runtime/vm/canonical_tables.cc - sdk - Git at Google

 // Copyright (c) 2020, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/canonical_tables.h"

 #include "vm/regexp.h"

 namespace dart {

 bool MetadataMapTraits::IsMatch(const Object& a, const Object& b) {
   // In the absence of hot reload, this can just be an identity check. With
   // reload, some old program elements may be retained by the stack, closures
   // or mirrors, which are absent from the new version of the library's
   // metadata table. This name-based matching fuzzy maps the old program
   // elements to corresponding new elements, preserving the behavior of the old
   // metaname+fields scheme.
   if (a.IsLibrary() && b.IsLibrary()) {
     const String& url_a = String::Handle(Library::Cast(a).url());
     const String& url_b = String::Handle(Library::Cast(b).url());
     return url_a.Equals(url_b);
   } else if (a.IsClass() && b.IsClass()) {
     const String& name_a = String::Handle(Class::Cast(a).Name());
     const String& name_b = String::Handle(Class::Cast(b).Name());
     return name_a.Equals(name_b);
   } else if (a.IsFunction() && b.IsFunction()) {
     const String& name_a = String::Handle(Function::Cast(a).name());
     const String& name_b = String::Handle(Function::Cast(b).name());
     if (!name_a.Equals(name_b)) {
       return false;
     }
     const Object& owner_a = Object::Handle(Function::Cast(a).Owner());
     const Object& owner_b = Object::Handle(Function::Cast(b).Owner());
     return IsMatch(owner_a, owner_b);
   } else if (a.IsField() && b.IsField()) {
     const String& name_a = String::Handle(Field::Cast(a).name());
     const String& name_b = String::Handle(Field::Cast(b).name());
     if (!name_a.Equals(name_b)) {
       return false;
     }
     const Object& owner_a = Object::Handle(Field::Cast(a).Owner());
     const Object& owner_b = Object::Handle(Field::Cast(b).Owner());
     return IsMatch(owner_a, owner_b);
   } else if (a.IsTypeParameter() && b.IsTypeParameter()) {
     if (TypeParameter::Cast(a).index() != TypeParameter::Cast(b).index() ||
         TypeParameter::Cast(a).base() != TypeParameter::Cast(b).base()) {
       return false;
     }
     return TypeParameter::Cast(a).parameterized_class_id() ==
            TypeParameter::Cast(b).parameterized_class_id();
   }
   return a.ptr() == b.ptr();
 }

 uword MetadataMapTraits::Hash(const Object& key) {
   if (key.IsLibrary()) {
     return String::Hash(Library::Cast(key).url());
   } else if (key.IsClass()) {
     return String::Hash(Class::Cast(key).Name());
   } else if (key.IsFunction()) {
     return CombineHashes(String::Hash(Function::Cast(key).name()),
                          Hash(Object::Handle(Function::Cast(key).Owner())));
   } else if (key.IsField()) {
     return CombineHashes(String::Hash(Field::Cast(key).name()),
                          Hash(Object::Handle(Field::Cast(key).Owner())));
   } else if (key.IsTypeParameter()) {
     return TypeParameter::Cast(key).Hash();
   } else if (key.IsNamespace()) {
     return Hash(Library::Handle(Namespace::Cast(key).target()));
   }
   UNREACHABLE();
 }

 CanonicalInstanceKey::CanonicalInstanceKey(const Instance& key) : key_(key) {
   ASSERT(!(key.IsString() || key.IsAbstractType()));
 }

 bool CanonicalInstanceKey::Matches(const Instance& obj) const {
   ASSERT(!(obj.IsString() || obj.IsAbstractType()));
   if (key_.CanonicalizeEquals(obj)) {
     ASSERT(obj.IsCanonical());
     return true;
   }
   return false;
 }

 uword CanonicalInstanceKey::Hash() const {
   return key_.CanonicalizeHash();
 }

 bool CanonicalInstanceTraits::IsMatch(const Object& a, const Object& b) {
   ASSERT(!(a.IsString() || a.IsAbstractType()));
   ASSERT(!(b.IsString() || b.IsAbstractType()));
   return a.ptr() == b.ptr();
 }

 bool CanonicalInstanceTraits::IsMatch(const CanonicalInstanceKey& a,
                                       const Object& b) {
   return a.Matches(Instance::Cast(b));
 }

 uword CanonicalInstanceTraits::Hash(const Object& key) {
   ASSERT(!(key.IsString() || key.IsAbstractType()));
   ASSERT(key.IsInstance());
   return Instance::Cast(key).CanonicalizeHash();
 }

 uword CanonicalInstanceTraits::Hash(const CanonicalInstanceKey& key) {
   return key.Hash();
 }

 ObjectPtr CanonicalInstanceTraits::NewKey(const CanonicalInstanceKey& obj) {
   return obj.key_.ptr();
 }

 ObjectPtr CanonicalRegExpTraits::NewKey(const RegExpKey& key) {
   return RegExpEngine::CreateRegExp(Thread::Current(), key.pattern_,
                                     key.flags_);
 }

