Task.WhenAll Method
Definition
Important
Some information relates to prerelease product that may be substantially modified before it’s released. Microsoft makes no warranties, express or implied, with respect to the information provided here.
Creates a task that will complete when all of the supplied tasks have completed.
Overloads
WhenAll(IEnumerable<Task>) |
Creates a task that will complete when all of the Task objects in an enumerable collection have completed. |
WhenAll(ReadOnlySpan<Task>) | |
WhenAll(Task[]) |
Creates a task that will complete when all of the Task objects in an array have completed. |
WhenAll<TResult>(ReadOnlySpan<Task<TResult>>) | |
WhenAll<TResult>(IEnumerable<Task<TResult>>) |
Creates a task that will complete when all of the Task<TResult> objects in an enumerable collection have completed. |
WhenAll<TResult>(Task<TResult>[]) |
Creates a task that will complete when all of the Task<TResult> objects in an array have completed. |
WhenAll(IEnumerable<Task>)
- Source:
- Task.cs
- Source:
- Task.cs
- Source:
- Task.cs
Creates a task that will complete when all of the Task objects in an enumerable collection have completed.
public:
static System::Threading::Tasks::Task ^ WhenAll(System::Collections::Generic::IEnumerable<System::Threading::Tasks::Task ^> ^ tasks);
public static System.Threading.Tasks.Task WhenAll (System.Collections.Generic.IEnumerable<System.Threading.Tasks.Task> tasks);
static member WhenAll : seq<System.Threading.Tasks.Task> -> System.Threading.Tasks.Task
Public Shared Function WhenAll (tasks As IEnumerable(Of Task)) As Task
Parameters
- tasks
- IEnumerable<Task>
The tasks to wait on for completion.
Returns
A task that represents the completion of all of the supplied tasks.
Exceptions
The tasks
argument was null
.
The tasks
collection contained a null
task.
Examples
The following example creates a set of tasks that ping the URLs in an array. The tasks are stored in a List<Task>
collection that is passed to the WhenAll(IEnumerable<Task>) method. After the call to the Wait method ensures that all threads have completed, the example examines the Task.Status property to determine whether any tasks have faulted.
using System;
using System.Collections.Generic;
using System.Net.NetworkInformation;
using System.Threading;
using System.Threading.Tasks;
public class Example
{
public static void Main()
{
int failed = 0;
var tasks = new List<Task>();
String[] urls = { "www.adatum.com", "www.cohovineyard.com",
"www.cohowinery.com", "www.northwindtraders.com",
"www.contoso.com" };
foreach (var value in urls) {
var url = value;
tasks.Add(Task.Run( () => { var png = new Ping();
try {
var reply = png.Send(url);
if (! (reply.Status == IPStatus.Success)) {
Interlocked.Increment(ref failed);
throw new TimeoutException("Unable to reach " + url + ".");
}
}
catch (PingException) {
Interlocked.Increment(ref failed);
throw;
}
}));
}
Task t = Task.WhenAll(tasks);
try {
t.Wait();
}
catch {}
if (t.Status == TaskStatus.RanToCompletion)
Console.WriteLine("All ping attempts succeeded.");
else if (t.Status == TaskStatus.Faulted)
Console.WriteLine("{0} ping attempts failed", failed);
}
}
// The example displays output like the following:
// 5 ping attempts failed
open System
open System.Net.NetworkInformation
open System.Threading
open System.Threading.Tasks
let mutable failed = 0
let urls =
[ "www.adatum.com"
"www.cohovineyard.com"
"www.cohowinery.com"
"www.northwindtraders.com"
"www.contoso.com" ]
let tasks =
urls
|> List.map (fun url ->
Task.Run(fun () ->
let png = new Ping()
try
let reply = png.Send url
if reply.Status <> IPStatus.Success then
Interlocked.Increment &failed |> ignore
raise (TimeoutException $"Unable to reach {url}.")
with :? PingException ->
Interlocked.Increment &failed |> ignore
reraise ()))
let t = Task.WhenAll tasks
try
t.Wait()
with _ ->
()
if t.Status = TaskStatus.RanToCompletion then
printfn "All ping attempts succeeded."
