// Code generated by "go test -run=Generate -write=all"; DO NOT EDIT. // Copyright 2021 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 types_test import ( . "go/types" "strings" "testing" ) func TestInstantiateEquality(t *testing.T) { emptySignature := NewSignatureType(nil, nil, nil, nil, nil, false) tests := []struct { src string name1 string targs1 []Type name2 string targs2 []Type wantEqual bool }{ { "package basictype; type T[P any] int", "T", []Type{Typ[Int]}, "T", []Type{Typ[Int]}, true, }, { "package differenttypeargs; type T[P any] int", "T", []Type{Typ[Int]}, "T", []Type{Typ[String]}, false, }, { "package typeslice; type T[P any] int", "T", []Type{NewSlice(Typ[Int])}, "T", []Type{NewSlice(Typ[Int])}, true, }, { // interface{interface{...}} is equivalent to interface{...} "package equivalentinterfaces; type T[P any] int", "T", []Type{ NewInterfaceType([]*Func{NewFunc(nopos, nil, "M", emptySignature)}, nil), }, "T", []Type{ NewInterfaceType( nil, []Type{ NewInterfaceType([]*Func{NewFunc(nopos, nil, "M", emptySignature)}, nil), }, ), }, true, }, { // int|string is equivalent to string|int "package equivalenttypesets; type T[P any] int", "T", []Type{ NewInterfaceType(nil, []Type{ NewUnion([]*Term{NewTerm(false, Typ[Int]), NewTerm(false, Typ[String])}), }), }, "T", []Type{ NewInterfaceType(nil, []Type{ NewUnion([]*Term{NewTerm(false, Typ[String]), NewTerm(false, Typ[Int])}), }), }, true, }, { "package basicfunc; func F[P any]() {}", "F", []Type{Typ[Int]}, "F", []Type{Typ[Int]}, true, }, { "package funcslice; func F[P any]() {}", "F", []Type{NewSlice(Typ[Int])}, "F", []Type{NewSlice(Typ[Int])}, true, }, { "package funcwithparams; func F[P any](x string) float64 { return 0 }", "F", []Type{Typ[Int]}, "F", []Type{Typ[Int]}, true, }, { "package differentfuncargs; func F[P any](x string) float64 { return 0 }", "F", []Type{Typ[Int]}, "F", []Type{Typ[String]}, false, }, { "package funcequality; func F1[P any](x int) {}; func F2[Q any](x int) {}", "F1", []Type{Typ[Int]}, "F2", []Type{Typ[Int]}, false, }, { "package funcsymmetry; func F1[P any](x P) {}; func F2[Q any](x Q) {}", "F1", []Type{Typ[Int]}, "F2", []Type{Typ[Int]}, false, }, } for _, test := range tests { pkg := mustTypecheck(test.src, nil, nil) t.Run(pkg.Name(), func(t *testing.T) { ctxt := NewContext() T1 := pkg.Scope().Lookup(test.name1).Type() res1, err := Instantiate(ctxt, T1, test.targs1, false) if err != nil { t.Fatal(err) } T2 := pkg.Scope().Lookup(test.name2).Type() res2, err := Instantiate(ctxt, T2, test.targs2, false) if err != nil { t.Fatal(err) } if gotEqual := res1 == res2; gotEqual != test.wantEqual { t.Errorf("%s == %s: %t, want %t", res1, res2, gotEqual, test.wantEqual) } }) } } func TestInstantiateNonEquality(t *testing.T) { const src = "package p; type T[P any] int" pkg1 := mustTypecheck(src, nil, nil) pkg2 := mustTypecheck(src, nil, nil) // We consider T1 and T2 to be distinct types, so their instances should not // be deduplicated by the context. T1 := pkg1.Scope().Lookup("T").Type().(*Named) T2 := pkg2.Scope().Lookup("T").Type().(*Named) ctxt := NewContext() res1, err := Instantiate(ctxt, T1, []Type{Typ[Int]}, false) if err != nil { t.Fatal(err) } res2, err := Instantiate(ctxt, T2, []Type{Typ[Int]}, false) if err != nil { t.Fatal(err) } if res1 == res2 { t.Errorf("instance from pkg1 (%s) is pointer-equivalent to instance from pkg2 (%s)", res1, res2) } if Identical(res1, res2) { t.Errorf("instance from pkg1 (%s) is identical to instance from pkg2 (%s)", res1, res2) } } func TestMethodInstantiation(t *testing.T) { const prefix = `package p type T[P any] struct{} var X T[int] ` tests := []struct { decl string want string }{ {"func (r T[P]) m() P", "func (T[int]).m() int"}, {"func (r T[P]) m(P)", "func (T[int]).m(int)"}, {"func (r *T[P]) m(P)", "func (*T[int]).m(int)"}, {"func (r T[P]) m() T[P]", "func (T[int]).m() T[int]"}, {"func (r T[P]) m(T[P])", "func (T[int]).m(T[int])"}, {"func (r T[P]) m(T[P], P, string)", "func (T[int]).m(T[int], int, string)"}, {"func (r T[P]) m(T[P], T[string], T[int])", "func (T[int]).m(T[int], T[string], T[int])"}, } for _, test := range tests { src := prefix + test.decl pkg := mustTypecheck(src, nil, nil) typ := NewPointer(pkg.Scope().Lookup("X").Type()) obj, _, _ := LookupFieldOrMethod(typ, false, pkg, "m") m, _ := obj.(*Func) if m == nil { t.Fatalf(`LookupFieldOrMethod(%s, "m") = %v, want func m`, typ, obj) } if got := ObjectString(m, RelativeTo(pkg)); got != test.want { t.Errorf("instantiated %q, want %q", got, test.want) } } } func TestImmutableSignatures(t *testing.T) { const src = `package p type T[P any] struct{} func (T[P]) m() {} var _ T[int] ` pkg := mustTypecheck(src, nil, nil) typ := pkg.Scope().Lookup("T").Type().(*Named) obj, _, _ := LookupFieldOrMethod(typ, false, pkg, "m") if obj == nil { t.Fatalf(`LookupFieldOrMethod(%s, "m") = %v, want func m`, typ, obj) } // Verify that the original method is not mutated by instantiating T (this // bug manifested when subst did not return a new signature). want := "func (T[P]).m()" if got := stripAnnotations(ObjectString(obj, RelativeTo(pkg))); got != want { t.Errorf("instantiated %q, want %q", got, want) } } // Copied from errors.go. func stripAnnotations(s string) string { var buf strings.Builder for _, r := range s { // strip #'s and subscript digits if r < '₀' || '₀'+10 <= r { // '₀' == U+2080 buf.WriteRune(r) } } if buf.Len() < len(s) { return buf.String() } return s }