src/internal/types/testdata/fixedbugs/issue51229.go - platform/prebuilts/go/darwin-x86 - Git at Google

 // Copyright 2022 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package p

 // Constraint type inference should be independent of the
 // ordering of the type parameter declarations. Try all
 // permutations in the test case below.
 // Permutations produced by https://go.dev/play/p/PHcZNGJTEBZ.

 func f00[S1 ~[]E1, S2 ~[]E2, E1 ~byte, E2 ~byte](S1, S2) {}
 func f01[S2 ~[]E2, S1 ~[]E1, E1 ~byte, E2 ~byte](S1, S2) {}
 func f02[E1 ~byte, S1 ~[]E1, S2 ~[]E2, E2 ~byte](S1, S2) {}
 func f03[S1 ~[]E1, E1 ~byte, S2 ~[]E2, E2 ~byte](S1, S2) {}
 func f04[S2 ~[]E2, E1 ~byte, S1 ~[]E1, E2 ~byte](S1, S2) {}
 func f05[E1 ~byte, S2 ~[]E2, S1 ~[]E1, E2 ~byte](S1, S2) {}
 func f06[E2 ~byte, S2 ~[]E2, S1 ~[]E1, E1 ~byte](S1, S2) {}
 func f07[S2 ~[]E2, E2 ~byte, S1 ~[]E1, E1 ~byte](S1, S2) {}
 func f08[S1 ~[]E1, E2 ~byte, S2 ~[]E2, E1 ~byte](S1, S2) {}
 func f09[E2 ~byte, S1 ~[]E1, S2 ~[]E2, E1 ~byte](S1, S2) {}
 func f10[S2 ~[]E2, S1 ~[]E1, E2 ~byte, E1 ~byte](S1, S2) {}
 func f11[S1 ~[]E1, S2 ~[]E2, E2 ~byte, E1 ~byte](S1, S2) {}
 func f12[S1 ~[]E1, E1 ~byte, E2 ~byte, S2 ~[]E2](S1, S2) {}
 func f13[E1 ~byte, S1 ~[]E1, E2 ~byte, S2 ~[]E2](S1, S2) {}
 func f14[E2 ~byte, S1 ~[]E1, E1 ~byte, S2 ~[]E2](S1, S2) {}
 func f15[S1 ~[]E1, E2 ~byte, E1 ~byte, S2 ~[]E2](S1, S2) {}
 func f16[E1 ~byte, E2 ~byte, S1 ~[]E1, S2 ~[]E2](S1, S2) {}
 func f17[E2 ~byte, E1 ~byte, S1 ~[]E1, S2 ~[]E2](S1, S2) {}
 func f18[E2 ~byte, E1 ~byte, S2 ~[]E2, S1 ~[]E1](S1, S2) {}
 func f19[E1 ~byte, E2 ~byte, S2 ~[]E2, S1 ~[]E1](S1, S2) {}
 func f20[S2 ~[]E2, E2 ~byte, E1 ~byte, S1 ~[]E1](S1, S2) {}
 func f21[E2 ~byte, S2 ~[]E2, E1 ~byte, S1 ~[]E1](S1, S2) {}
 func f22[E1 ~byte, S2 ~[]E2, E2 ~byte, S1 ~[]E1](S1, S2) {}
 func f23[S2 ~[]E2, E1 ~byte, E2 ~byte, S1 ~[]E1](S1, S2) {}

 type myByte byte

 func _(a []byte, b []myByte) {
 	f00(a, b)
 	f01(a, b)
 	f02(a, b)
 	f03(a, b)
 	f04(a, b)
 	f05(a, b)
 	f06(a, b)
 	f07(a, b)
 	f08(a, b)
 	f09(a, b)
 	f10(a, b)
 	f11(a, b)
 	f12(a, b)
 	f13(a, b)
 	f14(a, b)
 	f15(a, b)
 	f16(a, b)
 	f17(a, b)
 	f18(a, b)
 	f19(a, b)
 	f20(a, b)
 	f21(a, b)
 	f22(a, b)
 	f23(a, b)
 }

 // Constraint type inference may have to iterate.
 // Again, the order of the type parameters shouldn't matter.

 func g0[S ~[]E, M ~map[string]S, E any](m M) {}
 func g1[M ~map[string]S, S ~[]E, E any](m M) {}
 func g2[E any, S ~[]E, M ~map[string]S](m M) {}
 func g3[S ~[]E, E any, M ~map[string]S](m M) {}
 func g4[M ~map[string]S, E any, S ~[]E](m M) {}
 func g5[E any, M ~map[string]S, S ~[]E](m M) {}

 func _(m map[string][]byte) {
 	g0(m)
 	g1(m)
 	g2(m)
 	g3(m)
 	g4(m)
 	g5(m)
 }

 // Worst-case scenario.
 // There are 10 unknown type parameters. In each iteration of
 // constraint type inference we infer one more, from right to left.
 // Each iteration looks repeatedly at all 11 type parameters,
 // requiring a total of 10*11 = 110 iterations with the current
 // implementation. Pathological case.

