| Index: tests/compiler/dart2js/serialization_test_helper.dart
|
| diff --git a/tests/compiler/dart2js/serialization_test_helper.dart b/tests/compiler/dart2js/serialization_test_helper.dart
|
| deleted file mode 100644
|
| index 0c871a8de2e66c370d79693c42ec4ca52f36409b..0000000000000000000000000000000000000000
|
| --- a/tests/compiler/dart2js/serialization_test_helper.dart
|
| +++ /dev/null
|
| @@ -1,382 +0,0 @@
|
| -// 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 dart2js.serialization_test_helper;
|
| -
|
| -import 'dart:io';
|
| -import 'memory_compiler.dart';
|
| -import 'package:async_helper/async_helper.dart';
|
| -import 'package:compiler/src/common/resolution.dart';
|
| -import 'package:compiler/src/commandline_options.dart';
|
| -import 'package:compiler/src/constants/constructors.dart';
|
| -import 'package:compiler/src/constants/expressions.dart';
|
| -import 'package:compiler/src/dart_types.dart';
|
| -import 'package:compiler/src/compiler.dart';
|
| -import 'package:compiler/src/diagnostics/invariant.dart';
|
| -import 'package:compiler/src/elements/elements.dart';
|
| -import 'package:compiler/src/elements/visitor.dart';
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| -import 'package:compiler/src/ordered_typeset.dart';
|
| -import 'package:compiler/src/serialization/element_serialization.dart';
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| -import 'package:compiler/src/serialization/equivalence.dart';
|
| -import 'package:compiler/src/serialization/json_serializer.dart';
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| -import 'package:compiler/src/serialization/serialization.dart';
|
| -
|
| -
|
| -/// Strategy for checking equivalence.
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| -///
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| -/// Use this strategy to fail early with contextual information in the event of
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| -/// inequivalence.
|
| -class CheckStrategy implements TestStrategy {
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| - const CheckStrategy();
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| -
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| - @override
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| - bool test(var object1, var object2, String property, var value1, var value2,
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| - [bool equivalence(a, b) = equality]) {
|
| - return check(object1, object2, property, value1, value2, equivalence);
|
| - }
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| -
|
| - @override
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| - bool testLists(
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| - Object object1, Object object2, String property,
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| - List list1, List list2,
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| - [bool elementEquivalence(a, b) = equality]) {
|
| - return checkListEquivalence(
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| - object1, object2, property, list1, list2,
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| - (o1, o2, p, v1, v2) {
|
| - if (!elementEquivalence(v1, v2)) {
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| - throw "$o1.$p = '${v1}' <> "
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| - "$o2.$p = '${v2}'";
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| - }
|
| - return true;
|
| - });
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| - }
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| -
|
| - @override
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| - bool testSets(
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| - var object1, var object2, String property,
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| - Iterable set1, Iterable set2,
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| - [bool elementEquivalence(a, b) = equality]) {
|
| - return checkSetEquivalence(
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| - object1, object2,property, set1, set2, elementEquivalence);
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| - }
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| -
|
| - @override
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| - bool testElements(
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| - Object object1, Object object2, String property,
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| - Element element1, Element element2) {
|
| - return checkElementIdentities(
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| - object1, object2, property, element1, element2);
|
| - }
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| -
|
| - @override
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| - bool testTypes(
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| - Object object1, Object object2, String property,
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| - DartType type1, DartType type2) {
|
| - return checkTypes(object1, object2, property, type1, type2);
|
| - }
|
| -
|
| - @override
|
| - bool testConstants(
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| - Object object1, Object object2, String property,
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| - ConstantExpression exp1, ConstantExpression exp2) {
|
| - return checkConstants(object1, object2, property, exp1, exp2);
|
| - }
|
| -
|
| - @override
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| - bool testTypeLists(
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| - Object object1, Object object2, String property,
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| - List<DartType> list1, List<DartType> list2) {
|
| - return checkTypeLists(object1, object2, property, list1, list2);
|
| - }
|
| -
|
| - @override
|
| - bool testConstantLists(
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| - Object object1, Object object2, String property,
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| - List<ConstantExpression> list1,
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| - List<ConstantExpression> list2) {
|
| - return checkConstantLists(object1, object2, property, list1, list2);
|
| - }
|
| -}
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| -
|
| -/// Check that the values [property] of [object1] and [object2], [value1] and
|
| -/// [value2] respectively, are equal and throw otherwise.
