test/SILOptimizer/specialize_deep_generics.swift - third_party/swift - Git at Google

 // RUN: %target-swift-frontend -O -emit-sil %s | %FileCheck %s

 // Check that this Church Numerals inspired example does not hang
 // a compiler in the generic specializer.
 //
 // rdar://problem/21260480

 protocol Nat {
   init()
   // static stored properties are not supported in generic structs.
   var val : Int32 {get}
 }

 struct Zero : Nat { var val : Int32 = 0 }

 struct PlusOne<X : Nat> : Nat {
   var val : Int32 = X().val + 1
 }

 // Compiler used to keep performing the generic specialization of
 // computeNat for increasingly deeply nested bound generic types
 // like PlusOne<PlusOne<....<PlusOne<Zero>>>
 func computeNat<T: Nat>(_ v : Int32, _ t: T) -> Int32 {
   if v == 0 {
     return t.val
   }
   return computeNat(v - 1, PlusOne<T>())
 }

 // CHECK-LABEL: sil @$s24specialize_deep_generics14testComputeNats5Int32VyF
 public func testComputeNat() -> Int32 {
  return computeNat(8, Zero())
 }

 // Check that compiler does not hang producing very wide tuples during
 // specialization.
 @inline(never)
 func computeTuple<T>(t: T) {
   computeTuple(t: (t, t))
 }

 // CHECK-LABEL: sil @$s24specialize_deep_generics16testComputeTupleyyF
 public func testComputeTuple() {
   computeTuple(t: 0)
 }

 // Check that compiler does not hang producing very deep metatypes.
 @inline(never)
 public func computeMetatype<T>(t: T) {
   computeMetatype(t: T.self)
 }

 // CHECK-LABEL: sil @$s24specialize_deep_generics19testComputeMetatypeyyF
 public func testComputeMetatype() {
   computeMetatype(t: 0)
 }

 // Check that compiler does not hang producing very deep function types.
 @inline(never)
 public func computeFunctionType<T>(t: [T]) {
   computeFunctionType(t: [{ t[0] }])
 }

 public func testComputeFunctionType() {
   computeFunctionType(t: [0])
 }
	// RUN: %target-swift-frontend -O -emit-sil %s \| %FileCheck %s

	// Check that this Church Numerals inspired example does not hang
	// a compiler in the generic specializer.
	//
	// rdar://problem/21260480

	protocol Nat {
	init()
	// static stored properties are not supported in generic structs.
	var val : Int32 {get}
	}

	struct Zero : Nat { var val : Int32 = 0 }

	struct PlusOne<X : Nat> : Nat {
	var val : Int32 = X().val + 1
	}

	// Compiler used to keep performing the generic specialization of
	// computeNat for increasingly deeply nested bound generic types
	// like PlusOne<PlusOne<....<PlusOne<Zero>>>
	func computeNat<T: Nat>(_ v : Int32, _ t: T) -> Int32 {
	if v == 0 {
	return t.val
	}
	return computeNat(v - 1, PlusOne<T>())
	}

	// CHECK-LABEL: sil @$s24specialize_deep_generics14testComputeNats5Int32VyF
	public func testComputeNat() -> Int32 {
	return computeNat(8, Zero())
	}

	// Check that compiler does not hang producing very wide tuples during
	// specialization.
	@inline(never)
	func computeTuple<T>(t: T) {
	computeTuple(t: (t, t))
	}

	// CHECK-LABEL: sil @$s24specialize_deep_generics16testComputeTupleyyF
	public func testComputeTuple() {
	computeTuple(t: 0)
	}

	// Check that compiler does not hang producing very deep metatypes.
	@inline(never)
	public func computeMetatype<T>(t: T) {
	computeMetatype(t: T.self)
	}

	// CHECK-LABEL: sil @$s24specialize_deep_generics19testComputeMetatypeyyF
	public func testComputeMetatype() {
	computeMetatype(t: 0)
	}

	// Check that compiler does not hang producing very deep function types.
	@inline(never)
	public func computeFunctionType<T>(t: [T]) {
	computeFunctionType(t: [{ t[0] }])
	}

	public func testComputeFunctionType() {
	computeFunctionType(t: [0])
	}