elif t.Status = TaskStatus.Faulted then
printfn $"{failed} ping attempts failed"
// The example displays output like the following:
// 5 ping attempts failed
Imports System.Collections.Generic
Imports System.Net.NetworkInformation
Imports System.Threading
Imports System.Threading.Tasks
Module Example
Public Sub Main()
Dim failed As Integer = 0
Dim tasks As New List(Of Task)()
Dim urls() As String = { "www.adatum.com", "www.cohovineyard.com",
"www.cohowinery.com", "www.northwindtraders.com",
"www.contoso.com" }
For Each value In urls
Dim url As String = value
tasks.Add(Task.Run( Sub()
Dim png As New Ping()
Try
Dim reply = png.Send(url)
If Not reply.Status = IPStatus.Success Then
Interlocked.Increment(failed)
Throw New TimeoutException("Unable to reach " + url + ".")
End If
Catch e As PingException
Interlocked.Increment(failed)
Throw
End Try
End Sub))
Next
Dim t As Task = Task.WhenAll(tasks)
Try
t.Wait()
Catch
End Try
If t.Status = TaskStatus.RanToCompletion
Console.WriteLine("All ping attempts succeeded.")
ElseIf t.Status = TaskStatus.Faulted
Console.WriteLine("{0} ping attempts failed", failed)
End If
End Sub
End Module
' The example displays output like the following:
' 5 ping attempts failed
Remarks
The overloads of the WhenAll method that return a Task object are typically called when you are interested in the status of a set of tasks or in the exceptions thrown by a set of tasks.
Note
The call to WhenAll(IEnumerable<Task>) method does not block the calling thread.
If any of the supplied tasks completes in a faulted state, the returned task will also complete in a Faulted state, where its exceptions will contain the aggregation of the set of unwrapped exceptions from each of the supplied tasks.
If none of the supplied tasks faulted but at least one of them was canceled, the returned task will end in the Canceled state.
If none of the tasks faulted and none of the tasks were canceled, the resulting task will end in the RanToCompletion state.
If the supplied array/enumerable contains no tasks, the returned task will immediately transition to a RanToCompletion state before it's returned to the caller.
Applies to
WhenAll(ReadOnlySpan<Task>)
public:
static System::Threading::Tasks::Task ^ WhenAll(ReadOnlySpan<System::Threading::Tasks::Task ^> tasks);
public static System.Threading.Tasks.Task WhenAll (scoped ReadOnlySpan<System.Threading.Tasks.Task> tasks);
static member WhenAll : ReadOnlySpan<System.Threading.Tasks.Task> -> System.Threading.Tasks.Task
Public Shared Function WhenAll (tasks As ReadOnlySpan(Of Task)) As Task
Parameters
- tasks
- ReadOnlySpan<Task>
Returns
Applies to
WhenAll(Task[])
- Source:
- Task.cs
- Source:
- Task.cs
- Source:
- Task.cs
Creates a task that will complete when all of the Task objects in an array have completed.
public:
static System::Threading::Tasks::Task ^ WhenAll(... cli::array <System::Threading::Tasks::Task ^> ^ tasks);
public static System.Threading.Tasks.Task WhenAll (params System.Threading.Tasks.Task[] tasks);
static member WhenAll : System.Threading.Tasks.Task[] -> System.Threading.Tasks.Task
Public Shared Function WhenAll (ParamArray tasks As Task()) As Task
Parameters
- tasks
- Task[]
The tasks to wait on for completion.
Returns
A task that represents the completion of all of the supplied tasks.
Exceptions
The tasks
argument was null
.
The tasks
array contained a null
task.
