Currently, I am using a thread to autofill a zedgraph chart. The problem is that it is very slow and that is not good for the production.
Knowing that:
1. There is a Thread running background to get fresh data from remote server and store them in a local text file.
2. There is another Thread accesses and reads data from the local file and refresh the zedgraph chart.
Personnaly I think this makes the application running very slowly.
Timer component may be better to handle this kind of stuff.
Does anyone has experience in ZedGraph Live Data?
Or any advice would be welcomed.
EDIT: UPDATE UI
Also I would like to know how to update the UI within a Thread so that the user does not have to close and open the form to view the chart.
Thanks
The way I would go about this is as follows:
You make a class that holds the data (this can also be the same class you already have) for the example I will call it InformationHolder.
class InformationHolder {
private static InformationHolder singleton = null;
public List<float> graphData; //Can be any kind of variable (List<GraphInfo>, GraphInfo[]), whatever you like best.
public static InformationHolder Instance() {
if (singleton == null) {
singleton = new InformationHolder();
}
return singleton;
}
}
Now you need a class that will get your information in the background, parses it and inserts it into the above class.
Example with Thread.Sleep():
class InformationGartherer {
private Thread garthererThread;
public InformationGartherer() {
garthererThread = new Thread(new ThreadStart(GartherData));
}
private void GartherData() {
while (true) {
List<float> gartheredInfo = new List<float>();
//Do your garthering and parsing here (and put it in the gartheredInfo variable)
InformationHolder.Instance().graphData = gartheredInfo;
graphForm.Invoke(new MethodInvoker( //you need to have a reference to the form
delegate {
graphForm.Invalidate(); //or another method that redraws the graph
}));
Thread.Sleep(100); //Time in ms
}
}
}
Example with Timer:
class InformationGartherer {
private Thread garthererThread;
private Timer gartherTimer;
public InformationGartherer() {
//calling the GartherData method manually to get the first info asap.
garthererThread = new Thread(new ThreadStart(GartherData));
gartherTimer = new Timer(100); // time in ms
gartherTimer.Elapsed += new ElapsedEventHandler(TimerCallback);
gartherTimer.Start();
}
private void TimerCallback(object source, ElapsedEventArgs e) {
gartherThread = new Thread(new ThreadStart(GartherData));
}
private void GartherData() {
List<float> gartheredInfo = new List<float>();
//Do your garthering and parsing here (and put it in the gartheredInfo variable)
InformationHolder.Instance().graphData = gartheredInfo;
graphForm.Invoke(new MethodInvoker( //you need to have a reference to the form
delegate {
graphForm.Invalidate(); //or another method that redraws the graph
}));
}
}
To get the reference to the form you could do the same trick as I used with the InformationHolder: using a singleton.
When you want to use the information just get it from the InformationHolder like so:
InformationHolder.Instance().graphData;
As I said this is how I personally would solve this. There might be a better solution I'm not aware of. If you have any questions you can post them below.
Ok, well I have been at it for a while now and I decided to just use threads. I am making a syntax highlighter but I keep getting terrible performance with the file sizes that it will usually be used for. So I made two forms, the first shows the file in plain text and has a button that says "openincolor" when you click that I start a new thread as such
private void button1_Click(object sender, EventArgs e)
{
ColoringThread colorer = new ColoringThread(this.m_bruteView.Text);
Thread theThread = new Thread(new ThreadStart(colorer.OpenColorWindow));
theThread.Start();
}
public class ColoringThread
{
string text;
public ColoringThread(string initText)
{
text = initText;
}
public void OpenColorWindow()
{
Form2 form2 = new Form2(text);
form2.ShowDialog();
}
};
I want this form to send back a message each time it has complete say x lines of coloring. Then I will take that and figure out the progress and display it to the user.
How might I go about sending a message, or event(...? can I do that) to my first form to let it know of the others progress?
One very simple way to do this is with BackgroundWorker. It already provides an event to report progress.
How about something like this? This adds an event to the ColoringThread class which is subscribed to by the calling class.
private void button1_Click(object sender, EventArgs e) {
ColoringThread colorer = new ColoringThread(this.m_bruteView.Text);
colorer.HighlightProgressChanged += UpdateProgress;
Thread theThread = new Thread(new ThreadStart(colorer.OpenColorWindow));
theThread.Start();
}
private void UpdateProgress(int linesComplete) {
// update progress bar here
}
public class ColoringThread
{
string text;
public delegate void HighlightEventHandler(int linesComplete);
public event HighlightEventHandler HighlightProgressChanged;
public ColoringThread(string initText) {
text = initText;
}
public void OpenColorWindow() {
Form2 form2 = new Form2(text);
form2.ShowDialog();
int linesColored = 0;
foreach (String line in text.Split(Environment.NewLine)) {
// colorize line here
// raise event
if (HighlightProgressChanged != null)
HighlightProgressChanged(++linesColored);
}
}
};
You can pass an object as argument to the Thread.Start and share your data between the current thread and the initiating thread.
