third_party/llvm-project/clang/test/Sema/nullability.c - cobalt - Git at Google

 // RUN: %clang_cc1 -fsyntax-only -fblocks -Wnullable-to-nonnull-conversion -Wno-nullability-declspec %s -verify

 #if __has_feature(nullability)
 #else
 #  error nullability feature should be defined
 #endif

 typedef int * int_ptr;

 // Parse nullability type specifiers.
 // This note requires C11.
 #if __STDC_VERSION__ > 199901L
 // expected-note@+2{{'_Nonnull' specified here}}
 #endif
 typedef int * _Nonnull nonnull_int_ptr;
 typedef int * _Nullable nullable_int_ptr;
 typedef int * _Null_unspecified null_unspecified_int_ptr;

 // Redundant nullability type specifiers.
 typedef int * _Nonnull _Nonnull redundant_1; // expected-warning{{duplicate nullability specifier '_Nonnull'}}

 // Conflicting nullability type specifiers.
 typedef int * _Nonnull _Nullable conflicting_1; // expected-error{{nullability specifier '_Nonnull' conflicts with existing specifier '_Nullable'}}
 typedef int * _Null_unspecified _Nonnull conflicting_2; // expected-error{{nullability specifier '_Null_unspecified' conflicts with existing specifier '_Nonnull'}}

 // Redundant nullability specifiers via a typedef are okay.
 typedef nonnull_int_ptr _Nonnull redundant_okay_1;

 // Conflicting nullability specifiers via a typedef are not.
 // Some of these errors require C11.
 #if __STDC_VERSION__ > 199901L
 typedef nonnull_int_ptr _Nullable conflicting_2; // expected-error{{nullability specifier '_Nullable' conflicts with existing specifier '_Nonnull'}}
 #endif
 typedef nonnull_int_ptr nonnull_int_ptr_typedef;
 #if __STDC_VERSION__ > 199901L
 typedef nonnull_int_ptr_typedef _Nullable conflicting_2; // expected-error{{nullability specifier '_Nullable' conflicts with existing specifier '_Nonnull'}}
 #endif
 typedef nonnull_int_ptr_typedef nonnull_int_ptr_typedef_typedef;
 typedef nonnull_int_ptr_typedef_typedef _Null_unspecified conflicting_3; // expected-error{{nullability specifier '_Null_unspecified' conflicts with existing specifier '_Nonnull'}}

 // Nullability applies to all pointer types.
 typedef int (* _Nonnull function_pointer_type_1)(int, int);
 typedef int (^ _Nonnull block_type_1)(int, int);

 // Nullability must be on a pointer type.
 typedef int _Nonnull int_type_1; // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int'}}

 // Nullability can move out to a pointer/block pointer declarator
 // (with a suppressed warning).
 typedef _Nonnull int * nonnull_int_ptr_2;
 typedef int _Nullable * nullable_int_ptr_2;
 typedef _Nonnull int (* function_pointer_type_2)(int, int);
 typedef _Nonnull int (^ block_type_2)(int, int);
 typedef _Nonnull int * * _Nullable nonnull_int_ptr_ptr_1;
 typedef _Nonnull int *(^ block_type_3)(int, int);
 typedef _Nonnull int *(* function_pointer_type_3)(int, int);
 typedef _Nonnull int_ptr (^ block_type_4)(int, int);
 typedef _Nonnull int_ptr (* function_pointer_type_4)(int, int);
 typedef void (* function_pointer_type_5)(int_ptr _Nonnull);

 void acceptFunctionPtr(_Nonnull int *(*)(void));
 void acceptBlockPtr(_Nonnull int *(^)(void));

 void testBlockFunctionPtrNullability() {
   float *fp;
   fp = (function_pointer_type_3)0; // expected-warning{{from 'function_pointer_type_3' (aka 'int * _Nonnull (*)(int, int)')}}
   fp = (block_type_3)0; // expected-error{{from incompatible type 'block_type_3' (aka 'int * _Nonnull (^)(int, int)')}}
   fp = (function_pointer_type_4)0; // expected-warning{{from 'function_pointer_type_4' (aka 'int * _Nonnull (*)(int, int)')}}
   fp = (function_pointer_type_5)0; // expected-warning{{from 'function_pointer_type_5' (aka 'void (*)(int * _Nonnull)')}}
   fp = (block_type_4)0; // expected-error{{from incompatible type 'block_type_4' (aka 'int_ptr  _Nonnull (^)(int, int)')}}

   acceptFunctionPtr(0); // no-warning
   acceptBlockPtr(0); // no-warning
 }

 // Moving nullability where it creates a conflict.
 typedef _Nonnull int * _Nullable *  conflict_int_ptr_ptr_2; // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int'}}