|
| -bool check(var object1, var object2, String property, var value1, var value2,
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| - [bool equivalence(a, b) = equality]) {
|
| - if (!equivalence(value1, value2)) {
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| - throw "property='$property'\n "
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| - "object1=$object1 (${object1.runtimeType})\n "
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| - "value=${value1 == null ? "null" : "'$value1'"} "
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| - "(${value1.runtimeType}) <>\n "
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| - "object2=$object2 (${object2.runtimeType})\n "
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| - "value=${value2 == null ? "null" : "'$value2'"} "
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| - "(${value2.runtimeType})";
|
| - }
|
| - return true;
|
| -}
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| -
|
| -/// Check equivalence of the two lists, [list1] and [list2], using
|
| -/// [checkEquivalence] to check the pair-wise equivalence.
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| -///
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| -/// Uses [object1], [object2] and [property] to provide context for failures.
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| -bool checkListEquivalence(
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| - Object object1, Object object2, String property,
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| - Iterable list1, Iterable list2,
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| - void checkEquivalence(o1, o2, property, a, b)) {
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| - for (int i = 0; i < list1.length && i < list2.length; i++) {
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| - checkEquivalence(
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| - object1, object2, property,
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| - list1.elementAt(i), list2.elementAt(i));
|
| - }
|
| - for (int i = list1.length; i < list2.length; i++) {
|
| - throw
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| - 'Missing equivalent for element '
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| - '#$i ${list2.elementAt(i)} in `${property}` on $object2.\n'
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| - '`${property}` on $object1:\n ${list1.join('\n ')}\n'
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| - '`${property}` on $object2:\n ${list2.join('\n ')}';
|
| - }
|
| - for (int i = list2.length; i < list1.length; i++) {
|
| - throw
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| - 'Missing equivalent for element '
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| - '#$i ${list1.elementAt(i)} in `${property}` on $object1.\n'
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| - '`${property}` on $object1:\n ${list1.join('\n ')}\n'
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| - '`${property}` on $object2:\n ${list2.join('\n ')}';
|
| - }
|
| - return true;
|
| -}
|
| -
|
| -/// Computes the set difference between [set1] and [set2] using
|
| -/// [elementEquivalence] to determine element equivalence.
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| -///
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| -/// Elements both in [set1] and [set2] are added to [common], elements in [set1]
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| -/// but not in [set2] are added to [unfound], and the set of elements in [set2]
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| -/// but not in [set1] are returned.
|
| -Set computeSetDifference(
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| - Iterable set1,
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| - Iterable set2,
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| - List common,
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| - List unfound,
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| - [bool sameElement(a, b) = equality]) {
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| - // TODO(johnniwinther): Avoid the quadratic cost here. Some ideas:
|
| - // - convert each set to a list and sort it first, then compare by walking
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| - // both lists in parallel
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| - // - map each element to a canonical object, create a map containing those
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| - // mappings, use the mapped sets to compare (then operations like
|
| - // set.difference would work)
|
| - Set remaining = set2.toSet();
|
| - for (var element1 in set1) {
|
| - bool found = false;
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| - for (var element2 in remaining) {
|
| - if (sameElement(element1, element2)) {
|
| - found = true;
|
| - remaining.remove(element2);
|
| - break;
|
| - }
|
| - }
|
| - if (found) {
|
| - common.add(element1);
|
| - } else {
|
| - unfound.add(element1);
|
| - }
|
| - }
|
| - return remaining;
|
| -}
|
| -
|
| -/// Check equivalence of the two iterables, [set1] and [set1], as sets using
|
| -/// [elementEquivalence] to compute the pair-wise equivalence.
