third_party/llvm-project/clang/test/Analysis/nullability.mm - cobalt - Git at Google

 // RUN: %clang_analyze_cc1 -fblocks -analyzer-checker=core,nullability.NullPassedToNonnull,nullability.NullReturnedFromNonnull,nullability.NullablePassedToNonnull,nullability.NullableReturnedFromNonnull,nullability.NullableDereferenced -DNOSYSTEMHEADERS=0 -verify %s
 // RUN: %clang_analyze_cc1 -fblocks -analyzer-checker=core,nullability.NullPassedToNonnull,nullability.NullReturnedFromNonnull,nullability.NullablePassedToNonnull,nullability.NullableReturnedFromNonnull,nullability.NullableDereferenced -analyzer-config nullability:NoDiagnoseCallsToSystemHeaders=true -DNOSYSTEMHEADERS=1 -verify %s

 #include "Inputs/system-header-simulator-for-nullability.h"

 @interface TestObject : NSObject
 - (int *_Nonnull)returnsNonnull;
 - (int *_Nullable)returnsNullable;
 - (int *)returnsUnspecified;
 - (void)takesNonnull:(int *_Nonnull)p;
 - (void)takesNullable:(int *_Nullable)p;
 - (void)takesUnspecified:(int *)p;
 @property(readonly, strong) NSString *stuff;
 @end

 TestObject * getUnspecifiedTestObject();
 TestObject *_Nonnull getNonnullTestObject();
 TestObject *_Nullable getNullableTestObject();

 int getRandom();

 typedef struct Dummy { int val; } Dummy;

 void takesNullable(Dummy *_Nullable);
 void takesNonnull(Dummy *_Nonnull);
 void takesUnspecified(Dummy *);

 Dummy *_Nullable returnsNullable();
 Dummy *_Nonnull returnsNonnull();
 Dummy *returnsUnspecified();
 int *_Nullable returnsNullableInt();

 template <typename T> T *eraseNullab(T *p) { return p; }

 void takesAttrNonnull(Dummy *p) __attribute((nonnull(1)));

 void testBasicRules() {
   Dummy *p = returnsNullable();
   int *ptr = returnsNullableInt();
   // Make every dereference a different path to avoid sinks after errors.
   switch (getRandom()) {
   case 0: {
     Dummy &r = *p; // expected-warning {{Nullable pointer is dereferenced}}
   } break;
   case 1: {
     int b = p->val; // expected-warning {{Nullable pointer is dereferenced}}
   } break;
   case 2: {
     int stuff = *ptr; // expected-warning {{Nullable pointer is dereferenced}}
   } break;
   case 3:
     takesNonnull(p); // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
     break;
   case 4: {
     Dummy d;
     takesNullable(&d);
     Dummy dd(d);
     break;
   }
   case 5: takesAttrNonnull(p); break; // expected-warning {{Nullable pointer is passed to}}
   default: { Dummy d = *p; } break; // expected-warning {{Nullable pointer is dereferenced}}
   }
   if (p) {
     takesNonnull(p);
     if (getRandom()) {
       Dummy &r = *p;
     } else {
       int b = p->val;
     }
   }
   Dummy *q = 0;
   if (getRandom()) {
     takesNullable(q);
     takesNonnull(q); // expected-warning {{Null passed to a callee that requires a non-null 1st parameter}}
   }
   Dummy a;
   Dummy *_Nonnull nonnull = &a;
   nonnull = q; // expected-warning {{Null assigned to a pointer which is expected to have non-null value}}
   q = &a;
   takesNullable(q);
   takesNonnull(q);
 }

 void testMultiParamChecking(Dummy *_Nonnull a, Dummy *_Nullable b,
                             Dummy *_Nonnull c);

 void testArgumentTracking(Dummy *_Nonnull nonnull, Dummy *_Nullable nullable) {
   Dummy *p = nullable;
   Dummy *q = nonnull;
   switch(getRandom()) {
   case 1: nonnull = p; break; // expected-warning {{Nullable pointer is assigned to a pointer which is expected to have non-null value}}
   case 2: p = 0; break;
   case 3: q = p; break;
   case 4: testMultiParamChecking(nonnull, nullable, nonnull); break;
   case 5: testMultiParamChecking(nonnull, nonnull, nonnull); break;
   case 6: testMultiParamChecking(nonnull, nullable, nullable); break; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 3rd parameter}}
   case 7: testMultiParamChecking(nullable, nullable, nonnull); // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
   case 8: testMultiParamChecking(nullable, nullable, nullable); // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
   case 9: testMultiParamChecking((Dummy *_Nonnull)0, nullable, nonnull); break;
   }
 }