 // Nullability is not part of the canonical type.
 typedef int * _Nonnull ambiguous_int_ptr;
 // Redefining a typedef is a C11 feature.
 #if __STDC_VERSION__ > 199901L
 typedef int * ambiguous_int_ptr;
 typedef int * _Nullable ambiguous_int_ptr;
 #endif

 // Printing of nullability.
 float f;
 int * _Nonnull ip_1 = &f; // expected-warning{{incompatible pointer types initializing 'int * _Nonnull' with an expression of type 'float *'}}

 // Check printing of nullability specifiers.
 void printing_nullability(void) {
   int * _Nonnull iptr;
   float *fptr = iptr; // expected-warning{{incompatible pointer types initializing 'float *' with an expression of type 'int * _Nonnull'}}

   int * * _Nonnull iptrptr;
   float **fptrptr = iptrptr; // expected-warning{{incompatible pointer types initializing 'float **' with an expression of type 'int ** _Nonnull'}}

   int * _Nullable * _Nonnull iptrptr2;
   float * *fptrptr2 = iptrptr2; // expected-warning{{incompatible pointer types initializing 'float **' with an expression of type 'int * _Nullable * _Nonnull'}}
 }

 // Check passing null to a _Nonnull argument.
 void accepts_nonnull_1(_Nonnull int *ptr);
 void (*accepts_nonnull_2)(_Nonnull int *ptr);
 void (^accepts_nonnull_3)(_Nonnull int *ptr);

 void test_accepts_nonnull_null_pointer_literal() {
   accepts_nonnull_1(0); // expected-warning{{null passed to a callee that requires a non-null argument}}
   accepts_nonnull_2(0); // expected-warning{{null passed to a callee that requires a non-null argument}}
   accepts_nonnull_3(0); // expected-warning{{null passed to a callee that requires a non-null argument}}
 }

 // Check returning nil from a _Nonnull-returning function.
 _Nonnull int *returns_int_ptr(int x) {
   if (x) {
     return 0; // expected-warning{{null returned from function that requires a non-null return value}}
   }

   return (_Nonnull int *)0;
 }

 // Check nullable-to-nonnull conversions.
 void nullable_to_nonnull(_Nullable int *ptr) {
   int *a = ptr; // okay
   _Nonnull int *b = ptr; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   b = ptr; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}

   accepts_nonnull_1(ptr); // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
 }

 // Check nullability of conditional expressions.
 void conditional_expr(int c) {
   int * _Nonnull p;
   int * _Nonnull nonnullP;
   int * _Nullable nullableP;
   int * _Null_unspecified unspecifiedP;
   int *noneP;

   p = c ? nonnullP : nonnullP;
   p = c ? nonnullP : nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = c ? nonnullP : unspecifiedP;
   p = c ? nonnullP : noneP;
   p = c ? nullableP : nonnullP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = c ? nullableP : nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = c ? nullableP : unspecifiedP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = c ? nullableP : noneP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = c ? unspecifiedP : nonnullP;
   p = c ? unspecifiedP : nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = c ? unspecifiedP : unspecifiedP;
   p = c ? unspecifiedP : noneP;
   p = c ? noneP : nonnullP;
   p = c ? noneP : nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = c ? noneP : unspecifiedP;
   p = c ? noneP : noneP;

   // Check that we don't remove all sugar when creating a new QualType for the
   // conditional expression.
   typedef int *IntP;
   typedef IntP _Nonnull NonnullIntP0;
   typedef NonnullIntP0 _Nonnull NonnullIntP1;
   typedef IntP _Nullable NullableIntP0;
   typedef NullableIntP0 _Nullable NullableIntP1;
   NonnullIntP1 nonnullP2;
   NullableIntP1 nullableP2;

   p = c ? nonnullP2 : nonnullP2;
   p = c ? nonnullP2 : nullableP2; // expected-warning{{implicit conversion from nullable pointer 'IntP _Nullable' (aka 'int *') to non-nullable pointer type 'int * _Nonnull'}}
   p = c ? nullableP2 : nonnullP2; // expected-warning{{implicit conversion from nullable pointer 'NullableIntP1' (aka 'int *') to non-nullable pointer type 'int * _Nonnull'}}
   p = c ? nullableP2 : nullableP2; // expected-warning{{implicit conversion from nullable pointer 'NullableIntP1' (aka 'int *') to non-nullable pointer type 'int * _Nonnull'}}
 }

