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Side by Side Diff: tests/language_strong/malformed_test.dart

Issue 2774783002: Re-land "Format all multitests" (Closed)
Patch Set: Created 3 years, 9 months ago
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1 // Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file 1 // Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
2 // for details. All rights reserved. Use of this source code is governed by a 2 // for details. All rights reserved. Use of this source code is governed by a
3 // BSD-style license that can be found in the LICENSE file. 3 // BSD-style license that can be found in the LICENSE file.
4 4
5 // Tests that malformed types are handled as dynamic, and that types with the 5 // Tests that malformed types are handled as dynamic, and that types with the
6 // wrong number of type arguments are handled as raw types. 6 // wrong number of type arguments are handled as raw types.
7 7
8 import 'package:expect/expect.dart'; 8 import 'package:expect/expect.dart';
9 import 'package:expect/expect.dart' as prefix; // Define 'prefix'. 9 import 'package:expect/expect.dart' as prefix; // Define 'prefix'.
10 10
11 checkIsUnresolved(var v) { 11 checkIsUnresolved(var v) {
12 Expect.throws(() => v is Unresolved, (e) => e is TypeError); 12 Expect.throws(() => v is Unresolved, (e) => e is TypeError);
13 Expect.throws(() => v is Unresolved<int>, (e) => e is TypeError); 13 Expect.throws(() => v is Unresolved<int>, (e) => e is TypeError);
14 Expect.throws(() => v is prefix.Unresolved, (e) => e is TypeError); 14 Expect.throws(() => v is prefix.Unresolved, (e) => e is TypeError);
15 Expect.throws(() => v is prefix.Unresolved<int>, (e) => e is TypeError); 15 Expect.throws(() => v is prefix.Unresolved<int>, (e) => e is TypeError);
16 } 16 }
17 17
18 checkIsListUnresolved(bool expect, var v) { 18 checkIsListUnresolved(bool expect, var v) {
19 Expect.equals(expect, v is List<Unresolved>); 19 Expect.equals(expect, v is List<Unresolved>);
(...skipping 19 matching lines...) Expand all
39 if (expect) { 39 if (expect) {
40 Expect.equals(v, v as List<Unresolved>); 40 Expect.equals(v, v as List<Unresolved>);
41 Expect.equals(v, v as List<Unresolved<int>>); 41 Expect.equals(v, v as List<Unresolved<int>>);
42 Expect.equals(v, v as List<prefix.Unresolved>); 42 Expect.equals(v, v as List<prefix.Unresolved>);
43 Expect.equals(v, v as List<prefix.Unresolved<int>>); 43 Expect.equals(v, v as List<prefix.Unresolved<int>>);
44 Expect.equals(v, v as List<int, String>); 44 Expect.equals(v, v as List<int, String>);
45 } else { 45 } else {
46 Expect.throws(() => v as List<Unresolved>, (e) => e is CastError); 46 Expect.throws(() => v as List<Unresolved>, (e) => e is CastError);
47 Expect.throws(() => v as List<Unresolved<int>>, (e) => e is CastError); 47 Expect.throws(() => v as List<Unresolved<int>>, (e) => e is CastError);
48 Expect.throws(() => v as List<prefix.Unresolved>, (e) => e is CastError); 48 Expect.throws(() => v as List<prefix.Unresolved>, (e) => e is CastError);
49 Expect.throws(() => v as List<prefix.Unresolved<int>>, 49 Expect.throws(
50 (e) => e is CastError); 50 () => v as List<prefix.Unresolved<int>>, (e) => e is CastError);
51 Expect.throws(() => v as List<int, String>, (e) => e is CastError); 51 Expect.throws(() => v as List<int, String>, (e) => e is CastError);
52 } 52 }
53 } 53 }
54 54
55 checkIsMapDynamic(bool first, bool second, var v) { 55 checkIsMapDynamic(bool first, bool second, var v) {
56 Expect.equals(first, v is Map<String, Object> && v is Map<int, Object>); 56 Expect.equals(first, v is Map<String, Object> && v is Map<int, Object>);
57 Expect.equals(second, v is Map<Object, int> && v is Map<Object, String>); 57 Expect.equals(second, v is Map<Object, int> && v is Map<Object, String>);
58 } 58 }
59 59
60
61 void main() { 60 void main() {
62 checkIsUnresolved(''); 61 checkIsUnresolved('');