 Dummy *_Nonnull testNullableReturn(Dummy *_Nullable a) {
   Dummy *p = a;
   return p; // expected-warning {{Nullable pointer is returned from a function that is expected to return a non-null value}}
 }

 Dummy *_Nonnull testNullReturn() {
   Dummy *p = 0;
   return p; // expected-warning {{Null returned from a function that is expected to return a non-null value}}
 }

 void testObjCMessageResultNullability() {
   // The expected result: the most nullable of self and method return type.
   TestObject *o = getUnspecifiedTestObject();
   int *shouldBeNullable = [eraseNullab(getNullableTestObject()) returnsNonnull];
   switch (getRandom()) {
   case 0:
     // The core analyzer assumes that the receiver is non-null after a message
     // send. This is to avoid some false positives, and increase performance
     // but it also reduces the coverage and makes this checker unable to reason
     // about the nullness of the receiver.
     [o takesNonnull:shouldBeNullable]; // No warning expected.
     break;
   case 1:
     shouldBeNullable =
         [eraseNullab(getNullableTestObject()) returnsUnspecified];
     [o takesNonnull:shouldBeNullable]; // No warning expected.
     break;
   case 3:
     shouldBeNullable = [eraseNullab(getNullableTestObject()) returnsNullable];
     [o takesNonnull:shouldBeNullable]; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
     break;
   case 4:
     shouldBeNullable = [eraseNullab(getNonnullTestObject()) returnsNullable];
     [o takesNonnull:shouldBeNullable]; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
     break;
   case 5:
     shouldBeNullable =
         [eraseNullab(getUnspecifiedTestObject()) returnsNullable];
     [o takesNonnull:shouldBeNullable]; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
     break;
   case 6:
     shouldBeNullable = [eraseNullab(getNullableTestObject()) returnsNullable];
     [o takesNonnull:shouldBeNullable]; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
     break;
   case 7: {
     int *shouldBeNonnull = [eraseNullab(getNonnullTestObject()) returnsNonnull];
     [o takesNonnull:shouldBeNonnull];
   } break;
   }
 }

 Dummy * _Nonnull testDirectCastNullableToNonnull() {
   Dummy *p = returnsNullable();
   takesNonnull((Dummy * _Nonnull)p);  // no-warning
   return (Dummy * _Nonnull)p;         // no-warning
 }

 Dummy * _Nonnull testIndirectCastNullableToNonnull() {
   Dummy *p = (Dummy * _Nonnull)returnsNullable();
   takesNonnull(p);  // no-warning
   return p;         // no-warning
 }

 Dummy * _Nonnull testDirectCastNilToNonnull() {
   takesNonnull((Dummy * _Nonnull)0);  // no-warning
   return (Dummy * _Nonnull)0;         // no-warning
 }

 void testIndirectCastNilToNonnullAndPass() {
   Dummy *p = (Dummy * _Nonnull)0;
   // FIXME: Ideally the cast above would suppress this warning.
   takesNonnull(p);  // expected-warning {{Null passed to a callee that requires a non-null 1st parameter}}
 }

 void testDirectCastNilToNonnullAndAssignToLocalInInitializer() {
   Dummy * _Nonnull nonnullLocalWithAssignmentInInitializer = (Dummy * _Nonnull)0; // no-warning
   (void)nonnullLocalWithAssignmentInInitializer;

   // Since we've already had an invariant violation along this path,
   // we shouldn't warn here.
   nonnullLocalWithAssignmentInInitializer = 0;
   (void)nonnullLocalWithAssignmentInInitializer;

 }

 void testDirectCastNilToNonnullAndAssignToLocal(Dummy * _Nonnull p) {
   Dummy * _Nonnull nonnullLocalWithAssignment = p;
   nonnullLocalWithAssignment = (Dummy * _Nonnull)0; // no-warning
   (void)nonnullLocalWithAssignment;

   // Since we've already had an invariant violation along this path,
   // we shouldn't warn here.
   nonnullLocalWithAssignment = 0;
   (void)nonnullLocalWithAssignment;
 }

 void testDirectCastNilToNonnullAndAssignToParam(Dummy * _Nonnull p) {
   p = (Dummy * _Nonnull)0; // no-warning
 }

 @interface ClassWithNonnullIvar : NSObject {
   Dummy *_nonnullIvar;
 }
 @end

 @implementation ClassWithNonnullIvar
 -(void)testDirectCastNilToNonnullAndAssignToIvar {
   _nonnullIvar = (Dummy * _Nonnull)0; // no-warning;

