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nodejs/doc/api/addons.markdown
2013-06-18 12:05:36 +02:00

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# 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 be 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.
All of the following examples are available for
[download](https://github.com/rvagg/node-addon-examples) and may be
used as a starting-point for your own Addon.
## Hello world
To get started let's make a small Addon which is the C++ equivalent of
the following JavaScript code:
module.exports.hello = function() { return 'world'; };
First we create a file `hello.cc`:
#include <node.h>
#include <v8.h>
Isolate* isolate = Isolate::GetCurrent();
using namespace v8;
Handle<Value> Method(const Arguments& args) {
HandleScope scope(isolate);
return scope.Close(String::New("world"));
}
void init(Handle<Object> exports) {
exports->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> exports);
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>
Isolate* isolate = Isolate::GetCurrent();
using namespace v8;
Handle<Value> Add(const Arguments& args) {
HandleScope scope(isolate);
if (args.Length() < 2) {
ThrowException(Exception::TypeError(
String::New("Wrong number of arguments")));
return scope.Close(Undefined(isolate));
}
if (!args[0]->IsNumber() || !args[1]->IsNumber()) {
ThrowException(Exception::TypeError(String::New("Wrong arguments")));
return scope.Close(Undefined(isolate));
}
Local<Number> num = Number::New(args[0]->NumberValue() +
args[1]->NumberValue());
return scope.Close(num);
}
void Init(Handle<Object> exports) {
exports->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>
Isolate* isolate = Isolate::GetCurrent();
using namespace v8;
Handle<Value> RunCallback(const Arguments& args) {
HandleScope scope(isolate);
Local<Function> cb = Local<Function>::Cast(args[0]);
const unsigned argc = 1;
Local<Value> argv[argc] = { String::New("hello world") };
cb->Call(Context::GetCurrent()->Global(), argc, argv);
return scope.Close(Undefined(isolate));
}
void Init(Handle<Object> exports, Handle<Object> module) {
module->Set(String::NewSymbol("exports"),
FunctionTemplate::New(RunCallback)->GetFunction());
}
NODE_MODULE(addon, Init)
Note that this example uses a two-argument form of `Init()` that receives
the full `module` object as the second argument. This allows the addon
to completely overwrite `exports` with a single function instead of
adding the function as a property of `exports`.
To test it run the following JavaScript snippet:
var addon = require('./build/Release/addon');
addon(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>
Isolate* isolate = Isolate::GetCurrent();
using namespace v8;
Handle<Value> CreateObject(const Arguments& args) {
HandleScope scope(isolate);
Local<Object> obj = Object::New();
obj->Set(String::NewSymbol("msg"), args[0]->ToString());
return scope.Close(obj);
}
void Init(Handle<Object> exports, Handle<Object> module) {
module->Set(String::NewSymbol("exports"),
FunctionTemplate::New(CreateObject)->GetFunction());
}
NODE_MODULE(addon, Init)
To test it in JavaScript:
var addon = require('./build/Release/addon');
var obj1 = addon('hello');
var obj2 = addon('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>
Isolate* isolate = Isolate::GetCurrent();
using namespace v8;
Handle<Value> MyFunction(const Arguments& args) {
HandleScope scope(isolate);
return scope.Close(String::New("hello world"));
}
Handle<Value> CreateFunction(const Arguments& args) {
HandleScope scope(isolate);
Local<FunctionTemplate> tpl = FunctionTemplate::New(MyFunction);
Local<Function> fn = tpl->GetFunction();
// omit this to make it anonymous
fn->SetName(String::NewSymbol("theFunction"));
return scope.Close(fn);
}
void Init(Handle<Object> exports, Handle<Object> module) {
module->Set(String::NewSymbol("exports"),
FunctionTemplate::New(CreateFunction)->GetFunction());
}
NODE_MODULE(addon, Init)
To test:
var addon = require('./build/Release/addon');
var fn = addon();
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> exports) {
MyObject::Init(exports);
}
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> exports);
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"
Isolate* isolate = Isolate::GetCurrent();
using namespace v8;
MyObject::MyObject() {};
MyObject::~MyObject() {};
void MyObject::Init(Handle<Object> exports) {
// 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(isolate, tpl->GetFunction());
exports->Set(String::NewSymbol("MyObject"), constructor);
}
Handle<Value> MyObject::New(const Arguments& args) {
HandleScope scope(isolate);
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(isolate);
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"
Isolate* isolate = Isolate::GetCurrent();
using namespace v8;
Handle<Value> CreateObject(const Arguments& args) {
HandleScope scope(isolate);
return scope.Close(MyObject::NewInstance(args));
}
void InitAll(Handle<Object> exports, Handle<Object> module) {
MyObject::Init();
module->Set(String::NewSymbol("exports"),
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"
Isolate* isolate = Isolate::GetCurrent();
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(isolate, tpl->GetFunction());
}
Handle<Value> MyObject::New(const Arguments& args) {
HandleScope scope(isolate);
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(isolate);
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(isolate);
MyObject* obj = ObjectWrap::Unwrap<MyObject>(args.This());
obj->counter_ += 1;
return scope.Close(Number::New(obj->counter_));
}
Test it with:
var createObject = require('./build/Release/addon');
var obj = createObject(10);
console.log( obj.plusOne() ); // 11
console.log( obj.plusOne() ); // 12
console.log( obj.plusOne() ); // 13
var obj2 = 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"
Isolate* isolate = Isolate::GetCurrent();
using namespace v8;
Handle<Value> CreateObject(const Arguments& args) {
HandleScope scope(isolate);
return scope.Close(MyObject::NewInstance(args));
}
Handle<Value> Add(const Arguments& args) {
HandleScope scope(isolate);
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> exports) {
MyObject::Init();
exports->Set(String::NewSymbol("createObject"),
FunctionTemplate::New(CreateObject)->GetFunction());
exports->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"
Isolate* isolate = Isolate::GetCurrent();
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(isolate);
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(isolate);
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