Examples
The following example creates a set of tasks that ping the URLs in an array. The tasks are stored in a List<Task>
collection that is converted to an array and passed to the WhenAll(IEnumerable<Task>) method. After the call to the Wait method ensures that all threads have completed, the example examines the Task.Status property to determine whether any tasks have faulted.
using System;
using System.Collections.Generic;
using System.Net.NetworkInformation;
using System.Threading;
using System.Threading.Tasks;
public class Example
{
public static async Task Main()
{
int failed = 0;
var tasks = new List<Task>();
String[] urls = { "www.adatum.com", "www.cohovineyard.com",
"www.cohowinery.com", "www.northwindtraders.com",
"www.contoso.com" };
foreach (var value in urls) {
var url = value;
tasks.Add(Task.Run( () => { var png = new Ping();
try {
var reply = png.Send(url);
if (! (reply.Status == IPStatus.Success)) {
Interlocked.Increment(ref failed);
throw new TimeoutException("Unable to reach " + url + ".");
}
}
catch (PingException) {
Interlocked.Increment(ref failed);
throw;
}
}));
}
Task t = Task.WhenAll(tasks.ToArray());
try {
await t;
}
catch {}
if (t.Status == TaskStatus.RanToCompletion)
Console.WriteLine("All ping attempts succeeded.");
else if (t.Status == TaskStatus.Faulted)
Console.WriteLine("{0} ping attempts failed", failed);
}
}
// The example displays output like the following:
// 5 ping attempts failed
open System
open System.Net.NetworkInformation
open System.Threading
open System.Threading.Tasks
let mutable failed = 0
let urls =
[| "www.adatum.com"
"www.cohovineyard.com"
"www.cohowinery.com"
"www.northwindtraders.com"
"www.contoso.com" |]
let tasks =
urls
|> Array.map (fun url ->
Task.Run(fun () ->
let png = new Ping()
try
let reply = png.Send url
if reply.Status <> IPStatus.Success then
Interlocked.Increment &failed |> ignore
raise (TimeoutException $"Unable to reach {url}.")
with :? PingException ->
Interlocked.Increment &failed |> ignore
reraise ()))
let main =
task {
let t = Task.WhenAll tasks
try
do! t
with _ ->
()
if t.Status = TaskStatus.RanToCompletion then
printfn "All ping attempts succeeded."
elif t.Status = TaskStatus.Faulted then
printfn $"{failed} ping attempts failed"
}
main.Wait()
// The example displays output like the following:
// 5 ping attempts failed
Imports System.Collections.Generic
Imports System.Net.NetworkInformation
Imports System.Threading
Imports System.Threading.Tasks
Module Example
Public Sub Main()
Dim failed As Integer = 0
Dim tasks As New List(Of Task)()
Dim urls() As String = { "www.adatum.com", "www.cohovineyard.com",
"www.cohowinery.com", "www.northwindtraders.com",
"www.contoso.com" }
For Each value In urls
Dim url As String = value
tasks.Add(Task.Run( Sub()
Dim png As New Ping()
Try
Dim reply = png.Send(url)
If Not reply.Status = IPStatus.Success Then
Interlocked.Increment(failed)
Throw New TimeoutException("Unable to reach " + url + ".")
End If
Catch e As PingException
Interlocked.Increment(failed)
Throw
End Try
End Sub))
Next
Dim t As Task = Task.WhenAll(tasks.ToArray())
Try
t.Wait()
Catch
End Try
If t.Status = TaskStatus.RanToCompletion
Console.WriteLine("All ping attempts succeeded.")
ElseIf t.Status = TaskStatus.Faulted
Console.WriteLine("{0} ping attempts failed", failed)
End If
End Sub
End Module
' The example displays output like the following:
' 5 ping attempts failed
Remarks
The overloads of the WhenAll method that return a Task object are typically called when you are interested in the status of a set of tasks or in the exceptions thrown by a set of tasks.
Note
The call to WhenAll(Task[]) method does not block the calling thread.
If any of the supplied tasks completes in a faulted state, the returned task will also complete in a Faulted state, where its exceptions will contain the aggregation of the set of unwrapped exceptions from each of the supplied tasks.
If none of the supplied tasks faulted but at least one of them was canceled, the returned task will end in the Canceled state.
If none of the tasks faulted and none of the tasks were canceled, the resulting task will end in the RanToCompletion state.