   // Since we've already had an invariant violation along this path,
   // we shouldn't warn here.
   _nonnullIvar = 0;
 }
 @end

 void testIndirectNilPassToNonnull() {
   Dummy *p = 0;
   takesNonnull(p);  // expected-warning {{Null passed to a callee that requires a non-null 1st parameter}}
 }

 void testConditionalNilPassToNonnull(Dummy *p) {
   if (!p) {
     takesNonnull(p);  // expected-warning {{Null passed to a callee that requires a non-null 1st parameter}}
   }
 }

 Dummy * _Nonnull testIndirectCastNilToNonnullAndReturn() {
   Dummy *p = (Dummy * _Nonnull)0;
   // FIXME: Ideally the cast above would suppress this warning.
   return p; // expected-warning {{Null returned from a function that is expected to return a non-null value}}
 }

 void testInvalidPropagation() {
   Dummy *p = returnsUnspecified();
   takesNullable(p);
   takesNonnull(p);
 }

 void onlyReportFirstPreconditionViolationOnPath() {
   Dummy *p = returnsNullable();
   takesNonnull(p); // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
   takesNonnull(p); // No warning.
   // The first warning was not a sink. The analysis expected to continue.
   int i = 0;
   i = 5 / i; // expected-warning {{Division by zero}}
   (void)i;
 }

 Dummy *_Nonnull doNotWarnWhenPreconditionIsViolatedInTopFunc(
     Dummy *_Nonnull p) {
   if (!p) {
     Dummy *ret =
         0; // avoid compiler warning (which is not generated by the analyzer)
     if (getRandom())
       return ret; // no warning
     else
       return p; // no warning
   } else {
     return p;
   }
 }

 Dummy *_Nonnull doNotWarnWhenPreconditionIsViolated(Dummy *_Nonnull p) {
   if (!p) {
     Dummy *ret =
         0; // avoid compiler warning (which is not generated by the analyzer)
     if (getRandom())
       return ret; // no warning
     else
       return p; // no warning
   } else {
     return p;
   }
 }

 void testPreconditionViolationInInlinedFunction(Dummy *p) {
   doNotWarnWhenPreconditionIsViolated(p);
 }

 @interface TestInlinedPreconditionViolationClass : NSObject
 @end

 @implementation TestInlinedPreconditionViolationClass
 -(Dummy * _Nonnull) calleeWithParam:(Dummy * _Nonnull) p2 {
   Dummy *x = 0;
   if (!p2) // p2 binding becomes dead at this point.
     return x; // no-warning
   else
    return p2;
 }

 -(Dummy *)callerWithParam:(Dummy * _Nonnull) p1 {
   return [self calleeWithParam:p1];
 }

 @end

 int * _Nonnull InlinedPreconditionViolationInFunctionCallee(int * _Nonnull p2) {
   int *x = 0;
   if (!p2) // p2 binding becomes dead at this point.
     return x; // no-warning
   else
    return p2;
 }

 int * _Nonnull InlinedReturnNullOverSuppressionCallee(int * _Nonnull p2) {
   int *result = 0;
   return result; // no-warning; but this is an over suppression
 }

 int *InlinedReturnNullOverSuppressionCaller(int * _Nonnull p1) {
   return InlinedReturnNullOverSuppressionCallee(p1);
 }

 void inlinedNullable(Dummy *_Nullable p) {
   if (p) return;
 }
 void inlinedNonnull(Dummy *_Nonnull p) {
   if (p) return;
 }
 void inlinedUnspecified(Dummy *p) {
   if (p) return;
 }

 void testNilReturnWithBlock(Dummy *p) {
   p = 0;
   Dummy *_Nonnull (^myblock)(void) = ^Dummy *_Nonnull(void) {
     return p; // TODO: We should warn in blocks.
   };
   myblock();
 }

 Dummy *_Nonnull testDefensiveInlineChecks(Dummy * p) {
   switch (getRandom()) {
   case 1: inlinedNullable(p); break;
   case 2: inlinedNonnull(p); break;
   case 3: inlinedUnspecified(p); break;
   }
   if (getRandom())
     takesNonnull(p);  // no-warning

   if (getRandom()) {
     Dummy *_Nonnull varWithInitializer = p; // no-warning

      Dummy *_Nonnull var1WithInitializer = p,  // no-warning
            *_Nonnull var2WithInitializer = p;  // no-warning
   }

   if (getRandom()) {
     Dummy *_Nonnull varWithoutInitializer;
     varWithoutInitializer = p; // no-warning
   }

   return p;
 }


 @interface SomeClass : NSObject {
   int instanceVar;
 }
 @end

 @implementation SomeClass (MethodReturn)
 - (id)initWithSomething:(int)i {
   if (self = [super init]) {
     instanceVar = i;
   }

   return self;
 }

 - (TestObject * _Nonnull)testReturnsNullableInNonnullIndirectly {
   TestObject *local = getNullableTestObject();
   return local; // expected-warning {{Nullable pointer is returned from a method that is expected to return a non-null value}}
 }

