src/pkg/exp/eval/bridge.go - go - Git at Google

 // Copyright 2009 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 eval

 import (
 	"log";
 	"go/token";
 	"reflect";
 )

 /*
  * Type bridging
  */

 var (
 	evalTypes	= make(map[reflect.Type]Type);
 	nativeTypes	= make(map[Type]reflect.Type);
 )

 // TypeFromNative converts a regular Go type into a the corresponding
 // interpreter Type.
 func TypeFromNative(t reflect.Type) Type {
 	if et, ok := evalTypes[t]; ok {
 		return et
 	}

 	var nt *NamedType;
 	if t.Name() != "" {
 		name := t.PkgPath() + "·" + t.Name();
 		nt = &NamedType{token.Position{}, name, nil, true, make(map[string]Method)};
 		evalTypes[t] = nt;
 	}

 	var et Type;
 	switch t := t.(type) {
 	case *reflect.BoolType:
 		et = BoolType
 	case *reflect.Float32Type:
 		et = Float32Type
 	case *reflect.Float64Type:
 		et = Float64Type
 	case *reflect.FloatType:
 		et = FloatType
 	case *reflect.Int16Type:
 		et = Int16Type
 	case *reflect.Int32Type:
 		et = Int32Type
 	case *reflect.Int64Type:
 		et = Int64Type
 	case *reflect.Int8Type:
 		et = Int8Type
 	case *reflect.IntType:
 		et = IntType
 	case *reflect.StringType:
 		et = StringType
 	case *reflect.Uint16Type:
 		et = Uint16Type
 	case *reflect.Uint32Type:
 		et = Uint32Type
 	case *reflect.Uint64Type:
 		et = Uint64Type
 	case *reflect.Uint8Type:
 		et = Uint8Type
 	case *reflect.UintType:
 		et = UintType
 	case *reflect.UintptrType:
 		et = UintptrType

 	case *reflect.ArrayType:
 		et = NewArrayType(int64(t.Len()), TypeFromNative(t.Elem()))
 	case *reflect.ChanType:
 		log.Crashf("%T not implemented", t)
 	case *reflect.FuncType:
 		nin := t.NumIn();
 		// Variadic functions have DotDotDotType at the end
 		varidic := false;
 		if nin > 0 {
 			if _, ok := t.In(nin - 1).(*reflect.DotDotDotType); ok {
 				varidic = true;
 				nin--;
 			}
 		}
 		in := make([]Type, nin);
 		for i := range in {
 			in[i] = TypeFromNative(t.In(i))
 		}
 		out := make([]Type, t.NumOut());
 		for i := range out {
 			out[i] = TypeFromNative(t.Out(i))
 		}
 		et = NewFuncType(in, varidic, out);
 	case *reflect.InterfaceType:
 		log.Crashf("%T not implemented", t)
 	case *reflect.MapType:
 		log.Crashf("%T not implemented", t)
 	case *reflect.PtrType:
 		et = NewPtrType(TypeFromNative(t.Elem()))
 	case *reflect.SliceType:
 		et = NewSliceType(TypeFromNative(t.Elem()))
 	case *reflect.StructType:
 		n := t.NumField();
 		fields := make([]StructField, n);
 		for i := 0; i < n; i++ {
 			sf := t.Field(i);
 			// TODO(austin) What to do about private fields?
 			fields[i].Name = sf.Name;
 			fields[i].Type = TypeFromNative(sf.Type);
 			fields[i].Anonymous = sf.Anonymous;
 		}
 		et = NewStructType(fields);
 	case *reflect.UnsafePointerType:
 		log.Crashf("%T not implemented", t)
 	default:
 		log.Crashf("unexpected reflect.Type: %T", t)
 	}

 	if nt != nil {
 		if _, ok := et.(*NamedType); !ok {
 			nt.Complete(et);
 			et = nt;
 		}
 	}

 	nativeTypes[et] = t;
 	evalTypes[t] = et;

 	return et;
 }

 // TypeOfNative returns the interpreter Type of a regular Go value.
 func TypeOfNative(v interface{}) Type	{ return TypeFromNative(reflect.Typeof(v)) }

 /*
  * Function bridging
  */

 type nativeFunc struct {
 	fn	func(*Thread, []Value, []Value);
 	in, out	int;
 }

 func (f *nativeFunc) NewFrame() *Frame {
 	vars := make([]Value, f.in+f.out);
 	return &Frame{nil, vars};
 }

 func (f *nativeFunc) Call(t *Thread)	{ f.fn(t, t.f.Vars[0:f.in], t.f.Vars[f.in:f.in+f.out]) }

 // FuncFromNative creates an interpreter function from a native
 // function that takes its in and out arguments as slices of
 // interpreter Value's.  While somewhat inconvenient, this avoids
 // value marshalling.
 func FuncFromNative(fn func(*Thread, []Value, []Value), t *FuncType) FuncValue {
 	return &funcV{&nativeFunc{fn, len(t.In), len(t.Out)}}
 }

