node/doc/api/addons.markdown

# Addons

Addons are dynamically linked shared objects. They can provide glue to C and
C++ libraries. The API (at the moment) is rather complex, involving
knowledge of several libraries:

 - V8 JavaScript, a C++ library. Used for interfacing with JavaScript:
   creating objects, calling functions, etc.  Documented mostly in the
   `v8.h` header file (`deps/v8/include/v8.h` in the Node source tree),
   which is also available [online](http://izs.me/v8-docs/main.html).

 - [libuv](https://github.com/joyent/libuv), C event loop library. Anytime one
   needs to wait for a file descriptor to become readable, wait for a timer, or
   wait for a signal to received one will need to interface with libuv. That is,
   if you perform any I/O, libuv will need to be used.

 - Internal Node libraries. Most importantly is the `node::ObjectWrap`
   class which you will likely want to derive from.

 - Others. Look in `deps/` for what else is available.

Node statically compiles all its dependencies into the executable. When
compiling your module, you don't need to worry about linking to any of these
libraries.


## Hello world

To get started let's make a small Addon which is the C++ equivalent of
the following JavaScript code:

    exports.hello = function() { return 'world'; };

First we create a file `hello.cc`:

    #include <node.h>
    #include <v8.h>

    using namespace v8;

    Handle<Value> Method(const Arguments& args) {
      HandleScope scope;
      return scope.Close(String::New("world"));
    }

    void init(Handle<Object> target) {
      target->Set(String::NewSymbol("hello"),
          FunctionTemplate::New(Method)->GetFunction());
    }
    NODE_MODULE(hello, init)

Note that all Node addons must export an initialization function:

    void Initialize (Handle<Object> target);
    NODE_MODULE(module_name, Initialize)

There is no semi-colon after `NODE_MODULE` as it's not a function (see `node.h`).

The `module_name` needs to match the filename of the final binary (minus the
.node suffix).

The source code needs to be built into `hello.node`, the binary Addon. To
do this we create a file called `binding.gyp` which describes the configuration
to build your module in a JSON-like format. This file gets compiled by
[node-gyp](https://github.com/TooTallNate/node-gyp).

    {
      "targets": [
        {
          "target_name": "hello",
          "sources": [ "hello.cc" ]
        }
      ]
    }

The next step is to generate the appropriate project build files for the
current platform. Use `node-gyp configure` for that.

Now you will have either a `Makefile` (on Unix platforms) or a `vcxproj` file
(on Windows) in the `build/` directory. Next invoke the `node-gyp build`
command.

Now you have your compiled `.node` bindings file! The compiled bindings end up
in `build/Release/`.

You can now use the binary addon in a Node project `hello.js` by pointing `require` to
the recently built `hello.node` module:

    var addon = require('./build/Release/hello');

    console.log(addon.hello()); // 'world'

Please see patterns below for further information or
<https://github.com/arturadib/node-qt> for an example in production.


## Addon patterns

Below are some addon patterns to help you get started. Consult the online
[v8 reference](http://izs.me/v8-docs/main.html) for help with the various v8
calls, and v8's [Embedder's Guide](http://code.google.com/apis/v8/embed.html)
for an explanation of several concepts used such as handles, scopes,
function templates, etc.

In order to use these examples you need to compile them using `node-gyp`.
Create the following `binding.gyp` file:

    {
      "targets": [
        {
          "target_name": "addon",
          "sources": [ "addon.cc" ]
        }
      ]
    }

In cases where there is more than one `.cc` file, simply add the file name to the
`sources` array, e.g.:

    "sources": ["addon.cc", "myexample.cc"]

Now that you have your `binding.gyp` ready, you can configure and build the
addon:

    $ node-gyp configure build


### Function arguments

The following pattern illustrates how to read arguments from JavaScript
function calls and return a result. This is the main and only needed source
`addon.cc`:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>

    using namespace v8;

    Handle<Value> Add(const Arguments& args) {
      HandleScope scope;

      if (args.Length() < 2) {
        ThrowException(Exception::TypeError(String::New("Wrong number of arguments")));
        return scope.Close(Undefined());
      }

      if (!args[0]->IsNumber() || !args[1]->IsNumber()) {
        ThrowException(Exception::TypeError(String::New("Wrong arguments")));
        return scope.Close(Undefined());
      }