 // Check nullability of binary conditional expressions.
 void binary_conditional_expr() {
   int * _Nonnull p;
   int * _Nonnull nonnullP;
   int * _Nullable nullableP;
   int * _Null_unspecified unspecifiedP;
   int *noneP;

   p = nonnullP ?: nonnullP;
   p = nonnullP ?: nullableP;
   p = nonnullP ?: unspecifiedP;
   p = nonnullP ?: noneP;
   p = nullableP ?: nonnullP;
   p = nullableP ?: nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = nullableP ?: unspecifiedP;
   p = nullableP ?: noneP;
   p = unspecifiedP ?: nonnullP;
   p = unspecifiedP ?: nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = unspecifiedP ?: unspecifiedP;
   p = unspecifiedP ?: noneP;
   p = noneP ?: nonnullP;
   p = noneP ?: nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
   p = noneP ?: unspecifiedP;
   p = noneP ?: noneP;
 }

 extern int GLOBAL_LENGTH;

 // Nullability can appear on arrays when the arrays are in parameter lists.
 void arrays(int ints[_Nonnull],
             void *ptrs[_Nullable],
             void **nestedPtrs[_Nullable],
             void * _Null_unspecified * _Nonnull nestedPtrs2[_Nullable],
             int fixedSize[_Nonnull 2],
             int staticSize[_Nonnull static 2],
             int staticSize2[static _Nonnull 2],
             int starSize[_Nonnull *],
             int vla[_Nonnull GLOBAL_LENGTH],
             void ** _Nullable reference);
 void testDecayedType() {
   int produceAnErrorMessage = arrays; // expected-warning {{incompatible pointer to integer conversion initializing 'int' with an expression of type 'void (int * _Nonnull, void ** _Nullable, void *** _Nullable, void * _Null_unspecified * _Nonnull * _Nullable, int * _Nonnull, int * _Nonnull, int * _Nonnull, int * _Nonnull, int * _Nonnull, void ** _Nullable)'}}
 }

 int notInFunction[_Nullable 3]; // expected-error {{nullability specifier '_Nullable' cannot be applied to non-pointer type 'int [3]'}}

 void nestedArrays(int x[5][_Nonnull 1]) {} // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [1]'}}
 void nestedArrays2(int x[5][_Nonnull 1][2]) {} // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [1][2]'}}
 void nestedArraysOK(int x[_Nonnull 5][1]) {} // ok

 void nullabilityOnBase(_Nonnull int x[1], // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int'}}
                        int _Nonnull y[1]); // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int'}}

 typedef int INTS[4];
 typedef int BAD_INTS[_Nonnull 4]; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [4]'}}

 void typedefTest(INTS _Nonnull x,
                  _Nonnull INTS xx,
                  INTS _Nonnull y[2], // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}
                  INTS z[_Nonnull 2]);

 INTS _Nonnull x; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}
 _Nonnull INTS x; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}

 void arraysInBlocks() {
   typedef int INTS[4];
   void (^simple)(int [_Nonnull 2]) = ^(int x[_Nonnull 2]) {};
   simple(0); // expected-warning {{null passed to a callee that requires a non-null argument}}
   void (^nested)(void *_Nullable x[_Nonnull 2]) = ^(void *_Nullable x[_Nonnull 2]) {};
   nested(0); // expected-warning {{null passed to a callee that requires a non-null argument}}
   void (^nestedBad)(int x[2][_Nonnull 2]) = // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [2]'}}
     ^(int x[2][_Nonnull 2]) {}; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [2]'}}

   void (^withTypedef)(INTS _Nonnull) = ^(INTS _Nonnull x) {};
   withTypedef(0); // expected-warning {{null passed to a callee that requires a non-null argument}}
   void (^withTypedefBad)(INTS _Nonnull [2]) = // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}
       ^(INTS _Nonnull x[2]) {}; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}
 }
	// RUN: %clang_cc1 -fsyntax-only -fblocks -Wnullable-to-nonnull-conversion -Wno-nullability-declspec %s -verify

