averello/swift-mirror
1
0
Fork 0
mirror of https://github.com/apple/swift.git synced 2025-12-14 20:36:38 +01:00
Code Issues Packages Projects Releases Wiki Activity
Files
103630296d3ebcc41d7c48f0ab34b697efbfb51a
swift-mirror/test/Interpreter/generic_objc_subclass.swift
Doug Gregor def86ce402 Revert "[irgen] Force emission of objc class refs for non-foreign clang objc classes whose metadata we use." 
This reverts commit 8247525471. While
correct, it has uncovered several issues in existing code bases that
need to be sorted out before we can land it again.
Fixes rdar://problem/57846390.
2020-01-11 21:46:42 -08:00

328 lines
6.7 KiB
Swift
Raw Blame History

// RUN: %empty-directory(%t)
//
// RUN: %target-clang -fobjc-arc %S/Inputs/ObjCClasses/ObjCClasses.m -c -o %t/ObjCClasses.o
// RUN: %target-build-swift -I %S/Inputs/ObjCClasses/ -Xlinker %t/ObjCClasses.o %s -o %t/a.out
// RUN: %target-codesign %t/a.out
// RUN: %target-run %t/a.out | %FileCheck %s
// REQUIRES: executable_test
// REQUIRES: objc_interop
import Foundation
import ObjCClasses
@objc protocol P {
func calculatePrice() -> Int
}
protocol PP {
func calculateTaxes() -> Int
}
//
// Generic subclass of an @objc class
//
class A<T> : HasHiddenIvars, P {
var first: Int = 16
var second: T?
var third: Int = 61
override var description: String {
return "Grilled artichokes"
}
func calculatePrice() -> Int {
return 400
}
}
let a = A<Int>()
// CHECK: Grilled artichokes
// CHECK: Grilled artichokes
print(a.description)
print((a as NSObject).description)
let f = { (a.x, a.y, a.z, a.t, a.first, a.second, a.third) }
// CHECK: (0, 0, 0, 0, 16, nil, 61)
print(f())
// CHECK: (25, 225, 255, 2255, 16, nil, 61)
a.x = 25
a.y = 225
a.z = 255
a.t = 2255
print(f())
// CHECK: (36, 225, 255, 2255, 16, nil, 61)
a.x = 36
print(f())
// CHECK: (36, 225, 255, 2255, 16, Optional(121), 61)
a.second = 121
print(f())
//
// Instantiate the class with a different set of generic parameters
//
let aa = A<(Int, Int)>()
let ff = { (aa.x, aa.y, aa.z, aa.t, aa.first, aa.second, aa.third) }
// CHECK: (0, 0, 0, 0, 16, nil, 61)
print(ff())
aa.x = 101
aa.second = (19, 84)
aa.third = 17
// CHECK: (101, 0, 0, 0, 16, Optional((19, 84)), 17)
print(ff())
//
// Concrete subclass of generic subclass of @objc class
//
class B : A<(Int, Int)> {
override var description: String {
return "Salmon"
}
@nonobjc override func calculatePrice() -> Int {
return 1675
}
}
class BB : B {}
class C : A<(Int, Int)>, PP {
@nonobjc override var description: String {
return "Invisible Chicken"
}
override func calculatePrice() -> Int {
return 650
}
func calculateTaxes() -> Int {
return 110
}
}
// CHECK: 400
// CHECK: 400
// CHECK: 650
// CHECK: 110
print((BB() as P).calculatePrice())
print((B() as P).calculatePrice())
print((C() as P).calculatePrice())
print((C() as PP).calculateTaxes())
// CHECK: Salmon
// CHECK: Grilled artichokes
print((B() as NSObject).description)
print((C() as NSObject).description)
let b = B()
let g = { (b.x, b.y, b.z, b.t, b.first, b.second, b.third) }
// CHECK: (0, 0, 0, 0, 16, nil, 61)
print(g())
b.x = 101
b.second = (19, 84)
b.third = 17
// CHECK: (101, 0, 0, 0, 16, Optional((19, 84)), 17)
print(g())
//
// Generic subclass of @objc class without any generically-sized members
//
class FixedA<T> : HasHiddenIvars, P {
var first: Int = 16
var second: [T] = []
var third: Int = 61
override var description: String {
return "Grilled artichokes"
}
func calculatePrice() -> Int {
return 400
}
}
let fixedA = FixedA<Int>()
// CHECK: Grilled artichokes
// CHECK: Grilled artichokes
print(fixedA.description)
print((fixedA as NSObject).description)
let fixedF = { (fixedA.x, fixedA.y, fixedA.z, fixedA.t, fixedA.first, fixedA.second, fixedA.third) }