 - (TestObject * _Nonnull)testReturnsCastSuppressedNullableInNonnullIndirectly {
   TestObject *local = getNullableTestObject();
   return (TestObject * _Nonnull)local; // no-warning
 }

 - (TestObject * _Nonnull)testReturnsNullableInNonnullWhenPreconditionViolated:(TestObject * _Nonnull) p {
   TestObject *local = getNullableTestObject();
   if (!p) // Pre-condition violated here.
     return local; // no-warning
   else
     return p; // no-warning
 }
 @end

 @interface ClassWithInitializers : NSObject
 @end

 @implementation ClassWithInitializers
 - (instancetype _Nonnull)initWithNonnullReturnAndSelfCheckingIdiom {
   // This defensive check is a common-enough idiom that we filter don't want
   // to issue a diagnostic for it,
   if (self = [super init]) {
   }

   return self; // no-warning
 }

 - (instancetype _Nonnull)initWithNonnullReturnAndNilReturnViaLocal {
   self = [super init];
   // This leaks, but we're not checking for that here.

   ClassWithInitializers *other = nil;
   // False negative. Once we have more subtle suppression of defensive checks in
   // initializers we should warn here.
   return other;
 }
 @end

 @interface SubClassWithInitializers : ClassWithInitializers
 @end

 @implementation SubClassWithInitializers
 // Note: Because this is overriding
 // -[ClassWithInitializers initWithNonnullReturnAndSelfCheckingIdiom],
 // the return type of this method becomes implicitly id _Nonnull.
 - (id)initWithNonnullReturnAndSelfCheckingIdiom {
   if (self = [super initWithNonnullReturnAndSelfCheckingIdiom]) {
   }

   return self; // no-warning
 }

 - (id _Nonnull)initWithNonnullReturnAndSelfCheckingIdiomV2; {
   // Another common return-checking idiom
   self = [super initWithNonnullReturnAndSelfCheckingIdiom];
   if (!self) {
     return nil; // no-warning
   }

   return self;
 }
 @end

 @interface ClassWithCopyWithZone : NSObject<NSCopying,NSMutableCopying> {
   id i;
 }

 @end

 @implementation ClassWithCopyWithZone
 -(id)copyWithZone:(NSZone *)zone {
   ClassWithCopyWithZone *newInstance = [[ClassWithCopyWithZone alloc] init];
   if (!newInstance)
     return nil;

   newInstance->i = i;
   return newInstance;
 }

 -(id)mutableCopyWithZone:(NSZone *)zone {
   ClassWithCopyWithZone *newInstance = [[ClassWithCopyWithZone alloc] init];
   if (newInstance) {
     newInstance->i = i;
   }

   return newInstance;
 }
 @end

 NSString * _Nullable returnsNullableString();

 void callFunctionInSystemHeader() {
   NSString *s = returnsNullableString();

   NSSystemFunctionTakingNonnull(s);
   #if !NOSYSTEMHEADERS
   // expected-warning@-2{{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
   #endif
 }

 void callMethodInSystemHeader() {
   NSString *s = returnsNullableString();

   NSSystemClass *sc = [[NSSystemClass alloc] init];
   [sc takesNonnull:s];
   #if !NOSYSTEMHEADERS
   // expected-warning@-2{{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
   #endif
 }

 // Test to make sure the analyzer doesn't warn when an a nullability invariant
 // has already been found to be violated on an instance variable.

 @class MyInternalClass;
 @interface MyClass : NSObject {
   MyInternalClass * _Nonnull _internal;
 }
 @end

 @interface MyInternalClass : NSObject {
   @public
   id _someIvar;
 }
 -(id _Nonnull)methodWithInternalImplementation;
 @end

 @interface MyClass () {
   MyInternalClass * _Nonnull _nilledOutInternal;
 }
 @end

 @implementation MyClass
 -(id _Nonnull)methodWithInternalImplementation {
   if (!_internal)
     return nil; // no-warning

   return [_internal methodWithInternalImplementation];
 }

 - (id _Nonnull)methodReturningIvarInImplementation; {
   return _internal == 0 ? nil : _internal->_someIvar; // no-warning
 }

