cmd/godex/writetype.go - tools - Git at Google

 // 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.

 // This file implements writing of types. The functionality is lifted
 // directly from go/types, but now contains various modifications for
 // nicer output.
 //
 // TODO(gri) back-port once we have a fixed interface and once the
 // go/types API is not frozen anymore for the 1.3 release; and remove
 // this implementation if possible.

 package main

 import "go/types"

 func (p *printer) writeType(this *types.Package, typ types.Type) {
 	p.writeTypeInternal(this, typ, make([]types.Type, 8))
 }

 // From go/types - leave for now to ease back-porting this code.
 const GcCompatibilityMode = false

 func (p *printer) writeTypeInternal(this *types.Package, typ types.Type, visited []types.Type) {
 	// Theoretically, this is a quadratic lookup algorithm, but in
 	// practice deeply nested composite types with unnamed component
 	// types are uncommon. This code is likely more efficient than
 	// using a map.
 	for _, t := range visited {
 		if t == typ {
 			p.printf("○%T", typ) // cycle to typ
 			return
 		}
 	}
 	visited = append(visited, typ)

 	switch t := typ.(type) {
 	case nil:
 		p.print("<nil>")

 	case *types.Basic:
 		if t.Kind() == types.UnsafePointer {
 			p.print("unsafe.")
 		}
 		if GcCompatibilityMode {
 			// forget the alias names
 			switch t.Kind() {
 			case types.Byte:
 				t = types.Typ[types.Uint8]
 			case types.Rune:
 				t = types.Typ[types.Int32]
 			}
 		}
 		p.print(t.Name())

 	case *types.Array:
 		p.printf("[%d]", t.Len())
 		p.writeTypeInternal(this, t.Elem(), visited)

 	case *types.Slice:
 		p.print("[]")
 		p.writeTypeInternal(this, t.Elem(), visited)

 	case *types.Struct:
 		n := t.NumFields()
 		if n == 0 {
 			p.print("struct{}")
 			return
 		}

 		p.print("struct {\n")
 		p.indent++
 		for i := 0; i < n; i++ {
 			f := t.Field(i)
 			if !f.Anonymous() {
 				p.printf("%s ", f.Name())
 			}
 			p.writeTypeInternal(this, f.Type(), visited)
 			if tag := t.Tag(i); tag != "" {
 				p.printf(" %q", tag)
 			}
 			p.print("\n")
 		}
 		p.indent--
 		p.print("}")

 	case *types.Pointer:
 		p.print("*")
 		p.writeTypeInternal(this, t.Elem(), visited)

 	case *types.Tuple:
 		p.writeTuple(this, t, false, visited)

 	case *types.Signature:
 		p.print("func")
 		p.writeSignatureInternal(this, t, visited)

 	case *types.Interface:
 		// We write the source-level methods and embedded types rather
 		// than the actual method set since resolved method signatures
 		// may have non-printable cycles if parameters have anonymous
 		// interface types that (directly or indirectly) embed the
 		// current interface. For instance, consider the result type
 		// of m:
 		//
 		//     type T interface{
 		//         m() interface{ T }
 		//     }
 		//
 		n := t.NumMethods()
 		if n == 0 {
 			p.print("interface{}")
 			return
 		}

 		p.print("interface {\n")
 		p.indent++
 		if GcCompatibilityMode {
 			// print flattened interface
 			// (useful to compare against gc-generated interfaces)
 			for i := 0; i < n; i++ {
 				m := t.Method(i)
 				p.print(m.Name())
 				p.writeSignatureInternal(this, m.Type().(*types.Signature), visited)
 				p.print("\n")
 			}
 		} else {
 			// print explicit interface methods and embedded types
 			for i, n := 0, t.NumExplicitMethods(); i < n; i++ {
 				m := t.ExplicitMethod(i)
 				p.print(m.Name())
 				p.writeSignatureInternal(this, m.Type().(*types.Signature), visited)
 				p.print("\n")
 			}
 			for i, n := 0, t.NumEmbeddeds(); i < n; i++ {
 				typ := t.EmbeddedType(i)
 				p.writeTypeInternal(this, typ, visited)
 				p.print("\n")
 			}
 		}
 		p.indent--
 		p.print("}")

 	case *types.Map:
 		p.print("map[")
 		p.writeTypeInternal(this, t.Key(), visited)
 		p.print("]")
 		p.writeTypeInternal(this, t.Elem(), visited)

