mirror of
https://github.com/golang/go
synced 2024-11-26 16:57:14 -07:00
8fdc5b6041
R=rsc APPROVED=rsc DELTA=32 (14 added, 1 deleted, 17 changed) OCL=34043 CL=34043
169 lines
4.0 KiB
Go
169 lines
4.0 KiB
Go
// Copyright 2009 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package eval
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import (
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"log";
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"go/token";
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"reflect";
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)
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/*
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* Type bridging
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*/
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var (
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evalTypes = make(map[reflect.Type] Type);
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nativeTypes = make(map[Type] reflect.Type);
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)
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// TypeFromNative converts a regular Go type into a the corresponding
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// interpreter Type.
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func TypeFromNative(t reflect.Type) Type {
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if et, ok := evalTypes[t]; ok {
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return et;
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}
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var nt *NamedType;
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if t.Name() != "" {
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name := t.PkgPath() + "·" + t.Name();
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nt = &NamedType{token.Position{}, name, nil, true, make(map[string] Method)};
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evalTypes[t] = nt;
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}
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var et Type;
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switch t := t.(type) {
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case *reflect.BoolType:
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et = BoolType;
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case *reflect.Float32Type:
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et = Float32Type;
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case *reflect.Float64Type:
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et = Float64Type;
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case *reflect.FloatType:
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et = FloatType;
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case *reflect.Int16Type:
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et = Int16Type;
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case *reflect.Int32Type:
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et = Int32Type;
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case *reflect.Int64Type:
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et = Int64Type;
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case *reflect.Int8Type:
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et = Int8Type;
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case *reflect.IntType:
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et = IntType;
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case *reflect.StringType:
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et = StringType;
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case *reflect.Uint16Type:
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et = Uint16Type;
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case *reflect.Uint32Type:
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et = Uint32Type;
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case *reflect.Uint64Type:
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et = Uint64Type;
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case *reflect.Uint8Type:
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et = Uint8Type;
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case *reflect.UintType:
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et = UintType;
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case *reflect.UintptrType:
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et = UintptrType;
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case *reflect.ArrayType:
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et = NewArrayType(int64(t.Len()), TypeFromNative(t.Elem()));
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case *reflect.ChanType:
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log.Crashf("%T not implemented", t);
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case *reflect.FuncType:
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nin := t.NumIn();
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// Variadic functions have DotDotDotType at the end
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varidic := false;
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if nin > 0 {
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if _, ok := t.In(nin - 1).(*reflect.DotDotDotType); ok {
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varidic = true;
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nin--;
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}
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}
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in := make([]Type, nin);
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for i := range in {
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in[i] = TypeFromNative(t.In(i));
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}
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out := make([]Type, t.NumOut());
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for i := range out {
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out[i] = TypeFromNative(t.Out(i));
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}
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et = NewFuncType(in, varidic, out);
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case *reflect.InterfaceType:
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log.Crashf("%T not implemented", t);
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case *reflect.MapType:
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log.Crashf("%T not implemented", t);
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case *reflect.PtrType:
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et = NewPtrType(TypeFromNative(t.Elem()));
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case *reflect.SliceType:
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et = NewSliceType(TypeFromNative(t.Elem()));
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case *reflect.StructType:
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n := t.NumField();
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fields := make([]StructField, n);
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for i := 0; i < n; i++ {
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sf := t.Field(i);
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// TODO(austin) What to do about private fields?
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fields[i].Name = sf.Name;
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fields[i].Type = TypeFromNative(sf.Type);
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fields[i].Anonymous = sf.Anonymous;
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}
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et = NewStructType(fields);
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case *reflect.UnsafePointerType:
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log.Crashf("%T not implemented", t);
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default:
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log.Crashf("unexpected reflect.Type: %T", t);
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}
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if nt != nil {
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nt.Complete(et);
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et = nt;
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}
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nativeTypes[et] = t;
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evalTypes[t] = et;
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return et;
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}
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// TypeOfNative returns the interpreter Type of a regular Go value.
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func TypeOfNative(v interface {}) Type {
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return TypeFromNative(reflect.Typeof(v));
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}
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/*
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* Function bridging
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*/
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type nativeFunc struct {
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fn func([]Value, []Value);
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in, out int;
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}
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func (f *nativeFunc) NewFrame() *Frame {
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vars := make([]Value, f.in + f.out);
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return &Frame{nil, vars};
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}
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func (f *nativeFunc) Call(fr *Frame) {
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f.fn(fr.Vars[0:f.in], fr.Vars[f.in:f.in+f.out]);
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}
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// FuncFromNative creates an interpreter function from a native
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// function that takes its in and out arguments as slices of
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// interpreter Value's. While somewhat inconvenient, this avoids
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// value marshalling.
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func FuncFromNative(fn func([]Value, []Value), t *FuncType) FuncValue {
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return &funcV{&nativeFunc{fn, len(t.In), len(t.Out)}};
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}
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// FuncFromNativeTyped is like FuncFromNative, but constructs the
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// function type from a function pointer using reflection. Typically,
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// the type will be given as a nil pointer to a function with the
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// desired signature.
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func FuncFromNativeTyped(fn func([]Value, []Value), t interface{}) (*FuncType, FuncValue) {
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ft := TypeOfNative(t).(*FuncType);
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return ft, FuncFromNative(fn, ft);
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}
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