 -(id _Nonnull)methodWithNilledOutInternal {
   _nilledOutInternal = (id _Nonnull)nil;

   return nil; // no-warning
 }
 @end
	// RUN: %clang_analyze_cc1 -fblocks -analyzer-checker=core,nullability.NullPassedToNonnull,nullability.NullReturnedFromNonnull,nullability.NullablePassedToNonnull,nullability.NullableReturnedFromNonnull,nullability.NullableDereferenced -DNOSYSTEMHEADERS=0 -verify %s
	// RUN: %clang_analyze_cc1 -fblocks -analyzer-checker=core,nullability.NullPassedToNonnull,nullability.NullReturnedFromNonnull,nullability.NullablePassedToNonnull,nullability.NullableReturnedFromNonnull,nullability.NullableDereferenced -analyzer-config nullability:NoDiagnoseCallsToSystemHeaders=true -DNOSYSTEMHEADERS=1 -verify %s

	#include "Inputs/system-header-simulator-for-nullability.h"

	@interface TestObject : NSObject
	- (int *_Nonnull)returnsNonnull;
	- (int *_Nullable)returnsNullable;
	- (int *)returnsUnspecified;
	- (void)takesNonnull:(int *_Nonnull)p;
	- (void)takesNullable:(int *_Nullable)p;
	- (void)takesUnspecified:(int *)p;
	@property(readonly, strong) NSString *stuff;
	@end

	TestObject * getUnspecifiedTestObject();
	TestObject *_Nonnull getNonnullTestObject();
	TestObject *_Nullable getNullableTestObject();

	int getRandom();

	typedef struct Dummy { int val; } Dummy;

	void takesNullable(Dummy *_Nullable);
	void takesNonnull(Dummy *_Nonnull);
	void takesUnspecified(Dummy *);

	Dummy *_Nullable returnsNullable();
	Dummy *_Nonnull returnsNonnull();
	Dummy *returnsUnspecified();
	int *_Nullable returnsNullableInt();

	template <typename T> T eraseNullab(T p) { return p; }

	void takesAttrNonnull(Dummy *p) __attribute((nonnull(1)));

	void testBasicRules() {
	Dummy *p = returnsNullable();
	int *ptr = returnsNullableInt();
	// Make every dereference a different path to avoid sinks after errors.
	switch (getRandom()) {
	case 0: {
	Dummy &r = *p; // expected-warning {{Nullable pointer is dereferenced}}
	} break;
	case 1: {
	int b = p->val; // expected-warning {{Nullable pointer is dereferenced}}
	} break;
	case 2: {
	int stuff = *ptr; // expected-warning {{Nullable pointer is dereferenced}}
	} break;
	case 3:
	takesNonnull(p); // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	break;
	case 4: {
	Dummy d;
	takesNullable(&d);
	Dummy dd(d);
	break;
	}
	case 5: takesAttrNonnull(p); break; // expected-warning {{Nullable pointer is passed to}}
	default: { Dummy d = *p; } break; // expected-warning {{Nullable pointer is dereferenced}}
	}
	if (p) {
	takesNonnull(p);
	if (getRandom()) {
	Dummy &r = *p;
	} else {
	int b = p->val;
	}
	}
	Dummy *q = 0;
	if (getRandom()) {
	takesNullable(q);
	takesNonnull(q); // expected-warning {{Null passed to a callee that requires a non-null 1st parameter}}
	}
	Dummy a;
	Dummy *_Nonnull nonnull = &a;
	nonnull = q; // expected-warning {{Null assigned to a pointer which is expected to have non-null value}}
	q = &a;
	takesNullable(q);
	takesNonnull(q);
	}

	void testMultiParamChecking(Dummy _Nonnull a, Dummy _Nullable b,
	Dummy *_Nonnull c);

	void testArgumentTracking(Dummy _Nonnull nonnull, Dummy _Nullable nullable) {
	Dummy *p = nullable;
	Dummy *q = nonnull;
	switch(getRandom()) {
	case 1: nonnull = p; break; // expected-warning {{Nullable pointer is assigned to a pointer which is expected to have non-null value}}
	case 2: p = 0; break;
	case 3: q = p; break;
	case 4: testMultiParamChecking(nonnull, nullable, nonnull); break;
	case 5: testMultiParamChecking(nonnull, nonnull, nonnull); break;
	case 6: testMultiParamChecking(nonnull, nullable, nullable); break; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 3rd parameter}}
	case 7: testMultiParamChecking(nullable, nullable, nonnull); // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	case 8: testMultiParamChecking(nullable, nullable, nullable); // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	case 9: testMultiParamChecking((Dummy *_Nonnull)0, nullable, nonnull); break;
	}
	}