	#if __has_feature(nullability)
	#else
	# error nullability feature should be defined
	#endif

	typedef int * int_ptr;

	// Parse nullability type specifiers.
	// This note requires C11.
	#if __STDC_VERSION__ > 199901L
	// expected-note@+2{{'_Nonnull' specified here}}
	#endif
	typedef int * _Nonnull nonnull_int_ptr;
	typedef int * _Nullable nullable_int_ptr;
	typedef int * _Null_unspecified null_unspecified_int_ptr;

	// Redundant nullability type specifiers.
	typedef int * _Nonnull _Nonnull redundant_1; // expected-warning{{duplicate nullability specifier '_Nonnull'}}

	// Conflicting nullability type specifiers.
	typedef int * _Nonnull _Nullable conflicting_1; // expected-error{{nullability specifier '_Nonnull' conflicts with existing specifier '_Nullable'}}
	typedef int * _Null_unspecified _Nonnull conflicting_2; // expected-error{{nullability specifier '_Null_unspecified' conflicts with existing specifier '_Nonnull'}}

	// Redundant nullability specifiers via a typedef are okay.
	typedef nonnull_int_ptr _Nonnull redundant_okay_1;

	// Conflicting nullability specifiers via a typedef are not.
	// Some of these errors require C11.
	#if __STDC_VERSION__ > 199901L
	typedef nonnull_int_ptr _Nullable conflicting_2; // expected-error{{nullability specifier '_Nullable' conflicts with existing specifier '_Nonnull'}}
	#endif
	typedef nonnull_int_ptr nonnull_int_ptr_typedef;
	#if __STDC_VERSION__ > 199901L
	typedef nonnull_int_ptr_typedef _Nullable conflicting_2; // expected-error{{nullability specifier '_Nullable' conflicts with existing specifier '_Nonnull'}}
	#endif
	typedef nonnull_int_ptr_typedef nonnull_int_ptr_typedef_typedef;
	typedef nonnull_int_ptr_typedef_typedef _Null_unspecified conflicting_3; // expected-error{{nullability specifier '_Null_unspecified' conflicts with existing specifier '_Nonnull'}}

	// Nullability applies to all pointer types.
	typedef int (* _Nonnull function_pointer_type_1)(int, int);
	typedef int (^ _Nonnull block_type_1)(int, int);

	// Nullability must be on a pointer type.
	typedef int _Nonnull int_type_1; // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int'}}

	// Nullability can move out to a pointer/block pointer declarator
	// (with a suppressed warning).
	typedef _Nonnull int * nonnull_int_ptr_2;
	typedef int _Nullable * nullable_int_ptr_2;
	typedef _Nonnull int (* function_pointer_type_2)(int, int);
	typedef _Nonnull int (^ block_type_2)(int, int);
	typedef _Nonnull int * * _Nullable nonnull_int_ptr_ptr_1;
	typedef _Nonnull int *(^ block_type_3)(int, int);
	typedef _Nonnull int ( function_pointer_type_3)(int, int);
	typedef _Nonnull int_ptr (^ block_type_4)(int, int);
	typedef _Nonnull int_ptr (* function_pointer_type_4)(int, int);
	typedef void (* function_pointer_type_5)(int_ptr _Nonnull);

	void acceptFunctionPtr(_Nonnull int ()(void));
	void acceptBlockPtr(_Nonnull int *(^)(void));

	void testBlockFunctionPtrNullability() {
	float *fp;
	fp = (function_pointer_type_3)0; // expected-warning{{from 'function_pointer_type_3' (aka 'int * _Nonnull (*)(int, int)')}}
	fp = (block_type_3)0; // expected-error{{from incompatible type 'block_type_3' (aka 'int * _Nonnull (^)(int, int)')}}
	fp = (function_pointer_type_4)0; // expected-warning{{from 'function_pointer_type_4' (aka 'int * _Nonnull (*)(int, int)')}}
	fp = (function_pointer_type_5)0; // expected-warning{{from 'function_pointer_type_5' (aka 'void ()(int _Nonnull)')}}
	fp = (block_type_4)0; // expected-error{{from incompatible type 'block_type_4' (aka 'int_ptr _Nonnull (^)(int, int)')}}

	acceptFunctionPtr(0); // no-warning
	acceptBlockPtr(0); // no-warning
	}

	// Moving nullability where it creates a conflict.
	typedef _Nonnull int * _Nullable * conflict_int_ptr_ptr_2; // expected-error{{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int'}}