Here is a good example:
How to share data between different threads In C# using AOP?
Or you can use BackgroundWorker which has ReportProgress
What you need is System.Windows.Threading.Dispatcher's BeginInvoke method. You can't directly modify a WPF object from your background thread, however you can dispatch a delegate to do that.
In your derived Window class object you have the Property Dispatcher, so you use it as follows:
Dispatcher.BeginInvoke(
DispatcherPriority.Normal,
(status) => { StatusTextBox.Text = status },
thestatus
);
I'm sorry that I can't test that currently and I don't have the project here, where I did that. But I'm sure it will work, good luck ;)
Update: Oops, you're using Form's... I've written about WPF, sorry.
I am currently writing my first program on C# and I am extremely new to the language (used to only work with C so far). I have done a lot of research, but all answers were too general and I simply couldn't get it t work.
So here my (very common) problem:
I have a WPF application which takes inputs from a few textboxes filled by the user and then uses that to do a lot of calculations with them. They should take around 2-3 minutes, so I would like to update a progress bar and a textblock telling me what the current status is.
Also I need to store the UI inputs from the user and give them to the thread, so I have a third class, which I use to create an object and would like to pass this object to the background thread.
Obviously I would run the calculations in another thread, so the UI doesn't freeze, but I don't know how to update the UI, since all the calculation methods are part of another class.
After a lot of reasearch I think the best method to go with would be using dispatchers and TPL and not a backgroundworker, but honestly I am not sure how they work and after around 20 hours of trial and error with other answers, I decided to ask a question myself.
Here a very simple structure of my program:
public partial class MainWindow : Window
{
public MainWindow()
{
Initialize Component();
}
private void startCalc(object sender, RoutedEventArgs e)
{
inputValues input = new inputValues();
calcClass calculations = new calcClass();
try
{
input.pota = Convert.ToDouble(aVar.Text);
input.potb = Convert.ToDouble(bVar.Text);
input.potc = Convert.ToDouble(cVar.Text);
input.potd = Convert.ToDouble(dVar.Text);
input.potf = Convert.ToDouble(fVar.Text);
input.potA = Convert.ToDouble(AVar.Text);
input.potB = Convert.ToDouble(BVar.Text);
input.initStart = Convert.ToDouble(initStart.Text);
input.initEnd = Convert.ToDouble(initEnd.Text);
input.inita = Convert.ToDouble(inita.Text);
input.initb = Convert.ToDouble(initb.Text);
input.initc = Convert.ToDouble(initb.Text);
}
catch
{
MessageBox.Show("Some input values are not of the expected Type.", "Wrong Input", MessageBoxButton.OK, MessageBoxImage.Error);
}
Thread calcthread = new Thread(new ParameterizedThreadStart(calculations.testMethod);
calcthread.Start(input);
}
public class inputValues
{
public double pota, potb, potc, potd, potf, potA, potB;
public double initStart, initEnd, inita, initb, initc;
}
public class calcClass
{
public void testmethod(inputValues input)
{
Thread.CurrentThread.Priority = ThreadPriority.Lowest;
int i;
//the input object will be used somehow, but that doesn't matter for my problem
for (i = 0; i < 1000; i++)
{
Thread.Sleep(10);
}
}
}
I would be very grateful if someone had a simple explanation how to update the UI from inside the testmethod. Since I am new to C# and object oriented programming, too complicated answers I will very likely not understand, I'll do my best though.
Also if someone has a better idea in general (maybe using backgroundworker or anything else) I am open to see it.
First you need to use Dispatcher.Invoke to change the UI from another thread and to do that from another class, you can use events.
