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reflect.go
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reflect.go
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// Copyright 2013 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 interp
// Emulated "reflect" package.
//
// We completely replace the built-in "reflect" package.
// The only thing clients can depend upon are that reflect.Type is an
// interface and reflect.Value is an (opaque) struct.
import (
"fmt"
"go/token"
"go/types"
"reflect"
"unsafe"
"github.com/april1989/origin-go-tools/go/ssa"
)
type opaqueType struct {
types.Type
name string
}
func (t *opaqueType) String() string { return t.name }
// A bogus "reflect" type-checker package. Shared across interpreters.
var reflectTypesPackage = types.NewPackage("reflect", "reflect")
// rtype is the concrete type the interpreter uses to implement the
// reflect.Type interface.
//
// type rtype <opaque>
var rtypeType = makeNamedType("rtype", &opaqueType{nil, "rtype"})
// error is an (interpreted) named type whose underlying type is string.
// The interpreter uses it for all implementations of the built-in error
// interface that it creates.
// We put it in the "reflect" package for expedience.
//
// type error string
var errorType = makeNamedType("error", &opaqueType{nil, "error"})
func makeNamedType(name string, underlying types.Type) *types.Named {
obj := types.NewTypeName(token.NoPos, reflectTypesPackage, name, nil)
return types.NewNamed(obj, underlying, nil)
}
func makeReflectValue(t types.Type, v value) value {
return structure{rtype{t}, v}
}
// Given a reflect.Value, returns its rtype.
func rV2T(v value) rtype {
return v.(structure)[0].(rtype)
}
// Given a reflect.Value, returns the underlying interpreter value.
func rV2V(v value) value {
return v.(structure)[1]
}
// makeReflectType boxes up an rtype in a reflect.Type interface.
func makeReflectType(rt rtype) value {
return iface{rtypeType, rt}
}
func ext۰reflect۰rtype۰Bits(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) int
rt := args[0].(rtype).t
basic, ok := rt.Underlying().(*types.Basic)
if !ok {
panic(fmt.Sprintf("reflect.Type.Bits(%T): non-basic type", rt))
}
return int(fr.i.sizes.Sizeof(basic)) * 8
}
func ext۰reflect۰rtype۰Elem(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) reflect.Type
return makeReflectType(rtype{args[0].(rtype).t.Underlying().(interface {
Elem() types.Type
}).Elem()})
}
func ext۰reflect۰rtype۰Field(fr *frame, args []value) value {
// Signature: func (t reflect.rtype, i int) reflect.StructField
st := args[0].(rtype).t.Underlying().(*types.Struct)
i := args[1].(int)
f := st.Field(i)
return structure{
f.Name(),
f.Pkg().Path(),
makeReflectType(rtype{f.Type()}),
st.Tag(i),
0, // TODO(adonovan): offset
[]value{}, // TODO(adonovan): indices
f.Anonymous(),
}
}
func ext۰reflect۰rtype۰In(fr *frame, args []value) value {
// Signature: func (t reflect.rtype, i int) int
i := args[1].(int)
return makeReflectType(rtype{args[0].(rtype).t.(*types.Signature).Params().At(i).Type()})
}
func ext۰reflect۰rtype۰Kind(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) uint
return uint(reflectKind(args[0].(rtype).t))
}
func ext۰reflect۰rtype۰NumField(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) int
return args[0].(rtype).t.Underlying().(*types.Struct).NumFields()
}
func ext۰reflect۰rtype۰NumIn(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) int
return args[0].(rtype).t.(*types.Signature).Params().Len()
}
func ext۰reflect۰rtype۰NumMethod(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) int
return fr.i.prog.MethodSets.MethodSet(args[0].(rtype).t).Len()
}
func ext۰reflect۰rtype۰NumOut(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) int
return args[0].(rtype).t.(*types.Signature).Results().Len()
}
func ext۰reflect۰rtype۰Out(fr *frame, args []value) value {
// Signature: func (t reflect.rtype, i int) int
i := args[1].(int)
return makeReflectType(rtype{args[0].(rtype).t.(*types.Signature).Results().At(i).Type()})
}
func ext۰reflect۰rtype۰Size(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) uintptr
return uintptr(fr.i.sizes.Sizeof(args[0].(rtype).t))