	// Nullability is not part of the canonical type.
	typedef int * _Nonnull ambiguous_int_ptr;
	// Redefining a typedef is a C11 feature.
	#if __STDC_VERSION__ > 199901L
	typedef int * ambiguous_int_ptr;
	typedef int * _Nullable ambiguous_int_ptr;
	#endif

	// Printing of nullability.
	float f;
	int * _Nonnull ip_1 = &f; // expected-warning{{incompatible pointer types initializing 'int * _Nonnull' with an expression of type 'float *'}}

	// Check printing of nullability specifiers.
	void printing_nullability(void) {
	int * _Nonnull iptr;
	float fptr = iptr; // expected-warning{{incompatible pointer types initializing 'float ' with an expression of type 'int * _Nonnull'}}

	int * * _Nonnull iptrptr;
	float fptrptr = iptrptr; // expected-warning{{incompatible pointer types initializing 'float ' with an expression of type 'int ** _Nonnull'}}

	int * _Nullable * _Nonnull iptrptr2;
	float * fptrptr2 = iptrptr2; // expected-warning{{incompatible pointer types initializing 'float ' with an expression of type 'int _Nullable * _Nonnull'}}
	}

	// Check passing null to a _Nonnull argument.
	void accepts_nonnull_1(_Nonnull int *ptr);
	void (accepts_nonnull_2)(_Nonnull int ptr);
	void (^accepts_nonnull_3)(_Nonnull int *ptr);

	void test_accepts_nonnull_null_pointer_literal() {
	accepts_nonnull_1(0); // expected-warning{{null passed to a callee that requires a non-null argument}}
	accepts_nonnull_2(0); // expected-warning{{null passed to a callee that requires a non-null argument}}
	accepts_nonnull_3(0); // expected-warning{{null passed to a callee that requires a non-null argument}}
	}

	// Check returning nil from a _Nonnull-returning function.
	_Nonnull int *returns_int_ptr(int x) {
	if (x) {
	return 0; // expected-warning{{null returned from function that requires a non-null return value}}
	}

	return (_Nonnull int *)0;
	}

	// Check nullable-to-nonnull conversions.
	void nullable_to_nonnull(_Nullable int *ptr) {
	int *a = ptr; // okay
	_Nonnull int b = ptr; // expected-warning{{implicit conversion from nullable pointer 'int _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	b = ptr; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}

	accepts_nonnull_1(ptr); // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	}

	// Check nullability of conditional expressions.
	void conditional_expr(int c) {
	int * _Nonnull p;
	int * _Nonnull nonnullP;
	int * _Nullable nullableP;
	int * _Null_unspecified unspecifiedP;
	int *noneP;

	p = c ? nonnullP : nonnullP;
	p = c ? nonnullP : nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = c ? nonnullP : unspecifiedP;
	p = c ? nonnullP : noneP;
	p = c ? nullableP : nonnullP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = c ? nullableP : nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = c ? nullableP : unspecifiedP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = c ? nullableP : noneP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = c ? unspecifiedP : nonnullP;
	p = c ? unspecifiedP : nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = c ? unspecifiedP : unspecifiedP;
	p = c ? unspecifiedP : noneP;
	p = c ? noneP : nonnullP;
	p = c ? noneP : nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = c ? noneP : unspecifiedP;
	p = c ? noneP : noneP;

	// Check that we don't remove all sugar when creating a new QualType for the
	// conditional expression.
	typedef int *IntP;
	typedef IntP _Nonnull NonnullIntP0;
	typedef NonnullIntP0 _Nonnull NonnullIntP1;
	typedef IntP _Nullable NullableIntP0;
	typedef NullableIntP0 _Nullable NullableIntP1;
	NonnullIntP1 nonnullP2;
	NullableIntP1 nullableP2;

	p = c ? nonnullP2 : nonnullP2;
	p = c ? nonnullP2 : nullableP2; // expected-warning{{implicit conversion from nullable pointer 'IntP _Nullable' (aka 'int ') to non-nullable pointer type 'int _Nonnull'}}
	p = c ? nullableP2 : nonnullP2; // expected-warning{{implicit conversion from nullable pointer 'NullableIntP1' (aka 'int ') to non-nullable pointer type 'int _Nonnull'}}
	p = c ? nullableP2 : nullableP2; // expected-warning{{implicit conversion from nullable pointer 'NullableIntP1' (aka 'int ') to non-nullable pointer type 'int _Nonnull'}}
	}