Then you can register to that event(s) in the main class and Dispatch the changes to the UI and in the calculation class you throw the event when you want to notify the UI:
class MainWindow : Window
{
private void startCalc()
{
//your code
CalcClass calc = new CalcClass();
calc.ProgressUpdate += (s, e) => {
Dispatcher.Invoke((Action)delegate() { /* update UI */ });
};
Thread calcthread = new Thread(new ParameterizedThreadStart(calc.testMethod));
calcthread.Start(input);
}
}
class CalcClass
{
public event EventHandler ProgressUpdate;
public void testMethod(object input)
{
//part 1
if(ProgressUpdate != null)
ProgressUpdate(this, new YourEventArgs(status));
//part 2
}
}
UPDATE:
As it seems this is still an often visited question and answer I want to update this answer with how I would do it now (with .NET 4.5) - this is a little longer as I will show some different possibilities:
class MainWindow : Window
{
Task calcTask = null;
void buttonStartCalc_Clicked(object sender, EventArgs e) { StartCalc(); } // #1
async void buttonDoCalc_Clicked(object sender, EventArgs e) // #2
{
await CalcAsync(); // #2
}
void StartCalc()
{
var calc = PrepareCalc();
calcTask = Task.Run(() => calc.TestMethod(input)); // #3
}
Task CalcAsync()
{
var calc = PrepareCalc();
return Task.Run(() => calc.TestMethod(input)); // #4
}
CalcClass PrepareCalc()
{
//your code
var calc = new CalcClass();
calc.ProgressUpdate += (s, e) => Dispatcher.Invoke((Action)delegate()
{
// update UI
});
return calc;
}
}
class CalcClass
{
public event EventHandler<EventArgs<YourStatus>> ProgressUpdate; // #5
public TestMethod(InputValues input)
{
//part 1
ProgressUpdate.Raise(this, status); // #6 - status is of type YourStatus
// alternative version to the extension for C# 6+:
ProgressUpdate?.Invoke(this, new EventArgs<YourStatus>(status));
//part 2
}
}
static class EventExtensions
{
public static void Raise<T>(this EventHandler<EventArgs<T>> theEvent,
object sender, T args)
{
if (theEvent != null)
theEvent(sender, new EventArgs<T>(args));
}
}
#1) How to start the "synchronous" calculations and run them in the background
#2) How to start it "asynchronous" and "await it": Here the calculation is executed and completed before the method returns, but because of the async/await the UI is not blocked (BTW: such event handlers are the only valid usages of async void as the event handler must return void - use async Task in all other cases)
#3) Instead of a new Thread we now use a Task. To later be able to check its (successfull) completion we save it in the global calcTask member. In the background this also starts a new thread and runs the action there, but it is much easier to handle and has some other benefits.
#4) Here we also start the action, but this time we return the task, so the "async event handler" can "await it". We could also create async Task CalcAsync() and then await Task.Run(() => calc.TestMethod(input)).ConfigureAwait(false); (FYI: the ConfigureAwait(false) is to avoid deadlocks, you should read up on this if you use async/await as it would be to much to explain here) which would result in the same workflow, but as the Task.Run is the only "awaitable operation" and is the last one we can simply return the task and save one context switch, which saves some execution time.
#5) Here I now use a "strongly typed generic event" so we can pass and receive our "status object" easily
#6) Here I use the extension defined below, which (aside from ease of use) solve the possible race condition in the old example. There it could have happened that the event got null after the if-check, but before the call if the event handler was removed in another thread at just that moment. This can't happen here, as the extensions gets a "copy" of the event delegate and in the same situation the handler is still registered inside the Raise method.
I am going to throw you a curve ball here. If I have said it once I have said it a hundred times. Marshaling operations like Invoke or BeginInvoke are not always the best methods for updating the UI with worker thread progress.
In this case it usually works better to have the worker thread publish its progress information to a shared data structure that the UI thread then polls at regular intervals. This has several advantages.
It breaks the tight coupling between the UI and worker thread that Invoke imposes.
The UI thread gets to dictate when the UI controls get updated...the way it should be anyway when you really think about it.
There is no risk of overrunning the UI message queue as would be the case if BeginInvoke were used from the worker thread.
The worker thread does not have to wait for a response from the UI thread as would be the case with Invoke.
You get more throughput on both the UI and worker threads.
Invoke and BeginInvoke are expensive operations.
So in your calcClass create a data structure that will hold the progress information.
public class calcClass
{
private double percentComplete = 0;
public double PercentComplete
{
get
{
// Do a thread-safe read here.
return Interlocked.CompareExchange(ref percentComplete, 0, 0);
}
}
public testMethod(object input)
{
int count = 1000;
for (int i = 0; i < count; i++)
{
Thread.Sleep(10);
double newvalue = ((double)i + 1) / (double)count;
Interlocked.Exchange(ref percentComplete, newvalue);
}
}
}
Then in your MainWindow class use a DispatcherTimer to periodically poll the progress information. Configure the DispatcherTimer to raise the Tick event on whatever interval is most appropriate for your situation.
public partial class MainWindow : Window
{
public void YourDispatcherTimer_Tick(object sender, EventArgs args)
{
YourProgressBar.Value = calculation.PercentComplete;
}
}
You're right that you should use the Dispatcher to update controls on the UI thread, and also right that long-running processes should not run on the UI thread. Even if you run the long-running process asynchronously on the UI thread, it can still cause performance issues.