      Local<Number> num = Number::New(args[0]->NumberValue() +
          args[1]->NumberValue());
      return scope.Close(num);
    }

    void Init(Handle<Object> target) {
      target->Set(String::NewSymbol("add"),
          FunctionTemplate::New(Add)->GetFunction());
    }

    NODE_MODULE(addon, Init)

You can test it with the following JavaScript snippet:

    var addon = require('./build/Release/addon');

    console.log( 'This should be eight:', addon.add(3,5) );


### Callbacks

You can pass JavaScript functions to a C++ function and execute them from
there. Here's `addon.cc`:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>

    using namespace v8;

    Handle<Value> RunCallback(const Arguments& args) {
      HandleScope scope;

      Local<Function> cb = Local<Function>::Cast(args[0]);
      const unsigned argc = 1;
      Local<Value> argv[argc] = { Local<Value>::New(String::New("hello world")) };
      cb->Call(Context::GetCurrent()->Global(), argc, argv);

      return scope.Close(Undefined());
    }

    void Init(Handle<Object> target) {
      target->Set(String::NewSymbol("runCallback"),
          FunctionTemplate::New(RunCallback)->GetFunction());
    }

    NODE_MODULE(addon, Init)

To test it run the following JavaScript snippet:

    var addon = require('./build/Release/addon');

    addon.runCallback(function(msg){
      console.log(msg); // 'hello world'
    });


### Object factory

You can create and return new objects from within a C++ function with this
`addon.cc` pattern, which returns an object with property `msg` that echoes
the string passed to `createObject()`:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>

    using namespace v8;

    Handle<Value> CreateObject(const Arguments& args) {
      HandleScope scope;

      Local<Object> obj = Object::New();
      obj->Set(String::NewSymbol("msg"), args[0]->ToString());

      return scope.Close(obj);
    }

    void Init(Handle<Object> target) {
      target->Set(String::NewSymbol("createObject"),
          FunctionTemplate::New(CreateObject)->GetFunction());
    }

    NODE_MODULE(addon, Init)

To test it in JavaScript:

    var addon = require('./build/Release/addon');

    var obj1 = addon.createObject('hello');
    var obj2 = addon.createObject('world');
    console.log(obj1.msg+' '+obj2.msg); // 'hello world'


### Function factory

This pattern illustrates how to create and return a JavaScript function that
wraps a C++ function:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>

    using namespace v8;

    Handle<Value> MyFunction(const Arguments& args) {
      HandleScope scope;
      return scope.Close(String::New("hello world"));
    }

    Handle<Value> CreateFunction(const Arguments& args) {
      HandleScope scope;

      Local<FunctionTemplate> tpl = FunctionTemplate::New(MyFunction);
      Local<Function> fn = tpl->GetFunction();
      fn->SetName(String::NewSymbol("theFunction")); // omit this to make it anonymous

      return scope.Close(fn);
    }

    void Init(Handle<Object> target) {
      target->Set(String::NewSymbol("createFunction"),
          FunctionTemplate::New(CreateFunction)->GetFunction());
    }

    NODE_MODULE(addon, Init)


To test:

    var addon = require('./build/Release/addon');

    var fn = addon.createFunction();
    console.log(fn()); // 'hello world'


### Wrapping C++ objects

Here we will create a wrapper for a C++ object/class `MyObject` that can be
instantiated in JavaScript through the `new` operator. First prepare the main
module `addon.cc`:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>
    #include "myobject.h"

    using namespace v8;

    void InitAll(Handle<Object> target) {
      MyObject::Init(target);
    }

    NODE_MODULE(addon, InitAll)

Then in `myobject.h` make your wrapper inherit from `node::ObjectWrap`:

    #ifndef MYOBJECT_H
    #define MYOBJECT_H

    #include <node.h>

    class MyObject : public node::ObjectWrap {
     public:
      static void Init(v8::Handle<v8::Object> target);

     private:
      MyObject();
      ~MyObject();

      static v8::Handle<v8::Value> New(const v8::Arguments& args);
      static v8::Handle<v8::Value> PlusOne(const v8::Arguments& args);
      double counter_;
    };

