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Task.Run vs. Async Keyword: When to Use Each for Asynchronous Operations?
Task.Run vs. Async Keyword: When to Use Each for Asynchronous Operations?
Jan 05, 2025 am 11:48 AM
Asynchronicity in Do Work Methods: Task.Run vs. Async Keyword
In the realm of async programming, the distinction between asynchronous execution and awaitability can be nuanced. Let's delve into the specifics of Task.Run and the async keyword and understand their roles in creating methods that execute either synchronously or asynchronously.
Asynchronous Execution: Task.Run
The Task.Run method allows you to delegate execution of code to a background thread. By creating a Task object that encapsulates the code, Task.Run enables you to execute the code asynchronously without blocking the current execution path. However, using Task.Run does not necessarily make a method awaitable.
Awaitability: The Async Keyword
An async method is one that can be paused and resumed at await expressions. This allows methods to yield execution points back to the calling thread without blocking. A method that is declared async can return a Task or a Task
Example: Execution without Async/Await
// Not async because it does not use await
private Task<int> DoWorkAsync()
{
return Task.Run(() =>
{
return 1 + 2;
});
}
In this example, we return a Task
Example: Async Execution with Await
private async Task<int> GetWebPageHtmlSizeAsync()
{
var client = new HttpClient();
var html = await client.GetAsync("http://www.example.com/");
return html.Length;
}
In this example, the method is declared async and uses await to pause the execution at the HttpClient.GetAsync operation. The method will yield back to the caller while the web page is being downloaded, and then resume when the result is available.
Best Practices:
- Consider using the async keyword to create methods that can pause and resume execution.
- Use Task.Run to execute code asynchronously on a background thread, but only if you need to avoid blocking the current execution path.
- Avoid wrapping synchronous methods entirely in Task.Run. Synchronous methods should have synchronous signatures.
Conclusion:
Task.Run facilitates asynchronous execution by delegating code to a background thread. The async keyword enables awaitability and allows methods to pause and resume execution, providing the flexibility to create responsive and efficient code.
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