If the supplied array/enumerable contains no tasks, the returned task will immediately transition to a RanToCompletion state before it's returned to the caller.
Applies to
WhenAll<TResult>(ReadOnlySpan<Task<TResult>>)
public:
generic <typename TResult>
static System::Threading::Tasks::Task<cli::array <TResult> ^> ^ WhenAll(ReadOnlySpan<System::Threading::Tasks::Task<TResult> ^> tasks);
public static System.Threading.Tasks.Task<TResult[]> WhenAll<TResult> (scoped ReadOnlySpan<System.Threading.Tasks.Task<TResult>> tasks);
static member WhenAll : ReadOnlySpan<System.Threading.Tasks.Task<'Result>> -> System.Threading.Tasks.Task<'Result[]>
Public Shared Function WhenAll(Of TResult) (tasks As ReadOnlySpan(Of Task(Of TResult))) As Task(Of TResult())
Type Parameters
- TResult
Parameters
- tasks
- ReadOnlySpan<Task<TResult>>
Returns
Applies to
WhenAll<TResult>(IEnumerable<Task<TResult>>)
- Source:
- Task.cs
- Source:
- Task.cs
- Source:
- Task.cs
Creates a task that will complete when all of the Task<TResult> objects in an enumerable collection have completed.
public:
generic <typename TResult>
static System::Threading::Tasks::Task<cli::array <TResult> ^> ^ WhenAll(System::Collections::Generic::IEnumerable<System::Threading::Tasks::Task<TResult> ^> ^ tasks);
public static System.Threading.Tasks.Task<TResult[]> WhenAll<TResult> (System.Collections.Generic.IEnumerable<System.Threading.Tasks.Task<TResult>> tasks);
static member WhenAll : seq<System.Threading.Tasks.Task<'Result>> -> System.Threading.Tasks.Task<'Result[]>
Public Shared Function WhenAll(Of TResult) (tasks As IEnumerable(Of Task(Of TResult))) As Task(Of TResult())
Type Parameters
- TResult
The type of the completed task.
Parameters
- tasks
- IEnumerable<Task<TResult>>
The tasks to wait on for completion.
Returns
A task that represents the completion of all of the supplied tasks.
Exceptions
The tasks
argument was null
.
The tasks
collection contained a null
task.
Examples
The following example creates ten tasks, each of which instantiates a random number generator that creates 1,000 random numbers between 1 and 1,000 and computes their mean. The Delay(Int32) method is used to delay instantiation of the random number generators so that they are not created with identical seed values. The call to the WhenAll method then returns an Int64 array that contains the mean computed by each task. These are then used to calculate the overall mean.
using System;
using System.Collections.Generic;
using System.Threading.Tasks;
public class Example
{
public static void Main()
{
var tasks = new List<Task<long>>();
for (int ctr = 1; ctr <= 10; ctr++) {
int delayInterval = 18 * ctr;
tasks.Add(Task.Run(async () => { long total = 0;
await Task.Delay(delayInterval);
var rnd = new Random();
// Generate 1,000 random numbers.
for (int n = 1; n <= 1000; n++)
total += rnd.Next(0, 1000);
return total; } ));
}
var continuation = Task.WhenAll(tasks);
try {
continuation.Wait();
}
catch (AggregateException)
{ }
if (continuation.Status == TaskStatus.RanToCompletion) {
long grandTotal = 0;
foreach (var result in continuation.Result) {
grandTotal += result;
Console.WriteLine("Mean: {0:N2}, n = 1,000", result/1000.0);
}
Console.WriteLine("\nMean of Means: {0:N2}, n = 10,000",
grandTotal/10000);
}
// Display information on faulted tasks.