	Dummy _Nonnull testNullableReturn(Dummy _Nullable a) {
	Dummy *p = a;
	return p; // expected-warning {{Nullable pointer is returned from a function that is expected to return a non-null value}}
	}

	Dummy *_Nonnull testNullReturn() {
	Dummy *p = 0;
	return p; // expected-warning {{Null returned from a function that is expected to return a non-null value}}
	}

	void testObjCMessageResultNullability() {
	// The expected result: the most nullable of self and method return type.
	TestObject *o = getUnspecifiedTestObject();
	int *shouldBeNullable = [eraseNullab(getNullableTestObject()) returnsNonnull];
	switch (getRandom()) {
	case 0:
	// The core analyzer assumes that the receiver is non-null after a message
	// send. This is to avoid some false positives, and increase performance
	// but it also reduces the coverage and makes this checker unable to reason
	// about the nullness of the receiver.
	[o takesNonnull:shouldBeNullable]; // No warning expected.
	break;
	case 1:
	shouldBeNullable =
	[eraseNullab(getNullableTestObject()) returnsUnspecified];
	[o takesNonnull:shouldBeNullable]; // No warning expected.
	break;
	case 3:
	shouldBeNullable = [eraseNullab(getNullableTestObject()) returnsNullable];
	[o takesNonnull:shouldBeNullable]; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	break;
	case 4:
	shouldBeNullable = [eraseNullab(getNonnullTestObject()) returnsNullable];
	[o takesNonnull:shouldBeNullable]; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	break;
	case 5:
	shouldBeNullable =
	[eraseNullab(getUnspecifiedTestObject()) returnsNullable];
	[o takesNonnull:shouldBeNullable]; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	break;
	case 6:
	shouldBeNullable = [eraseNullab(getNullableTestObject()) returnsNullable];
	[o takesNonnull:shouldBeNullable]; // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	break;
	case 7: {
	int *shouldBeNonnull = [eraseNullab(getNonnullTestObject()) returnsNonnull];
	[o takesNonnull:shouldBeNonnull];
	} break;
	}
	}

	Dummy * _Nonnull testDirectCastNullableToNonnull() {
	Dummy *p = returnsNullable();
	takesNonnull((Dummy * _Nonnull)p); // no-warning
	return (Dummy * _Nonnull)p; // no-warning
	}

	Dummy * _Nonnull testIndirectCastNullableToNonnull() {
	Dummy p = (Dummy _Nonnull)returnsNullable();
	takesNonnull(p); // no-warning
	return p; // no-warning
	}

	Dummy * _Nonnull testDirectCastNilToNonnull() {
	takesNonnull((Dummy * _Nonnull)0); // no-warning
	return (Dummy * _Nonnull)0; // no-warning
	}

	void testIndirectCastNilToNonnullAndPass() {
	Dummy p = (Dummy _Nonnull)0;
	// FIXME: Ideally the cast above would suppress this warning.
	takesNonnull(p); // expected-warning {{Null passed to a callee that requires a non-null 1st parameter}}
	}

	void testDirectCastNilToNonnullAndAssignToLocalInInitializer() {
	Dummy * _Nonnull nonnullLocalWithAssignmentInInitializer = (Dummy * _Nonnull)0; // no-warning
	(void)nonnullLocalWithAssignmentInInitializer;

	// Since we've already had an invariant violation along this path,
	// we shouldn't warn here.
	nonnullLocalWithAssignmentInInitializer = 0;
	(void)nonnullLocalWithAssignmentInInitializer;

	}

	void testDirectCastNilToNonnullAndAssignToLocal(Dummy * _Nonnull p) {
	Dummy * _Nonnull nonnullLocalWithAssignment = p;
	nonnullLocalWithAssignment = (Dummy * _Nonnull)0; // no-warning
	(void)nonnullLocalWithAssignment;

	// Since we've already had an invariant violation along this path,
	// we shouldn't warn here.
	nonnullLocalWithAssignment = 0;
	(void)nonnullLocalWithAssignment;
	}

	void testDirectCastNilToNonnullAndAssignToParam(Dummy * _Nonnull p) {
	p = (Dummy * _Nonnull)0; // no-warning
	}

	@interface ClassWithNonnullIvar : NSObject {
	Dummy *_nonnullIvar;
	}
	@end

	@implementation ClassWithNonnullIvar
	-(void)testDirectCastNilToNonnullAndAssignToIvar {
	_nonnullIvar = (Dummy * _Nonnull)0; // no-warning;

