mirror of
https://github.com/apple/swift.git
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221 lines
6.4 KiB
Swift
221 lines
6.4 KiB
Swift
// RUN: %target-run-simple-swift(-Onone -parse-stdlib -Xfrontend -enable-copy-propagation -target %target-swift-5.6-abi-triple) | %FileCheck %s --check-prefixes=CHECK,CHECK-DBG,CHECK-%target-ptrsize
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// RUN: %target-run-simple-swift(-O -parse-stdlib -Xfrontend -enable-copy-propagation -target %target-swift-5.6-abi-triple) | %FileCheck %s --check-prefixes=CHECK,CHECK-OPT,CHECK-%target-ptrsize
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// REQUIRES: executable_test
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// REQUIRES: objc_interop
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// rdar://124700033
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// UNSUPPORTED: OS=xros
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// FIXME: rdar://problem/19648117 Needs splitting objc parts out
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import Swift
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import SwiftShims
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class C {
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deinit { print("deallocated") }
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}
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#if _pointerBitWidth(_32)
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// We have no ObjC tagged pointers, and two low spare bits due to alignment.
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let NATIVE_SPARE_BITS: UInt = 0x0000_0003
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let OBJC_TAGGED_POINTER_BITS: UInt = 0
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#elseif arch(x86_64)
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// We have ObjC tagged pointers in the lowest and highest bit
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let NATIVE_SPARE_BITS: UInt = 0x7F00_0000_0000_0006
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let OBJC_TAGGED_POINTER_BITS: UInt = 0x8000_0000_0000_0001
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#elseif arch(arm64)
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// We have ObjC tagged pointers in the highest bit
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let NATIVE_SPARE_BITS: UInt = 0x7000_0000_0000_0007
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let OBJC_TAGGED_POINTER_BITS: UInt = 0x8000_0000_0000_0000
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#elseif arch(powerpc64) || arch(powerpc64le)
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// We have no ObjC tagged pointers, and three low spare bits due to alignment.
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let NATIVE_SPARE_BITS: UInt = 0x0000_0000_0000_0007
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let OBJC_TAGGED_POINTER_BITS: UInt = 0
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#elseif arch(s390x)
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// We have no ObjC tagged pointers, and three low spare bits due to alignment.
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let NATIVE_SPARE_BITS: UInt = 0x0000_0000_0000_0007
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let OBJC_TAGGED_POINTER_BITS: UInt = 0
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#elseif arch(riscv64)
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// We have no ObjC tagged pointers, and three low spare bits due to alignment.
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let NATIVE_SPARE_BITS: UInt = 0x0000_0000_0000_0007
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let OBJC_TAGGED_POINTER_BITS: UInt = 0
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#endif
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func bitPattern(_ x: Builtin.BridgeObject) -> UInt {
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return UInt(Builtin.castBitPatternFromBridgeObject(x))
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}
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func nonPointerBits(_ x: Builtin.BridgeObject) -> UInt {
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return bitPattern(x) & NATIVE_SPARE_BITS
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}
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// Try without any bits set.
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if true {
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print("No bits set") // CHECK: No bits set
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let x = C()
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let bo = Builtin.castToBridgeObject(x, 0._builtinWordValue)
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let bo2 = bo
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let x1: C = Builtin.castReferenceFromBridgeObject(bo)
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let x2: C = Builtin.castReferenceFromBridgeObject(bo2)
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// CHECK: true
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print(x === x1)
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// CHECK-NEXT: true
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print(x === x2)
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print(nonPointerBits(bo) == 0)
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// CHECK-NEXT: true
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var bo3 = Builtin.castToBridgeObject(C(), 0._builtinWordValue)
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print(Bool(_builtinBooleanLiteral: Builtin.isUnique(&bo3)))
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// CHECK-NEXT: true
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let bo4 = bo3
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print(Bool(_builtinBooleanLiteral: Builtin.isUnique(&bo3)))
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// CHECK-NEXT: false
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_fixLifetime(bo3)
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_fixLifetime(bo4)
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}
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// CHECK-NEXT: deallocated
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// CHECK-NEXT: deallocated
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// Try with all spare bits set.
