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A simple XY line graph: The X axis will represent the complete range of possible rating percentages, from 0% on one end to 100% on the other. Specifically, the X value will represent our rating cut-off, or the minimum rating a transaction can have before it is no longer acceptable. The Y axis will show values from 0 to the total number of transactions that have come through. The Y value will represent the total number of transactions that have a rating greater than the current X value (or greater than or equal to the current X value, I haven't decided yet). No transactions will have come through when this graph is first drawn, so the graph will begin at "y=0x".

Let's say the first transaction comes through, with a rating of 40%. The rating of the transaction indicates that this transaction is acceptable if our rating cut-off is less than 40%. (... or less than or equal to 40%. Again, I haven't decided yet).

First, the Y axis will rescale to show the range of 0-1 (since 1 is the total number of transactions). Then the line will be modified to indicate that 0 transactions are acceptable from x=40 or more, and that 1 transaction is acceptable from x=40 or less. This is easy to accomplish in WPF by simply adding two points to the line path - one at (40,0) and the other at (40,1) - and then moving the line's left endpoint to (0,1). The line's right endpoint will remain at (100,0). This process can then be repeated for the second transaction, and so on.

The problem is that we will be dealing with six-digit quantities of transactions. and I want to make sure I am using WPF's hardware accelerated vector drawing capabilities to their fullest extent to ensure the graph doesn’t lag or freeze the rest of the program as it tries to render 300,000 points onto a single line path. Or is WPF supposed to be able to handle numbers like that in a heartbeat? I need to find a way to implement this graph without slowing the application to a halt. I have faith that WPF's vector drawing platform will provide a solution, but I don't know enough about how to exploit WPF to be certain that I am getting the most out of WPF's high-performance rendering capabilities.

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Let me know how it works out for you. – user65199 Sep 26 '09 at 11:06
This is an old question, but I'm wondering if you found a solution to your problem? Having spent quite a lot of time experimenting with high performance rendering in WPF, I found the highest performance could be achieved by not using WPF primitives at all, but by using the WriteableBitmap API. That or Direct2D. I'd be interested to hear your experiences either way. Best regards, – Dr. ABT Jan 4 '12 at 16:39
up vote 11 down vote accepted

I just stumbled upon this post and am building a line graph control myself that needs to be very performant as we update the points on our lines in a real-time manner.

If performance and number of Visual(s) are what you are after ... I doubt you will find a more performant approach than programming directly against WPF's Visual layer (links: 1, 2). My initial results from using this approach have been very positive.

This will be even more performant than overriding OnRender as it will encourage you to take advantage of WPF's retained mode drawing subsystem (where all the drawing instructions are cached).

That is, if all you have to update is a point on the line, then updating the point will force the line Visual to update but won't force the rest of the graph (axes, gridlines, ...) to update ... as the drawing instructions for these are retained and will be reused (since they aren't updating).

Chapter 14 in Pro WPF in C# 2008 by Matthew MacDonald has a great section (titled 'Visuals') on programming against WPF's Visual layer. Chapter 2 of WPF Control Development Unleashed also has section on page 13 where he discusses how a DrawingVisual approach would be perfect for a charting component. Finally, Charles Petzold wrote a MSDN Magazine article where the best overall solution to a scatter plot was a DrawingVisual approach.

(Now, I know that your question mentioned the axes will also be updating ... and so my answer is really for the general case ... but I still think that this approach will be the most performant ... as only the things that need updating ... will update.)

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This makes perfect sense, and is a perfect description of the approach that I am currently attempting. The graph I was building back in June was designed using Paul Betts's suggestion. But I've been building another similar graph more recently, and this solution seems to work great. All I do is update only the fewest number of objects possible (in my IValueConverter), and the WPF visual layer seems to be able to handle the rest without incident. – Giffyguy Sep 26 '09 at 18:02
Wonderful! Glad to hear it! – cplotts Sep 26 '09 at 19:31
@Giffyguy: Are you still rendering 300,000 data points or have you reduced them? Are these data points all visible on one screen or do you have to scroll? – user65199 Sep 27 '09 at 8:59
If this approach doesn't work for you, try using an Image control with a dynamically generated DrawingImage. As I mention in stackoverflow.com/questions/952657/…, Pavan Podila mentions that this approach scales quite well ... and might help you out if you don't have to interact with the points ... and even then you can get smart about it. See page 25 of his WPF Control Development Unleashed book for more info. – cplotts Oct 17 '09 at 0:09

If you want it to be fast, the best way is to derive from Control and implement OnRender - normally this isn't necessary, but for your application it might be.