 // FuncFromNativeTyped is like FuncFromNative, but constructs the
 // function type from a function pointer using reflection.  Typically,
 // the type will be given as a nil pointer to a function with the
 // desired signature.
 func FuncFromNativeTyped(fn func(*Thread, []Value, []Value), t interface{}) (*FuncType, FuncValue) {
 	ft := TypeOfNative(t).(*FuncType);
 	return ft, FuncFromNative(fn, ft);
 }
	// Copyright 2009 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 eval

	import (
	"log";
	"go/token";
	"reflect";
	)

	/*
	* Type bridging
	*/

	var (
	evalTypes = make(map[reflect.Type]Type);
	nativeTypes = make(map[Type]reflect.Type);
	)

	// TypeFromNative converts a regular Go type into a the corresponding
	// interpreter Type.
	func TypeFromNative(t reflect.Type) Type {
	if et, ok := evalTypes[t]; ok {
	return et
	}

	var nt *NamedType;
	if t.Name() != "" {
	name := t.PkgPath() + "·" + t.Name();
	nt = &NamedType{token.Position{}, name, nil, true, make(map[string]Method)};
	evalTypes[t] = nt;
	}

	var et Type;
	switch t := t.(type) {
	case *reflect.BoolType:
	et = BoolType
	case *reflect.Float32Type:
	et = Float32Type
	case *reflect.Float64Type:
	et = Float64Type
	case *reflect.FloatType:
	et = FloatType
	case *reflect.Int16Type:
	et = Int16Type
	case *reflect.Int32Type:
	et = Int32Type
	case *reflect.Int64Type:
	et = Int64Type
	case *reflect.Int8Type:
	et = Int8Type
	case *reflect.IntType:
	et = IntType
	case *reflect.StringType:
	et = StringType
	case *reflect.Uint16Type:
	et = Uint16Type
	case *reflect.Uint32Type:
	et = Uint32Type
	case *reflect.Uint64Type:
	et = Uint64Type
	case *reflect.Uint8Type:
	et = Uint8Type
	case *reflect.UintType:
	et = UintType
	case *reflect.UintptrType:
	et = UintptrType

	case *reflect.ArrayType:
	et = NewArrayType(int64(t.Len()), TypeFromNative(t.Elem()))
	case *reflect.ChanType:
	log.Crashf("%T not implemented", t)
	case *reflect.FuncType:
	nin := t.NumIn();
	// Variadic functions have DotDotDotType at the end
	varidic := false;
	if nin > 0 {
	if _, ok := t.In(nin - 1).(*reflect.DotDotDotType); ok {
	varidic = true;
	nin--;
	}
	}
	in := make([]Type, nin);
	for i := range in {
	in[i] = TypeFromNative(t.In(i))
	}
	out := make([]Type, t.NumOut());
	for i := range out {
	out[i] = TypeFromNative(t.Out(i))
	}
	et = NewFuncType(in, varidic, out);
	case *reflect.InterfaceType:
	log.Crashf("%T not implemented", t)
	case *reflect.MapType:
	log.Crashf("%T not implemented", t)
	case *reflect.PtrType:
	et = NewPtrType(TypeFromNative(t.Elem()))
	case *reflect.SliceType:
	et = NewSliceType(TypeFromNative(t.Elem()))
	case *reflect.StructType:
	n := t.NumField();
	fields := make([]StructField, n);
	for i := 0; i < n; i++ {
	sf := t.Field(i);
	// TODO(austin) What to do about private fields?
	fields[i].Name = sf.Name;
	fields[i].Type = TypeFromNative(sf.Type);
	fields[i].Anonymous = sf.Anonymous;
	}
	et = NewStructType(fields);
	case *reflect.UnsafePointerType:
	log.Crashf("%T not implemented", t)
	default:
	log.Crashf("unexpected reflect.Type: %T", t)
	}

	if nt != nil {
	if _, ok := et.(*NamedType); !ok {
	nt.Complete(et);
	et = nt;
	}
	}

	nativeTypes[et] = t;
	evalTypes[t] = et;

	return et;
	}

	// TypeOfNative returns the interpreter Type of a regular Go value.
	func TypeOfNative(v interface{}) Type { return TypeFromNative(reflect.Typeof(v)) }

	/*
	* Function bridging
	*/

	type nativeFunc struct {
	fn func(*Thread, []Value, []Value);
	in, out int;
	}

	func (f nativeFunc) NewFrame() Frame {
	vars := make([]Value, f.in+f.out);
	return &Frame{nil, vars};
	}

	func (f nativeFunc) Call(t Thread) { f.fn(t, t.f.Vars[0:f.in], t.f.Vars[f.in:f.in+f.out]) }

	// FuncFromNative creates an interpreter function from a native
	// function that takes its in and out arguments as slices of
	// interpreter Value's. While somewhat inconvenient, this avoids
	// value marshalling.
	func FuncFromNative(fn func(Thread, []Value, []Value), t FuncType) FuncValue {
	return &funcV{&nativeFunc{fn, len(t.In), len(t.Out)}}
	}

	// FuncFromNativeTyped is like FuncFromNative, but constructs the
	// function type from a function pointer using reflection. Typically,
	// the type will be given as a nil pointer to a function with the
	// desired signature.
	func FuncFromNativeTyped(fn func(Thread, []Value, []Value), t interface{}) (FuncType, FuncValue) {
	ft := TypeOfNative(t).(*FuncType);
	return ft, FuncFromNative(fn, ft);
	}