1 // RUN: %clang_cc1 -std=c++11 -fsyntax-only -verify %s -fblocks
2
3 void tovoid(void*);
4
5 void tovoid_test(int (^f)(int, int)) {
6 tovoid(f);
7 }
8
9 void reference_lvalue_test(int& (^f)()) {
10 f() = 10;
11 }
12
13 // PR 7165
14 namespace test1 {
15 void g(void (^)());
16 struct Foo {
17 void foo();
testtest1::Foo18 void test() {
19 (void) ^{ foo(); };
20 }
21 };
22 }
23
24 namespace test2 {
25 int repeat(int value, int (^block)(int), unsigned n) {
26 while (n--) value = block(value);
27 return value;
28 }
29
30 class Power {
31 int base;
32
33 public:
Power(int base)34 Power(int base) : base(base) {}
calculate(unsigned n)35 int calculate(unsigned n) {
36 return repeat(1, ^(int v) { return v * base; }, n);
37 }
38 };
39
test()40 int test() {
41 return Power(2).calculate(10);
42 }
43 }
44
45 // rdar: // 8382559
46 namespace radar8382559 {
47 void func(bool& outHasProperty);
48
test3()49 int test3() {
50 __attribute__((__blocks__(byref))) bool hasProperty = false;
51 bool has = true;
52
53 bool (^b)() = ^ {
54 func(hasProperty);
55 if (hasProperty)
56 hasProperty = 0;
57 if (has)
58 hasProperty = 1;
59 return hasProperty;
60 };
61 func(hasProperty);
62 func(has);
63 b();
64 if (hasProperty)
65 hasProperty = 1;
66 if (has)
67 has = 2;
68 return hasProperty = 1;
69 }
70 }
71
72 // Move __block variables to the heap when possible.
73 class MoveOnly {
74 public:
75 MoveOnly();
76 MoveOnly(const MoveOnly&) = delete;
77 MoveOnly(MoveOnly&&);
78 };
79
move_block()80 void move_block() {
81 __block MoveOnly mo;
82 }
83
84 // Don't crash after failing to build a block due to a capture of an
85 // invalid declaration.
86 namespace test5 {
87 struct B { // expected-note 2 {{candidate constructor}}
88 void *p;
89 B(int); // expected-note {{candidate constructor}}
90 };
91
92 void use_block(void (^)());
93 void use_block_2(void (^)(), const B &a);
94
test()95 void test() {
96 B x; // expected-error {{no matching constructor for initialization}}
97 use_block(^{
98 int y;
99 use_block_2(^{ (void) y; }, x);
100 });
101 }
102 }
103
104
105 // rdar://16356628
106 //
107 // Ensure that we can end function bodies while parsing an
108 // expression that requires an explicitly-tracked cleanup object
109 // (i.e. a block literal).
110
111 // The nested function body in this test case is a template
112 // instantiation. The template function has to be constexpr because
113 // we'll otherwise delay its instantiation to the end of the
114 // translation unit.
115 namespace test6a {
func()116 template <class T> constexpr int func() { return 0; }
117 void run(void (^)(), int);
118
test()119 void test() {
120 int aCapturedVar = 0;
121 run(^{ (void) aCapturedVar; }, func<int>());
122 }
123 }
124
125 // The nested function body in this test case is a method of a local
126 // class.
127 namespace test6b {
128 void run(void (^)(), void (^)());
test()129 void test() {
130 int aCapturedVar = 0;
131 run(^{ (void) aCapturedVar; },
132 ^{ struct A { static void foo() {} };
133 A::foo(); });
134 }
135 }
136
137 // The nested function body in this test case is a lambda invocation
138 // function.
139 namespace test6c {
140 void run(void (^)(), void (^)());
test()141 void test() {
142 int aCapturedVar = 0;
143 run(^{ (void) aCapturedVar; },
144 ^{ struct A { static void foo() {} };
145 A::foo(); });
146 }
147 }
148