	// Since we've already had an invariant violation along this path,
	// we shouldn't warn here.
	_nonnullIvar = 0;
	}
	@end

	void testIndirectNilPassToNonnull() {
	Dummy *p = 0;
	takesNonnull(p); // expected-warning {{Null passed to a callee that requires a non-null 1st parameter}}
	}

	void testConditionalNilPassToNonnull(Dummy *p) {
	if (!p) {
	takesNonnull(p); // expected-warning {{Null passed to a callee that requires a non-null 1st parameter}}
	}
	}

	Dummy * _Nonnull testIndirectCastNilToNonnullAndReturn() {
	Dummy p = (Dummy _Nonnull)0;
	// FIXME: Ideally the cast above would suppress this warning.
	return p; // expected-warning {{Null returned from a function that is expected to return a non-null value}}
	}

	void testInvalidPropagation() {
	Dummy *p = returnsUnspecified();
	takesNullable(p);
	takesNonnull(p);
	}

	void onlyReportFirstPreconditionViolationOnPath() {
	Dummy *p = returnsNullable();
	takesNonnull(p); // expected-warning {{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	takesNonnull(p); // No warning.
	// The first warning was not a sink. The analysis expected to continue.
	int i = 0;
	i = 5 / i; // expected-warning {{Division by zero}}
	(void)i;
	}

	Dummy *_Nonnull doNotWarnWhenPreconditionIsViolatedInTopFunc(
	Dummy *_Nonnull p) {
	if (!p) {
	Dummy *ret =
	0; // avoid compiler warning (which is not generated by the analyzer)
	if (getRandom())
	return ret; // no warning
	else
	return p; // no warning
	} else {
	return p;
	}
	}

	Dummy _Nonnull doNotWarnWhenPreconditionIsViolated(Dummy _Nonnull p) {
	if (!p) {
	Dummy *ret =
	0; // avoid compiler warning (which is not generated by the analyzer)
	if (getRandom())
	return ret; // no warning
	else
	return p; // no warning
	} else {
	return p;
	}
	}

	void testPreconditionViolationInInlinedFunction(Dummy *p) {
	doNotWarnWhenPreconditionIsViolated(p);
	}

	@interface TestInlinedPreconditionViolationClass : NSObject
	@end

	@implementation TestInlinedPreconditionViolationClass
	-(Dummy * _Nonnull) calleeWithParam:(Dummy * _Nonnull) p2 {
	Dummy *x = 0;
	if (!p2) // p2 binding becomes dead at this point.
	return x; // no-warning
	else
	return p2;
	}

	-(Dummy )callerWithParam:(Dummy _Nonnull) p1 {
	return [self calleeWithParam:p1];
	}

	@end

	int * _Nonnull InlinedPreconditionViolationInFunctionCallee(int * _Nonnull p2) {
	int *x = 0;
	if (!p2) // p2 binding becomes dead at this point.
	return x; // no-warning
	else
	return p2;
	}

	int * _Nonnull InlinedReturnNullOverSuppressionCallee(int * _Nonnull p2) {
	int *result = 0;
	return result; // no-warning; but this is an over suppression
	}

	int InlinedReturnNullOverSuppressionCaller(int _Nonnull p1) {
	return InlinedReturnNullOverSuppressionCallee(p1);
	}

	void inlinedNullable(Dummy *_Nullable p) {
	if (p) return;
	}
	void inlinedNonnull(Dummy *_Nonnull p) {
	if (p) return;
	}
	void inlinedUnspecified(Dummy *p) {
	if (p) return;
	}

	void testNilReturnWithBlock(Dummy *p) {
	p = 0;
	Dummy _Nonnull (^myblock)(void) = ^Dummy _Nonnull(void) {
	return p; // TODO: We should warn in blocks.
	};
	myblock();
	}

	Dummy _Nonnull testDefensiveInlineChecks(Dummy p) {
	switch (getRandom()) {
	case 1: inlinedNullable(p); break;
	case 2: inlinedNonnull(p); break;
	case 3: inlinedUnspecified(p); break;
	}
	if (getRandom())
	takesNonnull(p); // no-warning

	if (getRandom()) {
	Dummy *_Nonnull varWithInitializer = p; // no-warning

	Dummy *_Nonnull var1WithInitializer = p, // no-warning
	*_Nonnull var2WithInitializer = p; // no-warning
	}

	if (getRandom()) {
	Dummy *_Nonnull varWithoutInitializer;
	varWithoutInitializer = p; // no-warning
	}

	return p;
	}


	@interface SomeClass : NSObject {
	int instanceVar;
	}
	@end

	@implementation SomeClass (MethodReturn)
	- (id)initWithSomething:(int)i {
	if (self = [super init]) {
	instanceVar = i;
	}

	return self;
	}

	- (TestObject * _Nonnull)testReturnsNullableInNonnullIndirectly {
	TestObject *local = getNullableTestObject();
	return local; // expected-warning {{Nullable pointer is returned from a method that is expected to return a non-null value}}
	}

