pkg/front_end/lib/src/fasta/kernel/kernel_function_type_alias_builder.dart - sdk.git - Git at Google

 // Copyright (c) 2016, 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.

 library fasta.kernel_function_type_alias_builder;

 import 'package:kernel/ast.dart'
     show
         DartType,
         DynamicType,
         FunctionType,
         InvalidType,
         TypeParameter,
         Typedef,
         VariableDeclaration;

 import 'package:kernel/type_algebra.dart'
     show FreshTypeParameters, getFreshTypeParameters, substitute;

 import '../fasta_codes.dart'
     show noLength, templateCyclicTypedef, templateTypeArgumentMismatch;

 import '../problems.dart' show unhandled;

 import 'kernel_builder.dart'
     show
         FunctionTypeAliasBuilder,
         KernelFormalParameterBuilder,
         KernelFunctionTypeBuilder,
         KernelTypeBuilder,
         KernelTypeVariableBuilder,
         LibraryBuilder,
         MetadataBuilder,
         TypeVariableBuilder;

 class KernelFunctionTypeAliasBuilder
     extends FunctionTypeAliasBuilder<KernelFunctionTypeBuilder, DartType> {
   final bool hasTarget = true;
   final Typedef target;

   DartType thisType;

   KernelFunctionTypeAliasBuilder(
       List<MetadataBuilder> metadata,
       String name,
       List<TypeVariableBuilder> typeVariables,
       KernelFunctionTypeBuilder type,
       LibraryBuilder parent,
       int charOffset,
       [Typedef target])
       : target = target ??
             (new Typedef(name, null, fileUri: parent.target.fileUri)
               ..fileOffset = charOffset),
         super(metadata, name, typeVariables, type, parent, charOffset);

   Typedef build(LibraryBuilder libraryBuilder) {
     target..type ??= buildThisType(libraryBuilder);

     if (type != null) {
       List<TypeParameter> typeParameters =
           new List<TypeParameter>(type.typeVariables?.length ?? 0);
       for (int i = 0; i < typeParameters.length; ++i) {
         KernelTypeVariableBuilder typeVariable = type.typeVariables[i];
         typeParameters[i] = typeVariable.parameter;
       }
       FreshTypeParameters freshTypeParameters =
           getFreshTypeParameters(typeParameters);
       target.typeParametersOfFunctionType
           .addAll(freshTypeParameters.freshTypeParameters);

       if (type.formals != null) {
         for (KernelFormalParameterBuilder formal in type.formals) {
           VariableDeclaration parameter = formal.build(libraryBuilder);
           parameter.type = freshTypeParameters.substitute(parameter.type);
           if (formal.isNamed) {
             target.namedParameters.add(parameter);
           } else {
             target.positionalParameters.add(parameter);
           }
         }
       }
     }

     return target;
   }

   DartType buildThisType(LibraryBuilder library) {
     if (thisType != null) {
       if (const InvalidType() == thisType) {
         library.addCompileTimeError(templateCyclicTypedef.withArguments(name),
             charOffset, noLength, fileUri);
         return const DynamicType();
       }
       return thisType;
     }
     thisType = const InvalidType();
     FunctionType builtType = type?.build(library);
     if (builtType != null) {
       builtType.typedefReference = target.reference;
       if (typeVariables != null) {
         for (KernelTypeVariableBuilder tv in typeVariables) {
           // Follow bound in order to find all cycles
           tv.bound?.build(library);
           target.typeParameters.add(tv.parameter..parent = target);
         }
       }
       return thisType = builtType;
     } else {
       return thisType = const DynamicType();
     }
   }

   /// [arguments] have already been built.
   DartType buildTypesWithBuiltArguments(
       LibraryBuilder library, List<DartType> arguments) {
     var thisType = buildThisType(library);
     if (const DynamicType() == thisType) return thisType;
     FunctionType result = thisType;
     if (target.typeParameters.isEmpty && arguments == null) return result;
     Map<TypeParameter, DartType> substitution = <TypeParameter, DartType>{};
     for (int i = 0; i < target.typeParameters.length; i++) {
       substitution[target.typeParameters[i]] = arguments[i];
     }
     return substitute(result, substitution);
   }

   List<DartType> buildTypeArguments(
       LibraryBuilder library, List<KernelTypeBuilder> arguments) {
     if (arguments == null && typeVariables == null) {
       return <DartType>[];
     }

     if (arguments == null && typeVariables != null) {
       List<DartType> result =
           new List<DartType>.filled(typeVariables.length, null, growable: true);
       for (int i = 0; i < result.length; ++i) {
         result[i] = typeVariables[i].defaultType.build(library);
       }
       return result;
     }

     if (arguments != null && arguments.length != (typeVariables?.length ?? 0)) {
       // That should be caught and reported as a compile-time error earlier.
       return unhandled(
           templateTypeArgumentMismatch
               .withArguments(name, typeVariables.length)
               .message,
           "buildTypeArguments",
           -1,
           null);
     }

     // arguments.length == typeVariables.length
     List<DartType> result =
         new List<DartType>.filled(arguments.length, null, growable: true);
     for (int i = 0; i < result.length; ++i) {
       result[i] = arguments[i].build(library);
     }
     return result;
   }

   /// If [arguments] are null, the default types for the variables are used.
   @override
   int get typeVariablesCount => typeVariables?.length ?? 0;

   @override
   DartType buildType(
       LibraryBuilder library, List<KernelTypeBuilder> arguments) {
     var thisType = buildThisType(library);
     if (thisType is DynamicType) return thisType;
     FunctionType result = thisType;
     if (target.typeParameters.isEmpty && arguments == null) return result;
     // Otherwise, substitute.
     return buildTypesWithBuiltArguments(
         library, buildTypeArguments(library, arguments));
   }
 }
	// Copyright (c) 2016, 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.

