Overview
Asynchronous programming is a paradigm that allows for the execution of tasks without blocking the main execution thread. This approach is essential for developing stable and scalable applications, especially when dealing with operations that are I/O-bound or time-consuming, such as network requests, database operations, or file I/O.
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Synchronous and Asynchronous
Programming allows running tasks one after another or running tasks without waiting for others to finish. When tasks run one after another, each task waits for the task before it finishes. When tasks run without waiting, tasks start and proceed without delay, allowing operations to occur at the same time.
Benefits:
- Responsiveness: Keeps applications responsive, especially in UI scenarios where blocking the main thread can lead to a frozen interface.
- Scalability: Efficiently handles multiple concurrent operations without the overhead of creating new threads for each task.
- Resource Efficiency: Frees up threads to perform other work while awaiting long-running operations, optimizing CPU and memory usage.
Scripts Asynchronous Methods
Version 10 uses a more modern and efficient programming pattern called asynchronous methods. This improves performance on displays and is one of the technologies that enables most Windows WPF displays to run on web HTML5 with no modifications.
When creating new solutions, this is done automatically for you. However, legacy displays with heavy CodeBehind scripts may require modification of methods to use the async operator.
For more information on Async programming: https://learn.microsoft.com/en-us/dotnet/csharp/asynchronous-programming/
Calling Server Classes from Displays and Client Classes
Now when calling Script Class Server method from Client scripts (Script Class Client or Display CodeBehind) should add "await" (C#) "Await" (VB.NET) for the HTML5 to work successfully.
public async Task DisplayOpening() { await @Script.Class.ServerMain.MethodExample(); }
Public Async Function DisplayOpening() As Task Await @Script.Class.ServerMain.Method1() End Function
Correction of Logon() on CodeBehind
The method Logon() should be replaced by LogonAsync(), as well other synchronous methods shall be modified to their async versions. Here is the modification of the Logon() method, as it was very commonly used in the projects.
this.DialogOnOK = async function() { var result = await @Client.LogOnAsync("user1", "pass1"); return true; };
public async Task<bool> DialogOnOK() { var result = await @Client.LogOnAsync("Username", "Password"); return true; }
Public Async Function DialogOnOK() As Task(Of Boolean) Dim result As Integer = Await @Client.LogOnAsync("user1", "pass1") Return True End Function
Calling Async Methods
One reason the update of the code to use async methods is not fully automated is that when a method is modified to become async, other methods that call it need to be updated as well. These calling methods must also be updated in their signatures and return values to accommodate the new async method. There are different ways to implement this, typically using await
or Result
operators. It would not be feasible for the upgrade tool to automatically and safely modify all dependencies and application logic to use the method asynchronously.
Here is complete example, on how a Code Behind of a display was in earlier versions, with synchronous call, and the modified code using async calls.
Public Sub DisplayOpening() ' Add your code here End Sub Public Sub DisplayIsOpen() ' Add your code here End Sub Public Sub DisplayClosing() ' Add your code here End Sub 'This method is only called on Dialog displays Public Function DialogOnOK() As Boolean Dim log As eSecurityErrors log = DirectCast(@Client.LogOn(@Client.InputUserName, @Client.InputPassword), eSecurityErrors) If log = eSecurityErrors.OK Then @Display.LogOn.Close() Return True End If Dim msg As String = @Client.Locale("Could not logon") + " (" + @Client.Locale(log.ToString()) + ")" MessageBox.Show(msg) Return False End Function Public Sub ExecuteLogOff(ByVal sender As Object, ByVal e As MouseButtonEventArgs) @Client.LogOnGuest() @Display.LogOn.Close() End Sub Public Sub MouseLeftButtonOk(ByVal sender As Object, ByVal e As System.Windows.Input.InputEventArgs) DialogOnOK() End Sub
The previous code in version 10 will issue warnings, not errors, as it can still be used in displays that are WPF (Windows) only.
The warnings are issued because the code is no longer acceptable for pages targeting Web HTML5. Therefore, it cannot be used in portable pages (Web and Windows ready), which are the preferred option moving forward.
It’s important to emphasize that using async also benefits WPF-Windows applications by making UI interactions more responsive.
The upgrade tool will only attempt to automatically update the LogOn page if it was kept as provided in the templates. The following code shows the changes needed to manually correct the LogOnPage if necessary, and the patterns of using async
and await
can be applied to other pages that require changes.
Public Sub DisplayIsOpen() End Sub Public Sub DisplayClosing() End Sub Public Async Function DialogOnOK() As Task(Of Boolean) Dim log As eSecurityErrors log = DirectCast(Await @Client.LogOnAsync(@Client.InputUserName, @Client.InputPassword), eSecurityErrors) If log = eSecurityErrors.OK Then @Display.LogOn.Close() Return True End If Dim msg As String = @Client.Locale("Could not logon") + " (" + @Client.Locale(log.ToString()) + ")" MessageBox.Show(msg) Return False End Function Public Async Function ExecuteLogOff(ByVal sender As Object, ByVal e As MouseButtonEventArgs) As Task Await @Client.LogOnGuestAsync() @Display.LogOn.Close() End Function Public Async Function MouseLeftButtonOk(ByVal sender As Object, ByVal e As System.Windows.Input.InputEventArgs) As Task Await DialogOnOK() End Function
public void DisplayIsOpen() { } public void DisplayClosing() { } public async Task<bool> DialogOnOK() { eSecurityErrors log; log = (eSecurityErrors) await @Client.LogOnAsync(@Client.InputUserName, @Client.InputPassword); if (log == eSecurityErrors.OK) { @Display.LogOn.Close(); return true; } string msg = @Client.Locale("Could not logon") + " (" + @Client.Locale(log.ToString()) + ")"; MessageBox.Show(msg); return false; } public async Task ExecuteLogOff(object sender, MouseButtonEventArgs e) { await @Client.LogOnGuestAsync(); @Display.LogOn.Close(); } public async Task MouseLeftButtonOk(object sender, System.Windows.Input.InputEventArgs e) { // Add your code here await DialogOnOK(); }
Async and Await
Both work together to implement an asynchronous execution model. async prepares the method for asynchronous operations, while await manages the wait points within the method.
