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async_worker.md
[add] server:lib:node_modules
Christian Fraß
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# AsyncWorker `Napi::AsyncWorker` is an abstract class that you can subclass to remove many of the tedious tasks of moving data between the event loop and worker threads. This class internally handles all the details of creating and executing an asynchronous operation. Once created, execution is requested by calling `Napi::AsyncWorker::Queue`. When a thread is available for execution the `Napi::AsyncWorker::Execute` method will be invoked. Once `Napi::AsyncWorker::Execute` completes either `Napi::AsyncWorker::OnOK` or `Napi::AsyncWorker::OnError` will be invoked. Once the `Napi::AsyncWorker::OnOK` or `Napi::AsyncWorker::OnError` methods are complete the `Napi::AsyncWorker` instance is destructed. For the most basic use, only the `Napi::AsyncWorker::Execute` method must be implemented in a subclass. ## Methods ### Env Requests the environment in which the async worker has been initially created. ```cpp Napi::Env Napi::AsyncWorker::Env() const; ``` Returns the environment in which the async worker has been created. ### Queue Requests that the work be queued for execution. ```cpp void Napi::AsyncWorker::Queue(); ``` ### Cancel Cancels queued work if it has not yet been started. If it has already started executing, it cannot be cancelled. If cancelled successfully neither `OnOK` nor `OnError` will be called. ```cpp void Napi::AsyncWorker::Cancel(); ``` ### Receiver ```cpp Napi::ObjectReference& Napi::AsyncWorker::Receiver(); ``` Returns the persistent object reference of the receiver object set when the async worker was created. ### Callback ```cpp Napi::FunctionReference& Napi::AsyncWorker::Callback(); ``` Returns the persistent function reference of the callback set when the async worker was created. The returned function reference will receive the results of the computation that happened in the `Napi::AsyncWorker::Execute` method, unless the default implementation of `Napi::AsyncWorker::OnOK` or `Napi::AsyncWorker::OnError` is overridden. ### SuppressDestruct ```cpp void Napi::AsyncWorker::SuppressDestruct(); ``` Prevents the destruction of the `Napi::AsyncWorker` instance upon completion of the `Napi::AsyncWorker::OnOK` callback. ### SetError Sets the error message for the error that happened during the execution. Setting an error message will cause the `Napi::AsyncWorker::OnError` method to be invoked instead of `Napi::AsyncWorker::OnOK` once the `Napi::AsyncWorker::Execute` method completes. ```cpp void Napi::AsyncWorker::SetError(const std::string& error); ``` - `[in] error`: The reference to the string that represent the message of the error. ### Execute This method is used to execute some tasks outside of the **event loop** on a libuv worker thread. Subclasses must implement this method and the method is run on a thread other than that running the main event loop. As the method is not running on the main event loop, it must avoid calling any methods from node-addon-api or running any code that might invoke JavaScript. Instead, once this method is complete any interaction through node-addon-api with JavaScript should be implemented in the `Napi::AsyncWorker::OnOK` method and `Napi::AsyncWorker::OnError` which run on the main thread and are invoked when the `Napi::AsyncWorker::Execute` method completes. ```cpp virtual void Napi::AsyncWorker::Execute() = 0; ``` ### OnOK This method is invoked when the computation in the `Execute` method ends. The default implementation runs the `Callback` optionally provided when the `AsyncWorker` class was created. The `Callback` will by default receive no arguments. The arguments to the `Callback` can be provided by overriding the `GetResult()` method. ```cpp virtual void Napi::AsyncWorker::OnOK(); ``` ### GetResult This method returns the arguments passed to the `Callback` invoked by the default `OnOK()` implementation. The default implementation returns an empty vector, providing no arguments to the `Callback`. ```cpp virtual std::vector<napi_value> Napi::AsyncWorker::GetResult(Napi::Env env); ``` ### OnError This method is invoked after `Napi::AsyncWorker::Execute` completes if an error occurs while `Napi::AsyncWorker::Execute` is running and C++ exceptions are enabled or if an error was set through a call to `Napi::AsyncWorker::SetError`. The default implementation calls the `Callback` provided when the `Napi::AsyncWorker` class was created, passing in the error as the first parameter. ```cpp virtual void Napi::AsyncWorker::OnError(const Napi::Error& e); ``` ### OnWorkComplete This method is invoked after the work has completed on JavaScript thread. The default implementation of this method checks the status of the work and tries to dispatch the result to `Napi::AsyncWorker::OnOk` or `Napi::AsyncWorker::Error` if the work has committed an error. If the work was cancelled, neither `Napi::AsyncWorker::OnOk` nor `Napi::AsyncWorker::Error` will be invoked. After the result is dispatched, the default implementation will call into `Napi::AsyncWorker::Destroy` if `SuppressDestruct()` was not called. ```cpp virtual void OnWorkComplete(Napi::Env env, napi_status status); ``` ### OnExecute This method is invoked immediately on the work thread when scheduled. The default implementation of this method just calls the `Napi::AsyncWorker::Execute` and handles exceptions if cpp exceptions were enabled. The `OnExecute` method receives an `napi_env` argument. However, the `napi_env` must NOT be used within this method, as it does not run on the JavaScript thread and must not run any method that would cause JavaScript to run. In practice, this means that almost any use of `napi_env` will be incorrect. ```cpp virtual void OnExecute(Napi::Env env); ``` ### Destroy This method is invoked when the instance must be deallocated. If `SuppressDestruct()` was not called then this method will be called after either `OnError()` or `OnOK()` complete. The default implementation of this method causes the instance to delete itself using the `delete` operator. The method is provided so as to ensure that instances allocated by means other than the `new` operator can be deallocated upon work completion. ```cpp virtual void Napi::AsyncWorker::Destroy(); ``` ### Constructor Creates a new `Napi::AsyncWorker`. ```cpp explicit Napi::AsyncWorker(const Napi::Function& callback); ``` - `[in] callback`: The function which will be called when an asynchronous operations ends. The given function is called from the main event loop thread. Returns a `Napi::AsyncWorker` instance which can later be queued for execution by calling `Queue`. ### Constructor Creates a new `Napi::AsyncWorker`. ```cpp explicit Napi::AsyncWorker(const Napi::Function& callback, const char* resource_name); ``` - `[in] callback`: The function which will be called when an asynchronous operations ends. The given function is called from the main event loop thread. - `[in] resource_name`: Null-terminated string that represents the identifier for the kind of resource that is being provided for diagnostic information exposed by the async_hooks API. Returns a `Napi::AsyncWorker` instance which can later be queued for execution by calling `Napi::AsyncWork::Queue`. ### Constructor Creates a new `Napi::AsyncWorker`. ```cpp explicit Napi::AsyncWorker(const Napi::Function& callback, const char* resource_name, const Napi::Object& resource); ``` - `[in] callback`: The function which will be called when an asynchronous operations ends. The given function is called from the main event loop thread. - `[in] resource_name`: Null-terminated string that represents the identifier for the kind of resource that is being provided for diagnostic information exposed by the async_hooks API. - `[in] resource`: Object associated with the asynchronous operation that will be passed to possible async_hooks. Returns a `Napi::AsyncWorker` instance which can later be queued for execution by calling `Napi::AsyncWork::Queue`. ### Constructor Creates a new `Napi::AsyncWorker`. ```cpp explicit Napi::AsyncWorker(const Napi::Object& receiver, const Napi::Function& callback); ``` - `[in] receiver`: The `this` object passed to the called function. - `[in] callback`: The function which will be called when an asynchronous operations ends. The given function is called from the main event loop thread. Returns a `Napi::AsyncWorker` instance which can later be queued for execution by calling `Napi::AsyncWork::Queue`. ### Constructor Creates a new `Napi::AsyncWorker`. ```cpp explicit Napi::AsyncWorker(const Napi::Object& receiver, const Napi::Function& callback, const char* resource_name); ``` - `[in] receiver`: The `this` object passed to the called function. - `[in] callback`: The function which will be called when an asynchronous operations ends. The given function is called from the main event loop thread. - `[in] resource_name`: Null-terminated string that represents the identifier for the kind of resource that is being provided for diagnostic information exposed by the async_hooks API. Returns a `Napi::AsyncWork` instance which can later be queued for execution by calling `Napi::AsyncWork::Queue`. ### Constructor Creates a new `Napi::AsyncWorker`. ```cpp explicit Napi::AsyncWorker(const Napi::Object& receiver, const Napi::Function& callback, const char* resource_name, const Napi::Object& resource); ``` - `[in] receiver`: The `this` object passed to the called function. - `[in] callback`: The function which will be called when an asynchronous operations ends. The given function is called from the main event loop thread. - `[in] resource_name`: Null-terminated string that represents the identifier for the kind of resource that is being provided for diagnostic information exposed by the async_hooks API. - `[in] resource`: Object associated with the asynchronous operation that will be passed to possible async_hooks. Returns a `Napi::AsyncWork` instance which can later be queued for execution by calling `Napi::AsyncWork::Queue`. ### Constructor Creates a new `Napi::AsyncWorker`. ```cpp explicit Napi::AsyncWorker(Napi::Env env); ``` - `[in] env`: The environment in which to create the `Napi::AsyncWorker`. Returns an `Napi::AsyncWorker` instance which can later be queued for execution by calling `Napi::AsyncWorker::Queue`. ### Constructor Creates a new `Napi::AsyncWorker`. ```cpp explicit Napi::AsyncWorker(Napi::Env env, const char* resource_name); ``` - `[in] env`: The environment in which to create the `Napi::AsyncWorker`. - `[in] resource_name`: Null-terminated string that represents the identifier for the kind of resource that is being provided for diagnostic information exposed by the async_hooks API. Returns a `Napi::AsyncWorker` instance which can later be queued for execution by calling `Napi::AsyncWorker::Queue`. ### Constructor Creates a new `Napi::AsyncWorker`. ```cpp explicit Napi::AsyncWorker(Napi::Env env, const char* resource_name, const Napi::Object& resource); ``` - `[in] env`: The environment in which to create the `Napi::AsyncWorker`. - `[in] resource_name`: Null-terminated string that represents the identifier for the kind of resource that is being provided for diagnostic information exposed by the async_hooks API. - `[in] resource`: Object associated with the asynchronous operation that will be passed to possible async_hooks. Returns a `Napi::AsyncWorker` instance which can later be queued for execution by calling `Napi::AsyncWorker::Queue`. ### Destructor Deletes the created work object that is used to execute logic asynchronously. ```cpp virtual Napi::AsyncWorker::~AsyncWorker(); ``` ## Operator ```cpp Napi::AsyncWorker::operator napi_async_work() const; ``` Returns the N-API napi_async_work wrapped by the `Napi::AsyncWorker` object. This can be used to mix usage of the C N-API and node-addon-api. ## Example The first step to use the `Napi::AsyncWorker` class is to create a new class that inherits from it and implement the `Napi::AsyncWorker::Execute` abstract method. Typically input to your worker will be saved within class' fields generally passed in through its constructor. When the `Napi::AsyncWorker::Execute` method completes without errors the `Napi::AsyncWorker::OnOK` function callback will be invoked. In this function the results of the computation will be reassembled and returned back to the initial JavaScript context. `Napi::AsyncWorker` ensures that all the code in the `Napi::AsyncWorker::Execute` function runs in the background out of the **event loop** thread and at the end the `Napi::AsyncWorker::OnOK` or `Napi::AsyncWorker::OnError` function will be called and are executed as part of the event loop. The code below shows a basic example of `Napi::AsyncWorker` the implementation: ```cpp #include<napi.h> #include <chrono> #include <thread> using namespace Napi; class EchoWorker : public AsyncWorker { public: EchoWorker(Function& callback, std::string& echo) : AsyncWorker(callback), echo(echo) {} ~EchoWorker() {} // This code will be executed on the worker thread void Execute() override { // Need to simulate cpu heavy task std::this_thread::sleep_for(std::chrono::seconds(1)); } void OnOK() override { HandleScope scope(Env()); Callback().Call({Env().Null(), String::New(Env(), echo)}); } private: std::string echo; }; ``` The `EchoWorker`'s constructor calls the base class' constructor to pass in the callback that the `Napi::AsyncWorker` base class will store persistently. When the work on the `Napi::AsyncWorker::Execute` method is done the `Napi::AsyncWorker::OnOk` method is called and the results return back to JavaScript invoking the stored callback with its associated environment. The following code shows an example of how to create and use an `Napi::AsyncWorker`. ```cpp #include<napi.h> // Include EchoWorker class // .. using namespace Napi; Value Echo(const CallbackInfo& info) { // You need to validate the arguments here. Function cb = info[1].As<Function>(); std::string in = info[0].As<String>(); EchoWorker* wk = new EchoWorker(cb, in); wk->Queue(); return info.Env().Undefined(); ``` Using the implementation of a `Napi::AsyncWorker` is straight forward. You only need to create a new instance and pass to its constructor the callback you want to execute when your asynchronous task ends and other data you need for your computation. Once created the only other action you have to do is to call the `Napi::AsyncWorker::Queue` method that will queue the created worker for execution.