llvm-project/clang/test/SemaObjC/blocks.m

224 lines
5.8 KiB
Objective-C

// RUN: %clang_cc1 -triple %itanium_abi_triple -fsyntax-only -verify -fblocks -Wno-strict-prototypes %s
#define bool _Bool
@protocol NSObject;
void bar(id(^)(void));
void foo(id <NSObject>(^objectCreationBlock)(void)) {
return bar(objectCreationBlock);
}
void bar2(id(*)(void));
void foo2(id <NSObject>(*objectCreationBlock)(void)) {
return bar2(objectCreationBlock);
}
void bar3(id(*)());
void foo3(id (*objectCreationBlock)(int)) {
return bar3(objectCreationBlock);
}
void bar4(id(^)());
void foo4(id (^objectCreationBlock)(int)) {
return bar4(objectCreationBlock);
}
void bar5(id(^)(void)); // expected-note 3{{passing argument to parameter here}}
void foo5(id (^objectCreationBlock)(bool)) {
bar5(objectCreationBlock); // expected-error {{incompatible block pointer types passing 'id (^)(bool)' to parameter of type 'id (^)(void)'}}
#undef bool
bar5(objectCreationBlock); // expected-error {{incompatible block pointer types passing 'id (^)(_Bool)' to parameter of type 'id (^)(void)'}}
#define bool int
bar5(objectCreationBlock); // expected-error {{incompatible block pointer types passing 'id (^)(_Bool)' to parameter of type 'id (^)(void)'}}
}
void bar6(id(^)(int));
void foo6(id (^objectCreationBlock)()) {
return bar6(objectCreationBlock);
}
void foo7(id (^x)(int)) {
if (x) { }
}
@interface itf
@end
void foo8() {
void *P = ^(itf x) {}; // expected-error {{interface type 'itf' cannot be passed by value; did you forget * in 'itf'}}
P = ^itf(int x) {}; // expected-error {{interface type 'itf' cannot be returned by value; did you forget * in 'itf'}}
P = ^itf() {}; // expected-error {{interface type 'itf' cannot be returned by value; did you forget * in 'itf'}}
P = ^itf{}; // expected-error {{interface type 'itf' cannot be returned by value; did you forget * in 'itf'}}
}
int foo9() {
typedef void (^DVTOperationGroupScheduler)();
id _suboperationSchedulers;
for (DVTOperationGroupScheduler scheduler in _suboperationSchedulers) {
;
}
}
// rdar 7725203
@class NSString;
extern void NSLog(NSString *format, ...) __attribute__((format(__NSString__, 1, 2)));
void foo10() {
void(^myBlock)(void) = ^{
};
NSLog(@"%@", myBlock);
}
// In C, enum constants have the type of the underlying integer type, not the
// enumeration they are part of. We pretend the constants have enum type if
// all the returns seem to be playing along.
enum CStyleEnum {
CSE_Value = 1,
CSE_Value2 = 2
};
enum CStyleEnum getCSE();
typedef enum CStyleEnum (^cse_block_t)();
void testCStyleEnumInference(bool arg) {
cse_block_t a;
enum CStyleEnum value;
// No warnings here.
a = ^{ return getCSE(); };
a = ^{ return value; };
a = ^{ // expected-error {{incompatible block pointer types assigning to 'cse_block_t' (aka 'enum CStyleEnum (^)()') from 'int (^)(void)'}}
return 1;
};
// No warning here.
a = ^{
return CSE_Value;
};
// No warnings here.
a = ^{ if (arg) return CSE_Value; else return getCSE(); };
a = ^{ if (arg) return getCSE(); else return CSE_Value; };
a = ^{ if (arg) return value; else return CSE_Value; };
// These two blocks actually return 'int'
a = ^{ // expected-error {{incompatible block pointer types assigning to 'cse_block_t' (aka 'enum CStyleEnum (^)()') from 'int (^)(void)'}}
if (arg)
return 1;
else
return CSE_Value;
};
a = ^{ // expected-error {{incompatible block pointer types assigning to 'cse_block_t' (aka 'enum CStyleEnum (^)()') from 'int (^)(void)'}}
if (arg)
return CSE_Value;
else
return 1;
};
a = ^{ // expected-error {{incompatible block pointer types assigning to 'cse_block_t' (aka 'enum CStyleEnum (^)()') from 'int (^)(void)'}}
if (arg)
return 1;
else
return value; // expected-error {{return type 'enum CStyleEnum' must match previous return type 'int'}}
};
// rdar://13200889
extern void check_enum(void);
a = ^{
return (arg ? (CSE_Value) : (check_enum(), (!arg ? CSE_Value2 : getCSE())));
};
a = ^{
return (arg ? (CSE_Value) : ({check_enum(); CSE_Value2; }));
};
}
enum FixedTypeEnum : unsigned {
FTE_Value = 1U
};
enum FixedTypeEnum getFTE();
typedef enum FixedTypeEnum (^fte_block_t)();
void testFixedTypeEnumInference(bool arg) {
fte_block_t a;
// No warnings here.
a = ^{ return getFTE(); };
// Since we fixed the underlying type of the enum, this is considered a
// compatible block type.
a = ^{
return 1U;
};
a = ^{
return FTE_Value;
};
// No warnings here.
a = ^{ if (arg) return FTE_Value; else return FTE_Value; };
a = ^{ if (arg) return getFTE(); else return getFTE(); };
a = ^{ if (arg) return FTE_Value; else return getFTE(); };
a = ^{ if (arg) return getFTE(); else return FTE_Value; };
// These two blocks actually return 'unsigned'.
a = ^{
if (arg)
return 1U;
else
return FTE_Value;
};
a = ^{
if (arg)
return FTE_Value;
else
return 1U;
};
}
enum {
AnonymousValue = 1
};
enum : short {
FixedAnonymousValue = 1
};
typedef enum {
TDE_Value
} TypeDefEnum;
TypeDefEnum getTDE();
typedef enum : short {
TDFTE_Value
} TypeDefFixedTypeEnum;
TypeDefFixedTypeEnum getTDFTE();
typedef int (^int_block_t)();
typedef short (^short_block_t)();
void testAnonymousEnumTypes(int arg) {
int_block_t IB;
IB = ^{ return AnonymousValue; };
IB = ^{ if (arg) return TDE_Value; else return getTDE(); };
IB = ^{ if (arg) return getTDE(); else return TDE_Value; };
// Since we fixed the underlying type of the enum, these are considered
// compatible block types anyway.
short_block_t SB;
SB = ^{ return FixedAnonymousValue; };
SB = ^{ if (arg) return TDFTE_Value; else return getTDFTE(); };
SB = ^{ if (arg) return getTDFTE(); else return TDFTE_Value; };
}
static inline void inlinefunc() {
^{}();
}
void inlinefunccaller() { inlinefunc(); }