key2) {
	String* name1 = static_cast<String*>(key1);
	String* name2 = static_cast<String*>(key2);
	ASSERT(name1->IsInternalizedString());
	ASSERT(name2->IsInternalizedString());
	return name1 == name2;
	}


	Interface* Interface::Lookup(Handle<String> name, Zone* zone) {
	ASSERT(IsModule());
	ZoneHashMap* map = Chase()->exports_;
	if (map == NULL) return NULL;
	ZoneAllocationPolicy allocator(zone);
	ZoneHashMap::Entry* p = map->Lookup(name.location(), name->Hash(), false,
	allocator);
	if (p == NULL) return NULL;
	ASSERT(static_cast<String>(p->key) == name);
	ASSERT(p->value != NULL);
	return static_cast<Interface*>(p->value);
	}


	#ifdef DEBUG
	// Current nesting depth for debug output.
	class Nesting {
	public:
	Nesting() { current_ += 2; }
	~Nesting() { current_ -= 2; }
	static int current() { return current_; }
	private:
	static int current_;
	};

	int Nesting::current_ = 0;
	#endif


	void Interface::DoAdd(
	void* name, uint32_t hash, Interface* interface, Zone* zone, bool* ok) {
	MakeModule(ok);
	if (!*ok) return;

	#ifdef DEBUG
	if (FLAG_print_interface_details) {
	PrintF("%*s# Adding...\n", Nesting::current(), "");
	PrintF("%*sthis = ", Nesting::current(), "");
	this->Print(Nesting::current());
	PrintF("%*s%s : ", Nesting::current(), "",
	(static_cast<String*>(name))->ToAsciiArray());
	interface->Print(Nesting::current());
	}
	#endif

	ZoneHashMap** map = &Chase()->exports_;
	ZoneAllocationPolicy allocator(zone);

	if (*map == NULL) {
	*map = new(zone->New(sizeof(ZoneHashMap)))
	ZoneHashMap(Match, ZoneHashMap::kDefaultHashMapCapacity, allocator);
	}

	ZoneHashMap::Entry* p = (*map)->Lookup(name, hash, !IsFrozen(), allocator);
	if (p == NULL) {
	// This didn't have name but was frozen already, that's an error.
	*ok = false;
	} else if (p->value == NULL) {
	p->value = interface;
	} else {
	#ifdef DEBUG
	Nesting nested;
	#endif
	static_cast<Interface*>(p->value)->Unify(interface, zone, ok);
	}

	#ifdef DEBUG
	if (FLAG_print_interface_details) {
	PrintF("%*sthis' = ", Nesting::current(), "");
	this->Print(Nesting::current());
	PrintF("%*s# Added.\n", Nesting::current(), "");
	}
	#endif
	}


	void Interface::Unify(Interface* that, Zone* zone, bool* ok) {
	if (this->forward_) return this->Chase()->Unify(that, zone, ok);
	if (that->forward_) return this->Unify(that->Chase(), zone, ok);
	ASSERT(this->forward_ == NULL);
	ASSERT(that->forward_ == NULL);

	*ok = true;
	if (this == that) return;
	if (this->IsValue()) {
	that->MakeValue(ok);
	if (*ok && this->IsConst()) that->MakeConst(ok);
	return;
	}
	if (that->IsValue()) {
	this->MakeValue(ok);
	if (*ok && that->IsConst()) this->MakeConst(ok);
	return;
	}

	#ifdef DEBUG
	if (FLAG_print_interface_details) {
	PrintF("%*s# Unifying...\n", Nesting::current(), "");
	PrintF("%*sthis = ", Nesting::current(), "");
	this->Print(Nesting::current());
	PrintF("%*sthat = ", Nesting::current(), "");
	that->Print(Nesting::current());
	}
	#endif

	// Merge the smaller interface into the larger, for performance.
	if (this->exports_ != NULL && (that->exports_ == NULL \|\|
	this->exports_->occupancy() >= that->exports_->occupancy())) {
	this->DoUnify(that, ok, zone);
	} else {
	that->DoUnify(this, ok, zone);
	}

	#ifdef DEBUG
	if (FLAG_print_interface_details) {
	PrintF("%*sthis' = ", Nesting::current(), "");
	this->Print(Nesting::current());
	PrintF("%*sthat' = ", Nesting::current(), "");
	that->Print(Nesting::current());
	PrintF("%*s# Unified.\n", Nesting::current(), "");
	}
	#endif
	}


	void Interface::DoUnify(Interface* that, bool* ok, Zone* zone) {
	ASSERT(this->forward_ == NULL);
	ASSERT(that->forward_ == NULL);
	ASSERT(!this->IsValue());
	ASSERT(!that->IsValue());
	ASSERT(this->index_ == -1);
	ASSERT(that->index_ == -1);
	ASSERT(*ok);

	#ifdef DEBUG
	Nesting nested;
	#endif

	// Try to merge all members from that into this.
	ZoneHashMap* map = that->exports_;
	if (map != NULL) {
	for (ZoneHashMap::Entry* p = map->Start(); p != NULL; p = map->Next(p)) {
	this->DoAdd(p->key, p->hash, static_cast<Interface*>(p->value), zone, ok);
	if (!*ok) return;
	}
	}

	// If the new interface is larger than that's, then there were members in
	// 'this' which 'that' didn't have. If 'that' was frozen that is an error.
	int this_size = this->exports_ == NULL ? 0 : this->exports_->occupancy();
	int that_size = map == NULL ? 0 : map->occupancy();
	if (that->IsFrozen() && this_size > that_size) {
	*ok = false;
	return;
	}

	// Merge interfaces.
	this->flags_ \|= that->flags_;
	that->forward_ = this;
	}


	#ifdef DEBUG
	void Interface::Print(int n) {
	int n0 = n > 0 ? n : 0;

	if (FLAG_print_interface_details) {
	PrintF("%p", static_cast<void*>(this));
	for (Interface* link = this->forward_; link != NULL; link = link->forward_)
	PrintF("->%p", static_cast<void*>(link));
	PrintF(" ");
	}

	if (IsUnknown()) {
	PrintF("unknown\n");
	} else if (IsConst()) {
	PrintF("const\n");
	} else if (IsValue()) {
	PrintF("value\n");
	} else if (IsModule()) {
	PrintF("module %d %s{", Index(), IsFrozen() ? "" : "(unresolved) ");
	ZoneHashMap* map = Chase()->exports_;
	if (map == NULL \|\| map->occupancy() == 0) {
	PrintF("}\n");
	} else if (n < 0 \|\| n0 >= 2 * FLAG_print_interface_depth) {
	// Avoid infinite recursion on cyclic types.
	PrintF("...}\n");
	} else {
	PrintF("\n");
	for (ZoneHashMap::Entry* p = map->Start(); p != NULL; p = map->Next(p)) {
	String* name = static_cast<String*>(p->key);
	Interface* interface = static_cast<Interface*>(p->value);
	PrintF("%*s%s : ", n0 + 2, "", name->ToAsciiArray());
	interface->Print(n0 + 2);
	}
	PrintF("%*s}\n", n0, "");
	}
	}
	}
	#endif

	} } // namespace v8::internal