    #endif

And in `myobject.cc` implement the various methods that you want to expose.
Here we expose the method `plusOne` by adding it to the constructor's
prototype:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>
    #include "myobject.h"

    using namespace v8;

    MyObject::MyObject() {};
    MyObject::~MyObject() {};

    void MyObject::Init(Handle<Object> target) {
      // Prepare constructor template
      Local<FunctionTemplate> tpl = FunctionTemplate::New(New);
      tpl->SetClassName(String::NewSymbol("MyObject"));
      tpl->InstanceTemplate()->SetInternalFieldCount(1);
      // Prototype
      tpl->PrototypeTemplate()->Set(String::NewSymbol("plusOne"),
          FunctionTemplate::New(PlusOne)->GetFunction());

      Persistent<Function> constructor = Persistent<Function>::New(tpl->GetFunction());
      target->Set(String::NewSymbol("MyObject"), constructor);
    }

    Handle<Value> MyObject::New(const Arguments& args) {
      HandleScope scope;

      MyObject* obj = new MyObject();
      obj->counter_ = args[0]->IsUndefined() ? 0 : args[0]->NumberValue();
      obj->Wrap(args.This());

      return args.This();
    }

    Handle<Value> MyObject::PlusOne(const Arguments& args) {
      HandleScope scope;

      MyObject* obj = ObjectWrap::Unwrap<MyObject>(args.This());
      obj->counter_ += 1;

      return scope.Close(Number::New(obj->counter_));
    }

Test it with:

    var addon = require('./build/Release/addon');

    var obj = new addon.MyObject(10);
    console.log( obj.plusOne() ); // 11
    console.log( obj.plusOne() ); // 12
    console.log( obj.plusOne() ); // 13


### Factory of wrapped objects

This is useful when you want to be able to create native objects without
explicitly instantiating them with the `new` operator in JavaScript, e.g.

    var obj = addon.createObject();
    // instead of:
    // var obj = new addon.Object();

Let's register our `createObject` method in `addon.cc`:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>
    #include "myobject.h"

    using namespace v8;

    Handle<Value> CreateObject(const Arguments& args) {
      HandleScope scope;
      return scope.Close(MyObject::NewInstance(args));
    }

    void InitAll(Handle<Object> target) {
      MyObject::Init();

      target->Set(String::NewSymbol("createObject"),
          FunctionTemplate::New(CreateObject)->GetFunction());
    }

    NODE_MODULE(addon, InitAll)

In `myobject.h` we now introduce the static method `NewInstance` that takes
care of instantiating the object (i.e. it does the job of `new` in JavaScript):

    #define BUILDING_NODE_EXTENSION
    #ifndef MYOBJECT_H
    #define MYOBJECT_H

    #include <node.h>

    class MyObject : public node::ObjectWrap {
     public:
      static void Init();
      static v8::Handle<v8::Value> NewInstance(const v8::Arguments& args);

     private:
      MyObject();
      ~MyObject();

      static v8::Persistent<v8::Function> constructor;
      static v8::Handle<v8::Value> New(const v8::Arguments& args);
      static v8::Handle<v8::Value> PlusOne(const v8::Arguments& args);
      double counter_;
    };

    #endif

The implementation is similar to the above in `myobject.cc`:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>
    #include "myobject.h"

    using namespace v8;

    MyObject::MyObject() {};
    MyObject::~MyObject() {};

    Persistent<Function> MyObject::constructor;

    void MyObject::Init() {
      // Prepare constructor template
      Local<FunctionTemplate> tpl = FunctionTemplate::New(New);
      tpl->SetClassName(String::NewSymbol("MyObject"));
      tpl->InstanceTemplate()->SetInternalFieldCount(1);
      // Prototype
      tpl->PrototypeTemplate()->Set(String::NewSymbol("plusOne"),
          FunctionTemplate::New(PlusOne)->GetFunction());

      constructor = Persistent<Function>::New(tpl->GetFunction());
    }

    Handle<Value> MyObject::New(const Arguments& args) {
      HandleScope scope;