	- (TestObject * _Nonnull)testReturnsCastSuppressedNullableInNonnullIndirectly {
	TestObject *local = getNullableTestObject();
	return (TestObject * _Nonnull)local; // no-warning
	}

	- (TestObject * _Nonnull)testReturnsNullableInNonnullWhenPreconditionViolated:(TestObject * _Nonnull) p {
	TestObject *local = getNullableTestObject();
	if (!p) // Pre-condition violated here.
	return local; // no-warning
	else
	return p; // no-warning
	}
	@end

	@interface ClassWithInitializers : NSObject
	@end

	@implementation ClassWithInitializers
	- (instancetype _Nonnull)initWithNonnullReturnAndSelfCheckingIdiom {
	// This defensive check is a common-enough idiom that we filter don't want
	// to issue a diagnostic for it,
	if (self = [super init]) {
	}

	return self; // no-warning
	}

	- (instancetype _Nonnull)initWithNonnullReturnAndNilReturnViaLocal {
	self = [super init];
	// This leaks, but we're not checking for that here.

	ClassWithInitializers *other = nil;
	// False negative. Once we have more subtle suppression of defensive checks in
	// initializers we should warn here.
	return other;
	}
	@end

	@interface SubClassWithInitializers : ClassWithInitializers
	@end

	@implementation SubClassWithInitializers
	// Note: Because this is overriding
	// -[ClassWithInitializers initWithNonnullReturnAndSelfCheckingIdiom],
	// the return type of this method becomes implicitly id _Nonnull.
	- (id)initWithNonnullReturnAndSelfCheckingIdiom {
	if (self = [super initWithNonnullReturnAndSelfCheckingIdiom]) {
	}

	return self; // no-warning
	}

	- (id _Nonnull)initWithNonnullReturnAndSelfCheckingIdiomV2; {
	// Another common return-checking idiom
	self = [super initWithNonnullReturnAndSelfCheckingIdiom];
	if (!self) {
	return nil; // no-warning
	}

	return self;
	}
	@end

	@interface ClassWithCopyWithZone : NSObject<NSCopying,NSMutableCopying> {
	id i;
	}

	@end

	@implementation ClassWithCopyWithZone
	-(id)copyWithZone:(NSZone *)zone {
	ClassWithCopyWithZone *newInstance = [[ClassWithCopyWithZone alloc] init];
	if (!newInstance)
	return nil;

	newInstance->i = i;
	return newInstance;
	}

	-(id)mutableCopyWithZone:(NSZone *)zone {
	ClassWithCopyWithZone *newInstance = [[ClassWithCopyWithZone alloc] init];
	if (newInstance) {
	newInstance->i = i;
	}

	return newInstance;
	}
	@end

	NSString * _Nullable returnsNullableString();

	void callFunctionInSystemHeader() {
	NSString *s = returnsNullableString();

	NSSystemFunctionTakingNonnull(s);
	#if !NOSYSTEMHEADERS
	// expected-warning@-2{{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	#endif
	}

	void callMethodInSystemHeader() {
	NSString *s = returnsNullableString();

	NSSystemClass *sc = [[NSSystemClass alloc] init];
	[sc takesNonnull:s];
	#if !NOSYSTEMHEADERS
	// expected-warning@-2{{Nullable pointer is passed to a callee that requires a non-null 1st parameter}}
	#endif
	}

	// Test to make sure the analyzer doesn't warn when an a nullability invariant
	// has already been found to be violated on an instance variable.

	@class MyInternalClass;
	@interface MyClass : NSObject {
	MyInternalClass * _Nonnull _internal;
	}
	@end

	@interface MyInternalClass : NSObject {
	@public
	id _someIvar;
	}
	-(id _Nonnull)methodWithInternalImplementation;
	@end

	@interface MyClass () {
	MyInternalClass * _Nonnull _nilledOutInternal;
	}
	@end

	@implementation MyClass
	-(id _Nonnull)methodWithInternalImplementation {
	if (!_internal)
	return nil; // no-warning

	return [_internal methodWithInternalImplementation];
	}

	- (id _Nonnull)methodReturningIvarInImplementation; {
	return _internal == 0 ? nil : _internal->_someIvar; // no-warning
	}

	-(id _Nonnull)methodWithNilledOutInternal {
	_nilledOutInternal = (id _Nonnull)nil;

	return nil; // no-warning
	}
	@end