}
func ext۰reflect۰rtype۰String(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) string
return args[0].(rtype).t.String()
}
func ext۰reflect۰New(fr *frame, args []value) value {
// Signature: func (t reflect.Type) reflect.Value
t := args[0].(iface).v.(rtype).t
alloc := zero(t)
return makeReflectValue(types.NewPointer(t), &alloc)
}
func ext۰reflect۰SliceOf(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) Type
return makeReflectType(rtype{types.NewSlice(args[0].(iface).v.(rtype).t)})
}
func ext۰reflect۰TypeOf(fr *frame, args []value) value {
// Signature: func (t reflect.rtype) Type
return makeReflectType(rtype{args[0].(iface).t})
}
func ext۰reflect۰ValueOf(fr *frame, args []value) value {
// Signature: func (interface{}) reflect.Value
itf := args[0].(iface)
return makeReflectValue(itf.t, itf.v)
}
func ext۰reflect۰Zero(fr *frame, args []value) value {
// Signature: func (t reflect.Type) reflect.Value
t := args[0].(iface).v.(rtype).t
return makeReflectValue(t, zero(t))
}
func reflectKind(t types.Type) reflect.Kind {
switch t := t.(type) {
case *types.Named:
return reflectKind(t.Underlying())
case *types.Basic:
switch t.Kind() {
case types.Bool:
return reflect.Bool
case types.Int:
return reflect.Int
case types.Int8:
return reflect.Int8
case types.Int16:
return reflect.Int16
case types.Int32:
return reflect.Int32
case types.Int64:
return reflect.Int64
case types.Uint:
return reflect.Uint
case types.Uint8:
return reflect.Uint8
case types.Uint16:
return reflect.Uint16
case types.Uint32:
return reflect.Uint32
case types.Uint64:
return reflect.Uint64
case types.Uintptr:
return reflect.Uintptr
case types.Float32:
return reflect.Float32
case types.Float64:
return reflect.Float64
case types.Complex64:
return reflect.Complex64
case types.Complex128:
return reflect.Complex128
case types.String:
return reflect.String
case types.UnsafePointer:
return reflect.UnsafePointer
}
case *types.Array:
return reflect.Array
case *types.Chan:
return reflect.Chan
case *types.Signature:
return reflect.Func
case *types.Interface:
return reflect.Interface
case *types.Map:
return reflect.Map
case *types.Pointer:
return reflect.Ptr
case *types.Slice:
return reflect.Slice
case *types.Struct:
return reflect.Struct
}
panic(fmt.Sprint("unexpected type: ", t))
}
func ext۰reflect۰Value۰Kind(fr *frame, args []value) value {
// Signature: func (reflect.Value) uint
return uint(reflectKind(rV2T(args[0]).t))
}
func ext۰reflect۰Value۰String(fr *frame, args []value) value {
// Signature: func (reflect.Value) string
return toString(rV2V(args[0]))
}
func ext۰reflect۰Value۰Type(fr *frame, args []value) value {
// Signature: func (reflect.Value) reflect.Type
return makeReflectType(rV2T(args[0]))
}
func ext۰reflect۰Value۰Uint(fr *frame, args []value) value {
// Signature: func (reflect.Value) uint64
switch v := rV2V(args[0]).(type) {
case uint:
return uint64(v)
case uint8:
return uint64(v)
case uint16:
return uint64(v)
case uint32:
return uint64(v)
case uint64:
return uint64(v)
case uintptr:
return uint64(v)
}
panic("reflect.Value.Uint")
}
func ext۰reflect۰Value۰Len(fr *frame, args []value) value {
// Signature: func (reflect.Value) int
switch v := rV2V(args[0]).(type) {
case string:
return len(v)
case array:
return len(v)
case chan value:
return cap(v)
case []value:
return len(v)
case *hashmap:
return v.len()
case map[value]value:
return len(v)
default:
panic(fmt.Sprintf("reflect.(Value).Len(%v)", v))
}
}
func ext۰reflect۰Value۰MapIndex(fr *frame, args []value) value {
// Signature: func (reflect.Value) Value
tValue := rV2T(args[0]).t.Underlying().(*types.Map).Key()
k := rV2V(args[1])
switch m := rV2V(args[0]).(type) {
case map[value]value:
if v, ok := m[k]; ok {
return makeReflectValue(tValue, v)
}
case *hashmap:
if v := m.lookup(k.(hashable)); v != nil {
return makeReflectValue(tValue, v)
}
default:
panic(fmt.Sprintf("(reflect.Value).MapIndex(%T, %T)", m, k))
}
return makeReflectValue(nil, nil)
}
func ext۰reflect۰Value۰MapKeys(fr *frame, args []value) value {
// Signature: func (reflect.Value) []Value
var keys []value
tKey := rV2T(args[0]).t.Underlying().(*types.Map).Key()
