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AsyncProgressWorker
Napi::AsyncProgressWorker is an abstract class which implements Napi::AsyncWorker
while extending Napi::AsyncWorker internally with Napi::ThreadSafeFunction for
moving work progress reports from worker thread(s) to event loop threads.
Like Napi::AsyncWorker, once created, execution is requested by calling
Napi::AsyncProgressWorker::Queue. When a thread is available for execution
the Napi::AsyncProgressWorker::Execute method will be invoked. During the
execution, Napi::AsyncProgressWorker::ExecutionProgress::Send can be used to
indicate execution process, which will eventually invoke Napi::AsyncProgressWorker::OnProgress
on the JavaScript thread to safely call into JavaScript. Once Napi::AsyncProgressWorker::Execute
completes either Napi::AsyncProgressWorker::OnOK or Napi::AsyncProgressWorker::OnError
will be invoked. Once the Napi::AsyncProgressWorker::OnOK or Napi::AsyncProgressWorker::OnError
methods are complete the Napi::AsyncProgressWorker instance is destructed.
For the most basic use, only the Napi::AsyncProgressWorker::Execute and
Napi::AsyncProgressWorker::OnProgress method must be implemented in a subclass.
Methods
Napi::AsyncWorker provides detailed descriptions for most methods.
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::AsyncProgressWorker::OnOK method and/or Napi::AsyncProgressWorker::OnError
which run on the main thread and are invoked when the Napi::AsyncProgressWorker::Execute
method completes.
virtual void Napi::AsyncProgressWorker::Execute(const ExecutionProgress& progress) = 0;
OnOK
This method is invoked when the computation in the Execute method ends.
The default implementation runs the Callback optionally provided when the
AsyncProgressWorker class was created. The Callback will by default receive no
arguments. Arguments to the callback can be provided by overriding the GetResult()
method.
virtual void Napi::AsyncProgressWorker::OnOK();
OnProgress
This method is invoked when the computation in the Napi::AsyncProgressWorker::ExecutionProcess::Send
method was called during worker thread execution.
virtual void Napi::AsyncProgressWorker::OnProgress(const T* data, size_t count)
Constructor
Creates a new Napi::AsyncProgressWorker.
explicit Napi::AsyncProgressWorker(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::AsyncProgressWorker instance which can later be queued for execution by
calling Napi::AsyncWork::Queue.
Constructor
Creates a new Napi::AsyncProgressWorker.
explicit Napi::AsyncProgressWorker(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::AsyncProgressWorker instance which can later be queued for execution by
calling Napi::AsyncWork::Queue.
Constructor
Creates a new Napi::AsyncProgressWorker.
explicit Napi::AsyncProgressWorker(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::AsyncProgressWorker instance which can later be queued for execution by
calling Napi::AsyncWork::Queue.
Constructor
Creates a new Napi::AsyncProgressWorker.
explicit Napi::AsyncProgressWorker(const Napi::Object& receiver, const Napi::Function& callback);
[in] receiver: Thethisobject 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::AsyncProgressWorker instance which can later be queued for execution by
calling Napi::AsyncWork::Queue.
Constructor
Creates a new Napi::AsyncProgressWorker.
explicit Napi::AsyncProgressWorker(const Napi::Object& receiver, const Napi::Function& callback, const char* resource_name);
[in] receiver: Thethisobject 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::AsyncProgressWorker.
explicit Napi::AsyncProgressWorker(const Napi::Object& receiver, const Napi::Function& callback, const char* resource_name, const Napi::Object& resource);
[in] receiver: Thethisobject to be 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::AsyncProgressWorker.
explicit Napi::AsyncProgressWorker(Napi::Env env);
[in] env: The environment in which to create theNapi::AsyncProgressWorker.
Returns an Napi::AsyncProgressWorker instance which can later be queued for execution by calling
Napi::AsyncProgressWorker::Queue.
Available with NAPI_VERSION equal to or greater than 5.
Constructor
Creates a new Napi::AsyncProgressWorker.
explicit Napi::AsyncProgressWorker(Napi::Env env, const char* resource_name);
[in] env: The environment in which to create theNapi::AsyncProgressWorker.[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::AsyncProgressWorker instance which can later be queued for execution by
calling Napi::AsyncProgressWorker::Queue.