It should be noted that Dispatcher.CurrentDispatcher will return the dispatcher for the current thread, not necessarily the UI thread. I think you can use Application.Current.Dispatcher to get a reference to the UI thread's dispatcher if that's available to you, but if not you'll have to pass the UI dispatcher in to your background thread.
Typically I use the Task Parallel Library for threading operations instead of a BackgroundWorker. I just find it easier to use.
For example,
Task.Factory.StartNew(() =>
SomeObject.RunLongProcess(someDataObject));
where
void RunLongProcess(SomeViewModel someDataObject)
{
for (int i = 0; i <= 1000; i++)
{
Thread.Sleep(10);
// Update every 10 executions
if (i % 10 == 0)
{
// Send message to UI thread
Application.Current.Dispatcher.BeginInvoke(
DispatcherPriority.Normal,
(Action)(() => someDataObject.ProgressValue = (i / 1000)));
}
}
}
Everything that interacts with the UI must be called in the UI thread (unless it is a frozen object). To do that, you can use the dispatcher.
var disp = /* Get the UI dispatcher, each WPF object has a dispatcher which you can query*/
disp.BeginInvoke(DispatcherPriority.Normal,
(Action)(() => /*Do your UI Stuff here*/));
I use BeginInvoke here, usually a backgroundworker doesn't need to wait that the UI updates. If you want to wait, you can use Invoke. But you should be careful not to call BeginInvoke to fast to often, this can get really nasty.
By the way, The BackgroundWorker class helps with this kind of taks. It allows Reporting changes, like a percentage and dispatches this automatically from the Background thread into the ui thread. For the most thread <> update ui tasks the BackgroundWorker is a great tool.
If this is a long calculation then I would go background worker. It has progress support. It also has support for cancel.
http://msdn.microsoft.com/en-us/library/cc221403(v=VS.95).aspx
Here I have a TextBox bound to contents.
private void backgroundWorker_RunWorkerCompleted(object sender, RunWorkerCompletedEventArgs e)
{
Debug.Write("backgroundWorker_RunWorkerCompleted");
if (e.Cancelled)
{
contents = "Cancelled get contents.";
NotifyPropertyChanged("Contents");
}
else if (e.Error != null)
{
contents = "An Error Occured in get contents";
NotifyPropertyChanged("Contents");
}
else
{
contents = (string)e.Result;
if (contentTabSelectd) NotifyPropertyChanged("Contents");
}
}
You are going to have to come back to your main thread (also called UI thread) in order to update the UI.
Any other thread trying to update your UI will just cause exceptions to be thrown all over the place.
So because you are in WPF, you can use the Dispatcher and more specifically a beginInvoke on this dispatcher. This will allow you to execute what needs done (typically Update the UI) in the UI thread.
You migh also want to "register" the UI in your business, by maintaining a reference to a control/form, so you can use its dispatcher.
Thank God, Microsoft got that figured out in WPF :)
Every Control, like a progress bar, button, form, etc. has a Dispatcher on it. You can give the Dispatcher an Action that needs to be performed, and it will automatically call it on the correct thread (an Action is like a function delegate).
You can find an example here.
Of course, you'll have to have the control accessible from other classes, e.g. by making it public and handing a reference to the Window to your other class, or maybe by passing a reference only to the progress bar.
