llvm-project/clang/test/Analysis/nullability.mm

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// RUN: %clang_cc1 -analyze -analyzer-checker=core,nullability -verify %s
#define nil 0
#define BOOL int
@protocol NSObject
+ (id)alloc;
- (id)init;
@end
@protocol NSCopying
@end
__attribute__((objc_root_class))
@interface
NSObject<NSObject>
@end
@interface NSString : NSObject<NSCopying>
- (BOOL)isEqualToString : (NSString *_Nonnull)aString;
- (NSString *)stringByAppendingString:(NSString *_Nonnull)aString;
@end
@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 {{}}
} break;
case 1: {
int b = p->val; // expected-warning {{}}
} break;
case 2: {
int stuff = *ptr; // expected-warning {{}}
} break;
case 3:
takesNonnull(p); // expected-warning {{}}
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 {{}}
}
Dummy a;
Dummy *_Nonnull nonnull = &a;
nonnull = q; // expected-warning {{}}
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 {{}}
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 {{}}
case 7: testMultiParamChecking(nullable, nullable, nonnull); // expected-warning {{}}
case 8: testMultiParamChecking(nullable, nullable, nullable); // expected-warning {{}}
case 9: testMultiParamChecking((Dummy *_Nonnull)0, nullable, nonnull); break;
}
}
Dummy *_Nonnull testNullableReturn(Dummy *_Nullable a) {
Dummy *p = a;
return p; // expected-warning {{}}
}
Dummy *_Nonnull testNullReturn() {
Dummy *p = 0;
return p; // expected-warning {{}}
}
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 {{}}
break;
case 4:
shouldBeNullable = [eraseNullab(getNonnullTestObject()) returnsNullable];
[o takesNonnull:shouldBeNullable]; // expected-warning {{}}
break;
case 5:
shouldBeNullable =
[eraseNullab(getUnspecifiedTestObject()) returnsNullable];
[o takesNonnull:shouldBeNullable]; // expected-warning {{}}
break;
case 6:
shouldBeNullable = [eraseNullab(getNullableTestObject()) returnsNullable];
[o takesNonnull:shouldBeNullable]; // expected-warning {{}}
break;
case 7: {
int *shouldBeNonnull = [eraseNullab(getNonnullTestObject()) returnsNonnull];
[o takesNonnull:shouldBeNonnull];
} break;
}
}
void testCast() {
Dummy *p = (Dummy * _Nonnull)returnsNullable();
takesNonnull(p);
}
void testInvalidPropagation() {
Dummy *p = returnsUnspecified();
takesNullable(p);
takesNonnull(p);
}
void onlyReportFirstPreconditionViolationOnPath() {
Dummy *p = returnsNullable();
takesNonnull(p); // expected-warning {{}}
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);
}
void inlinedNullable(Dummy *_Nullable p) {
if (p) return;
}
void inlinedNonnull(Dummy *_Nonnull p) {
if (p) return;
}
void inlinedUnspecified(Dummy *p) {
if (p) return;
}
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);
return p;
}