else {
foreach (var t in tasks) {
Console.WriteLine("Task {0}: {1}", t.Id, t.Status);
}
}
}
}
// The example displays output like the following:
// Mean: 506.34, n = 1,000
// Mean: 504.69, n = 1,000
// Mean: 489.32, n = 1,000
// Mean: 505.96, n = 1,000
// Mean: 515.31, n = 1,000
// Mean: 499.94, n = 1,000
// Mean: 496.92, n = 1,000
// Mean: 508.58, n = 1,000
// Mean: 494.88, n = 1,000
// Mean: 493.53, n = 1,000
//
// Mean of Means: 501.55, n = 10,000
open System
open System.Threading.Tasks
let tasks =
[| for i = 1 to 10 do
let delayInterval = 18 * i
task {
let mutable total = 0L
do! Task.Delay delayInterval
let rnd = Random()
for _ = 1 to 1000 do
total <- total + (rnd.Next(0, 1000) |> int64)
return total
} |]
let continuation = Task.WhenAll tasks
try
continuation.Wait()
with :? AggregateException ->
()
if continuation.Status = TaskStatus.RanToCompletion then
for result in continuation.Result do
printfn $"Mean: {float result / 1000.:N2}, n = 1,000"
let grandTotal = continuation.Result |> Array.sum
printfn $"\nMean of Means: {float grandTotal / 10000.:N2}, n = 10,000"
// Display information on faulted tasks.
else
for t in tasks do
printfn $"Task {t.Id}: {t.Status}"
// The example displays output like the following:
// Mean: 506.34, n = 1,000
// Mean: 504.69, n = 1,000
// Mean: 489.32, n = 1,000
// Mean: 505.96, n = 1,000
// Mean: 515.31, n = 1,000
// Mean: 499.94, n = 1,000
// Mean: 496.92, n = 1,000
// Mean: 508.58, n = 1,000
// Mean: 494.88, n = 1,000
// Mean: 493.53, n = 1,000
//
// Mean of Means: 501.55, n = 10,000
Imports System.Collections.Generic
Imports System.Threading.Tasks
Module Example
Public Sub Main()
Dim tasks As New List(Of Task(Of Long))()
For ctr As Integer = 1 To 10
Dim delayInterval As Integer = 18 * ctr
tasks.Add(Task.Run(Async Function()
Dim total As Long = 0
Await Task.Delay(delayInterval)
Dim rnd As New Random()
' Generate 1,000 random numbers.
For n As Integer = 1 To 1000
total += rnd.Next(0, 1000)
Next
Return total
End Function))
Next
Dim continuation = Task.WhenAll(tasks)
Try
continuation.Wait()
Catch ae As AggregateException
End Try
If continuation.Status = TaskStatus.RanToCompletion Then
Dim grandTotal As Long = 0
For Each result in continuation.Result
grandTotal += result
Console.WriteLine("Mean: {0:N2}, n = 1,000", result/1000)
Next
Console.WriteLine()
Console.WriteLine("Mean of Means: {0:N2}, n = 10,000",
grandTotal/10000)
' Display information on faulted tasks.
Else
For Each t In tasks
Console.WriteLine("Task {0}: {1}", t.Id, t.Status)
Next
End If
End Sub
End Module
' The example displays output like the following:
' Mean: 506.34, n = 1,000
' Mean: 504.69, n = 1,000
' Mean: 489.32, n = 1,000
' Mean: 505.96, n = 1,000
' Mean: 515.31, n = 1,000
' Mean: 499.94, n = 1,000
' Mean: 496.92, n = 1,000
' Mean: 508.58, n = 1,000
' Mean: 494.88, n = 1,000
' Mean: 493.53, n = 1,000
'
' Mean of Means: 501.55, n = 10,000
In this case, the ten individual tasks are stored in a List<T> object. List<T> implements the IEnumerable<T> interface.
Remarks
The call to WhenAll<TResult>(IEnumerable<Task<TResult>>) method does not block the calling thread. However, a call to the returned Result property does block the calling thread.
If any of the supplied tasks completes in a faulted state, the returned task will also complete in a Faulted state, where its exceptions will contain the aggregation of the set of unwrapped exceptions from each of the supplied tasks.
If none of the supplied tasks faulted but at least one of them was canceled, the returned task will end in the Canceled state.
