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go/test/typeparam/boundmethod.go
Dan Scales 600b7b431b [dev.typeparams] cmd/compile: handle meth expressions on typeparams
Rewrite a method expression such as 'T.String' (where T is type param
and String is part of its type bound Stringer) as:

func(rcvr T, other params...) {
    return Stringer(rcvr).String(other params...)
}

New function buildClosure2 to create the needed closure. The conversion
Stringer(rcvr) uses the dictionary in the outer function.

For a method expression like 'Test[T].finish' (where finish is a method
of Test[T]), we can already deal with this in buildClosure(). We just
need fix transformDot() to allow the method lookup to fail, since shapes
have no methods on them. That's fine, since for any instantiated
receiver type, we always use the methods on the generic base type.

Also removed the OMETHEXPR case in the main switch of node(), which
isn't needed any (and removes one more potential unshapify).

Also, fixed two small bugs with handling closures that have generic
params or generic captured variables. Need to set the instInfo for the
closure in the subst struct when descending into a closure during
genericSubst() and was missing initializing the startItabConv and gfInfo
fields in the closure info.

Change-Id: I6dadedd1378477936a27c9c544c014cd2083cfb7
Reviewed-on: https://go-review.googlesource.com/c/go/+/338129
Trust: Dan Scales <danscales@google.com>
Run-TryBot: Dan Scales <danscales@google.com>
TryBot-Result: Go Bot <gobot@golang.org>
Reviewed-by: Keith Randall <khr@golang.org>
2021-07-29 21:58:06 +00:00

107 lines
2.5 KiB
Go

// run -gcflags=-G=3
// 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.
// This test illustrates how a type bound method (String below) can be implemented
// either by a concrete type (myint below) or a instantiated generic type
// (StringInt[myint] below).
package main
import (
"fmt"
"reflect"
"strconv"
)
type myint int
//go:noinline
func (m myint) String() string {
return strconv.Itoa(int(m))
}
type Stringer interface {
String() string
}
func stringify[T Stringer](s []T) (ret []string) {
for _, v := range s {
// Test normal bounds method call on type param
x1 := v.String()
// Test converting type param to its bound interface first
v1 := Stringer(v)
x2 := v1.String()
// Test method expression with type param type
f1 := T.String
x3 := f1(v)
// Test creating and calling closure equivalent to the method expression
f2 := func(v1 T) string {
return Stringer(v1).String()
}
x4 := f2(v)
if x1 != x2 || x2 != x3 || x3 != x4 {
panic(fmt.Sprintf("Mismatched values %v, %v, %v, %v\n", x1, x2, x3, x4))
}
ret = append(ret, v.String())
}
return ret
}
type Ints interface {
~int32 | ~int
}
type StringInt[T Ints] T
//go:noinline
func (m StringInt[T]) String() string {
return strconv.Itoa(int(m))
}
type StringStruct[T Ints] struct {
f T
}
func (m StringStruct[T]) String() string {
return strconv.Itoa(int(m.f))
}
func main() {
x := []myint{myint(1), myint(2), myint(3)}
// stringify on a normal type, whose bound method is associated with the base type.
got := stringify(x)
want := []string{"1", "2", "3"}
if !reflect.DeepEqual(got, want) {
panic(fmt.Sprintf("got %s, want %s", got, want))
}
x2 := []StringInt[myint]{StringInt[myint](5), StringInt[myint](7), StringInt[myint](6)}
// stringify on an instantiated type, whose bound method is associated with
// the generic type StringInt[T], which maps directly to T.
got2 := stringify(x2)
want2 := []string{ "5", "7", "6" }
if !reflect.DeepEqual(got2, want2) {
panic(fmt.Sprintf("got %s, want %s", got2, want2))
}
// stringify on an instantiated type, whose bound method is associated with
// the generic type StringStruct[T], which maps to a struct containing T.
x3 := []StringStruct[myint]{StringStruct[myint]{f: 11}, StringStruct[myint]{f: 10}, StringStruct[myint]{f: 9}}
got3 := stringify(x3)
want3 := []string{ "11", "10", "9" }
if !reflect.DeepEqual(got3, want3) {
panic(fmt.Sprintf("got %s, want %s", got3, want3))
}
}