switch v := rV2V(args[0]).(type) {
case map[value]value:
for k := range v {
keys = append(keys, makeReflectValue(tKey, k))
}
case *hashmap:
for _, e := range v.entries() {
for ; e != nil; e = e.next {
keys = append(keys, makeReflectValue(tKey, e.key))
}
}
default:
panic(fmt.Sprintf("(reflect.Value).MapKeys(%T)", v))
}
return keys
}
func ext۰reflect۰Value۰NumField(fr *frame, args []value) value {
// Signature: func (reflect.Value) int
return len(rV2V(args[0]).(structure))
}
func ext۰reflect۰Value۰NumMethod(fr *frame, args []value) value {
// Signature: func (reflect.Value) int
return fr.i.prog.MethodSets.MethodSet(rV2T(args[0]).t).Len()
}
func ext۰reflect۰Value۰Pointer(fr *frame, args []value) value {
// Signature: func (v reflect.Value) uintptr
switch v := rV2V(args[0]).(type) {
case *value:
return uintptr(unsafe.Pointer(v))
case chan value:
return reflect.ValueOf(v).Pointer()
case []value:
return reflect.ValueOf(v).Pointer()
case *hashmap:
return reflect.ValueOf(v.entries()).Pointer()
case map[value]value:
return reflect.ValueOf(v).Pointer()
case *ssa.Function:
return uintptr(unsafe.Pointer(v))
case *closure:
return uintptr(unsafe.Pointer(v))
default:
panic(fmt.Sprintf("reflect.(Value).Pointer(%T)", v))
}
}
func ext۰reflect۰Value۰Index(fr *frame, args []value) value {
// Signature: func (v reflect.Value, i int) Value
i := args[1].(int)
t := rV2T(args[0]).t.Underlying()
switch v := rV2V(args[0]).(type) {
case array:
return makeReflectValue(t.(*types.Array).Elem(), v[i])
case []value:
return makeReflectValue(t.(*types.Slice).Elem(), v[i])
default:
panic(fmt.Sprintf("reflect.(Value).Index(%T)", v))
}
}
func ext۰reflect۰Value۰Bool(fr *frame, args []value) value {
// Signature: func (reflect.Value) bool
return rV2V(args[0]).(bool)
}
func ext۰reflect۰Value۰CanAddr(fr *frame, args []value) value {
// Signature: func (v reflect.Value) bool
// Always false for our representation.
return false
}
func ext۰reflect۰Value۰CanInterface(fr *frame, args []value) value {
// Signature: func (v reflect.Value) bool
// Always true for our representation.
return true
}
func ext۰reflect۰Value۰Elem(fr *frame, args []value) value {
// Signature: func (v reflect.Value) reflect.Value
switch x := rV2V(args[0]).(type) {
case iface:
return makeReflectValue(x.t, x.v)
case *value:
return makeReflectValue(rV2T(args[0]).t.Underlying().(*types.Pointer).Elem(), *x)
default:
panic(fmt.Sprintf("reflect.(Value).Elem(%T)", x))
}
}
func ext۰reflect۰Value۰Field(fr *frame, args []value) value {
// Signature: func (v reflect.Value, i int) reflect.Value
v := args[0]
i := args[1].(int)
return makeReflectValue(rV2T(v).t.Underlying().(*types.Struct).Field(i).Type(), rV2V(v).(structure)[i])
}
func ext۰reflect۰Value۰Float(fr *frame, args []value) value {
// Signature: func (reflect.Value) float64
switch v := rV2V(args[0]).(type) {
case float32:
return float64(v)
case float64:
return float64(v)
}
panic("reflect.Value.Float")
}
func ext۰reflect۰Value۰Interface(fr *frame, args []value) value {
// Signature: func (v reflect.Value) interface{}
return ext۰reflect۰valueInterface(fr, args)
}
func ext۰reflect۰Value۰Int(fr *frame, args []value) value {
// Signature: func (reflect.Value) int64
switch x := rV2V(args[0]).(type) {
case int:
return int64(x)
case int8:
return int64(x)
case int16:
return int64(x)
case int32:
return int64(x)
case int64:
return x
default:
panic(fmt.Sprintf("reflect.(Value).Int(%T)", x))
}
}
func ext۰reflect۰Value۰IsNil(fr *frame, args []value) value {
// Signature: func (reflect.Value) bool
switch x := rV2V(args[0]).(type) {
case *value:
return x == nil
case chan value:
return x == nil
case map[value]value:
return x == nil
case *hashmap:
return x == nil
case iface:
return x.t == nil
case []value:
return x == nil
case *ssa.Function:
return x == nil
case *ssa.Builtin:
return x == nil
case *closure:
return x == nil
default:
panic(fmt.Sprintf("reflect.(Value).IsNil(%T)", x))
}
}
func ext۰reflect۰Value۰IsValid(fr *frame, args []value) value {
// Signature: func (reflect.Value) bool
return rV2V(args[0]) != nil
}
func ext۰reflect۰Value۰Set(fr *frame, args []value) value {
// TODO(adonovan): implement.