 	case *types.Chan:
 		var s string
 		var parens bool
 		switch t.Dir() {
 		case types.SendRecv:
 			s = "chan "
 			// chan (<-chan T) requires parentheses
 			if c, _ := t.Elem().(*types.Chan); c != nil && c.Dir() == types.RecvOnly {
 				parens = true
 			}
 		case types.SendOnly:
 			s = "chan<- "
 		case types.RecvOnly:
 			s = "<-chan "
 		default:
 			panic("unreachable")
 		}
 		p.print(s)
 		if parens {
 			p.print("(")
 		}
 		p.writeTypeInternal(this, t.Elem(), visited)
 		if parens {
 			p.print(")")
 		}

 	case *types.Named:
 		s := "<Named w/o object>"
 		if obj := t.Obj(); obj != nil {
 			if pkg := obj.Pkg(); pkg != nil {
 				if pkg != this {
 					p.print(pkg.Path())
 					p.print(".")
 				}
 				// TODO(gri): function-local named types should be displayed
 				// differently from named types at package level to avoid
 				// ambiguity.
 			}
 			s = obj.Name()
 		}
 		p.print(s)

 	default:
 		// For externally defined implementations of Type.
 		p.print(t.String())
 	}
 }

 func (p *printer) writeTuple(this *types.Package, tup *types.Tuple, variadic bool, visited []types.Type) {
 	p.print("(")
 	for i, n := 0, tup.Len(); i < n; i++ {
 		if i > 0 {
 			p.print(", ")
 		}
 		v := tup.At(i)
 		if name := v.Name(); name != "" {
 			p.print(name)
 			p.print(" ")
 		}
 		typ := v.Type()
 		if variadic && i == n-1 {
 			p.print("...")
 			typ = typ.(*types.Slice).Elem()
 		}
 		p.writeTypeInternal(this, typ, visited)
 	}
 	p.print(")")
 }

 func (p *printer) writeSignature(this *types.Package, sig *types.Signature) {
 	p.writeSignatureInternal(this, sig, make([]types.Type, 8))
 }

 func (p *printer) writeSignatureInternal(this *types.Package, sig *types.Signature, visited []types.Type) {
 	p.writeTuple(this, sig.Params(), sig.Variadic(), visited)

 	res := sig.Results()
 	n := res.Len()
 	if n == 0 {
 		// no result
 		return
 	}

 	p.print(" ")
 	if n == 1 && res.At(0).Name() == "" {
 		// single unnamed result
 		p.writeTypeInternal(this, res.At(0).Type(), visited)
 		return
 	}

 	// multiple or named result(s)
 	p.writeTuple(this, res, false, visited)
 }
	// 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.

	// This file implements writing of types. The functionality is lifted
	// directly from go/types, but now contains various modifications for
	// nicer output.
	//
	// TODO(gri) back-port once we have a fixed interface and once the
	// go/types API is not frozen anymore for the 1.3 release; and remove
	// this implementation if possible.

	package main

	import "go/types"

	func (p printer) writeType(this types.Package, typ types.Type) {
	p.writeTypeInternal(this, typ, make([]types.Type, 8))
	}

	// From go/types - leave for now to ease back-porting this code.
	const GcCompatibilityMode = false

	func (p printer) writeTypeInternal(this types.Package, typ types.Type, visited []types.Type) {
	// Theoretically, this is a quadratic lookup algorithm, but in
	// practice deeply nested composite types with unnamed component
	// types are uncommon. This code is likely more efficient than
	// using a map.
	for _, t := range visited {
	if t == typ {
	p.printf("○%T", typ) // cycle to typ
	return
	}
	}
	visited = append(visited, typ)

	switch t := typ.(type) {
	case nil:
	p.print("<nil>")

	case *types.Basic:
	if t.Kind() == types.UnsafePointer {
	p.print("unsafe.")
	}
	if GcCompatibilityMode {
	// forget the alias names
	switch t.Kind() {
	case types.Byte:
	t = types.Typ[types.Uint8]
	case types.Rune:
	t = types.Typ[types.Int32]
	}
	}
	p.print(t.Name())

	case *types.Array:
	p.printf("[%d]", t.Len())
	p.writeTypeInternal(this, t.Elem(), visited)

	case *types.Slice:
	p.print("[]")
	p.writeTypeInternal(this, t.Elem(), visited)

	case *types.Struct:
	n := t.NumFields()
	if n == 0 {
	p.print("struct{}")
	return
	}

