-
Notifications
You must be signed in to change notification settings - Fork 10.5k
/
Copy pathforeach.swift
240 lines (183 loc) · 6.74 KB
/
foreach.swift
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
// RUN: %target-typecheck-verify-swift
// Bad containers and ranges
struct BadContainer1 {
}
func bad_containers_1(bc: BadContainer1) {
for e in bc { } // expected-error{{for-in loop requires 'BadContainer1' to conform to 'Sequence'}}
}
struct BadContainer2 : Sequence { // expected-error{{type 'BadContainer2' does not conform to protocol 'Sequence'}}
var generate : Int
}
func bad_containers_2(bc: BadContainer2) {
for e in bc { }
}
struct BadContainer3 : Sequence { // expected-error{{type 'BadContainer3' does not conform to protocol 'Sequence'}}
func makeIterator() { } // expected-note{{candidate can not infer 'Iterator' = '()' because '()' is not a nominal type and so can't conform to 'IteratorProtocol'}}
}
func bad_containers_3(bc: BadContainer3) {
for e in bc { }
}
struct BadIterator1 {}
struct BadContainer4 : Sequence { // expected-error{{type 'BadContainer4' does not conform to protocol 'Sequence'}}
typealias Iterator = BadIterator1 // expected-note{{possibly intended match 'BadContainer4.Iterator' (aka 'BadIterator1') does not conform to 'IteratorProtocol'}}
func makeIterator() -> BadIterator1 { }
}
func bad_containers_4(bc: BadContainer4) {
for e in bc { }
}
// Pattern type-checking
struct GoodRange<Int> : Sequence, IteratorProtocol {
typealias Element = Int
func next() -> Int? {}
typealias Iterator = GoodRange<Int>
func makeIterator() -> GoodRange<Int> { return self }
}
struct GoodTupleIterator: Sequence, IteratorProtocol {
typealias Element = (Int, Float)
func next() -> (Int, Float)? {}
typealias Iterator = GoodTupleIterator
func makeIterator() -> GoodTupleIterator {}
}
protocol ElementProtocol {}
func patterns(gir: GoodRange<Int>, gtr: GoodTupleIterator) {
var sum : Int
var sumf : Float
for i : Int in gir { sum = sum + i }
for i in gir { sum = sum + i }
for f : Float in gir { sum = sum + f } // expected-error{{cannot convert sequence element type 'GoodRange<Int>.Element' (aka 'Int') to expected type 'Float'}}
for f : ElementProtocol in gir { } // expected-error {{sequence element type 'GoodRange<Int>.Element' (aka 'Int') does not conform to expected protocol 'ElementProtocol'}}
for (i, f) : (Int, Float) in gtr { sum = sum + i }
for (i, f) in gtr {
sum = sum + i
sumf = sumf + f
sum = sum + f // expected-error {{cannot convert value of type 'Float' to expected argument type 'Int'}} {{17-17=Int(}} {{18-18=)}}
}
for (i, _) : (Int, Float) in gtr { sum = sum + i }
for (i, _) : (Int, Int) in gtr { sum = sum + i } // expected-error{{cannot convert sequence element type 'GoodTupleIterator.Element' (aka '(Int, Float)') to expected type '(Int, Int)'}}
for (i, f) in gtr {}
}
func slices(i_s: [Int], ias: [[Int]]) {
var sum = 0
for i in i_s { sum = sum + i }
for ia in ias {
for i in ia {
sum = sum + i
}
}
}
func discard_binding() {
for _ in [0] {}
}
struct X<T> {
var value: T
}
struct Gen<T> : IteratorProtocol {
func next() -> T? { return nil }
}
struct Seq<T> : Sequence {
func makeIterator() -> Gen<T> { return Gen() }
}
func getIntSeq() -> Seq<Int> { return Seq() }
func getOvlSeq() -> Seq<Int> { return Seq() } // expected-note{{found this candidate}}
func getOvlSeq() -> Seq<Double> { return Seq() } // expected-note{{found this candidate}}
func getOvlSeq() -> Seq<X<Int>> { return Seq() } // expected-note{{found this candidate}}
func getGenericSeq<T>() -> Seq<T> { return Seq() }
func getXIntSeq() -> Seq<X<Int>> { return Seq() }
func getXIntSeqIUO() -> Seq<X<Int>>! { return nil }
func testForEachInference() {
for i in getIntSeq() { }
// Overloaded sequence resolved contextually
for i: Int in getOvlSeq() { }
for d: Double in getOvlSeq() { }
// Overloaded sequence not resolved contextually
for v in getOvlSeq() { } // expected-error{{ambiguous use of 'getOvlSeq()'}}
// Generic sequence resolved contextually
for i: Int in getGenericSeq() { }
for d: Double in getGenericSeq() { }
// Inference of generic arguments in the element type from the
// sequence.