	// Check nullability of binary conditional expressions.
	void binary_conditional_expr() {
	int * _Nonnull p;
	int * _Nonnull nonnullP;
	int * _Nullable nullableP;
	int * _Null_unspecified unspecifiedP;
	int *noneP;

	p = nonnullP ?: nonnullP;
	p = nonnullP ?: nullableP;
	p = nonnullP ?: unspecifiedP;
	p = nonnullP ?: noneP;
	p = nullableP ?: nonnullP;
	p = nullableP ?: nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = nullableP ?: unspecifiedP;
	p = nullableP ?: noneP;
	p = unspecifiedP ?: nonnullP;
	p = unspecifiedP ?: nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = unspecifiedP ?: unspecifiedP;
	p = unspecifiedP ?: noneP;
	p = noneP ?: nonnullP;
	p = noneP ?: nullableP; // expected-warning{{implicit conversion from nullable pointer 'int * _Nullable' to non-nullable pointer type 'int * _Nonnull'}}
	p = noneP ?: unspecifiedP;
	p = noneP ?: noneP;
	}

	extern int GLOBAL_LENGTH;

	// Nullability can appear on arrays when the arrays are in parameter lists.
	void arrays(int ints[_Nonnull],
	void *ptrs[_Nullable],
	void **nestedPtrs[_Nullable],
	void * _Null_unspecified * _Nonnull nestedPtrs2[_Nullable],
	int fixedSize[_Nonnull 2],
	int staticSize[_Nonnull static 2],
	int staticSize2[static _Nonnull 2],
	int starSize[_Nonnull *],
	int vla[_Nonnull GLOBAL_LENGTH],
	void ** _Nullable reference);
	void testDecayedType() {
	int produceAnErrorMessage = arrays; // expected-warning {{incompatible pointer to integer conversion initializing 'int' with an expression of type 'void (int * _Nonnull, void _Nullable, void * _Nullable, void * _Null_unspecified * _Nonnull * _Nullable, int * _Nonnull, int * _Nonnull, int * _Nonnull, int * _Nonnull, int * _Nonnull, void ** _Nullable)'}}
	}

	int notInFunction[_Nullable 3]; // expected-error {{nullability specifier '_Nullable' cannot be applied to non-pointer type 'int [3]'}}

	void nestedArrays(int x[5][_Nonnull 1]) {} // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [1]'}}
	void nestedArrays2(int x[5][_Nonnull 1][2]) {} // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [1][2]'}}
	void nestedArraysOK(int x[_Nonnull 5][1]) {} // ok

	void nullabilityOnBase(_Nonnull int x[1], // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int'}}
	int _Nonnull y[1]); // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int'}}

	typedef int INTS[4];
	typedef int BAD_INTS[_Nonnull 4]; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [4]'}}

	void typedefTest(INTS _Nonnull x,
	_Nonnull INTS xx,
	INTS _Nonnull y[2], // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}
	INTS z[_Nonnull 2]);

	INTS _Nonnull x; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}
	_Nonnull INTS x; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}

	void arraysInBlocks() {
	typedef int INTS[4];
	void (^simple)(int [_Nonnull 2]) = ^(int x[_Nonnull 2]) {};
	simple(0); // expected-warning {{null passed to a callee that requires a non-null argument}}
	void (^nested)(void _Nullable x[_Nonnull 2]) = ^(void _Nullable x[_Nonnull 2]) {};
	nested(0); // expected-warning {{null passed to a callee that requires a non-null argument}}
	void (^nestedBad)(int x[2][_Nonnull 2]) = // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [2]'}}
	^(int x[2][_Nonnull 2]) {}; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'int [2]'}}

	void (^withTypedef)(INTS _Nonnull) = ^(INTS _Nonnull x) {};
	withTypedef(0); // expected-warning {{null passed to a callee that requires a non-null argument}}
	void (^withTypedefBad)(INTS _Nonnull [2]) = // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}
	^(INTS _Nonnull x[2]) {}; // expected-error {{nullability specifier '_Nonnull' cannot be applied to non-pointer type 'INTS' (aka 'int [4]')}}
	}