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mobile/bind/gen.go
Elias Naur 7df33f4a5c mobile/bind: allow bound packages to refer to imported bound packages 
Multiple packages are already supported, but only as if each packages
were bound in isolation. This CL lets a bound package refer to other
bound packages in its exported functions, types and fields.

In Java, the JNI class jclass and constructor jmethodID are exported
so other packages can construct proxies of other packages' interfaces.

In ObjC, the class @interface declarations are moved from the package
.m file to its .h file to allow other packages to constructs its
interface proxies.

Add a supporting test package, secondpkg, and add Java and ObjC tests
for the new cross package functionality. Also add simplepkg for
testing corner cases where the generated Go file must not include its
bound package.

While we're here, stop generating Go proxy types for struct types;
only Go interfaces can be implemented in the foreign language.

Change-Id: Icbfa739c893703867d38a9100ed0928fbd7a660d
Reviewed-on: https://go-review.googlesource.com/20575
Reviewed-by: David Crawshaw <crawshaw@golang.org>
2016-03-12 06:23:01 +00:00

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// Copyright 2015 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 bind
import (
"bytes"
"fmt"
"go/token"
"go/types"
"io"
"regexp"
)
type (
ErrorList []error
// varMode describes the lifetime of an argument or
// return value. Modes are used to guide the conversion
// of string and byte slice values accross the language
// barrier. The same conversion mode must be used for
// both the conversion before a foreign call and the
// corresponding conversion after the call.
// See the mode* constants for a description of
// each mode.
varMode int
)
const (
// modeTransient are for function arguments that
// are not used after the function returns.
// Transient byte slices don't need copying
// when passed accross the language barrier.
modeTransient varMode = iota
// modeRetained are for returned values and for function
// arguments that are used after the function returns.
// Retained byte slices need an intermediate copy.
modeRetained
)
func (list ErrorList) Error() string {
buf := new(bytes.Buffer)
for i, err := range list {
if i > 0 {
buf.WriteRune('\n')
}
io.WriteString(buf, err.Error())
}
return buf.String()
}
type generator struct {
*printer
fset *token.FileSet
allPkg []*types.Package
pkg *types.Package
err ErrorList
// fields set by init.
pkgName string
pkgPrefix string
funcs []*types.Func
constants []*types.Const
vars []*types.Var
interfaces []interfaceInfo
structs []structInfo
otherNames []*types.TypeName
}
// pkgPrefix returns a prefix that disambiguates symbol names for binding
// multiple packages.
//
// TODO(elias.naur): Avoid (and test) name clashes from multiple packages
// with the same name. Perhaps use the index from the order the package is
// generated.
func pkgPrefix(pkg *types.Package) string {
return pkg.Name()
}
func (g *generator) init() {
g.pkgName = g.pkg.Name()
g.pkgPrefix = pkgPrefix(g.pkg)
scope := g.pkg.Scope()
hasExported := false
for _, name := range scope.Names() {
obj := scope.Lookup(name)
if !obj.Exported() {
continue
}
hasExported = true
switch obj := obj.(type) {
case *types.Func:
if isCallable(obj) {
g.funcs = append(g.funcs, obj)
}
case *types.TypeName:
named := obj.Type().(*types.Named)
switch t := named.Underlying().(type) {
case *types.Struct:
g.structs = append(g.structs, structInfo{obj, t})
case *types.Interface:
g.interfaces = append(g.interfaces, interfaceInfo{obj, t, makeIfaceSummary(t)})
default:
g.otherNames = append(g.otherNames, obj)
}
case *types.Const:
if _, ok := obj.Type().(*types.Basic); !ok {
