llvm-project/clang/test/Index/complete-property-flags.m

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// Note: the run lines follow their respective tests, since line/column
// matter in this test.
@interface Foo {
void *isa;
}
@property(copy) Foo *myprop;
@property(retain, nonatomic) id xx;
Define weak and __weak to mean ARC-style weak references, even in MRC. Previously, __weak was silently accepted and ignored in MRC mode. That makes this a potentially source-breaking change that we have to roll out cautiously. Accordingly, for the time being, actual support for __weak references in MRC is experimental, and the compiler will reject attempts to actually form such references. The intent is to eventually enable the feature by default in all non-GC modes. (It is, of course, incompatible with ObjC GC's interpretation of __weak.) If you like, you can enable this feature with -Xclang -fobjc-weak but like any -Xclang option, this option may be removed at any point, e.g. if/when it is eventually enabled by default. This patch also enables the use of the ARC __unsafe_unretained qualifier in MRC. Unlike __weak, this is being enabled immediately. Since variables are essentially __unsafe_unretained by default in MRC, the only practical uses are (1) communication and (2) changing the default behavior of by-value block capture. As an implementation matter, this means that the ObjC ownership qualifiers may appear in any ObjC language mode, and so this patch removes a number of checks for getLangOpts().ObjCAutoRefCount that were guarding the processing of these qualifiers. I don't expect this to be a significant drain on performance; it may even be faster to just check for these qualifiers directly on a type (since it's probably in a register anyway) than to do N dependent loads to grab the LangOptions. rdar://9674298 llvm-svn: 251041
2015-10-23 02:38:17 +08:00
// RUN: c-index-test -code-completion-at=%s:7:11 %s -fobjc-runtime=macosx-10.4 -fno-objc-arc | FileCheck -check-prefix=CHECK-CC1 -check-prefix=CHECK-CC1-NOWEAK %s
// RUN: c-index-test -code-completion-at=%s:7:11 %s -fobjc-runtime=macosx-10.8 -Xclang -fobjc-weak -fno-objc-arc | FileCheck -check-prefix=CHECK-CC1 -check-prefix=CHECK-CC1-WEAK %s
// CHECK-CC1: {TypedText assign}
// CHECK-CC1-NEXT: {TypedText atomic}
// CHECK-CC1-NEXT: {TypedText copy}
// CHECK-CC1-NEXT: {TypedText getter}{Text =}{Placeholder method}
// CHECK-CC1-NEXT: {TypedText nonatomic}
// CHECK-CC1: {TypedText nonnull}
// CHECK-CC1-NEXT: {TypedText null_resettable}
// CHECK-CC1-NEXT: {TypedText null_unspecified}
// CHECK-CC1-NEXT: {TypedText nullable}
// CHECK-CC1-NEXT: {TypedText readonly}
// CHECK-CC1-NEXT: {TypedText readwrite}
// CHECK-CC1-NEXT: {TypedText retain}
// CHECK-CC1-NEXT: {TypedText setter}{Text =}{Placeholder method}
// CHECK-CC1-NEXT: {TypedText strong}
// CHECK-CC1-NEXT: {TypedText unsafe_unretained}
Define weak and __weak to mean ARC-style weak references, even in MRC. Previously, __weak was silently accepted and ignored in MRC mode. That makes this a potentially source-breaking change that we have to roll out cautiously. Accordingly, for the time being, actual support for __weak references in MRC is experimental, and the compiler will reject attempts to actually form such references. The intent is to eventually enable the feature by default in all non-GC modes. (It is, of course, incompatible with ObjC GC's interpretation of __weak.) If you like, you can enable this feature with -Xclang -fobjc-weak but like any -Xclang option, this option may be removed at any point, e.g. if/when it is eventually enabled by default. This patch also enables the use of the ARC __unsafe_unretained qualifier in MRC. Unlike __weak, this is being enabled immediately. Since variables are essentially __unsafe_unretained by default in MRC, the only practical uses are (1) communication and (2) changing the default behavior of by-value block capture. As an implementation matter, this means that the ObjC ownership qualifiers may appear in any ObjC language mode, and so this patch removes a number of checks for getLangOpts().ObjCAutoRefCount that were guarding the processing of these qualifiers. I don't expect this to be a significant drain on performance; it may even be faster to just check for these qualifiers directly on a type (since it's probably in a register anyway) than to do N dependent loads to grab the LangOptions. rdar://9674298 llvm-svn: 251041
2015-10-23 02:38:17 +08:00
// CHECK-CC1-NOWEAK-NOT: {TypedText weak}
// CHECK-CC1-WEAK-NEXT: {TypedText weak}
// RUN: c-index-test -code-completion-at=%s:7:11 %s -fobjc-arc -fobjc-runtime=macosx-10.7 | FileCheck -check-prefix=CHECK-CC1-ARC %s
// CHECK-CC1-ARC: {TypedText assign}
// CHECK-CC1-ARC-NEXT: {TypedText atomic}
// CHECK-CC1-ARC-NEXT: {TypedText copy}
// CHECK-CC1-ARC-NEXT: {TypedText getter}{Text =}{Placeholder method}
// CHECK-CC1-ARC-NEXT: {TypedText nonatomic}
// CHECK-CC1-ARC-NEXT: {TypedText nonnull}
// CHECK-CC1-ARC-NEXT: {TypedText null_resettable}
// CHECK-CC1-ARC-NEXT: {TypedText null_unspecified}
// CHECK-CC1-ARC-NEXT: {TypedText nullable}
// CHECK-CC1-ARC-NEXT: {TypedText readonly}
// CHECK-CC1-ARC-NEXT: {TypedText readwrite}
// CHECK-CC1-ARC-NEXT: {TypedText retain}
// CHECK-CC1-ARC-NEXT: {TypedText setter}{Text =}{Placeholder method}
// CHECK-CC1-ARC-NEXT: {TypedText strong}
// CHECK-CC1-ARC-NEXT: {TypedText unsafe_unretained}
// CHECK-CC1-ARC-NEXT: {TypedText weak}
// RUN: c-index-test -code-completion-at=%s:8:18 %s | FileCheck -check-prefix=CHECK-CC2 %s
// CHECK-CC2: {TypedText getter}{Text =}{Placeholder method}
// CHECK-CC2-NEXT: {TypedText nonatomic}
// CHECK-CC2-NEXT: {TypedText nonnull}
// CHECK-CC2-NEXT: {TypedText null_resettable}
// CHECK-CC2-NEXT: {TypedText null_unspecified}
// CHECK-CC2-NEXT: {TypedText nullable}
// CHECK-CC2-NEXT: {TypedText readonly}
// CHECK-CC2-NEXT: {TypedText readwrite}
// CHECK-CC2-NEXT: {TypedText setter}{Text =}{Placeholder method}
@end