 func h[K any, J ~*K, I ~*J, H ~*I, G ~*H, F ~*G, E ~*F, D ~*E, C ~*D, B ~*C, A ~*B](x A) {}

 func _(x **********int) {
 	h(x)
 }

 // Examples with channel constraints and tilde.

 func ch1[P chan<- int]() (_ P)           { return } // core(P) == chan<- int   (single type, no tilde)
 func ch2[P ~chan int]()                  { return } // core(P) == ~chan<- int  (tilde)
 func ch3[P chan E, E any](E)             { return } // core(P) == chan<- E     (single type, no tilde)
 func ch4[P chan E | ~chan<- E, E any](E) { return } // core(P) == ~chan<- E    (tilde)
 func ch5[P chan int | chan<- int]()      { return } // core(P) == chan<- int   (not a single type)

 func _() {
 	// P can be inferred as there's a single specific type and no tilde.
 	var _ chan int = ch1 /* ERROR cannot use ch1.*value of type chan<- int */ ()
 	var _ chan<- int = ch1()

 	// P cannot be inferred as there's a tilde.
 	ch2 /* ERROR cannot infer P */ ()
 	type myChan chan int
 	ch2[myChan]()

 	// P can be inferred as there's a single specific type and no tilde.
 	var e int
 	ch3(e)

 	// P cannot be inferred as there's more than one specific type and a tilde.
 	ch4 /* ERROR cannot infer P */ (e)
 	_ = ch4[chan int]

 	// P cannot be inferred as there's more than one specific type.
 	ch5 /* ERROR cannot infer P */ ()
 	ch5[chan<- int]()
 }

 // test case from issue

 func equal[M1 ~map[K1]V1, M2 ~map[K2]V2, K1, K2 ~uint32, V1, V2 ~string](m1 M1, m2 M2) bool {
 	if len(m1) != len(m2) {
 		return false
 	}
 	for k, v1 := range m1 {
 		if v2, ok := m2[K2(k)]; !ok || V2(v1) != v2 {
 			return false
 		}
 	}
 	return true
 }

 func equalFixed[K1, K2 ~uint32, V1, V2 ~string](m1 map[K1]V1, m2 map[K2]V2) bool {
 	if len(m1) != len(m2) {
 		return false
 	}
 	for k, v1 := range m1 {
 		if v2, ok := m2[K2(k)]; !ok || v1 != V1(v2) {
 			return false
 		}
 	}
 	return true
 }

 type (
 	someNumericID uint32
 	someStringID  string
 )

 func _() {
 	foo := map[uint32]string{10: "bar"}
 	bar := map[someNumericID]someStringID{10: "bar"}
 	equal(foo, bar)
 }
	// Copyright 2022 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package p

	// Constraint type inference should be independent of the
	// ordering of the type parameter declarations. Try all
	// permutations in the test case below.
	// Permutations produced by https://go.dev/play/p/PHcZNGJTEBZ.

	func f00[S1 ~[]E1, S2 ~[]E2, E1 ~byte, E2 ~byte](S1, S2) {}
	func f01[S2 ~[]E2, S1 ~[]E1, E1 ~byte, E2 ~byte](S1, S2) {}
	func f02[E1 ~byte, S1 ~[]E1, S2 ~[]E2, E2 ~byte](S1, S2) {}
	func f03[S1 ~[]E1, E1 ~byte, S2 ~[]E2, E2 ~byte](S1, S2) {}
	func f04[S2 ~[]E2, E1 ~byte, S1 ~[]E1, E2 ~byte](S1, S2) {}
	func f05[E1 ~byte, S2 ~[]E2, S1 ~[]E1, E2 ~byte](S1, S2) {}
	func f06[E2 ~byte, S2 ~[]E2, S1 ~[]E1, E1 ~byte](S1, S2) {}
	func f07[S2 ~[]E2, E2 ~byte, S1 ~[]E1, E1 ~byte](S1, S2) {}
	func f08[S1 ~[]E1, E2 ~byte, S2 ~[]E2, E1 ~byte](S1, S2) {}
	func f09[E2 ~byte, S1 ~[]E1, S2 ~[]E2, E1 ~byte](S1, S2) {}
	func f10[S2 ~[]E2, S1 ~[]E1, E2 ~byte, E1 ~byte](S1, S2) {}
	func f11[S1 ~[]E1, S2 ~[]E2, E2 ~byte, E1 ~byte](S1, S2) {}
	func f12[S1 ~[]E1, E1 ~byte, E2 ~byte, S2 ~[]E2](S1, S2) {}
	func f13[E1 ~byte, S1 ~[]E1, E2 ~byte, S2 ~[]E2](S1, S2) {}
	func f14[E2 ~byte, S1 ~[]E1, E1 ~byte, S2 ~[]E2](S1, S2) {}
	func f15[S1 ~[]E1, E2 ~byte, E1 ~byte, S2 ~[]E2](S1, S2) {}
	func f16[E1 ~byte, E2 ~byte, S1 ~[]E1, S2 ~[]E2](S1, S2) {}
	func f17[E2 ~byte, E1 ~byte, S1 ~[]E1, S2 ~[]E2](S1, S2) {}
	func f18[E2 ~byte, E1 ~byte, S2 ~[]E2, S1 ~[]E1](S1, S2) {}
	func f19[E1 ~byte, E2 ~byte, S2 ~[]E2, S1 ~[]E1](S1, S2) {}
	func f20[S2 ~[]E2, E2 ~byte, E1 ~byte, S1 ~[]E1](S1, S2) {}
	func f21[E2 ~byte, S2 ~[]E2, E1 ~byte, S1 ~[]E1](S1, S2) {}
	func f22[E1 ~byte, S2 ~[]E2, E2 ~byte, S1 ~[]E1](S1, S2) {}
	func f23[S2 ~[]E2, E1 ~byte, E2 ~byte, S1 ~[]E1](S1, S2) {}