g.errorf("unsupported exported const for %s: %T", obj.Name(), obj)
continue
}
g.constants = append(g.constants, obj)
case *types.Var:
g.vars = append(g.vars, obj)
default:
g.errorf("unsupported exported type for %s: %T", obj.Name(), obj)
}
}
if !hasExported {
g.errorf("no exported names in the package %q", g.pkg.Path())
}
}
func (_ *generator) toCFlag(v bool) int {
if v {
return 1
}
return 0
}
func (g *generator) errorf(format string, args ...interface{}) {
g.err = append(g.err, fmt.Errorf(format, args...))
}
// cgoType returns the name of a Cgo type suitable for converting a value of
// the given type.
func (g *generator) cgoType(t types.Type) string {
if isErrorType(t) {
return g.cgoType(types.Typ[types.String])
}
switch t := t.(type) {
case *types.Basic:
switch t.Kind() {
case types.Bool, types.UntypedBool:
return "char"
case types.Int:
return "nint"
case types.Int8:
return "int8_t"
case types.Int16:
return "int16_t"
case types.Int32, types.UntypedRune: // types.Rune
return "int32_t"
case types.Int64, types.UntypedInt:
return "int64_t"
case types.Uint8: // types.Byte
return "uint8_t"
// TODO(crawshaw): case types.Uint, types.Uint16, types.Uint32, types.Uint64:
case types.Float32:
return "float"
case types.Float64, types.UntypedFloat:
return "double"
case types.String:
return "nstring"
default:
g.errorf("unsupported basic type: %s", t)
}
case *types.Slice:
switch e := t.Elem().(type) {
case *types.Basic:
switch e.Kind() {
case types.Uint8: // Byte.
return "nbyteslice"
default:
g.errorf("unsupported slice type: %s", t)
}
default:
g.errorf("unsupported slice type: %s", t)
}
case *types.Pointer:
if _, ok := t.Elem().(*types.Named); ok {
return g.cgoType(t.Elem())
}
g.errorf("unsupported pointer to type: %s", t)
case *types.Named:
return "int32_t"
default:
g.errorf("unsupported type: %s", t)
}
return "TODO"
}
func (g *generator) genInterfaceMethodSignature(m *types.Func, iName string, header bool) {
sig := m.Type().(*types.Signature)
params := sig.Params()
res := sig.Results()
if res.Len() == 0 {
g.Printf("void ")
} else {
if res.Len() == 1 {
g.Printf("%s ", g.cgoType(res.At(0).Type()))
} else {
if header {
g.Printf("typedef struct cproxy%s_%s_%s_return {\n", g.pkgPrefix, iName, m.Name())
g.Indent()
for i := 0; i < res.Len(); i++ {
t := res.At(i).Type()
g.Printf("%s r%d;\n", g.cgoType(t), i)
}
g.Outdent()
g.Printf("} cproxy%s_%s_%s_return;\n", g.pkgPrefix, iName, m.Name())
}
g.Printf("struct cproxy%s_%s_%s_return ", g.pkgPrefix, iName, m.Name())
}
}
g.Printf("cproxy%s_%s_%s(int32_t refnum", g.pkgPrefix, iName, m.Name())
for i := 0; i < params.Len(); i++ {
t := params.At(i).Type()
g.Printf(", %s %s", g.cgoType(t), paramName(params, i))
}
g.Printf(")")
if header {
g.Printf(";\n")
} else {
g.Printf(" {\n")
}
}
func (g *generator) validPkg(pkg *types.Package) bool {
for _, p := range g.allPkg {
if p.Path() == pkg.Path() {
return true
}
}
return false
}
var paramRE = regexp.MustCompile(`^p[0-9]*$`)
// paramName replaces incompatible name with a p0-pN name.
// Missing names, or existing names of the form p[0-9] are incompatible.
// TODO(crawshaw): Replace invalid unicode names.
func paramName(params *types.Tuple, pos int) string {
name := params.At(pos).Name()
if name == "" || name[0] == '_' || paramRE.MatchString(name) {
name = fmt.Sprintf("p%d", pos)
}
return name
}
func constExactString(o *types.Const) string {
// TODO(hyangah): this is a temporary fix for golang.org/issues/14615.
// Clean this up when we can require at least go 1.6 or above.
type exactStringer interface {
ExactString() string
}
v := o.Val()
if v, ok := v.(exactStringer); ok {
return v.ExactString()
}
// TODO: warning?
return v.String()
}
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