tests/compiler/dart2js/inference/type_mask_disjoint_test.dart - sdk - Git at Google

 // Copyright (c) 2013, 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:async_helper/async_helper.dart';
 import 'package:expect/expect.dart';
 import 'package:compiler/src/common_elements.dart';
 import 'package:compiler/src/compiler.dart';
 import 'package:compiler/src/elements/entities.dart';
 import 'package:compiler/src/inferrer/typemasks/masks.dart';
 import 'package:compiler/src/world.dart';

 import '../helpers/memory_compiler.dart';

 const String CODE = """
 class A {}
 class B extends A {}
 class C extends A {}

 class D implements A {}

 class E {}
 class F extends E {}
 class G implements E {}

 class H {}
 class I implements H {}
 class J extends D implements I {}

 class K {}
 class M extends K with A {}

 class N extends H with I {}

 main() {
   print([new A(), new B(), new C(), new D(), new E(), new F(), new G(),
       new H(), new I(), new J(), new K(), new M(), new N()]);
 }
 """;

 main() {
   runTests() async {
     CompilationResult result =
         await runCompiler(memorySourceFiles: {'main.dart': CODE});
     Expect.isTrue(result.isSuccess);
     Compiler compiler = result.compiler;
     JClosedWorld world = compiler.backendClosedWorldForTesting;
     ElementEnvironment elementEnvironment = world.elementEnvironment;

     /// Checks the expectation of `isDisjoint` for two mask. Also checks that
     /// the result is consistent with an equivalent (but slower) implementation
     /// based on intersection.
     checkMask(TypeMask m1, TypeMask m2, {areDisjoint: false}) {
       print('masks: $m1 $m2');
       Expect.equals(areDisjoint, m1.isDisjoint(m2, world));
       Expect.equals(areDisjoint, m2.isDisjoint(m1, world));
       var i1 = m1.intersection(m2, world);
       Expect.equals(areDisjoint, i1.isEmpty && !i1.isNullable);
       var i2 = m2.intersection(m1, world);
       Expect.equals(areDisjoint, i2.isEmpty && !i2.isNullable);
     }

     Map _maskCache = {};
     Map _elementCache = {};

     /// Parses a descriptor of a flat mask. A descriptor is of the form "AXY"
     /// where:
     ///   A: either a type T or " " (base class or empty)
     ///   X: can be either ! or " " (nullable/nonnullable)
     ///   Y: can be either " " (no flag), = (exact), < (subclass), * (subtype)
     ///
     /// Examples:
     ///   "-! " - empty, non-null
     ///   "-  " - null
     ///   "Type!=" - non-null exact Type
     ///   "Type =" - nullable exact Type
     ///   "Type!<" - non-null subclass of Type
     ///   "Type!*" - non-null subtype of Type
     TypeMask maskOf(String descriptor) =>
         _maskCache.putIfAbsent(descriptor, () {
           Expect.isTrue(descriptor.length >= 3);
           var type = descriptor.substring(0, descriptor.length - 2);
           bool isNullable = descriptor[descriptor.length - 2] != '!';
           bool isExact = descriptor[descriptor.length - 1] == '=';
           bool isSubclass = descriptor[descriptor.length - 1] == '<';
           bool isSubtype = descriptor[descriptor.length - 1] == '*';

           if (type == " ") {
             Expect.isFalse(isExact || isSubclass || isSubtype);
             return isNullable
                 ? new TypeMask.empty()
                 : new TypeMask.nonNullEmpty();
           }

           Expect.isTrue(isExact || isSubclass || isSubtype);
           var element = _elementCache.putIfAbsent(type, () {
             if (type == " ") return null;
             ClassEntity cls = elementEnvironment.lookupClass(
                 elementEnvironment.mainLibrary, type);
             Expect.isNotNull(cls, "No class '$type' found.");
             return cls;
           });

           var mask = isExact
               ? new TypeMask.nonNullExact(element, world)
               : (isSubclass
                   ? new TypeMask.nonNullSubclass(element, world)
                   : new TypeMask.nonNullSubtype(element, world));
           return isNullable ? mask.nullable() : mask;
         });