	type myByte byte

	func _(a []byte, b []myByte) {
	f00(a, b)
	f01(a, b)
	f02(a, b)
	f03(a, b)
	f04(a, b)
	f05(a, b)
	f06(a, b)
	f07(a, b)
	f08(a, b)
	f09(a, b)
	f10(a, b)
	f11(a, b)
	f12(a, b)
	f13(a, b)
	f14(a, b)
	f15(a, b)
	f16(a, b)
	f17(a, b)
	f18(a, b)
	f19(a, b)
	f20(a, b)
	f21(a, b)
	f22(a, b)
	f23(a, b)
	}

	// Constraint type inference may have to iterate.
	// Again, the order of the type parameters shouldn't matter.

	func g0[S ~[]E, M ~map[string]S, E any](m M) {}
	func g1[M ~map[string]S, S ~[]E, E any](m M) {}
	func g2[E any, S ~[]E, M ~map[string]S](m M) {}
	func g3[S ~[]E, E any, M ~map[string]S](m M) {}
	func g4[M ~map[string]S, E any, S ~[]E](m M) {}
	func g5[E any, M ~map[string]S, S ~[]E](m M) {}

	func _(m map[string][]byte) {
	g0(m)
	g1(m)
	g2(m)
	g3(m)
	g4(m)
	g5(m)
	}

	// Worst-case scenario.
	// There are 10 unknown type parameters. In each iteration of
	// constraint type inference we infer one more, from right to left.
	// Each iteration looks repeatedly at all 11 type parameters,
	// requiring a total of 10*11 = 110 iterations with the current
	// implementation. Pathological case.

	func h[K any, J ~K, I ~J, H ~I, G ~H, F ~G, E ~F, D ~E, C ~D, B ~C, A ~B](x A) {}

	func _(x **********int) {
	h(x)
	}

	// Examples with channel constraints and tilde.

	func ch1[P chan<- int]() (_ P) { return } // core(P) == chan<- int (single type, no tilde)
	func ch2[P ~chan int]() { return } // core(P) == ~chan<- int (tilde)
	func ch3[P chan E, E any](E) { return } // core(P) == chan<- E (single type, no tilde)
	func ch4[P chan E \| ~chan<- E, E any](E) { return } // core(P) == ~chan<- E (tilde)
	func ch5[P chan int \| chan<- int]() { return } // core(P) == chan<- int (not a single type)

	func _() {
	// P can be inferred as there's a single specific type and no tilde.
	var _ chan int = ch1 /* ERROR cannot use ch1.value of type chan<- int / ()
	var _ chan<- int = ch1()

	// P cannot be inferred as there's a tilde.
	ch2 /* ERROR cannot infer P */ ()
	type myChan chan int
	ch2[myChan]()

	// P can be inferred as there's a single specific type and no tilde.
	var e int
	ch3(e)

	// P cannot be inferred as there's more than one specific type and a tilde.
	ch4 /* ERROR cannot infer P */ (e)
	_ = ch4[chan int]

	// P cannot be inferred as there's more than one specific type.
	ch5 /* ERROR cannot infer P */ ()
	ch5[chan<- int]()
	}

	// test case from issue

	func equal[M1 ~map[K1]V1, M2 ~map[K2]V2, K1, K2 ~uint32, V1, V2 ~string](m1 M1, m2 M2) bool {
	if len(m1) != len(m2) {
	return false
	}
	for k, v1 := range m1 {
	if v2, ok := m2[K2(k)]; !ok \|\| V2(v1) != v2 {
	return false
	}
	}
	return true
	}

	func equalFixed[K1, K2 ~uint32, V1, V2 ~string](m1 map[K1]V1, m2 map[K2]V2) bool {
	if len(m1) != len(m2) {
	return false
	}
	for k, v1 := range m1 {
	if v2, ok := m2[K2(k)]; !ok \|\| v1 != V1(v2) {
	return false
	}
	}
	return true
	}

	type (
	someNumericID uint32
	someStringID string
	)

	func _() {
	foo := map[uint32]string{10: "bar"}
	bar := map[someNumericID]someStringID{10: "bar"}
	equal(foo, bar)
	}