blob: e34942a8968c8a4adaa9a804f742317305b94a5a [file] [log] [blame]
// RUN: %clang_cc1 -triple x86_64-apple-darwin10 -analyze -analyzer-checker=core,osx.coreFoundation.CFRetainRelease,osx.cocoa.ClassRelease,osx.cocoa.RetainCount -analyzer-store=region -analyzer-output=text -verify %s
/***
This file is for testing the path-sensitive notes for retain/release errors.
Its goal is to have simple branch coverage of any path-based diagnostics,
not to actually check all possible retain/release errors.
This file includes notes that only appear in a ref-counted analysis.
GC-specific notes should go in retain-release-path-notes-gc.m.
***/
@interface NSObject
+ (id)alloc;
- (id)init;
- (void)dealloc;
- (Class)class;
- (id)retain;
- (void)release;
- (void)autorelease;
@end
@interface Foo : NSObject
- (id)methodWithValue;
@property(retain) id propertyValue;
@end
typedef struct CFType *CFTypeRef;
CFTypeRef CFRetain(CFTypeRef);
void CFRelease(CFTypeRef);
id NSMakeCollectable(CFTypeRef);
CFTypeRef CFMakeCollectable(CFTypeRef);
CFTypeRef CFCreateSomething();
CFTypeRef CFGetSomething();
void creationViaAlloc () {
id leaked = [[NSObject alloc] init]; // expected-warning{{leak}} expected-note{{Method returns an Objective-C object with a +1 retain count}}
return; // expected-note{{Object leaked: object allocated and stored into 'leaked' is not referenced later in this execution path and has a retain count of +1}}
}
void creationViaCFCreate () {
CFTypeRef leaked = CFCreateSomething(); // expected-warning{{leak}} expected-note{{Call to function 'CFCreateSomething' returns a Core Foundation object with a +1 retain count}}
return; // expected-note{{Object leaked: object allocated and stored into 'leaked' is not referenced later in this execution path and has a retain count of +1}}
}
void acquisitionViaMethod (Foo *foo) {
id leaked = [foo methodWithValue]; // expected-warning{{leak}} expected-note{{Method returns an Objective-C object with a +0 retain count}}
[leaked retain]; // expected-note{{Reference count incremented. The object now has a +1 retain count}}
[leaked retain]; // expected-note{{Reference count incremented. The object now has a +2 retain count}}
[leaked release]; // expected-note{{Reference count decremented. The object now has a +1 retain count}}
return; // expected-note{{Object leaked: object allocated and stored into 'leaked' is not referenced later in this execution path and has a retain count of +1}}
}
void acquisitionViaProperty (Foo *foo) {
id leaked = foo.propertyValue; // expected-warning{{leak}} expected-note{{Property returns an Objective-C object with a +0 retain count}}
[leaked retain]; // expected-note{{Reference count incremented. The object now has a +1 retain count}}
return; // expected-note{{Object leaked: object allocated and stored into 'leaked' is not referenced later in this execution path and has a retain count of +1}}
}
void acquisitionViaCFFunction () {
CFTypeRef leaked = CFGetSomething(); // expected-warning{{leak}} expected-note{{Call to function 'CFGetSomething' returns a Core Foundation object with a +0 retain count}}
CFRetain(leaked); // expected-note{{Reference count incremented. The object now has a +1 retain count}}
return; // expected-note{{Object leaked: object allocated and stored into 'leaked' is not referenced later in this execution path and has a retain count of +1}}
}
void explicitDealloc () {
id object = [[NSObject alloc] init]; // expected-note{{Method returns an Objective-C object with a +1 retain count}}
[object dealloc]; // expected-note{{Object released by directly sending the '-dealloc' message}}
[object class]; // expected-warning{{Reference-counted object is used after it is released}} // expected-note{{Reference-counted object is used after it is released}}
}
void implicitDealloc () {
id object = [[NSObject alloc] init]; // expected-note{{Method returns an Objective-C object with a +1 retain count}}
[object release]; // expected-note{{Object released}}
[object class]; // expected-warning{{Reference-counted object is used after it is released}} // expected-note{{Reference-counted object is used after it is released}}
}
void overAutorelease () {
id object = [[NSObject alloc] init]; // expected-note{{Method returns an Objective-C object with a +1 retain count}}
[object autorelease]; // expected-note{{Object sent -autorelease message}}
[object autorelease]; // expected-note{{Object sent -autorelease message}}
return; // expected-warning{{Object sent -autorelease too many times}} expected-note{{Object over-autoreleased: object was sent -autorelease 2 times but the object has a +1 retain count}}
}
void autoreleaseUnowned (Foo *foo) {
id object = foo.propertyValue; // expected-note{{Property returns an Objective-C object with a +0 retain count}}
[object autorelease]; // expected-note{{Object sent -autorelease message}}
return; // expected-warning{{Object sent -autorelease too many times}} expected-note{{Object over-autoreleased: object was sent -autorelease but the object has a +0 retain count}}
}
void makeCollectableIgnored () {
CFTypeRef leaked = CFCreateSomething(); // expected-warning{{leak}} expected-note{{Call to function 'CFCreateSomething' returns a Core Foundation object with a +1 retain count}}
CFMakeCollectable(leaked); // expected-note{{When GC is not enabled a call to 'CFMakeCollectable' has no effect on its argument}}
NSMakeCollectable(leaked); // expected-note{{When GC is not enabled a call to 'NSMakeCollectable' has no effect on its argument}}
return; // expected-note{{Object leaked: object allocated and stored into 'leaked' is not referenced later in this execution path and has a retain count of +1}}
}
CFTypeRef CFCopyRuleViolation () {
CFTypeRef object = CFGetSomething(); // expected-note{{Call to function 'CFGetSomething' returns a Core Foundation object with a +0 retain counte}}
return object; // expected-warning{{Object with a +0 retain count returned to caller where a +1 (owning) retain count is expected}} expected-note{{Object returned to caller with a +0 retain count}} expected-note{{Object with a +0 retain count returned to caller where a +1 (owning) retain count is expected}}
}
CFTypeRef CFGetRuleViolation () {
CFTypeRef object = CFCreateSomething(); // expected-warning{{leak}} expected-note{{Call to function 'CFCreateSomething' returns a Core Foundation object with a +1 retain counte}}
return object; // expected-note{{Object returned to caller as an owning reference (single retain count transferred to caller)}} expected-note{{Object leaked: object allocated and stored into 'object' is return from a function whose name ('CFGetRuleViolation') does not contain 'Copy' or 'Create'. This violates the naming convention rules given the Memory Management Guide for Core Foundation}}
}
@implementation Foo (FundamentalMemoryManagementRules)
- (id)copyViolation {
id result = self.propertyValue; // expected-note{{Property returns an Objective-C object with a +0 retain count}}
return result; // expected-warning{{Object with a +0 retain count returned to caller where a +1 (owning) retain count is expected}} expected-note{{Object returned to caller with a +0 retain count}} expected-note{{Object with a +0 retain count returned to caller where a +1 (owning) retain count is expected}}
}
- (id)getViolation {
id result = [[Foo alloc] init]; // expected-warning{{leak}} expected-note{{Method returns an Objective-C object with a +1 retain count}}
return result; // expected-note{{Object returned to caller as an owning reference (single retain count transferred to caller)}} expected-note{{Object leaked: object allocated and stored into 'result' is returned from a method whose name ('getViolation') does not start with 'copy', 'mutableCopy', 'alloc' or 'new'. This violates the naming convention rules given in the Memory Management Guide for Cocoa}}
}
@end