return nil
}
func ext۰reflect۰valueInterface(fr *frame, args []value) value {
// Signature: func (v reflect.Value, safe bool) interface{}
v := args[0].(structure)
return iface{rV2T(v).t, rV2V(v)}
}
func ext۰reflect۰error۰Error(fr *frame, args []value) value {
return args[0]
}
// newMethod creates a new method of the specified name, package and receiver type.
func newMethod(pkg *ssa.Package, recvType types.Type, name string) *ssa.Function {
// TODO(adonovan): fix: hack: currently the only part of Signature
// that is needed is the "pointerness" of Recv.Type, and for
// now, we'll set it to always be false since we're only
// concerned with rtype. Encapsulate this better.
sig := types.NewSignature(types.NewVar(token.NoPos, nil, "recv", recvType), nil, nil, false)
fn := pkg.Prog.NewFunction(name, sig, "fake reflect method")
fn.Pkg = pkg
return fn
}
func initReflect(i *interpreter) {
i.reflectPackage = &ssa.Package{
Prog: i.prog,
Pkg: reflectTypesPackage,
Members: make(map[string]ssa.Member),
}
// Clobber the type-checker's notion of reflect.Value's
// underlying type so that it more closely matches the fake one
// (at least in the number of fields---we lie about the type of
// the rtype field).
//
// We must ensure that calls to (ssa.Value).Type() return the
// fake type so that correct "shape" is used when allocating
// variables, making zero values, loading, and storing.
//
// TODO(adonovan): obviously this is a hack. We need a cleaner
// way to fake the reflect package (almost---DeepEqual is fine).
// One approach would be not to even load its source code, but
// provide fake source files. This would guarantee that no bad
// information leaks into other packages.
if r := i.prog.ImportedPackage("reflect"); r != nil {
rV := r.Pkg.Scope().Lookup("Value").Type().(*types.Named)
// delete bodies of the old methods
mset := i.prog.MethodSets.MethodSet(rV)
for j := 0; j < mset.Len(); j++ {
i.prog.MethodValue(mset.At(j)).Blocks = nil
}
tEface := types.NewInterface(nil, nil).Complete()
rV.SetUnderlying(types.NewStruct([]*types.Var{
types.NewField(token.NoPos, r.Pkg, "t", tEface, false), // a lie
types.NewField(token.NoPos, r.Pkg, "v", tEface, false),
}, nil))
}
i.rtypeMethods = methodSet{
"Bits": newMethod(i.reflectPackage, rtypeType, "Bits"),
"Elem": newMethod(i.reflectPackage, rtypeType, "Elem"),
"Field": newMethod(i.reflectPackage, rtypeType, "Field"),
"In": newMethod(i.reflectPackage, rtypeType, "In"),
"Kind": newMethod(i.reflectPackage, rtypeType, "Kind"),
"NumField": newMethod(i.reflectPackage, rtypeType, "NumField"),
"NumIn": newMethod(i.reflectPackage, rtypeType, "NumIn"),
"NumMethod": newMethod(i.reflectPackage, rtypeType, "NumMethod"),
"NumOut": newMethod(i.reflectPackage, rtypeType, "NumOut"),
"Out": newMethod(i.reflectPackage, rtypeType, "Out"),
"Size": newMethod(i.reflectPackage, rtypeType, "Size"),
"String": newMethod(i.reflectPackage, rtypeType, "String"),
}
i.errorMethods = methodSet{
"Error": newMethod(i.reflectPackage, errorType, "Error"),
}
}