pkg/compiler/lib/src/ir/static_type_base.dart - sdk.git - Git at Google

 // Copyright (c) 2017, 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.

 import 'package:kernel/ast.dart' as ir;
 import 'package:kernel/class_hierarchy.dart' as ir;
 import 'package:kernel/core_types.dart' as ir;
 import 'package:kernel/type_algebra.dart' as ir;
 import 'package:kernel/type_environment.dart' as ir;

 /// Special bottom type used to signal that an expression or statement does
 /// not complete normally. This is the case for instance of throw expressions
 /// and return statements.
 class DoesNotCompleteType extends ir.BottomType {
   const DoesNotCompleteType();

   @override
   String toString() => 'DoesNotCompleteType()';
 }

 /// Special interface type used to signal that the static type of an expression
 /// has precision of a this-expression.
 class ThisInterfaceType extends ir.InterfaceType {
   ThisInterfaceType(ir.Class classNode, [List<ir.DartType> typeArguments])
       : super(classNode, typeArguments);

   factory ThisInterfaceType.from(ir.InterfaceType type) => type != null
       ? new ThisInterfaceType(type.classNode, type.typeArguments)
       : null;

   @override
   String toString() => 'this:${super.toString()}';
 }

 /// Special interface type used to signal that the static type of an expression
 /// is exact, i.e. the runtime type is not a subtype or subclass of the type.
 class ExactInterfaceType extends ir.InterfaceType {
   ExactInterfaceType(ir.Class classNode, [List<ir.DartType> typeArguments])
       : super(classNode, typeArguments);

   factory ExactInterfaceType.from(ir.InterfaceType type) => type != null
       ? new ExactInterfaceType(type.classNode, type.typeArguments)
       : null;

   @override
   String toString() => 'exact:${super.toString()}';
 }

 /// Base class for computing static types.
 ///
 /// This class uses the visitor pattern to compute the static type that are
 /// directly defined by the expression kind.
 ///
 /// Subclasses will compute the static type or use a cache to look up the static
 /// type of expression whose static type is not directly defined by the
 /// expression kind. For instance method invocations whose static type depend
 /// on the static types of the receiver and type arguments and the signature
 /// of the targeted procedure.
 abstract class StaticTypeBase extends ir.Visitor<ir.DartType> {
   final ir.TypeEnvironment _typeEnvironment;

   StaticTypeBase(this._typeEnvironment);

   fail(String message) => message;

   ir.TypeEnvironment get typeEnvironment => _typeEnvironment;

   ThisInterfaceType get thisType;

   @override
   ir.DartType defaultNode(ir.Node node) {
     return null;
   }

   ir.DartType visitNode(ir.Node node) {
     return node?.accept(this);
   }

   Null visitNodes(List<ir.Node> nodes) {
     for (ir.Node node in nodes) {
       visitNode(node);
     }
   }

   @override
   ir.DartType defaultExpression(ir.Expression node) {
     throw fail('Unhandled node $node (${node.runtimeType})');
   }

   @override
   ir.DartType visitAsExpression(ir.AsExpression node) {
     return node.type;
   }

   @override
   ir.DartType visitAwaitExpression(ir.AwaitExpression node) {
     return typeEnvironment.unfutureType(visitNode(node.operand));
   }

   @override
   ir.DartType visitBoolLiteral(ir.BoolLiteral node) => typeEnvironment.boolType;

   @override
   ir.DartType visitCheckLibraryIsLoaded(ir.CheckLibraryIsLoaded node) =>
       typeEnvironment.objectType;

   @override
   ir.DartType visitStringLiteral(ir.StringLiteral node) =>
       typeEnvironment.stringType;

   @override
   ir.DartType visitStringConcatenation(ir.StringConcatenation node) {
     return typeEnvironment.stringType;
   }

   @override
   ir.DartType visitNullLiteral(ir.NullLiteral node) => typeEnvironment.nullType;

   @override
   ir.DartType visitIntLiteral(ir.IntLiteral node) => typeEnvironment.intType;

   @override
   ir.DartType visitDoubleLiteral(ir.DoubleLiteral node) =>
       typeEnvironment.doubleType;

   @override
   ir.DartType visitSymbolLiteral(ir.SymbolLiteral node) =>
       typeEnvironment.symbolType;

   @override
   ir.DartType visitListLiteral(ir.ListLiteral node) {
     return typeEnvironment.literalListType(node.typeArgument);
   }

   @override
   ir.DartType visitSetLiteral(ir.SetLiteral node) {
     return typeEnvironment.literalSetType(node.typeArgument);
   }

   @override
   ir.DartType visitMapLiteral(ir.MapLiteral node) {
     return typeEnvironment.literalMapType(node.keyType, node.valueType);
   }