 }  // namespace dart
	// Copyright (c) 2020, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/canonical_tables.h"

	#include "vm/regexp.h"

	namespace dart {

	bool MetadataMapTraits::IsMatch(const Object& a, const Object& b) {
	// In the absence of hot reload, this can just be an identity check. With
	// reload, some old program elements may be retained by the stack, closures
	// or mirrors, which are absent from the new version of the library's
	// metadata table. This name-based matching fuzzy maps the old program
	// elements to corresponding new elements, preserving the behavior of the old
	// metaname+fields scheme.
	if (a.IsLibrary() && b.IsLibrary()) {
	const String& url_a = String::Handle(Library::Cast(a).url());
	const String& url_b = String::Handle(Library::Cast(b).url());
	return url_a.Equals(url_b);
	} else if (a.IsClass() && b.IsClass()) {
	const String& name_a = String::Handle(Class::Cast(a).Name());
	const String& name_b = String::Handle(Class::Cast(b).Name());
	return name_a.Equals(name_b);
	} else if (a.IsFunction() && b.IsFunction()) {
	const String& name_a = String::Handle(Function::Cast(a).name());
	const String& name_b = String::Handle(Function::Cast(b).name());
	if (!name_a.Equals(name_b)) {
	return false;
	}
	const Object& owner_a = Object::Handle(Function::Cast(a).Owner());
	const Object& owner_b = Object::Handle(Function::Cast(b).Owner());
	return IsMatch(owner_a, owner_b);
	} else if (a.IsField() && b.IsField()) {
	const String& name_a = String::Handle(Field::Cast(a).name());
	const String& name_b = String::Handle(Field::Cast(b).name());
	if (!name_a.Equals(name_b)) {
	return false;
	}
	const Object& owner_a = Object::Handle(Field::Cast(a).Owner());
	const Object& owner_b = Object::Handle(Field::Cast(b).Owner());
	return IsMatch(owner_a, owner_b);
	} else if (a.IsTypeParameter() && b.IsTypeParameter()) {
	if (TypeParameter::Cast(a).index() != TypeParameter::Cast(b).index() \|\|
	TypeParameter::Cast(a).base() != TypeParameter::Cast(b).base()) {
	return false;
	}
	return TypeParameter::Cast(a).parameterized_class_id() ==
	TypeParameter::Cast(b).parameterized_class_id();
	}
	return a.ptr() == b.ptr();
	}

	uword MetadataMapTraits::Hash(const Object& key) {
	if (key.IsLibrary()) {
	return String::Hash(Library::Cast(key).url());
	} else if (key.IsClass()) {
	return String::Hash(Class::Cast(key).Name());
	} else if (key.IsFunction()) {
	return CombineHashes(String::Hash(Function::Cast(key).name()),
	Hash(Object::Handle(Function::Cast(key).Owner())));
	} else if (key.IsField()) {
	return CombineHashes(String::Hash(Field::Cast(key).name()),
	Hash(Object::Handle(Field::Cast(key).Owner())));
	} else if (key.IsTypeParameter()) {
	return TypeParameter::Cast(key).Hash();
	} else if (key.IsNamespace()) {
	return Hash(Library::Handle(Namespace::Cast(key).target()));
	}
	UNREACHABLE();
	}

	CanonicalInstanceKey::CanonicalInstanceKey(const Instance& key) : key_(key) {
	ASSERT(!(key.IsString() \|\| key.IsAbstractType()));
	}

	bool CanonicalInstanceKey::Matches(const Instance& obj) const {
	ASSERT(!(obj.IsString() \|\| obj.IsAbstractType()));
	if (key_.CanonicalizeEquals(obj)) {
	ASSERT(obj.IsCanonical());
	return true;
	}
	return false;
	}

	uword CanonicalInstanceKey::Hash() const {
	return key_.CanonicalizeHash();
	}

	bool CanonicalInstanceTraits::IsMatch(const Object& a, const Object& b) {
	ASSERT(!(a.IsString() \|\| a.IsAbstractType()));
	ASSERT(!(b.IsString() \|\| b.IsAbstractType()));
	return a.ptr() == b.ptr();
	}

	bool CanonicalInstanceTraits::IsMatch(const CanonicalInstanceKey& a,
	const Object& b) {
	return a.Matches(Instance::Cast(b));
	}

	uword CanonicalInstanceTraits::Hash(const Object& key) {
	ASSERT(!(key.IsString() \|\| key.IsAbstractType()));
	ASSERT(key.IsInstance());
	return Instance::Cast(key).CanonicalizeHash();
	}

	uword CanonicalInstanceTraits::Hash(const CanonicalInstanceKey& key) {
	return key.Hash();
	}

	ObjectPtr CanonicalInstanceTraits::NewKey(const CanonicalInstanceKey& obj) {
	return obj.key_.ptr();
	}

	ObjectPtr CanonicalRegExpTraits::NewKey(const RegExpKey& key) {
	return RegExpEngine::CreateRegExp(Thread::Current(), key.pattern_,
	key.flags_);
	}

	} // namespace dart