// CHECK: (0, 0, 0, 0, 16, [], 61)
print(fixedF())
// CHECK: (25, 225, 255, 2255, 16, [], 61)
fixedA.x = 25
fixedA.y = 225
fixedA.z = 255
fixedA.t = 2255
print(fixedF())
// CHECK: (36, 225, 255, 2255, 16, [], 61)
fixedA.x = 36
print(fixedF())
// CHECK: (36, 225, 255, 2255, 16, [121], 61)
fixedA.second = [121]
print(fixedF())
//
// Instantiate the class with a different set of generic parameters
//
let fixedAA = FixedA<(Int, Int)>()
let fixedFF = { (fixedAA.x, fixedAA.y, fixedAA.z, fixedAA.t, fixedAA.first, fixedAA.second, fixedAA.third) }
// CHECK: (0, 0, 0, 0, 16, [], 61)
print(fixedFF())
fixedAA.x = 101
fixedAA.second = [(19, 84)]
fixedAA.third = 17
// CHECK: (101, 0, 0, 0, 16, [(19, 84)], 17)
print(fixedFF())
//
// Concrete subclass of generic subclass of @objc class
// without any generically-sized members
//
class FixedB : FixedA<Int> {
override var description: String {
return "Salmon"
}
override func calculatePrice() -> Int {
return 1675
}
}
// CHECK: 675
print((FixedB() as P).calculatePrice())
// CHECK: Salmon
print((FixedB() as NSObject).description)
let fixedB = FixedB()
let fixedG = { (fixedB.x, fixedB.y, fixedB.z, fixedB.t, fixedB.first, fixedB.second, fixedB.third) }
// CHECK: (0, 0, 0, 0, 16, [], 61)
print(fixedG())
fixedB.x = 101
fixedB.second = [19, 84]
fixedB.third = 17
// CHECK: (101, 0, 0, 0, 16, [19, 84], 17)
print(fixedG())
// Problem with field alignment in direct generic subclass of NSObject -
// <https://bugs.swift.org/browse/SR-2586>
public class PandorasBox<T>: NSObject {
final public var value: T
public init(_ value: T) {
// Uses ConstantIndirect access pattern
self.value = value
}
}
let c = PandorasBox(30)
// CHECK: 30
// Uses ConstantDirect access pattern
print(c.value)
// Super method calls from a generic subclass of an @objc class
class HasDynamicMethod : NSObject {
@objc dynamic class func funkyTown() {
print("Here we are with \(self)")
}
}
class GenericOverrideOfDynamicMethod<T> : HasDynamicMethod {
override class func funkyTown() {
print("Hello from \(self) with T = \(T.self)")
super.funkyTown()
print("Goodbye from \(self) with T = \(T.self)")
}
}
class ConcreteOverrideOfDynamicMethod : GenericOverrideOfDynamicMethod<Int> {
override class func funkyTown() {
print("Hello from \(self)")
super.funkyTown()
print("Goodbye from \(self)")
}
}
// CHECK: Hello from ConcreteOverrideOfDynamicMethod
// CHECK: Hello from ConcreteOverrideOfDynamicMethod with T = Int
// CHECK: Here we are with ConcreteOverrideOfDynamicMethod
// CHECK: Goodbye from ConcreteOverrideOfDynamicMethod with T = Int
// CHECK: Goodbye from ConcreteOverrideOfDynamicMethod
ConcreteOverrideOfDynamicMethod.funkyTown()
class Foo {}
class Bar {}
class DependOnAlignOf<T> : HasHiddenIvars2 {
var first = Foo()
var second = Bar()
var third: T?
}
let ad = DependOnAlignOf<Double>()
let ai = DependOnAlignOf<Int>()
do {
let fd = { (ad.x, ad.first, ad.second, ad.third) }
let fi = { (ai.x, ai.first, ai.second, ai.third) }
// CHECK: (nil, a.Foo, a.Bar, nil)
print(fd())
// CHECK: (nil, a.Foo, a.Bar, nil)
print(fi())
}
// Same as above, but there's another class in between the
// Objective-C class and us
class HasHiddenIvars3 : HasHiddenIvars2 { }
class AlsoDependOnAlignOf<T> : HasHiddenIvars3 {
var first = Foo()
var second = Bar()
var third: T?
}
do {
let ad = AlsoDependOnAlignOf<Double>()
let ai = AlsoDependOnAlignOf<Int>()
let fd = { (ad.x, ad.first, ad.second, ad.third) }
let fi = { (ai.x, ai.first, ai.second, ai.third) }
// CHECK: (nil, a.Foo, a.Bar, nil)
print(fd())
// CHECK: (nil, a.Foo, a.Bar, nil)
print(fi())
}
Reference in New Issue View Git Blame Copy Permalink