Available with NAPI_VERSION equal to or greater than 5.
Constructor
Creates a new Napi::AsyncProgressWorker.
explicit Napi::AsyncProgressWorker(Napi::Env env, const char* resource_name, const Napi::Object& resource);
[in] env: The environment in which to create theNapi::AsyncProgressWorker.[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::AsyncProgressWorker instance which can later be queued for execution by
calling Napi::AsyncProgressWorker::Queue.
Available with NAPI_VERSION equal to or greater than 5.
Destructor
Deletes the created work object that is used to execute logic asynchronously and
release the internal Napi::ThreadSafeFunction, which will be aborted to prevent
unexpected upcoming thread safe calls.
virtual Napi::AsyncProgressWorker::~AsyncProgressWorker();
AsyncProgressWorker::ExecutionProcess
A bridge class created before the worker thread execution of Napi::AsyncProgressWorker::Execute.
Methods
Send
Napi::AsyncProgressWorker::ExecutionProcess::Send takes two arguments, a pointer
to a generic type of data, and a size_t to indicate how many items the pointer is
pointing to.
The data pointed to will be copied to internal slots of Napi::AsyncProgressWorker so
after the call to Napi::AsyncProgressWorker::ExecutionProcess::Send the data can
be safely released.
Note that Napi::AsyncProgressWorker::ExecutionProcess::Send merely guarantees
eventual invocation of Napi::AsyncProgressWorker::OnProgress, which means
multiple send might be coalesced into single invocation of Napi::AsyncProgressWorker::OnProgress
with latest data.
void Napi::AsyncProgressWorker::ExecutionProcess::Send(const T* data, size_t count) const;
Example
The first step to use the Napi::AsyncProgressWorker class is to create a new class that
inherits from it and implement the Napi::AsyncProgressWorker::Execute abstract method.
Typically input to the worker will be saved within the class' fields generally
passed in through its constructor.
During the worker thread execution, the first argument of Napi::AsyncProgressWorker::Execute
can be used to report the progress of the execution.
When the Napi::AsyncProgressWorker::Execute method completes without errors the
Napi::AsyncProgressWorker::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::AsyncProgressWorker ensures that all the code in the Napi::AsyncProgressWorker::Execute
function runs in the background out of the event loop thread and at the end
the Napi::AsyncProgressWorker::OnOK or Napi::AsyncProgressWorker::OnError function will be
called and are executed as part of the event loop.
The code below shows a basic example of the Napi::AsyncProgressWorker implementation:
#include<napi.h>
#include <chrono>
#include <thread>
use namespace Napi;
class EchoWorker : public AsyncProgressWorker<uint32_t> {
public:
EchoWorker(Function& callback, std::string& echo)
: AsyncProgressWorker(callback), echo(echo) {}
~EchoWorker() {}
// This code will be executed on the worker thread
void Execute(const ExecutionProgress& progress) {
// Need to simulate cpu heavy task
for (uint32_t i = 0; i < 100; ++i) {
progress.Send(&i, 1)
std::this_thread::sleep_for(std::chrono::seconds(1));
}
}
void OnOK() {
HandleScope scope(Env());
Callback().Call({Env().Null(), String::New(Env(), echo)});
}
void OnProgress(const uint32_t* data, size_t /* count */) {
HandleScope scope(Env());
Callback().Call({Env().Null(), Env().Null(), Number::New(Env(), *data)});
}
private:
std::string echo;
};
The EchoWorker's constructor calls the base class' constructor to pass in the
callback that the Napi::AsyncProgressWorker base class will store persistently. When
the work on the Napi::AsyncProgressWorker::Execute method is done the
Napi::AsyncProgressWorker::OnOk method is called and the results are return back to
JavaScript when the stored callback is invoked with its associated environment.
The following code shows an example of how to create and use an Napi::AsyncProgressWorker
#include <napi.h>
// Include EchoWorker class
// ..
use namespace Napi;
Value Echo(const CallbackInfo& info) {
// We 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();
}
The implementation of a Napi::AsyncProgressWorker can be used by creating a
new instance and passing to its constructor the callback to execute when the
asynchronous task ends and other data needed for the computation. Once created,
the only other action needed is to call the Napi::AsyncProgressWorker::Queue
method that will queue the created worker for execution.