You apply the async
modifier to a method. It indicates that the function contains asynchronous operations and can use await
. It only affects the method or expression where you declare it.
Characteristics:
- Method declaration: You use
async
to modify a method, indicating that it must return aTask
,Task<T>
, orvoid
(in specific cases, such as event handlers). - Enables the use of
await
: Withoutasync
, the compiler does not allow the use ofawait
inside the method. - Return management: A method with
async
always returns aTask
orTask<T>
. If the method would originally returnvoid
, the compiler transforms the return into aTask
orTask<T>
.
The await
operator directly applies to a Task
or Task<T>
instance. It suspends the execution of the current method until the associated Task
completes. It only affects the line or block of code where you use it.
Characteristics:
Waiting for the completion of an asynchronous operation: It suspends execution at the point where it appears, freeing up control of the thread for other operations while it waits.
Asynchronous context: You can only use it in methods or expressions marked as
async
.Return of control: After the awaited operation completes, the method's execution flow continues from the point of the
await
.
Controlling Tasks Without Await
You can control and monitor the status of an asynchronous operation without awaiting it immediately. This is useful when you want the program to continue executing other tasks while the asynchronous operation runs in the background.
Task taskName = FunctionAsync(); if (taskName.IsCompleted) { // Perform actions after the task has completed }
By checking the IsCompleted
property of the task, you can determine if the asynchronous operation has finished and then execute additional code accordingly.
Debugging Asynchronous Code
How to examine the asynchronous operations impact execution flow and application responsiveness. This section covers the execution flow when using await and outlines the differences from synchronous calls, emphasizing how the UI thread stays unblocked and allows users to interact with the application during asynchronous operations.
Execution Flow with Await
Using await
in asynchronous code makes the execution flow during debugging appear sequential. The debugger pauses at the await
expression and waits until the asynchronous method completes, mimicking the behavior of synchronous code. This approach allows developers to step through code line by line without disrupting the logical sequence of execution.
Differences from Synchronous Calls
Unlike synchronous calls, using await
does not block the UI thread during asynchronous operations. The application remains responsive, allowing users to continue their activities while background tasks run. This behavior prevents the interface from freezing during operations that take longer to complete, enhancing the overall user experience.
Error handling
Error handling ensures predictable system behavior by managing failures and anomalies.
eErrorMessage Enum
The eErrorMessage enum standardizes error messages across methods, assigning explicit codes for specific issues like invalid filenames or timeouts. Methods must not return null. They use eErrorMessage values to indicate outcomes. Each method defines return values based on its functionality without relying on default success rules.
Code | Value | Description |
---|---|---|
0 |
| Indicates the operation completes successfully. |
1 |
| Shows that the feature or functionality is disabled. |
2 |
| States that the related module stops and cannot perform the operation. |
3 |
| Shows that the related module pauses, preventing the operation. |
4 |
| Indicates that the module runs in read-only mode, disallowing write or modification operations. |
5 |
| Signals that an exception occurs during execution. |
6 |
| States that the service required for the operation is not connected. |
7 |
| Indicates that the functionality is not available in a web browser environment. |
8 |
| Indicates that the functionality is not supported on the .NET Core platform. |
9 |
| Denotes that the specified file name is invalid. |
10 |
| Indicates that an error occurs while attempting to write to a file. |
11 |
| Indicates that no objects are configured to execute the operation. |
12 |
| Signals that the provided content is invalid. |
13 |
| Shows that a timeout occurs during the execution of the operation. |
14 |
| States that a previous command runs, blocking the execution of a new command. |
15 |
| Indicates that access to the functionality or resource is restricted. |
16 |
| Indicates that no selection operation executes, preventing further actions. |
17 |
| States that the provided URL is invalid. |
18 |
| Signals that an HTTP error occurs during server communication. |
19 |
| Denotes that the handle used in the operation is invalid. |
20 |
| Indicates that an asynchronous command executes but remains in progress. |
Best Practices
- Avoid Blocking Calls: Do not use blocking calls like
Task.Wait()
orTask.Result
, which negate the benefits of asynchronous programming. - Async All the Way: Ensure that asynchronous methods call other asynchronous methods to maintain non-blocking behavior throughout the call stack.
- Exception Handling: Use try-catch blocks within async methods to handle exceptions properly.
- Cancellation Tokens: Implement cancellation tokens to allow operations to be canceled if they are no longer needed.
- Progress Reporting: Utilize progress reporting mechanisms to provide feedback during long-running operations.
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