   @override
   ir.DartType visitVariableSet(ir.VariableSet node) {
     return visitNode(node.value);
   }

   @override
   ir.DartType visitPropertySet(ir.PropertySet node) {
     return visitNode(node.value);
   }

   @override
   ir.DartType visitDirectPropertySet(ir.DirectPropertySet node) {
     return visitNode(node.value);
   }

   @override
   ThisInterfaceType visitThisExpression(ir.ThisExpression node) => thisType;

   @override
   ir.DartType visitStaticGet(ir.StaticGet node) => node.target.getterType;

   @override
   ir.DartType visitStaticSet(ir.StaticSet node) {
     return visitNode(node.value);
   }

   @override
   ir.DartType visitSuperPropertySet(ir.SuperPropertySet node) {
     return visitNode(node.value);
   }

   @override
   ir.DartType visitThrow(ir.Throw node) => const DoesNotCompleteType();

   @override
   ir.DartType visitRethrow(ir.Rethrow node) => const DoesNotCompleteType();

   @override
   ir.DartType visitLogicalExpression(ir.LogicalExpression node) =>
       typeEnvironment.boolType;

   @override
   ir.DartType visitNot(ir.Not node) {
     return typeEnvironment.boolType;
   }

   @override
   ir.DartType visitConditionalExpression(ir.ConditionalExpression node) {
     return node.staticType;
   }

   @override
   ir.DartType visitIsExpression(ir.IsExpression node) {
     return typeEnvironment.boolType;
   }

   @override
   ir.DartType visitTypeLiteral(ir.TypeLiteral node) => typeEnvironment.typeType;

   @override
   ir.DartType visitFunctionExpression(ir.FunctionExpression node) {
     return node.function.functionType;
   }

   @override
   ir.DartType visitLet(ir.Let node) {
     return visitNode(node.body);
   }

   @override
   ir.DartType visitInvalidExpression(ir.InvalidExpression node) =>
       const DoesNotCompleteType();

   @override
   ir.DartType visitLoadLibrary(ir.LoadLibrary node) {
     return typeEnvironment.futureType(const ir.DynamicType());
   }

   @override
   ir.DartType visitConstantExpression(ir.ConstantExpression node) {
     // TODO(johnniwinther): Include interface exactness where applicable.
     return node.getStaticType(typeEnvironment);
   }
 }
	// Copyright (c) 2017, 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.

	import 'package:kernel/ast.dart' as ir;
	import 'package:kernel/class_hierarchy.dart' as ir;
	import 'package:kernel/core_types.dart' as ir;
	import 'package:kernel/type_algebra.dart' as ir;
	import 'package:kernel/type_environment.dart' as ir;

	/// Special bottom type used to signal that an expression or statement does
	/// not complete normally. This is the case for instance of throw expressions
	/// and return statements.
	class DoesNotCompleteType extends ir.BottomType {
	const DoesNotCompleteType();

	@override
	String toString() => 'DoesNotCompleteType()';
	}

	/// Special interface type used to signal that the static type of an expression
	/// has precision of a this-expression.
	class ThisInterfaceType extends ir.InterfaceType {
	ThisInterfaceType(ir.Class classNode, [List<ir.DartType> typeArguments])
	: super(classNode, typeArguments);

	factory ThisInterfaceType.from(ir.InterfaceType type) => type != null
	? new ThisInterfaceType(type.classNode, type.typeArguments)
	: null;

	@override
	String toString() => 'this:${super.toString()}';
	}

	/// Special interface type used to signal that the static type of an expression
	/// is exact, i.e. the runtime type is not a subtype or subclass of the type.
	class ExactInterfaceType extends ir.InterfaceType {
	ExactInterfaceType(ir.Class classNode, [List<ir.DartType> typeArguments])
	: super(classNode, typeArguments);

	factory ExactInterfaceType.from(ir.InterfaceType type) => type != null
	? new ExactInterfaceType(type.classNode, type.typeArguments)
	: null;

	@override
	String toString() => 'exact:${super.toString()}';
	}

	/// Base class for computing static types.
	///
	/// This class uses the visitor pattern to compute the static type that are
	/// directly defined by the expression kind.
	///
	/// Subclasses will compute the static type or use a cache to look up the static
	/// type of expression whose static type is not directly defined by the
	/// expression kind. For instance method invocations whose static type depend
	/// on the static types of the receiver and type arguments and the signature
	/// of the targeted procedure.
	abstract class StaticTypeBase extends ir.Visitor<ir.DartType> {
	final ir.TypeEnvironment _typeEnvironment;