	p.print("struct {\n")
	p.indent++
	for i := 0; i < n; i++ {
	f := t.Field(i)
	if !f.Anonymous() {
	p.printf("%s ", f.Name())
	}
	p.writeTypeInternal(this, f.Type(), visited)
	if tag := t.Tag(i); tag != "" {
	p.printf(" %q", tag)
	}
	p.print("\n")
	}
	p.indent--
	p.print("}")

	case *types.Pointer:
	p.print("*")
	p.writeTypeInternal(this, t.Elem(), visited)

	case *types.Tuple:
	p.writeTuple(this, t, false, visited)

	case *types.Signature:
	p.print("func")
	p.writeSignatureInternal(this, t, visited)

	case *types.Interface:
	// We write the source-level methods and embedded types rather
	// than the actual method set since resolved method signatures
	// may have non-printable cycles if parameters have anonymous
	// interface types that (directly or indirectly) embed the
	// current interface. For instance, consider the result type
	// of m:
	//
	// type T interface{
	// m() interface{ T }
	// }
	//
	n := t.NumMethods()
	if n == 0 {
	p.print("interface{}")
	return
	}

	p.print("interface {\n")
	p.indent++
	if GcCompatibilityMode {
	// print flattened interface
	// (useful to compare against gc-generated interfaces)
	for i := 0; i < n; i++ {
	m := t.Method(i)
	p.print(m.Name())
	p.writeSignatureInternal(this, m.Type().(*types.Signature), visited)
	p.print("\n")
	}
	} else {
	// print explicit interface methods and embedded types
	for i, n := 0, t.NumExplicitMethods(); i < n; i++ {
	m := t.ExplicitMethod(i)
	p.print(m.Name())
	p.writeSignatureInternal(this, m.Type().(*types.Signature), visited)
	p.print("\n")
	}
	for i, n := 0, t.NumEmbeddeds(); i < n; i++ {
	typ := t.EmbeddedType(i)
	p.writeTypeInternal(this, typ, visited)
	p.print("\n")
	}
	}
	p.indent--
	p.print("}")

	case *types.Map:
	p.print("map[")
	p.writeTypeInternal(this, t.Key(), visited)
	p.print("]")
	p.writeTypeInternal(this, t.Elem(), visited)

	case *types.Chan:
	var s string
	var parens bool
	switch t.Dir() {
	case types.SendRecv:
	s = "chan "
	// chan (<-chan T) requires parentheses
	if c, _ := t.Elem().(*types.Chan); c != nil && c.Dir() == types.RecvOnly {
	parens = true
	}
	case types.SendOnly:
	s = "chan<- "
	case types.RecvOnly:
	s = "<-chan "
	default:
	panic("unreachable")
	}
	p.print(s)
	if parens {
	p.print("(")
	}
	p.writeTypeInternal(this, t.Elem(), visited)
	if parens {
	p.print(")")
	}

	case *types.Named:
	s := "<Named w/o object>"
	if obj := t.Obj(); obj != nil {
	if pkg := obj.Pkg(); pkg != nil {
	if pkg != this {
	p.print(pkg.Path())
	p.print(".")
	}
	// TODO(gri): function-local named types should be displayed
	// differently from named types at package level to avoid
	// ambiguity.
	}
	s = obj.Name()
	}
	p.print(s)

	default:
	// For externally defined implementations of Type.
	p.print(t.String())
	}
	}

	func (p printer) writeTuple(this types.Package, tup *types.Tuple, variadic bool, visited []types.Type) {
	p.print("(")
	for i, n := 0, tup.Len(); i < n; i++ {
	if i > 0 {
	p.print(", ")
	}
	v := tup.At(i)
	if name := v.Name(); name != "" {
	p.print(name)
	p.print(" ")
	}
	typ := v.Type()
	if variadic && i == n-1 {
	p.print("...")
	typ = typ.(*types.Slice).Elem()
	}
	p.writeTypeInternal(this, typ, visited)
	}
	p.print(")")
	}

	func (p printer) writeSignature(this types.Package, sig *types.Signature) {
	p.writeSignatureInternal(this, sig, make([]types.Type, 8))
	}

	func (p printer) writeSignatureInternal(this types.Package, sig *types.Signature, visited []types.Type) {
	p.writeTuple(this, sig.Params(), sig.Variadic(), visited)

	res := sig.Results()
	n := res.Len()
	if n == 0 {
	// no result
	return
	}

	p.print(" ")
	if n == 1 && res.At(0).Name() == "" {
	// single unnamed result
	p.writeTypeInternal(this, res.At(0).Type(), visited)
	return
	}

	// multiple or named result(s)
	p.writeTuple(this, res, false, visited)
	}