| // 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. |
| |
| /* |
| Gobind generates language bindings that make it possible to call Go |
| functions from Java and Objective-C. |
| |
| Typically gobind is not used directly. Instead, a binding is |
| generated and automatically packaged for Android or iOS by |
| `gomobile bind`. For more details on installing and using the gomobile |
| tool, see https://golang.org/x/mobile/cmd/gomobile. |
| |
| Binding Go |
| |
| Gobind generates target language (Java or Objective-C) bindings for |
| each exported symbol in a Go package. The Go package you choose to |
| bind defines a cross-language interface. |
| |
| Bindings require additional Go code be generated, so using gobind |
| manually requires calling it twice, first with -lang=<target>, where |
| target is either java or objc, and again with -lang=go. The generated |
| package can then be _ imported into a Go program, typically built |
| with -buildmode=c-archive for iOS or -buildmode=c-shared for Android. |
| These details are handled by the `gomobile bind` command. |
| |
| Passing Go objects to target languages |
| |
| Consider a type for counting: |
| |
| package mypkg |
| |
| type Counter struct { |
| Value int |
| } |
| |
| func (c *Counter) Inc() { c.Value++ } |
| |
| func New() *Counter { return &Counter{ 5 } } |
| |
| In Java, the generated bindings are, |
| |
| public abstract class Mypkg { |
| private Mypkg() {} |
| public static final class Counter { |
| public void Inc(); |
| public long GetValue(); |
| public void SetValue(long value); |
| } |
| public static Counter New(); |
| } |
| |
| The package-level function New can be called like so: |
| |
| Counter c = Mypkg.New() |
| |
| returns a Java Counter, which is a proxy for a Go *Counter. Calling the Inc |
| and Get methods will call the Go implementations of these methods. |
| |
| Similarly, the same Go package will generate the Objective-C interface |
| |
| @class GoMypkgCounter; |
| |
| @interface GoMypkgCounter : NSObject { |
| } |
| |
| @property(strong, readonly) GoSeqRef *ref; |
| - (void)Inc; |
| - (int64_t)Value; |
| - (void)setValue:(int64_t)v; |
| @end |
| |
| FOUNDATION_EXPORT GoMypkgCounter* GoMypkgNewCounter(); |
| |
| The equivalent of calling New in Go is GoMypkgNewCounter in Objective-C. |
| The returned GoMypkgCounter* holds a reference to an underlying Go |
| *Counter. |
| |
| Passing target language objects to Go |
| |
| For a Go interface: |
| |
| package myfmt |
| |
| type Printer interface { |
| Print(s string) |
| } |
| |
| func PrintHello(p Printer) { |
| p.Print("Hello, World!") |
| } |
| |
| gobind generates a Java stub that can be used to implement a Printer: |
| |
| public abstract class Myfmt { |
| private Myfmt() {} |
| public interface Printer { |
| public void Print(String s); |
| |
| public static abstract class Stub implements Printer { |
| ... |
| } |
| |
| ... |
| } |
| |
| public static void PrintHello(Printer p) { ... } |
| } |
| |
| You can extend Myfmt.Printer.Stub to implement the Printer interface, and |
| pass it to Go using the PrintHello package function: |
| |
| public class SysPrint extends Myfmt.Printer.Stub { |
| public void Print(String s) { |
| System.out.println(s); |
| } |
| } |
| |
| The Java implementation can be used like so: |
| |
| Myfmt.Printer printer = new SysPrint(); |
| Myfmt.PrintHello(printer); |
| |
| Objective-C support for interfaces will be available soon. |
| |
| Type restrictions |
| |
| At present, only a subset of Go types are supported. |
| |
| All exported symbols in the package must have types that are supported. |
| Supported types include: |
| |
| - Signed integer and floating point types. |
| |
| - String and boolean types. |
| |
| - Byte slice types. |
| |
| - Any function type all of whose parameters and results have |
| supported types. Functions must return either no results, |
| one result, or two results where the type of the second is |
| the built-in 'error' type. |
| |
| - Any interface type, all of whose exported methods have |
| supported function types. |
| |
| - Any struct type, all of whose exported methods have |
| supported function types and all of whose exported fields |
| have supported types. |
| |
| Unexported symbols have no effect on the cross-language interface, and |
| as such are not restricted. |
| |
| The set of supported types will eventually be expanded to cover more |
| Go types, but this is a work in progress. |
| |
| Exceptions and panics are not yet supported. If either pass a language |
| boundary, the program will exit. |
| |
| Avoid reference cycles |
| |
| The language bindings maintain a reference to each object that has been |
| proxied. When a proxy object becomes unreachable, its finalizer reports |
| this fact to the object's native side, so that the reference can be |
| removed, potentially allowing the object to be reclaimed by its native |
| garbage collector. The mechanism is symmetric. |
| |
| However, it is possible to create a reference cycle between Go and |
| objects in target languages, via proxies, meaning objects cannot be |
| collected. This causes a memory leak. |
| |
| For example, in Java: if a Go object G holds a reference to the Go |
| proxy of a Java object J, and J holds a reference to the Java proxy |
| of G, then the language bindings on each side must keep G and J live |
| even if they are otherwise unreachable. |
| |
| We recommend that implementations of foreign interfaces do not hold |
| references to proxies of objects. That is: if you extend a Stub in |
| Java, do not store an instance of Seq.Object inside it. |
| |
| Further reading |
| |
| Examples can be found in http://golang.org/x/mobile/example. |
| |
| Design doc: http://golang.org/s/gobind |
| */ |
| package main // import "golang.org/x/mobile/cmd/gobind" |