     /// Checks the expectation of `isDisjoint` for two mask descriptors (see
     /// [maskOf] for details).
     check(String typeMaskDescriptor1, String typeMaskDescriptor2,
         {areDisjoint: true}) {
       print('[$typeMaskDescriptor1] & [$typeMaskDescriptor2]');
       checkMask(maskOf(typeMaskDescriptor1), maskOf(typeMaskDescriptor2),
           areDisjoint: areDisjoint);
     }

     checkUnions(List<String> descriptors1, List<String> descriptors2,
         {areDisjoint: true}) {
       print('[$descriptors1] & [$descriptors2]');
       var m1 = new TypeMask.unionOf(descriptors1.map(maskOf).toList(), world);
       var m2 = new TypeMask.unionOf(descriptors2.map(maskOf).toList(), world);
       checkMask(m1, m2, areDisjoint: areDisjoint);
     }

     // Empty
     check(' ! ', ' ! '); // both non-null
     check(' ! ', '   '); // one non-null
     check('   ', ' ! '); // one non-null
     check('   ', '   ', areDisjoint: false); // null is common

     // Exact
     check('A!=', 'A!=', areDisjoint: false);
     check('A!=', 'B!=');
     check('A!=', 'E!=');
     check('A =', 'E =', areDisjoint: false); // null is common
     check('M!=', 'K!=');
     check('M!=', 'A!=');

     // Exact with subclass
     check('A!=', 'A!<', areDisjoint: false);
     check('B!=', 'A!<', areDisjoint: false);
     check('A!=', 'B!<');
     check('A!=', 'E!<');
     check('A =', 'E!<');
     check('A =', 'E <', areDisjoint: false);
     check('M!=', 'K!<', areDisjoint: false);
     check('M!=', 'A!<');

     // Exact with subtype
     check('A!=', 'A!*', areDisjoint: false);
     check('B!=', 'A!*', areDisjoint: false);
     check('A!=', 'B!*');
     check('A!=', 'E!*');
     check('A!=', 'I!*');
     check('J!=', 'H!*', areDisjoint: false);
     check('M!=', 'K!*', areDisjoint: false);
     check('M!=', 'A!*', areDisjoint: false);

     // Subclass with subclass
     check('A!<', 'A!<', areDisjoint: false);
     check('A!<', 'B!<', areDisjoint: false);
     check('A!<', 'E!<');
     check('A!<', 'H!<');
     check('D!<', 'I!<');
     check('H!<', 'I!*', areDisjoint: false);

     // Subclass with subtype
     check('A!<', 'A!*', areDisjoint: false);
     check('A!<', 'B!*', areDisjoint: false);
     check('A!<', 'E!*');
     check('A!<', 'H!*');
     check('D!<', 'I!*', areDisjoint: false);

     // Subtype with subtype
     check('A!*', 'A!*', areDisjoint: false);
     check('A!*', 'B!*', areDisjoint: false);
     check('A!*', 'E!*');
     check('A!*', 'H!*', areDisjoint: false);
     check('D!*', 'I!*', areDisjoint: false);

     // Unions!
     checkUnions(['B!=', 'C!='], ['A!=']);
     checkUnions(['B!=', 'C!='], ['A =']);
     checkUnions(['B!=', 'C ='], ['A ='], areDisjoint: false);

     checkUnions(['B!=', 'C!='], ['A!<'], areDisjoint: false);
     checkUnions(['B!=', 'C!='], ['B!='], areDisjoint: false);
     checkUnions(['A!<', 'E!<'], ['C!='], areDisjoint: false);
     checkUnions(['A!<', 'E!<'], ['F!='], areDisjoint: false);

     checkUnions(['A!=', 'E!='], ['C!=', 'F!=']);
     checkUnions(['A!=', 'E!='], ['A!=', 'F!='], areDisjoint: false);
     checkUnions(['B!=', 'E!='], ['A!<', 'F!='], areDisjoint: false);
     checkUnions(['A!<', 'E!<'], ['C!=', 'F!='], areDisjoint: false);
     checkUnions(['A!=', 'E!='], ['C!=', 'F!=']);
   }