63 checkIsUnresolved(0); 62 checkIsUnresolved(0);
64 checkIsListUnresolved(false, ''); 63 checkIsListUnresolved(false, '');
65 checkIsListUnresolved(true, new List()); 64 checkIsListUnresolved(true, new List());
66 checkIsListUnresolved(true, new List<int>()); 65 checkIsListUnresolved(true, new List<int>());
67 checkIsListUnresolved(true, new List<String>()); 66 checkIsListUnresolved(true, new List<String>());
68 checkIsListUnresolved(true, new List<int, String>()); 67 checkIsListUnresolved(true, new List<int, String>());
69 68
70 checkAsUnresolved(''); 69 checkAsUnresolved('');
(...skipping 22 matching lines...) Expand all
93 checkIsListDynamic(true, new List<int, String>()); 92 checkIsListDynamic(true, new List<int, String>());
94 93
95 checkIsMapDynamic(true, true, <dynamic, dynamic>{}); 94 checkIsMapDynamic(true, true, <dynamic, dynamic>{});
96 checkIsMapDynamic(true, true, {}); 95 checkIsMapDynamic(true, true, {});
97 checkIsMapDynamic(true, true, <>{}); //# 03: compile-time error 96 checkIsMapDynamic(true, true, <>{}); //# 03: compile-time error
98 checkIsMapDynamic(true, true, <int>{}); 97 checkIsMapDynamic(true, true, <int>{});
99 checkIsMapDynamic(false, false, <String, int>{}); 98 checkIsMapDynamic(false, false, <String, int>{});
100 checkIsMapDynamic(true, true, <String, int, String>{}); 99 checkIsMapDynamic(true, true, <String, int, String>{});
101 checkIsMapDynamic(true, false, <Unresolved, int>{}); 100 checkIsMapDynamic(true, false, <Unresolved, int>{});
102 checkIsMapDynamic(false, true, <String, Unresolved<int>>{}); 101 checkIsMapDynamic(false, true, <String, Unresolved<int>>{});
103 checkIsMapDynamic(true, false, <prefix.Unresolved, int>{}); 102 checkIsMapDynamic(true, false, <prefix.Unresolved, int>{});
104 checkIsMapDynamic(false, true, <String, prefix.Unresolved<int>>{}); 103 checkIsMapDynamic(false, true, <String, prefix.Unresolved<int>>{});
105 104
106 checkIsMapDynamic(true, true, new Map()); 105 checkIsMapDynamic(true, true, new Map());
107 checkIsMapDynamic(true, true, new Map<>); //# 04: compile-time error 106 checkIsMapDynamic(true, true, new Map<>); //# 04: compile-time error
108 checkIsMapDynamic(true, true, new Map<int>()); 107 checkIsMapDynamic(true, true, new Map<int>());
109 checkIsMapDynamic(false, false, new Map<String, int>()); 108 checkIsMapDynamic(false, false, new Map<String, int>());
110 checkIsMapDynamic(true, true, new Map<String, int, String>()); 109 checkIsMapDynamic(true, true, new Map<String, int, String>());
111 checkIsMapDynamic(true, false, new Map<Unresolved, int>()); 110 checkIsMapDynamic(true, false, new Map<Unresolved, int>());
112 checkIsMapDynamic(false, true, new Map<String, Unresolved<int>>()); 111 checkIsMapDynamic(false, true, new Map<String, Unresolved<int>>());
113 checkIsMapDynamic(true, false, new Map<prefix.Unresolved, int>()); 112 checkIsMapDynamic(true, false, new Map<prefix.Unresolved, int>());
114 checkIsMapDynamic(false, true, new Map<String, prefix.Unresolved<int>>()); 113 checkIsMapDynamic(false, true, new Map<String, prefix.Unresolved<int>>());
115 114
116 Expect.throws(() => new Unresolved(), (e) => true); 115 Expect.throws(() => new Unresolved(), (e) => true);
117 Expect.throws(() => new Unresolved<int>(), (e) => true); 116 Expect.throws(() => new Unresolved<int>(), (e) => true);
118 Expect.throws(() => new prefix.Unresolved(), (e) => true); 117 Expect.throws(() => new prefix.Unresolved(), (e) => true);
119 Expect.throws(() => new prefix.Unresolved<int>(), (e) => true); 118 Expect.throws(() => new prefix.Unresolved<int>(), (e) => true);
120 119
121 // The expression 'undeclared_prefix.Unresolved()' is parsed as the invocation 120 // The expression 'undeclared_prefix.Unresolved()' is parsed as the invocation
122 // of the named constructor 'Unresolved' on the type 'undeclared_prefix'. 121 // of the named constructor 'Unresolved' on the type 'undeclared_prefix'.