Also, let's take a step back - the screen you're rendering to certainly isn't 300k pixels across; before you go to render, reduce the buffer by averaging n nodes into one until you've got something closer to the resolution of the actual device, then draw it on-screen.

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OnRender may be more performant than some approaches ... but be careful about trying to drive WPF in an immediate mode manner (which overriding OnRender might encourage you to do) ... WPF is a retained mode composition system. I myself have been bitten by doing just this. – cplotts Sep 25 '09 at 16:47
+1 for the idea to minimize the points on the line based on the resolution of the device. Very smart. – cplotts Sep 25 '09 at 17:08
Reducing the number of points is more of a hack than anything with WPF since the host may be rescaled (zoomed in/out) and the visuals have no way of knowing their true size on the screen. – user65199 Sep 26 '09 at 12:50
Hermann makes an excellent point. Combined with the fact that the scale of my graph is completely dependent on the accuracy of the point set, I feel like I need to make sure to keep all the points, regardless of final resolution – Giffyguy Sep 26 '09 at 17:44
If you're zooming in, then many of the points are offscreen; the first thing they teach you in GPU programming is, "The fastest object is the one you don't draw". If you're zoomed in, you should be dropping all the points in the buffer that aren't in the visible range, and you still might have to reduce it. I'm not saying you should destroy the original buffer, just make a reduced copy before passing it off to the view. – Paul Betts Sep 26 '09 at 23:08

I do not know the answer, but coding up a quick test shouldn't take much longer than it did for you to post. Also, see this thread for a similar discussion.

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It might be worth having a look at the WPF DynamicDataDisplay library. I've been using it recently and haven't any problems with large amounts of data. It's only an early version (0.3 in fact) so there's not much documentation, but it does have samples showing how to use it. Hopefully that'll be enough to get you started.

The SimulationSample generates lots of data, so that should be a good place to start.

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Do you know how WPF DynamicDataDisplay is implemented? Does it use Visuals? – user65199 Sep 26 '09 at 10:46
Interesting, for sure. But so far this sounds like it's more centered around dynamic data rather than dynamic display. I doubt it'll be much use for custom visual output, designed by the data creator. – Giffyguy Sep 26 '09 at 17:49
They have different chart types for different needs. Some people are working on DirectX Line Graph contribution which should be fast. They have a chart that uses a DrawingContext directly which is the quickest so far. Anything that uses the retentive system will be too slow for 300k distinct datapoints (if you want to render them all) – Adam Mills Jul 4 '11 at 14:31

If you aren't using .NET 3.5 SP1 just don't use any of the shader effects. Otherwise there isn't much you need to do as a WPF developer to ensure it uses hardware acceleration.

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Okay. But is this workload too much for it? I mean, rendering a model with that many points is quite a bit more than I have ever seen in my (albeit limited) modeling and rendering experience. – Giffyguy Jun 11 '09 at 18:49
I guess what I'm asking is: Should I go with a line path and add points as transactions come through, or should I be looking at yet another solution? – Giffyguy Jun 11 '09 at 18:51
Don't you mean bitmap effects? Instead of shader effects? – cplotts Sep 25 '09 at 17:10
Hmm ... I haven't even considered bitmap effects. I used to be engrossed in bitmap manipulation, back in my earlier days as a C++ 6.0 developer. I like to say I mastered the usage of MFC and GDI. But going back to bitmaps seems like a giant step backwards, when I'm trying to learn the WPF way of doing this rather than GDI. And since WPF provides such simplicity, with the Visual and Shape classes - I guess I may limit myself on how much pain I am willing to endure to speed this up. Trying to render this graph as a bitmap image sounds like WAY more hassle than it's worth. – Giffyguy Sep 26 '09 at 17:55
Bitmap effects (prior to .NET 3.5 SP1) were the source of performance problems ... since .NET 3.5 SP1 thunks bitmap effects down into actual GPU effects (in most cases) it is less of a problem now ... but then only 2 bitmap effects were offered as baked in GPU effects (drop shadow and blur). – cplotts Sep 26 '09 at 19:34

IMHO, Paul seems to be on the right track, check out the sections on map smoothing, some of the examples use results from the Florida 2000 election results (~9M votes 18+M total people) for data sets.

Along the lines of the thread from AgileJon, somewhat, I would use simply manually emit a bitmap if no straight forward technique was available to better depect your data set. I render visualizations of scatter plots that are easially 16 000 000 (16 Million+) in seconds, full 32bit ARGB pallette.

You seem to of remarked "But going back to bitmaps seems like a giant step backwards", I would not be so quick to say that, the universe is bound by physical limits.

I referred another post to this codeproject article, which does many tens of thousands of 3D plots + animation etc...

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