   asyncTest(() async {
     print('--test from kernel------------------------------------------------');
     await runTests();
   });
 }
	// Copyright (c) 2013, 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:async_helper/async_helper.dart';
	import 'package:expect/expect.dart';
	import 'package:compiler/src/common_elements.dart';
	import 'package:compiler/src/compiler.dart';
	import 'package:compiler/src/elements/entities.dart';
	import 'package:compiler/src/inferrer/typemasks/masks.dart';
	import 'package:compiler/src/world.dart';

	import '../helpers/memory_compiler.dart';

	const String CODE = """
	class A {}
	class B extends A {}
	class C extends A {}

	class D implements A {}

	class E {}
	class F extends E {}
	class G implements E {}

	class H {}
	class I implements H {}
	class J extends D implements I {}

	class K {}
	class M extends K with A {}

	class N extends H with I {}

	main() {
	print([new A(), new B(), new C(), new D(), new E(), new F(), new G(),
	new H(), new I(), new J(), new K(), new M(), new N()]);
	}
	""";

	main() {
	runTests() async {
	CompilationResult result =
	await runCompiler(memorySourceFiles: {'main.dart': CODE});
	Expect.isTrue(result.isSuccess);
	Compiler compiler = result.compiler;
	JClosedWorld world = compiler.backendClosedWorldForTesting;
	ElementEnvironment elementEnvironment = world.elementEnvironment;

	/// Checks the expectation of `isDisjoint` for two mask. Also checks that
	/// the result is consistent with an equivalent (but slower) implementation
	/// based on intersection.
	checkMask(TypeMask m1, TypeMask m2, {areDisjoint: false}) {
	print('masks: $m1 $m2');
	Expect.equals(areDisjoint, m1.isDisjoint(m2, world));
	Expect.equals(areDisjoint, m2.isDisjoint(m1, world));
	var i1 = m1.intersection(m2, world);
	Expect.equals(areDisjoint, i1.isEmpty && !i1.isNullable);
	var i2 = m2.intersection(m1, world);
	Expect.equals(areDisjoint, i2.isEmpty && !i2.isNullable);
	}

	Map _maskCache = {};
	Map _elementCache = {};

	/// Parses a descriptor of a flat mask. A descriptor is of the form "AXY"
	/// where:
	/// A: either a type T or " " (base class or empty)
	/// X: can be either ! or " " (nullable/nonnullable)
	/// Y: can be either " " (no flag), = (exact), < (subclass), * (subtype)
	///
	/// Examples:
	/// "-! " - empty, non-null
	/// "- " - null
	/// "Type!=" - non-null exact Type
	/// "Type =" - nullable exact Type
	/// "Type!<" - non-null subclass of Type
	/// "Type!*" - non-null subtype of Type
	TypeMask maskOf(String descriptor) =>
	_maskCache.putIfAbsent(descriptor, () {
	Expect.isTrue(descriptor.length >= 3);
	var type = descriptor.substring(0, descriptor.length - 2);
	bool isNullable = descriptor[descriptor.length - 2] != '!';
	bool isExact = descriptor[descriptor.length - 1] == '=';
	bool isSubclass = descriptor[descriptor.length - 1] == '<';
	bool isSubtype = descriptor[descriptor.length - 1] == '*';

	if (type == " ") {
	Expect.isFalse(isExact \|\| isSubclass \|\| isSubtype);
	return isNullable
	? new TypeMask.empty()
	: new TypeMask.nonNullEmpty();
	}

	Expect.isTrue(isExact \|\| isSubclass \|\| isSubtype);
	var element = _elementCache.putIfAbsent(type, () {
	if (type == " ") return null;
	ClassEntity cls = elementEnvironment.lookupClass(
	elementEnvironment.mainLibrary, type);
	Expect.isNotNull(cls, "No class '$type' found.");
	return cls;
	});

	var mask = isExact
	? new TypeMask.nonNullExact(element, world)
	: (isSubclass
	? new TypeMask.nonNullSubclass(element, world)
	: new TypeMask.nonNullSubtype(element, world));
	return isNullable ? mask.nullable() : mask;
	});