      MyObject* obj = new MyObject();
      obj->counter_ = args[0]->IsUndefined() ? 0 : args[0]->NumberValue();
      obj->Wrap(args.This());

      return args.This();
    }

    Handle<Value> MyObject::NewInstance(const Arguments& args) {
      HandleScope scope;

      const unsigned argc = 1;
      Handle<Value> argv[argc] = { args[0] };
      Local<Object> instance = constructor->NewInstance(argc, argv);

      return scope.Close(instance);
    }

    Handle<Value> MyObject::PlusOne(const Arguments& args) {
      HandleScope scope;

      MyObject* obj = ObjectWrap::Unwrap<MyObject>(args.This());
      obj->counter_ += 1;

      return scope.Close(Number::New(obj->counter_));
    }

Test it with:

    var addon = require('./build/Release/addon');

    var obj = addon.createObject(10);
    console.log( obj.plusOne() ); // 11
    console.log( obj.plusOne() ); // 12
    console.log( obj.plusOne() ); // 13

    var obj2 = addon.createObject(20);
    console.log( obj2.plusOne() ); // 21
    console.log( obj2.plusOne() ); // 22
    console.log( obj2.plusOne() ); // 23


### Passing wrapped objects around

In addition to wrapping and returning C++ objects, you can pass them around
by unwrapping them with Node's `node::ObjectWrap::Unwrap` helper function.
In the following `addon.cc` we introduce a function `add()` that can take on two
`MyObject` objects:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>
    #include "myobject.h"

    using namespace v8;

    Handle<Value> CreateObject(const Arguments& args) {
      HandleScope scope;
      return scope.Close(MyObject::NewInstance(args));
    }

    Handle<Value> Add(const Arguments& args) {
      HandleScope scope;

      MyObject* obj1 = node::ObjectWrap::Unwrap<MyObject>(
          args[0]->ToObject());
      MyObject* obj2 = node::ObjectWrap::Unwrap<MyObject>(
          args[1]->ToObject());

      double sum = obj1->Val() + obj2->Val();
      return scope.Close(Number::New(sum));
    }

    void InitAll(Handle<Object> target) {
      MyObject::Init();

      target->Set(String::NewSymbol("createObject"),
          FunctionTemplate::New(CreateObject)->GetFunction());

      target->Set(String::NewSymbol("add"),
          FunctionTemplate::New(Add)->GetFunction());
    }

    NODE_MODULE(addon, InitAll)

To make things interesting we introduce a public method in `myobject.h` so we
can probe private values after unwrapping the object:

    #define BUILDING_NODE_EXTENSION
    #ifndef MYOBJECT_H
    #define MYOBJECT_H

    #include <node.h>

    class MyObject : public node::ObjectWrap {
     public:
      static void Init();
      static v8::Handle<v8::Value> NewInstance(const v8::Arguments& args);
      double Val() const { return val_; }

     private:
      MyObject();
      ~MyObject();

      static v8::Persistent<v8::Function> constructor;
      static v8::Handle<v8::Value> New(const v8::Arguments& args);
      double val_;
    };

    #endif

The implementation of `myobject.cc` is similar as before:

    #define BUILDING_NODE_EXTENSION
    #include <node.h>
    #include "myobject.h"

    using namespace v8;

    MyObject::MyObject() {};
    MyObject::~MyObject() {};

    Persistent<Function> MyObject::constructor;

    void MyObject::Init() {
      // Prepare constructor template
      Local<FunctionTemplate> tpl = FunctionTemplate::New(New);
      tpl->SetClassName(String::NewSymbol("MyObject"));
      tpl->InstanceTemplate()->SetInternalFieldCount(1);

      constructor = Persistent<Function>::New(tpl->GetFunction());
    }

    Handle<Value> MyObject::New(const Arguments& args) {
      HandleScope scope;

      MyObject* obj = new MyObject();
      obj->val_ = args[0]->IsUndefined() ? 0 : args[0]->NumberValue();
      obj->Wrap(args.This());

      return args.This();
    }

    Handle<Value> MyObject::NewInstance(const Arguments& args) {
      HandleScope scope;

      const unsigned argc = 1;
      Handle<Value> argv[argc] = { args[0] };
      Local<Object> instance = constructor->NewInstance(argc, argv);

      return scope.Close(instance);
    }

Test it with:

    var addon = require('./build/Release/addon');

    var obj1 = addon.createObject(10);
    var obj2 = addon.createObject(20);
    var result = addon.add(obj1, obj2);

    console.log(result); // 30