If none of the tasks faulted and none of the tasks were canceled, the resulting task will end in the RanToCompletion state. The Task<TResult>.Result property of the returned task will be set to an array containing all of the results of the supplied tasks in the same order as they were provided (e.g. if the input tasks array contained t1, t2, t3, the output task's Task<TResult>.Result property will return an TResult[]
where arr[0] == t1.Result, arr[1] == t2.Result, and arr[2] == t3.Result)
.
If the tasks
argument contains no tasks, the returned task will immediately transition to a RanToCompletion state before it's returned to the caller. The returned TResult[]
will be an array of 0 elements.
Applies to
WhenAll<TResult>(Task<TResult>[])
- Source:
- Task.cs
- Source:
- Task.cs
- Source:
- Task.cs
Creates a task that will complete when all of the Task<TResult> objects in an array have completed.
public:
generic <typename TResult>
static System::Threading::Tasks::Task<cli::array <TResult> ^> ^ WhenAll(... cli::array <System::Threading::Tasks::Task<TResult> ^> ^ tasks);
public static System.Threading.Tasks.Task<TResult[]> WhenAll<TResult> (params System.Threading.Tasks.Task<TResult>[] tasks);
static member WhenAll : System.Threading.Tasks.Task<'Result>[] -> System.Threading.Tasks.Task<'Result[]>
Public Shared Function WhenAll(Of TResult) (ParamArray tasks As Task(Of TResult)()) As Task(Of TResult())
Type Parameters
- TResult
The type of the completed task.
Parameters
- tasks
- Task<TResult>[]
The tasks to wait on for completion.
Returns
A task that represents the completion of all of the supplied tasks.
Exceptions
The tasks
argument was null
.
The tasks
array contained a null
task.
Examples
The following example creates ten tasks, each of which instantiates a random number generator that creates 1,000 random numbers between 1 and 1,000 and computes their mean. In this case, the ten individual tasks are stored in a Task<Int64>
array. The Delay(Int32) method is used to delay instantiation of the random number generators so that they are not created with identical seed values. The call to the WhenAll method then returns an Int64 array that contains the mean computed by each task. These are then used to calculate the overall mean.
using System;
using System.Collections.Generic;
using System.Threading.Tasks;
public class Example
{
public static void Main()
{
var tasks = new Task<long>[10];
for (int ctr = 1; ctr <= 10; ctr++) {
int delayInterval = 18 * ctr;
tasks[ctr - 1] = Task.Run(async () => { long total = 0;
await Task.Delay(delayInterval);
var rnd = new Random();
// Generate 1,000 random numbers.
for (int n = 1; n <= 1000; n++)
total += rnd.Next(0, 1000);
return total; } );
}
var continuation = Task.WhenAll(tasks);
try {
continuation.Wait();
}
catch (AggregateException)
{}
if (continuation.Status == TaskStatus.RanToCompletion) {
long grandTotal = 0;
foreach (var result in continuation.Result) {
grandTotal += result;
Console.WriteLine("Mean: {0:N2}, n = 1,000", result/1000.0);
}
Console.WriteLine("\nMean of Means: {0:N2}, n = 10,000",
grandTotal/10000);
}
// Display information on faulted tasks.
else {
foreach (var t in tasks)
Console.WriteLine("Task {0}: {1}", t.Id, t.Status);
}
}
}
// The example displays output like the following:
// Mean: 506.38, n = 1,000
// Mean: 501.01, n = 1,000
// Mean: 505.36, n = 1,000
// Mean: 492.00, n = 1,000
// Mean: 508.36, n = 1,000
// Mean: 503.99, n = 1,000
// Mean: 504.95, n = 1,000
// Mean: 508.58, n = 1,000
// Mean: 490.23, n = 1,000
// Mean: 501.59, n = 1,000
//
// Mean of Means: 502.00, n = 10,000
open System
open System.Threading.Tasks
let tasks =
[| for i = 1 to 10 do
let delayInterval = 18 * i
task {
let mutable total = 0L
do! Task.Delay delayInterval
let rnd = Random()
for _ = 1 to 1000 do
total <- total + (rnd.Next(0, 1000) |> int64)
return total
} |]
let continuation = Task.WhenAll tasks
try
continuation.Wait()
with :? AggregateException ->
()
if continuation.Status = TaskStatus.RanToCompletion then
for result in continuation.Result do
printfn $"Mean: {float result / 1000.:N2}, n = 1,000"
let grandTotal = Array.sum continuation.Result
printfn $"\nMean of Means: {float grandTotal / 10000.:N2}, n = 10,000"
// Display information on faulted tasks.