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| -///
|
| -/// Uses [object1], [object2] and [property] to provide context for failures.
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| -bool checkSetEquivalence(
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| - var object1,
|
| - var object2,
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| - String property,
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| - Iterable set1,
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| - Iterable set2,
|
| - bool sameElement(a, b)) {
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| - List common = [];
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| - List unfound = [];
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| - Set remaining =
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| - computeSetDifference(set1, set2, common, unfound, sameElement);
|
| - if (unfound.isNotEmpty || remaining.isNotEmpty) {
|
| - String message =
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| - "Set mismatch for `$property` on $object1 vs $object2: \n"
|
| - "Common:\n ${common.join('\n ')}\n"
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| - "Unfound:\n ${unfound.join('\n ')}\n"
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| - "Extra: \n ${remaining.join('\n ')}";
|
| - throw message;
|
| - }
|
| - return true;
|
| -}
|
| -
|
| -/// Checks the equivalence of the identity (but not properties) of [element1]
|
| -/// and [element2].
|
| -///
|
| -/// Uses [object1], [object2] and [property] to provide context for failures.
|
| -bool checkElementIdentities(
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| - Object object1, Object object2, String property,
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| - Element element1, Element element2) {
|
| - if (identical(element1, element2)) return true;
|
| - return check(object1, object2,
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| - property, element1, element2, areElementsEquivalent);
|
| -}
|
| -
|
| -/// Checks the pair-wise equivalence of the identity (but not properties) of the
|
| -/// elements in [list] and [list2].
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| -///
|
| -/// Uses [object1], [object2] and [property] to provide context for failures.
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| -bool checkElementListIdentities(
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| - Object object1, Object object2, String property,
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| - Iterable<Element> list1, Iterable<Element> list2) {
|
| - return checkListEquivalence(
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| - object1, object2, property,
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| - list1, list2, checkElementIdentities);
|
| -}
|
| -
|
| -/// Checks the equivalence of [type1] and [type2].
|
| -///
|
| -/// Uses [object1], [object2] and [property] to provide context for failures.
|
| -bool checkTypes(
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| - Object object1, Object object2, String property,
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| - DartType type1, DartType type2) {
|
| - if (identical(type1, type2)) return true;
|
| - if (type1 == null || type2 == null) {
|
| - return check(object1, object2, property, type1, type2);
|
| - } else {
|
| - return const TypeEquivalence(const CheckStrategy()).visit(type1, type2);
|
| - }
|
| -}
|
| -
|
| -/// Checks the pair-wise equivalence of the types in [list1] and [list2].
|
| -///
|
| -/// Uses [object1], [object2] and [property] to provide context for failures.
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| -bool checkTypeLists(
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| - Object object1, Object object2, String property,
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| - List<DartType> list1, List<DartType> list2) {
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| - return checkListEquivalence(
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| - object1, object2, property, list1, list2, checkTypes);
|
| -}
|
| -
|
| -/// Checks the equivalence of [exp1] and [exp2].
|
| -///
|
| -/// Uses [object1], [object2] and [property] to provide context for failures.
|
| -bool checkConstants(
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| - Object object1, Object object2, String property,
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| - ConstantExpression exp1, ConstantExpression exp2) {
|
| - if (identical(exp1, exp2)) return true;
|
| - if (exp1 == null || exp2 == null) {
|
| - return check(object1, object2, property, exp1, exp2);
|
| - } else {
|
| - return const ConstantEquivalence(const CheckStrategy()).visit(exp1, exp2);
|
| - }
|
| -}
|
| -
|
| -/// Checks the pair-wise equivalence of the contants in [list1] and [list2].
|
| -///
|
| -/// Uses [object1], [object2] and [property] to provide context for failures.