	library fasta.kernel_function_type_alias_builder;

	import 'package:kernel/ast.dart'
	show
	DartType,
	DynamicType,
	FunctionType,
	InvalidType,
	TypeParameter,
	Typedef,
	VariableDeclaration;

	import 'package:kernel/type_algebra.dart'
	show FreshTypeParameters, getFreshTypeParameters, substitute;

	import '../fasta_codes.dart'
	show noLength, templateCyclicTypedef, templateTypeArgumentMismatch;

	import '../problems.dart' show unhandled;

	import 'kernel_builder.dart'
	show
	FunctionTypeAliasBuilder,
	KernelFormalParameterBuilder,
	KernelFunctionTypeBuilder,
	KernelTypeBuilder,
	KernelTypeVariableBuilder,
	LibraryBuilder,
	MetadataBuilder,
	TypeVariableBuilder;

	class KernelFunctionTypeAliasBuilder
	extends FunctionTypeAliasBuilder<KernelFunctionTypeBuilder, DartType> {
	final bool hasTarget = true;
	final Typedef target;

	DartType thisType;

	KernelFunctionTypeAliasBuilder(
	List<MetadataBuilder> metadata,
	String name,
	List<TypeVariableBuilder> typeVariables,
	KernelFunctionTypeBuilder type,
	LibraryBuilder parent,
	int charOffset,
	[Typedef target])
	: target = target ??
	(new Typedef(name, null, fileUri: parent.target.fileUri)
	..fileOffset = charOffset),
	super(metadata, name, typeVariables, type, parent, charOffset);

	Typedef build(LibraryBuilder libraryBuilder) {
	target..type ??= buildThisType(libraryBuilder);

	if (type != null) {
	List<TypeParameter> typeParameters =
	new List<TypeParameter>(type.typeVariables?.length ?? 0);
	for (int i = 0; i < typeParameters.length; ++i) {
	KernelTypeVariableBuilder typeVariable = type.typeVariables[i];
	typeParameters[i] = typeVariable.parameter;
	}
	FreshTypeParameters freshTypeParameters =
	getFreshTypeParameters(typeParameters);
	target.typeParametersOfFunctionType
	.addAll(freshTypeParameters.freshTypeParameters);

	if (type.formals != null) {
	for (KernelFormalParameterBuilder formal in type.formals) {
	VariableDeclaration parameter = formal.build(libraryBuilder);
	parameter.type = freshTypeParameters.substitute(parameter.type);
	if (formal.isNamed) {
	target.namedParameters.add(parameter);
	} else {
	target.positionalParameters.add(parameter);
	}
	}
	}
	}

	return target;
	}

	DartType buildThisType(LibraryBuilder library) {
	if (thisType != null) {
	if (const InvalidType() == thisType) {
	library.addCompileTimeError(templateCyclicTypedef.withArguments(name),
	charOffset, noLength, fileUri);
	return const DynamicType();
	}
	return thisType;
	}
	thisType = const InvalidType();
	FunctionType builtType = type?.build(library);
	if (builtType != null) {
	builtType.typedefReference = target.reference;
	if (typeVariables != null) {
	for (KernelTypeVariableBuilder tv in typeVariables) {
	// Follow bound in order to find all cycles
	tv.bound?.build(library);
	target.typeParameters.add(tv.parameter..parent = target);
	}
	}
	return thisType = builtType;
	} else {
	return thisType = const DynamicType();
	}
	}

	/// [arguments] have already been built.
	DartType buildTypesWithBuiltArguments(
	LibraryBuilder library, List<DartType> arguments) {
	var thisType = buildThisType(library);
	if (const DynamicType() == thisType) return thisType;
	FunctionType result = thisType;
	if (target.typeParameters.isEmpty && arguments == null) return result;
	Map<TypeParameter, DartType> substitution = <TypeParameter, DartType>{};
	for (int i = 0; i < target.typeParameters.length; i++) {
	substitution[target.typeParameters[i]] = arguments[i];
	}
	return substitute(result, substitution);
	}

	List<DartType> buildTypeArguments(
	LibraryBuilder library, List<KernelTypeBuilder> arguments) {
	if (arguments == null && typeVariables == null) {
	return <DartType>[];
	}

	if (arguments == null && typeVariables != null) {
	List<DartType> result =
	new List<DartType>.filled(typeVariables.length, null, growable: true);
	for (int i = 0; i < result.length; ++i) {
	result[i] = typeVariables[i].defaultType.build(library);
	}
	return result;
	}

	if (arguments != null && arguments.length != (typeVariables?.length ?? 0)) {
	// That should be caught and reported as a compile-time error earlier.
	return unhandled(
	templateTypeArgumentMismatch
	.withArguments(name, typeVariables.length)
	.message,
	"buildTypeArguments",
	-1,
	null);
	}

	// arguments.length == typeVariables.length
	List<DartType> result =
	new List<DartType>.filled(arguments.length, null, growable: true);
	for (int i = 0; i < result.length; ++i) {
	result[i] = arguments[i].build(library);
	}
	return result;
	}

	/// If [arguments] are null, the default types for the variables are used.
	@override
	int get typeVariablesCount => typeVariables?.length ?? 0;

	@override
	DartType buildType(
	LibraryBuilder library, List<KernelTypeBuilder> arguments) {
	var thisType = buildThisType(library);
	if (thisType is DynamicType) return thisType;
	FunctionType result = thisType;
	if (target.typeParameters.isEmpty && arguments == null) return result;
	// Otherwise, substitute.
	return buildTypesWithBuiltArguments(
	library, buildTypeArguments(library, arguments));
	}
	}