123 Expect.throws(() => new undeclared_prefix.Unresolved(), (e) => true); 122 Expect.throws(() => new undeclared_prefix.Unresolved(), (e) => true);
124 // The expression 'undeclared_prefix.Unresolved<int>' is a malformed type. 123 // The expression 'undeclared_prefix.Unresolved<int>' is a malformed type.
125 Expect.throws(() => new undeclared_prefix.Unresolved<int>(), (e) => true); 124 Expect.throws(() => new undeclared_prefix.Unresolved<int>(), (e) => true);
126 125
127 try { 126 try {
128 try { 127 try {
129 throw 'foo'; 128 throw 'foo';
130 } on Unresolved catch (e) { 129 } on Unresolved catch (e) {
131 Expect.fail("This code shouldn't be executed"); 130 Expect.fail("This code shouldn't be executed");
132 } 131 }
133 Expect.fail("This code shouldn't be executed"); 132 Expect.fail("This code shouldn't be executed");
134 } on TypeError catch (e) { 133 } on TypeError catch (e) {}
135 }
136 try { 134 try {
137 try { 135 try {
138 throw 'foo'; 136 throw 'foo';
139 } on Unresolved<int> catch (e) { 137 } on Unresolved<int> catch (e) {
140 Expect.fail("This code shouldn't be executed"); 138 Expect.fail("This code shouldn't be executed");
141 } 139 }
142 Expect.fail("This code shouldn't be executed"); 140 Expect.fail("This code shouldn't be executed");
143 } on TypeError catch (e) { 141 } on TypeError catch (e) {}
144 }
145 try { 142 try {
146 try { 143 try {
147 throw 'foo'; 144 throw 'foo';
148 } on prefix.Unresolved catch (e) { 145 } on prefix.Unresolved catch (e) {
149 Expect.fail("This code shouldn't be executed"); 146 Expect.fail("This code shouldn't be executed");
150 } 147 }
151 Expect.fail("This code shouldn't be executed"); 148 Expect.fail("This code shouldn't be executed");
152 } on TypeError catch (e) { 149 } on TypeError catch (e) {}
153 }
154 try { 150 try {
155 try { 151 try {
156 throw 'foo'; 152 throw 'foo';
157 } on prefix.Unresolved<int> catch (e) { 153 } on prefix.Unresolved<int> catch (e) {
158 Expect.fail("This code shouldn't be executed"); 154 Expect.fail("This code shouldn't be executed");
159 } 155 }
160 Expect.fail("This code shouldn't be executed"); 156 Expect.fail("This code shouldn't be executed");
161 } on TypeError catch (e) { 157 } on TypeError catch (e) {}
162 }
163 try { 158 try {
164 throw 'foo'; 159 throw 'foo';
165 } 160 }
166 on undeclared_prefix.Unresolved<int> // //# 06: runtime error 161 on undeclared_prefix.Unresolved<int> // //# 06: runtime error
167 catch (e) { 162 catch (e) {}
168 } 163 }
169 }
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