Felt the need to add this better answer, as nothing except BackgroundWorker seemed to help me, and the answer dealing with that thus far was woefully incomplete. This is how you would update a XAML page called MainWindow that has an Image tag like this:
<Image Name="imgNtwkInd" Source="Images/network_on.jpg" Width="50" />
with a BackgroundWorker process to show if you are connected to the network or not:
using System.ComponentModel;
using System.Windows;
using System.Windows.Controls;
public partial class MainWindow : Window
{
private BackgroundWorker bw = new BackgroundWorker();
public MainWindow()
{
InitializeComponent();
// Set up background worker to allow progress reporting and cancellation
bw.WorkerReportsProgress = true;
bw.WorkerSupportsCancellation = true;
// This is your main work process that records progress
bw.DoWork += new DoWorkEventHandler(SomeClass.DoWork);
// This will update your page based on that progress
bw.ProgressChanged += new ProgressChangedEventHandler(bw_ProgressChanged);
// This starts your background worker and "DoWork()"
bw.RunWorkerAsync();
// When this page closes, this will run and cancel your background worker
this.Closing += new CancelEventHandler(Page_Unload);
}
private void bw_ProgressChanged(object sender, ProgressChangedEventArgs e)
{
BitmapImage bImg = new BitmapImage();
bool connected = false;
string response = e.ProgressPercentage.ToString(); // will either be 1 or 0 for true/false -- this is the result recorded in DoWork()
if (response == "1")
connected = true;
// Do something with the result we got
if (!connected)
{
bImg.BeginInit();
bImg.UriSource = new Uri("Images/network_off.jpg", UriKind.Relative);
bImg.EndInit();
imgNtwkInd.Source = bImg;
}
else
{
bImg.BeginInit();
bImg.UriSource = new Uri("Images/network_on.jpg", UriKind.Relative);
bImg.EndInit();
imgNtwkInd.Source = bImg;
}
}
private void Page_Unload(object sender, CancelEventArgs e)
{
bw.CancelAsync(); // stops the background worker when unloading the page
}
}
public class SomeClass
{
public static bool connected = false;
public void DoWork(object sender, DoWorkEventArgs e)
{
BackgroundWorker bw = sender as BackgroundWorker;
int i = 0;
do
{
connected = CheckConn(); // do some task and get the result
if (bw.CancellationPending == true)
{
e.Cancel = true;
break;
}
else
{
Thread.Sleep(1000);
// Record your result here
if (connected)
bw.ReportProgress(1);
else
bw.ReportProgress(0);
}
}
while (i == 0);
}
private static bool CheckConn()
{
bool conn = false;
Ping png = new Ping();
string host = "SomeComputerNameHere";
try
{
PingReply pngReply = png.Send(host);
if (pngReply.Status == IPStatus.Success)
conn = true;
}
catch (PingException ex)
{
// write exception to log
}
return conn;
}
}
For more information: https://msdn.microsoft.com/en-us/library/cc221403(v=VS.95).aspx
It is a cross threaded operation in windows application done in c#, How can i change it ?
You can write a method which you can call from any thread:
private void SetLabel(string newText)
{
Invoke(new Action(() => SomeLabel.Text = NewText));
}
Then you can just call SetLabel("Update the label, please") from any thread.
However, your question title states “from another Form” rather than “from another thread”, so it is unclear what you actually mean. You don’t need multithreading if you just want to have multiple forms. You should use threads only for tasks, e.g. downloading a file, copying a file, calculating a value, etc., but not for Forms.
You need to use a delegate and invoke...
private delegate void SetLabelSub(string NewText);
private void SetLabel(string NewText)
{
if (this.InvokeRequired()) {
SetLabelSub Del = new SetLabelSub(SetLabel);
this.Invoke(Del, new object[] { NewText });
} else {
SomeLabel.Text = NewText;
}
}
Then you can just call SetLabel("New Text Here") from any thread
How about writing a more general method to change the Text property of any control in your form like:
private void SetText(Control control, string text)
{
if (control.InvokeRequired)
this.Invoke(new Action<Control>((c) => c.Text = text),control);
else
control.Text = newText;
}
This will work for labels, buttons, etc, from either the UI thread or any other thread.
If you're dealing with threads you need to use the form.Invoke() method, assuming you're passing the form instance into the other form.roughly
Form form1 = new Form()
Form form2 = new Form();
form2.CallingForm = form1; // make this property or what ever
inside form2 add some code like
form1.Invoke(someDelagate, value);
I don't do winforms that often but if you google form.Invoke you'll get some good examples of how to do cross thread operations.
Hi all i have a thread that is able to read data being received across from bluetooth stream. On the sender part i made it a while loop where count keeps on increasing + 1. I did a messagebox.show(test); and it works fine but when i do a label.text = test i get :
"Control.Invoke must be used to interact with controls created on a separate thread." error. My follow code in C# :
Thread t = new Thread(new ThreadStart(readStream));
t.Start();
public void readStream()
{
while (true)
{
String test = manager.Reader.ReadLine();
label1.Text = test;
}
}
My question is , how do i update the label in a thread? Any simple ways with control invoke?
Hello here is an example how to do this:
http://msdn.microsoft.com/en-us/library/ms171728.aspx
You should use a function similar to this one if you want to update a label from another thread. You cannot update it directly.
In short: you should write something like this:
delegate void SetTextCallback(string text);
private void SetText(string text)
{
// InvokeRequired required compares the thread ID of the
// calling thread to the thread ID of the creating thread.
// If these threads are different, it returns true.
if (this.textBox1.InvokeRequired)
{
SetTextCallback d = new SetTextCallback(SetText);
this.Invoke(d, new object[] { text });
}
else
{
this.textBox1.Text = text;
}
}