test/SemaObjC/conditional-expr-4.m - fp2-dev/platform/external/clang - Gitiles

 // RUN: clang -fsyntax-only %s
 // XFAIL
 // <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;
 }

 // 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) {
   // This should result in something with id type, currently. This is
   // almost certainly wrong and should be fixed.
   return (cond ? a : b).x; // expected-error {{member reference base type ('id') is not a structure or union}}
 }
 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 ('id') 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) {
   // GCC regards this as a warning (comparison of distinct Objective-C types lacks a cast)
   return a == b; // expected-error {{invalid operands to binary expression}}
 }

 int f9(int cond, id<P1> a, A *b) {
   return (cond ? a : b).x; // expected-error {{incompatible operand types}}
 }
	// RUN: clang -fsyntax-only %s
	// XFAIL
	// <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;
	}

	// 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) {
	// This should result in something with id type, currently. This is
	// almost certainly wrong and should be fixed.
	return (cond ? a : b).x; // expected-error {{member reference base type ('id') is not a structure or union}}
	}
	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 ('id') 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) {
	// GCC regards this as a warning (comparison of distinct Objective-C types lacks a cast)
	return a == b; // expected-error {{invalid operands to binary expression}}
	}

	int f9(int cond, id<P1> a, A *b) {
	return (cond ? a : b).x; // expected-error {{incompatible operand types}}
	}