|
| -bool checkConstantLists(
|
| - Object object1, Object object2, String property,
|
| - List<ConstantExpression> list1,
|
| - List<ConstantExpression> list2) {
|
| - return checkListEquivalence(
|
| - object1, object2, property,
|
| - list1, list2, checkConstants);
|
| -}
|
| -
|
| -
|
| -/// Check member property equivalence between all members common to [compiler1]
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| -/// and [compiler2].
|
| -void checkLoadedLibraryMembers(
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| - Compiler compiler1,
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| - Compiler compiler2,
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| - bool hasProperty(Element member1),
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| - void checkMemberProperties(Compiler compiler1, Element member1,
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| - Compiler compiler2, Element member2,
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| - {bool verbose}),
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| - {bool verbose: false}) {
|
| -
|
| - void checkMembers(Element member1, Element member2) {
|
| - if (member1.isClass && member2.isClass) {
|
| - ClassElement class1 = member1;
|
| - ClassElement class2 = member2;
|
| - if (!class1.isResolved) return;
|
| -
|
| - class1.forEachLocalMember((m1) {
|
| - checkMembers(m1, class2.localLookup(m1.name));
|
| - });
|
| - ClassElement superclass1 = class1.superclass;
|
| - ClassElement superclass2 = class2.superclass;
|
| - while (superclass1 != null && superclass1.isUnnamedMixinApplication) {
|
| - for (ConstructorElement c1 in superclass1.constructors) {
|
| - checkMembers(c1, superclass2.lookupConstructor(c1.name));
|
| - }
|
| - superclass1 = superclass1.superclass;
|
| - superclass2 = superclass2.superclass;
|
| - }
|
| - return;
|
| - }
|
| -
|
| - if (!hasProperty(member1)) {
|
| - return;
|
| - }
|
| -
|
| - if (member2 == null) {
|
| - throw 'Missing member for ${member1}';
|
| - }
|
| -
|
| - if (areElementsEquivalent(member1, member2)) {
|
| - checkMemberProperties(
|
| - compiler1, member1,
|
| - compiler2, member2,
|
| - verbose: verbose);
|
| - }
|
| - }
|
| -
|
| - for (LibraryElement library1 in compiler1.libraryLoader.libraries) {
|
| - LibraryElement library2 =
|
| - compiler2.libraryLoader.lookupLibrary(library1.canonicalUri);
|
| - if (library2 != null) {
|
| - library1.forEachLocalMember((Element member1) {
|
| - checkMembers(member1, library2.localLookup(member1.name));
|
| - });
|
| -
|
| - }
|
| - }
|
| -}
|
| -
|
| -/// Check equivalence of all resolution impacts.
|
| -void checkAllImpacts(
|
| - Compiler compiler1,
|
| - Compiler compiler2,
|
| - {bool verbose: false}) {
|
| - checkLoadedLibraryMembers(
|
| - compiler1,
|
| - compiler2,
|
| - (Element member1) {
|
| - return compiler1.resolution.hasResolutionImpact(member1);
|
| - },
|
| - checkImpacts,
|
| - verbose: verbose);
|
| -}
|
| -
|
| -/// Check equivalence of resolution impact for [member1] and [member2].
|
| -void checkImpacts(Compiler compiler1, Element member1,
|
| - Compiler compiler2, Element member2,
|
| - {bool verbose: false}) {
|
| - ResolutionImpact impact1 = compiler1.resolution.getResolutionImpact(member1);
|
| - ResolutionImpact impact2 = compiler2.resolution.getResolutionImpact(member2);
|
| -
|
| - if (impact1 == null && impact2 == null) return;
|
| -
|
| - if (verbose) {
|
| - print('Checking impacts for $member1 vs $member2');
|
| - }
|
| -
|
| - if (impact1 == null) {
|
| - throw 'Missing impact for $member1. $member2 has $impact2';
|
| - }
|
| - if (impact2 == null) {
|
| - throw 'Missing impact for $member2. $member1 has $impact1';
|
| - }
|
| -
|
| - testResolutionImpactEquivalence(impact1, impact2, const CheckStrategy());
|
| -}
|
|
|
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