llvm-for-llvmta/tools/clang/test/SemaObjC/conditional-expr-4.m

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2022-04-25 13:02:35 +02:00
// RUN: %clang_cc1 -fsyntax-only -verify %s
// <rdar://problem/6212771>
#define nil ((void*) 0)
@interface A
@property int x;
@end
@interface B : A
@end
// Basic checks...
id f0(int cond, id a, void *b) {
return cond ? a : b;
}
A *f0_a(int cond, A *a, void *b) {
return cond ? a : b;
}
id f1(int cond, id a) {
return cond ? a : nil;
}
A *f1_a(int cond, A *a) {
return cond ? a : nil;
}
void *f1_const_a(int x, void *p, const A * q) {
void *r = x ? p : q; // expected-warning{{initializing 'void *' with an expression of type 'const void *' discards qualifiers}}
return r;
}
// Check interaction with qualified id
@protocol P0 @end
id f2(int cond, id<P0> a, void *b) {
return cond ? a : b;
}
id f3(int cond, id<P0> a) {
return cond ? a : nil;
}
// Check that result actually has correct type.
// Using properties is one way to find the compiler internal type of a
// conditional expression. Simple assignment doesn't work because if
// the type is id then it can be implicitly promoted.
@protocol P1
@property int x;
@end
int f5(int cond, id<P1> a, id<P1> b) {
return (cond ? a : b).x;
}
int f5_a(int cond, A *a, A *b) {
return (cond ? a : b).x;
}
int f5_b(int cond, A *a, B *b) {
return (cond ? a : b).x;
}
int f6(int cond, id<P1> a, void *b) {
// This should result in something with id type, currently.
return (cond ? a : b).x; // expected-error {{member reference base type 'void *' is not a structure or union}}
}
int f7(int cond, id<P1> a) {
return (cond ? a : nil).x;
}
int f8(int cond, id<P1> a, A *b) {
return a == b; // expected-warning {{comparison of distinct pointer types ('id<P1>' and 'A *')}}
}
int f9(int cond, id<P1> a, A *b) {
return (cond ? a : b).x; // expected-warning {{incompatible operand types ('id<P1>' and 'A *')}} \
expected-error {{property 'x' not found on object of type 'id'}}
}