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This avoids code size regressions in programs while still getting the performance improvements in generic code in the stdlib. rdar://problem/32277313
195 lines
3.9 KiB
Swift
195 lines
3.9 KiB
Swift
// RUN: %target-swift-frontend -sil-verify-all -Xllvm -sil-inline-generics -O %s -emit-sil | %FileCheck %s
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// This file consists of tests for making sure that protocol conformances and
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// inherited conformances work well together when applied to each other. The
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// check works by making sure we can blow through a long class hierarchy and
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// expose the various "unknown" functions.
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//
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// As a side-test it also checks if all allocs can be promoted to the stack.
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//
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// *NOTE* If something like templated protocols is ever implemented this file
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// needs to be updated.
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// CHECK-LABEL: sil @_T038devirt_specialized_inherited_interplay6driveryyF : $@convention(thin) () -> () {
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// CHECK: bb0:
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// CHECK-NOT: alloc_ref
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// CHECK: [[F0:%[0-9]+]] = function_ref @unknown0 : $@convention(thin) () -> ()
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// CHECK: apply [[F0]]
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// CHECK: apply [[F0]]
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// CHECK: [[F1:%[0-9]+]] = function_ref @unknown1 : $@convention(thin) () -> ()
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// CHECK: apply [[F1]]
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// CHECK: apply [[F1]]
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// CHECK: [[F2:%[0-9]+]] = function_ref @unknown2 : $@convention(thin) () -> ()
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// CHECK: apply [[F2]]
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// CHECK: apply [[F2]]
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// CHECK: [[F3:%[0-9]+]] = function_ref @unknown3 : $@convention(thin) () -> ()
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// CHECK: apply [[F3]]
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// CHECK: apply [[F3]]
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// CHECK: [[F4:%[0-9]+]] = function_ref @unknown4 : $@convention(thin) () -> ()
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// CHECK: apply [[F4]]
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// CHECK: apply [[F4]]
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// CHECK: [[F5:%[0-9]+]] = function_ref @unknown5 : $@convention(thin) () -> ()
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// CHECK: apply [[F5]]
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// CHECK: apply [[F5]]
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// CHECK: [[F6:%[0-9]+]] = function_ref @unknown6 : $@convention(thin) () -> ()
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// CHECK: apply [[F6]]
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// CHECK: apply [[F6]]
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// CHECK: apply [[F6]]
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// CHECK: apply [[F6]]
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// CHECK: [[F8:%[0-9]+]] = function_ref @unknown8 :
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// CHECK: apply [[F8]]
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// CHECK: apply [[F8]]
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// CHECK-NOT: dealloc_ref
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// CHECK: return
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@_silgen_name("unknown0")
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func unknown0() -> ()
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@_silgen_name("unknown1")
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func unknown1() -> ()
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@_silgen_name("unknown2")
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func unknown2() -> ()
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@_silgen_name("unknown3")
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func unknown3() -> ()
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@_silgen_name("unknown4")
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func unknown4() -> ()
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@_silgen_name("unknown5")
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func unknown5() -> ()
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@_silgen_name("unknown6")
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func unknown6() -> ()
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@_silgen_name("unknown7")
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func unknown7() -> ()
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@_silgen_name("unknown8")
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func unknown8() -> ()
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protocol P1 {
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func foo()
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}
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struct S:P1 {
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func foo() {
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}
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}
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public final class G1<T> {
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}
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protocol P {
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func doSomething()
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}
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// Normal conformance
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class A1 : P {
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func doSomething() {
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unknown0()
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}
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}
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// Inherited conformance from P
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class A2 : A1 {
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override func doSomething() {
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unknown1()
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}
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}
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// Specialized Inherited conformance from P
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class A3<T> : A2 {
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override func doSomething() {
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unknown2()
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}
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}
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// Inherited Specialized Inherited conformance from P
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class A4<T> : A3<T> {
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override func doSomething() {
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unknown3()
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}
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}
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class A5<E>: A3<Array<E>> {
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override func doSomething() {
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unknown4()
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}
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}
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// Specialized conformance from P
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class B1<T> : P {
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func doSomething() {
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unknown5()
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}
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}
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// Inherited Specialized conformance from P
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class B2<T> : B1<G1<T>> {
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override func doSomething() {
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unknown6()
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}
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}
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class B3<E>: B2<Array<E>> {
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}
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class B4<F>: B3<Array<Array<Int>>> {
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override func doSomething() {
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unknown8()
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}
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}
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func WhatShouldIDo<T : P>(_ t : T) {
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t.doSomething()
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}
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func WhatShouldIDo2(_ p : P) {
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p.doSomething()
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}
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public func driver1<X>(_ x:X) {
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let b = B3<X>()
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WhatShouldIDo(b)
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WhatShouldIDo2(b)
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}
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public func driver2() {
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driver1(G1<S>())
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}
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public func driver() {
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let a1 = A1()
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let a2 = A2()
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let a3 = A3<S>()
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let a4 = A4<S>()
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let a5 = A5<S>()
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let b1 = B1<S>()
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let b2 = B2<S>()
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let b3 = B3<S>()
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let b4 = B4<S>()
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WhatShouldIDo(a1)
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WhatShouldIDo2(a1)
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WhatShouldIDo(a2)
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WhatShouldIDo2(a2)
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WhatShouldIDo(a3)
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WhatShouldIDo2(a3)
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WhatShouldIDo(a4)
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WhatShouldIDo2(a4)
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WhatShouldIDo(a5)
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WhatShouldIDo2(a5)
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WhatShouldIDo(b1)
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WhatShouldIDo2(b1)
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WhatShouldIDo(b2)
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WhatShouldIDo2(b2)
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WhatShouldIDo(b3)
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WhatShouldIDo2(b3)
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WhatShouldIDo(b4)
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WhatShouldIDo2(b4)
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}
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