else
for t in tasks do
printfn $"Task {t.Id}: {t.Status}"
// The example displays output like the following:
// Mean: 506.38, n = 1,000
// Mean: 501.01, n = 1,000
// Mean: 505.36, n = 1,000
// Mean: 492.00, n = 1,000
// Mean: 508.36, n = 1,000
// Mean: 503.99, n = 1,000
// Mean: 504.95, n = 1,000
// Mean: 508.58, n = 1,000
// Mean: 490.23, n = 1,000
// Mean: 501.59, n = 1,000
//
// Mean of Means: 502.00, n = 10,000
Imports System.Collections.Generic
Imports System.Threading.Tasks
Module Example
Public Sub Main()
Dim tasks(9) As Task(Of Long)
For ctr As Integer = 1 To 10
Dim delayInterval As Integer = 18 * ctr
tasks(ctr - 1) =Task.Run(Async Function()
Dim total As Long = 0
Await Task.Delay(delayInterval)
Dim rnd As New Random()
' Generate 1,000 random numbers.
For n As Integer = 1 To 1000
total += rnd.Next(0, 1000)
Next
Return total
End Function)
Next
Dim continuation = Task.WhenAll(tasks)
Try
continuation.Wait()
Catch ae As AggregateException
End Try
If continuation.Status = TaskStatus.RanToCompletion Then
Dim grandTotal As Long = 0
For Each result in continuation.Result
grandTotal += result
Console.WriteLine("Mean: {0:N2}, n = 1,000", result/1000)
Next
Console.WriteLine()
Console.WriteLine("Mean of Means: {0:N2}, n = 10,000",
grandTotal/10000)
' Display information on faulted tasks.
Else
For Each t In tasks
Console.WriteLine("Task {0}: {1}", t.Id, t.Status)
Next
End If
End Sub
End Module
' The example displays output like the following:
' Mean: 506.38, n = 1,000
' Mean: 501.01, n = 1,000
' Mean: 505.36, n = 1,000
' Mean: 492.00, n = 1,000
' Mean: 508.36, n = 1,000
' Mean: 503.99, n = 1,000
' Mean: 504.95, n = 1,000
' Mean: 508.58, n = 1,000
' Mean: 490.23, n = 1,000
' Mean: 501.59, n = 1,000
'
' Mean of Means: 502.00, n = 10,000
Remarks
The call to WhenAll<TResult>(Task<TResult>[]) method does not block the calling thread. However, a call to the returned Result property does block the calling thread.
If any of the supplied tasks completes in a faulted state, the returned task will also complete in a Faulted state, where its exceptions will contain the aggregation of the set of unwrapped exceptions from each of the supplied tasks.
If none of the supplied tasks faulted but at least one of them was canceled, the returned task will end in the Canceled state.
If none of the tasks faulted and none of the tasks were canceled, the resulting task will end in the RanToCompletion state. The Result of the returned task will be set to an array containing all of the results of the supplied tasks in the same order as they were provided (e.g. if the input tasks array contained t1, t2, t3, the output task's Result will return an TResult[]
where arr[0] == t1.Result, arr[1] == t2.Result, and arr[2] == t3.Result)
.
If the supplied array/enumerable contains no tasks, the returned task will immediately transition to a RanToCompletion state before it's returned to the caller. The returned TResult[]
will be an array of 0 elements.
Applies to
Feedback
https://aka.ms/ContentUserFeedback.
Coming soon: Throughout 2024 we will be phasing out GitHub Issues as the feedback mechanism for content and replacing it with a new feedback system. For more information see:Submit and view feedback for