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if true {
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print("All spare bits set") // CHECK: All spare bits set
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let x = C()
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let bo = Builtin.castToBridgeObject(x, NATIVE_SPARE_BITS._builtinWordValue)
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let bo2 = bo
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let x1: C = Builtin.castReferenceFromBridgeObject(bo)
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let x2: C = Builtin.castReferenceFromBridgeObject(bo2)
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// CHECK-NEXT: true
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print(x === x1)
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// CHECK-NEXT: true
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print(x === x2)
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print(nonPointerBits(bo) == NATIVE_SPARE_BITS)
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// CHECK-NEXT: true
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var bo3 = Builtin.castToBridgeObject(C(), NATIVE_SPARE_BITS._builtinWordValue)
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print(Bool(_builtinBooleanLiteral: Builtin.isUnique(&bo3)))
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// CHECK-NEXT: true
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let bo4 = bo3
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print(Bool(_builtinBooleanLiteral: Builtin.isUnique(&bo3)))
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// CHECK-NEXT: false
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_fixLifetime(bo3)
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_fixLifetime(bo4)
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}
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// CHECK-NEXT: deallocated
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// CHECK-NEXT: deallocated
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import Foundation
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func nonNativeBridgeObject(_ o: AnyObject) -> Builtin.BridgeObject {
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let tagged = ((Builtin.reinterpretCast(o) as UInt) & OBJC_TAGGED_POINTER_BITS) != 0
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return Builtin.castToBridgeObject(
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o, tagged ? 0._builtinWordValue : NATIVE_SPARE_BITS._builtinWordValue)
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}
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// Try with a (probably) tagged pointer. No bits may be masked into a
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// non-native object.
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if true {
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print("Tagged pointer") // CHECK: Tagged pointer
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let x = NSNumber(value: 22)
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let bo = nonNativeBridgeObject(x)
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let bo2 = bo
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let x1: NSNumber = Builtin.castReferenceFromBridgeObject(bo)
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let x2: NSNumber = Builtin.castReferenceFromBridgeObject(bo2)
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// CHECK-NEXT: true
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print(x === x1)
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// CHECK-NEXT: true
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print(x === x2)
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var bo3 = nonNativeBridgeObject(NSNumber(value: 22))
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print(Bool(_builtinBooleanLiteral: Builtin.isUnique(&bo3)))
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// On 64-bit*, this will be an objc tagged pointer. On 32-bit, there are no
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// objc tagged pointers. If it's an objc tagged pointer, it will never be
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// unique. Otherwise, it will be unique--subject to any intering of NSNumbers
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// that Foundation does.
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// * Whether it's a tagged pointer doesn't actually depend on bit width--see
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// OBJC_TAGGED_POINTER_BITS for the various architectures at the top of the
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// file. If those other architectures ever start being used in CI, this
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// test will need more involved updating.
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// CHECK-32-NEXT: true
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// CHECK-64-NEXT: false
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_fixLifetime(bo3)
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}
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var unTaggedString: NSString {
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return NSString(format: "A long string that won't fit in a tagged pointer")
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}
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// Try with an un-tagged pointer.
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if true {
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print("Untagged pointer") // CHECK: Untagged pointer
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let x = unTaggedString
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let bo = nonNativeBridgeObject(x)
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let bo2 = bo
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let x1: NSString = Builtin.castReferenceFromBridgeObject(bo)
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let x2: NSString = Builtin.castReferenceFromBridgeObject(bo2)
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// CHECK-NEXT: true
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print(x === x1)
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// CHECK-NEXT: true
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print(x === x2)
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var bo3 = nonNativeBridgeObject(unTaggedString)
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print(Bool(_builtinBooleanLiteral: Builtin.isUnique(&bo3)))
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// CHECK-NEXT: true
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_fixLifetime(bo3)
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}
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func hitOptionalGenerically<T>(_ x: T?) {
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switch x {
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case .some:
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print("some")
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case .none:
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print("none")
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}
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}
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func hitOptionalSpecifically(_ x: Builtin.BridgeObject?) {
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switch x {
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case .some:
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print("some")
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case .none:
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print("none")
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}
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}
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if true {
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print("BridgeObject") // CHECK: BridgeObject
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// CHECK-NEXT: true
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print(MemoryLayout<Optional<Builtin.BridgeObject>>.size
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== MemoryLayout<Builtin.BridgeObject>.size)
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var bo: Builtin.BridgeObject?
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// CHECK-NEXT: none
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hitOptionalSpecifically(bo)
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// CHECK-NEXT: none
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hitOptionalGenerically(bo)
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bo = Builtin.castToBridgeObject(C(), 0._builtinWordValue)
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// CHECK-NEXT: some
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hitOptionalSpecifically(bo)
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// CHECK: some
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hitOptionalGenerically(bo)
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}
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