	StaticTypeBase(this._typeEnvironment);

	fail(String message) => message;

	ir.TypeEnvironment get typeEnvironment => _typeEnvironment;

	ThisInterfaceType get thisType;

	@override
	ir.DartType defaultNode(ir.Node node) {
	return null;
	}

	ir.DartType visitNode(ir.Node node) {
	return node?.accept(this);
	}

	Null visitNodes(List<ir.Node> nodes) {
	for (ir.Node node in nodes) {
	visitNode(node);
	}
	}

	@override
	ir.DartType defaultExpression(ir.Expression node) {
	throw fail('Unhandled node $node (${node.runtimeType})');
	}

	@override
	ir.DartType visitAsExpression(ir.AsExpression node) {
	return node.type;
	}

	@override
	ir.DartType visitAwaitExpression(ir.AwaitExpression node) {
	return typeEnvironment.unfutureType(visitNode(node.operand));
	}

	@override
	ir.DartType visitBoolLiteral(ir.BoolLiteral node) => typeEnvironment.boolType;

	@override
	ir.DartType visitCheckLibraryIsLoaded(ir.CheckLibraryIsLoaded node) =>
	typeEnvironment.objectType;

	@override
	ir.DartType visitStringLiteral(ir.StringLiteral node) =>
	typeEnvironment.stringType;

	@override
	ir.DartType visitStringConcatenation(ir.StringConcatenation node) {
	return typeEnvironment.stringType;
	}

	@override
	ir.DartType visitNullLiteral(ir.NullLiteral node) => typeEnvironment.nullType;

	@override
	ir.DartType visitIntLiteral(ir.IntLiteral node) => typeEnvironment.intType;

	@override
	ir.DartType visitDoubleLiteral(ir.DoubleLiteral node) =>
	typeEnvironment.doubleType;

	@override
	ir.DartType visitSymbolLiteral(ir.SymbolLiteral node) =>
	typeEnvironment.symbolType;

	@override
	ir.DartType visitListLiteral(ir.ListLiteral node) {
	return typeEnvironment.literalListType(node.typeArgument);
	}

	@override
	ir.DartType visitSetLiteral(ir.SetLiteral node) {
	return typeEnvironment.literalSetType(node.typeArgument);
	}

	@override
	ir.DartType visitMapLiteral(ir.MapLiteral node) {
	return typeEnvironment.literalMapType(node.keyType, node.valueType);
	}

	@override
	ir.DartType visitVariableSet(ir.VariableSet node) {
	return visitNode(node.value);
	}

	@override
	ir.DartType visitPropertySet(ir.PropertySet node) {
	return visitNode(node.value);
	}

	@override
	ir.DartType visitDirectPropertySet(ir.DirectPropertySet node) {
	return visitNode(node.value);
	}

	@override
	ThisInterfaceType visitThisExpression(ir.ThisExpression node) => thisType;

	@override
	ir.DartType visitStaticGet(ir.StaticGet node) => node.target.getterType;

	@override
	ir.DartType visitStaticSet(ir.StaticSet node) {
	return visitNode(node.value);
	}

	@override
	ir.DartType visitSuperPropertySet(ir.SuperPropertySet node) {
	return visitNode(node.value);
	}

	@override
	ir.DartType visitThrow(ir.Throw node) => const DoesNotCompleteType();

	@override
	ir.DartType visitRethrow(ir.Rethrow node) => const DoesNotCompleteType();

	@override
	ir.DartType visitLogicalExpression(ir.LogicalExpression node) =>
	typeEnvironment.boolType;

	@override
	ir.DartType visitNot(ir.Not node) {
	return typeEnvironment.boolType;
	}

	@override
	ir.DartType visitConditionalExpression(ir.ConditionalExpression node) {
	return node.staticType;
	}

	@override
	ir.DartType visitIsExpression(ir.IsExpression node) {
	return typeEnvironment.boolType;
	}

	@override
	ir.DartType visitTypeLiteral(ir.TypeLiteral node) => typeEnvironment.typeType;

	@override
	ir.DartType visitFunctionExpression(ir.FunctionExpression node) {
	return node.function.functionType;
	}

	@override
	ir.DartType visitLet(ir.Let node) {
	return visitNode(node.body);
	}

	@override
	ir.DartType visitInvalidExpression(ir.InvalidExpression node) =>
	const DoesNotCompleteType();

	@override
	ir.DartType visitLoadLibrary(ir.LoadLibrary node) {
	return typeEnvironment.futureType(const ir.DynamicType());
	}

	@override
	ir.DartType visitConstantExpression(ir.ConstantExpression node) {
	// TODO(johnniwinther): Include interface exactness where applicable.
	return node.getStaticType(typeEnvironment);
	}
	}