for x: X in getXIntSeq() {
let z = x.value + 1
}
for x: X in getOvlSeq() {
let z = x.value + 1
}
// Inference with implicitly unwrapped optional
for x: X in getXIntSeqIUO() {
let z = x.value + 1
}
// Range overloading.
for i: Int8 in 0..<10 { }
for i: UInt in 0...10 { }
}
func testMatchingPatterns() {
// <rdar://problem/21428712> for case parse failure
let myArray : [Int?] = []
for case .some(let x) in myArray {
_ = x
}
// <rdar://problem/21392677> for/case/in patterns aren't parsed properly
class A {}
class B : A {}
class C : A {}
let array : [A] = [A(), B(), C()]
for case (let x as B) in array {
_ = x
}
}
// <rdar://problem/21662365> QoI: diagnostic for for-each over an optional sequence isn't great
func testOptionalSequence() {
let array : [Int]?
for x in array { // expected-error {{for-in loop requires '[Int]?' to conform to 'Sequence'; did you mean to unwrap optional?}}
}
}
// Crash with (invalid) for each over an existential
func testExistentialSequence(s: Sequence) { // expected-error {{protocol 'Sequence' can only be used as a generic constraint because it has Self or associated type requirements}}
for x in s { // expected-error {{protocol 'Sequence' as a type cannot conform to the protocol itself}} expected-note {{only concrete types such as structs, enums and classes can conform to protocols}}
_ = x
}
}
// Conditional conformance to Sequence and IteratorProtocol.
protocol P { }
struct RepeatedSequence<T> {
var value: T
var count: Int
}
struct RepeatedIterator<T> {
var value: T
var count: Int
}
extension RepeatedIterator: IteratorProtocol where T: P {
typealias Element = T
mutating func next() -> T? {
if count == 0 { return nil }
count = count - 1
return value
}
}
extension RepeatedSequence: Sequence where T: P {
typealias Element = T
typealias Iterator = RepeatedIterator<T>
typealias SubSequence = AnySequence<T>
func makeIterator() -> RepeatedIterator<T> {
return Iterator(value: value, count: count)
}
}
extension Int : P { }
func testRepeated(ri: RepeatedSequence<Int>) {
for x in ri { _ = x }
}
// SR-12398: Poor pattern matching diagnostic: "for-in loop requires '[Int]' to conform to 'Sequence'"
func sr_12398(arr1: [Int], arr2: [(a: Int, b: String)]) {
for (x, y) in arr1 {}
// expected-error@-1 {{tuple pattern cannot match values of non-tuple type 'Int'}}
for (x, y, _) in arr2 {}
// expected-error@-1 {{pattern cannot match values of type '(a: Int, b: String)'}}
}
// rdar://62339835
func testForEachWhereWithClosure(_ x: [Int]) {
func foo<T>(_ fn: () -> T) -> Bool { true }
for i in x where foo({ i }) {}
for i in x where foo({ i.byteSwapped == 5 }) {}
for i in x where x.contains(where: { $0.byteSwapped == i }) {}
}