blob: b6c816a5cef0fe99f6851868f9e99c9618ac0614 [file] [log] [blame]
package main
import (
p0 "./bug0"
p1 "./bug1"
"reflect"
"strings"
)
var v0 p0.T
var v1 p1.T
type I0 interface {
M(p0.T)
}
type I1 interface {
M(p1.T)
}
type t0 int
func (t0) M(p0.T) {}
type t1 float64
func (t1) M(p1.T) {}
var i0 I0 = t0(0) // ok
var i1 I1 = t1(0) // ok
var p0i p0.I = t0(0) // ok
var p1i p1.I = t1(0) // ok
func main() {
// check that reflect paths are correct,
// meaning that reflect data for v0, v1 didn't get confused.
// path is full (rooted) path name. check suffix for gc, prefix for gccgo
if s := reflect.TypeOf(v0).PkgPath(); !strings.HasSuffix(s, "/bug0") && !strings.HasPrefix(s, "bug0") {
println("bad v0 path", len(s), s)
panic("fail")
}
if s := reflect.TypeOf(v1).PkgPath(); !strings.HasSuffix(s, "/bug1") && !strings.HasPrefix(s, "bug1") {
println("bad v1 path", s)
panic("fail")
}
// check that dynamic interface check doesn't get confused
var i interface{} = t0(0)
if _, ok := i.(I1); ok {
println("used t0 as i1")
panic("fail")
}
if _, ok := i.(p1.I); ok {
println("used t0 as p1.I")
panic("fail")
}
i = t1(1)
if _, ok := i.(I0); ok {
println("used t1 as i0")
panic("fail")
}
if _, ok := i.(p0.I); ok {
println("used t1 as p0.I")
panic("fail")
}
// check that type switch works.
// the worry is that if p0.T and p1.T have the same hash,
// the binary search will handle one of them incorrectly.
for j := 0; j < 3; j++ {
switch j {
case 0:
i = p0.T{}
case 1:
i = p1.T{}
case 2:
i = 3.14
}
switch k := i.(type) {
case p0.T:
if j != 0 {
println("type switch p0.T")
panic("fail")
}
case p1.T:
if j != 1 {
println("type switch p1.T")
panic("fail")
}
default:
if j != 2 {
println("type switch default", j)
panic("fail")
}
}
}
}