gcc/libgo/go/runtime/gcinfo_test.go
Ian Lance Taylor af146490bb runtime: Remove now unnecessary pad field from ParFor.
It is not needed due to the removal of the ctx field.
    
    Reviewed-on: https://go-review.googlesource.com/16525

From-SVN: r229616
2015-10-31 00:59:47 +00:00

189 lines
5.3 KiB
Go

// Copyright 2014 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.
// +build ignore
package runtime_test
import (
"bytes"
"runtime"
"testing"
)
const (
typeScalar = 0
typePointer = 1
)
// TestGCInfo tests that various objects in heap, data and bss receive correct GC pointer type info.
func TestGCInfo(t *testing.T) {
t.Skip("skipping on gccgo for now")
verifyGCInfo(t, "stack Ptr", new(Ptr), infoPtr)
verifyGCInfo(t, "stack ScalarPtr", new(ScalarPtr), infoScalarPtr)
verifyGCInfo(t, "stack PtrScalar", new(PtrScalar), infoPtrScalar)
verifyGCInfo(t, "stack BigStruct", new(BigStruct), infoBigStruct())
verifyGCInfo(t, "stack string", new(string), infoString)
verifyGCInfo(t, "stack slice", new([]string), infoSlice)
verifyGCInfo(t, "stack eface", new(interface{}), infoEface)
verifyGCInfo(t, "stack iface", new(Iface), infoIface)
for i := 0; i < 10; i++ {
verifyGCInfo(t, "heap Ptr", escape(new(Ptr)), trimDead(padDead(infoPtr)))
verifyGCInfo(t, "heap PtrSlice", escape(&make([]*byte, 10)[0]), trimDead(infoPtr10))
verifyGCInfo(t, "heap ScalarPtr", escape(new(ScalarPtr)), trimDead(infoScalarPtr))
verifyGCInfo(t, "heap ScalarPtrSlice", escape(&make([]ScalarPtr, 4)[0]), trimDead(infoScalarPtr4))
verifyGCInfo(t, "heap PtrScalar", escape(new(PtrScalar)), trimDead(infoPtrScalar))
verifyGCInfo(t, "heap BigStruct", escape(new(BigStruct)), trimDead(infoBigStruct()))
verifyGCInfo(t, "heap string", escape(new(string)), trimDead(infoString))
verifyGCInfo(t, "heap eface", escape(new(interface{})), trimDead(infoEface))
verifyGCInfo(t, "heap iface", escape(new(Iface)), trimDead(infoIface))
}
}
func verifyGCInfo(t *testing.T, name string, p interface{}, mask0 []byte) {
mask := runtime.GCMask(p)
if bytes.Compare(mask, mask0) != 0 {
t.Errorf("bad GC program for %v:\nwant %+v\ngot %+v", name, mask0, mask)
return
}
}
func padDead(mask []byte) []byte {
// Because the dead bit isn't encoded until the third word,
// and because on 32-bit systems a one-word allocation
// uses a two-word block, the pointer info for a one-word
// object needs to be expanded to include an extra scalar
// on 32-bit systems to match the heap bitmap.
if runtime.PtrSize == 4 && len(mask) == 1 {
return []byte{mask[0], 0}
}
return mask
}
func trimDead(mask []byte) []byte {
for len(mask) > 2 && mask[len(mask)-1] == typeScalar {
mask = mask[:len(mask)-1]
}
return mask
}
var gcinfoSink interface{}
func escape(p interface{}) interface{} {
gcinfoSink = p
return p
}
var infoPtr = []byte{typePointer}
type Ptr struct {
*byte
}
var infoPtr10 = []byte{typePointer, typePointer, typePointer, typePointer, typePointer, typePointer, typePointer, typePointer, typePointer, typePointer}
type ScalarPtr struct {
q int
w *int
e int
r *int
t int
y *int
}
var infoScalarPtr = []byte{typeScalar, typePointer, typeScalar, typePointer, typeScalar, typePointer}
var infoScalarPtr4 = append(append(append(append([]byte(nil), infoScalarPtr...), infoScalarPtr...), infoScalarPtr...), infoScalarPtr...)
type PtrScalar struct {
q *int
w int
e *int
r int
t *int
y int
}
var infoPtrScalar = []byte{typePointer, typeScalar, typePointer, typeScalar, typePointer, typeScalar}
type BigStruct struct {
q *int
w byte
e [17]byte
r []byte
t int
y uint16
u uint64
i string
}
func infoBigStruct() []byte {
switch runtime.GOARCH {
case "386", "arm":
return []byte{
typePointer, // q *int
typeScalar, typeScalar, typeScalar, typeScalar, typeScalar, // w byte; e [17]byte
typePointer, typeScalar, typeScalar, // r []byte
typeScalar, typeScalar, typeScalar, typeScalar, // t int; y uint16; u uint64
typePointer, typeScalar, // i string
}
case "arm64", "amd64", "ppc64", "ppc64le":
return []byte{
typePointer, // q *int
typeScalar, typeScalar, typeScalar, // w byte; e [17]byte
typePointer, typeScalar, typeScalar, // r []byte
typeScalar, typeScalar, typeScalar, // t int; y uint16; u uint64
typePointer, typeScalar, // i string
}
case "amd64p32":
return []byte{
typePointer, // q *int
typeScalar, typeScalar, typeScalar, typeScalar, typeScalar, // w byte; e [17]byte
typePointer, typeScalar, typeScalar, // r []byte
typeScalar, typeScalar, typeScalar, typeScalar, typeScalar, // t int; y uint16; u uint64
typePointer, typeScalar, // i string
}
default:
panic("unknown arch")
}
}
type Iface interface {
f()
}
type IfaceImpl int
func (IfaceImpl) f() {
}
var (
// BSS
bssPtr Ptr
bssScalarPtr ScalarPtr
bssPtrScalar PtrScalar
bssBigStruct BigStruct
bssString string
bssSlice []string
bssEface interface{}
bssIface Iface
// DATA
dataPtr = Ptr{new(byte)}
dataScalarPtr = ScalarPtr{q: 1}
dataPtrScalar = PtrScalar{w: 1}
dataBigStruct = BigStruct{w: 1}
dataString = "foo"
dataSlice = []string{"foo"}
dataEface interface{} = 42
dataIface Iface = IfaceImpl(42)
infoString = []byte{typePointer, typeScalar}
infoSlice = []byte{typePointer, typeScalar, typeScalar}
infoEface = []byte{typePointer, typePointer}
infoIface = []byte{typePointer, typePointer}
)