	/// Checks the expectation of `isDisjoint` for two mask descriptors (see
	/// [maskOf] for details).
	check(String typeMaskDescriptor1, String typeMaskDescriptor2,
	{areDisjoint: true}) {
	print('[$typeMaskDescriptor1] & [$typeMaskDescriptor2]');
	checkMask(maskOf(typeMaskDescriptor1), maskOf(typeMaskDescriptor2),
	areDisjoint: areDisjoint);
	}

	checkUnions(List<String> descriptors1, List<String> descriptors2,
	{areDisjoint: true}) {
	print('[$descriptors1] & [$descriptors2]');
	var m1 = new TypeMask.unionOf(descriptors1.map(maskOf).toList(), world);
	var m2 = new TypeMask.unionOf(descriptors2.map(maskOf).toList(), world);
	checkMask(m1, m2, areDisjoint: areDisjoint);
	}

	// Empty
	check(' ! ', ' ! '); // both non-null
	check(' ! ', ' '); // one non-null
	check(' ', ' ! '); // one non-null
	check(' ', ' ', areDisjoint: false); // null is common

	// Exact
	check('A!=', 'A!=', areDisjoint: false);
	check('A!=', 'B!=');
	check('A!=', 'E!=');
	check('A =', 'E =', areDisjoint: false); // null is common
	check('M!=', 'K!=');
	check('M!=', 'A!=');

	// Exact with subclass
	check('A!=', 'A!<', areDisjoint: false);
	check('B!=', 'A!<', areDisjoint: false);
	check('A!=', 'B!<');
	check('A!=', 'E!<');
	check('A =', 'E!<');
	check('A =', 'E <', areDisjoint: false);
	check('M!=', 'K!<', areDisjoint: false);
	check('M!=', 'A!<');

	// Exact with subtype
	check('A!=', 'A!*', areDisjoint: false);
	check('B!=', 'A!*', areDisjoint: false);
	check('A!=', 'B!*');
	check('A!=', 'E!*');
	check('A!=', 'I!*');
	check('J!=', 'H!*', areDisjoint: false);
	check('M!=', 'K!*', areDisjoint: false);
	check('M!=', 'A!*', areDisjoint: false);

	// Subclass with subclass
	check('A!<', 'A!<', areDisjoint: false);
	check('A!<', 'B!<', areDisjoint: false);
	check('A!<', 'E!<');
	check('A!<', 'H!<');
	check('D!<', 'I!<');
	check('H!<', 'I!*', areDisjoint: false);

	// Subclass with subtype
	check('A!<', 'A!*', areDisjoint: false);
	check('A!<', 'B!*', areDisjoint: false);
	check('A!<', 'E!*');
	check('A!<', 'H!*');
	check('D!<', 'I!*', areDisjoint: false);

	// Subtype with subtype
	check('A!', 'A!', areDisjoint: false);
	check('A!', 'B!', areDisjoint: false);
	check('A!', 'E!');
	check('A!', 'H!', areDisjoint: false);
	check('D!', 'I!', areDisjoint: false);

	// Unions!
	checkUnions(['B!=', 'C!='], ['A!=']);
	checkUnions(['B!=', 'C!='], ['A =']);
	checkUnions(['B!=', 'C ='], ['A ='], areDisjoint: false);

	checkUnions(['B!=', 'C!='], ['A!<'], areDisjoint: false);
	checkUnions(['B!=', 'C!='], ['B!='], areDisjoint: false);
	checkUnions(['A!<', 'E!<'], ['C!='], areDisjoint: false);
	checkUnions(['A!<', 'E!<'], ['F!='], areDisjoint: false);

	checkUnions(['A!=', 'E!='], ['C!=', 'F!=']);
	checkUnions(['A!=', 'E!='], ['A!=', 'F!='], areDisjoint: false);
	checkUnions(['B!=', 'E!='], ['A!<', 'F!='], areDisjoint: false);
	checkUnions(['A!<', 'E!<'], ['C!=', 'F!='], areDisjoint: false);
	checkUnions(['A!=', 'E!='], ['C!=', 'F!=']);
	}

	asyncTest(() async {
	print('--test from kernel------------------------------------------------');
	await runTests();
	});
	}