I have an dynamic List of Point, new Point can be added at any time. I want to draw lines to connect them using different color. Color is based on the index of those points. Here is the code:
private List<Point> _points;
private static Pen pen1 = new Pen(Color.Red, 10);
private static Pen pen2 = new Pen(Color.Yellow, 10);
private static Pen pen3 = new Pen(Color.Blue, 10);
private static Pen pen4 = new Pen(Color.Green, 10);
private void Init()
{
// use fixed 80 for simpicity
_points = new List<Point>(80);
for (int i = 0; i < 80; i++)
{
_points.Add(new Point(30 + i * 10, 30));
}
}
private void DrawLinesNormal(PaintEventArgs e)
{
for (int i = 0; i < _points.Count-1; i++)
{
if (i < 20)
e.Graphics.DrawLine(pen1, _points[i], _points[i + 1]);
else if (i < 40)
e.Graphics.DrawLine(pen2, _points[i], _points[i + 1]);
else if (i < 60)
e.Graphics.DrawLine(pen3, _points[i], _points[i + 1]);
else
e.Graphics.DrawLine(pen4, _points[i], _points[i + 1]);
}
}
I find this method is not fast enough when I have new points coming in at a high speed. Is there any way to make it faster? I did some research and someone said using GraphicsPath could be faster, but how?
[UPDATE] I collect some possible optimizations:
- Using GrahpicsPath, Original Question
- Change Graphics quality ( such as SmoothingMode/PixelOffsetMode...), also call SetClip to specify the only necessary region to rende开发者_运维技巧r.
You won't be able to squeeze much more speed out of that code without losing quality or changing to a faster renderer (GDI, OpenGL, DirectX). But GDI will often be quite a bit faster (maybe 2x), and DirectX/OpenGL can be much faster (maybe 10x), depending on what you're drawing.
The idea of using a Path is that you batch many (in your example, 20) lines into a single method call, rather than calling DrawLine 20 times. This will only benefit you if you can arrange the incoming data into the correct list-of-points format for the drawing routine. Otherwise, you will have to copy the points into the correct data structure and this will waste a lot of the time that you are gaining by batching into a path. In the case of DrawPath, you may have to create a GraphicsPath from an array of points, which may result in no time saved. But if you have to draw the same path more than once, you can cache it, and you may then see a net benefit.
If new points are added to the list, but old ones are not removed (i.e. you are always just adding new lines to the display) then you would be able to use an offscreen bitmap to store the lines rendered so far. That way each time a point is added, you draw one line, rather than drawing all 80 lines every time.
It all depends on exactly what you're trying to do.
Doesn't really help to improve performance, but i would put the pens also into a list and writing all this lines in this way:
int ratio = _points.Count / _pens.Count;
for (int i = 0; i < _points.Count - 1; i++)
{
e.Graphics.DrawLine(_pens[i / ratio], _points[i], _points[i + 1]);
}
This is about as fast as you're going to get with System.Drawing. You might see a bit of gain using Graphics.DrawLines()
, but you'd need to format your data differently to get the advantage of drawing a bunch of lines at once with the same pen. I seriously doubt GraphicsPath
will be faster.
One sure way to improve speed is to reduce the quality of the output. Set Graphics.InterpolationMode
to InterpolationMode.Low
, Graphics.CompositingQuality
to CompositingQuality.HighSpeed
, Graphics.SmoothingMode
to SmoothingMode.HighSpeed
, Graphics.PixelOffsetMode
to PixelOffsetMode.HighSpeed
and Graphics.CompositingMode
to CompositingMode.SourceCopy
.
I remember a speed test once where someone compared Graphics to P/Invoke into GDI routines, and was quite surprised by the much faster P/Invoke speeds. You might check that out. I'll see if I can find that comparison... Apparently this was for the Compact Framework, so it likely doesn't hold for a PC.
The other way to go is to use Direct2D, which can be faster yet than GDI, if you have the right hardware.
Too late, but possibly somebody still need a solution.
I've created small library GLGDI+ with similiar (but not full/equal) GDI+ syntax, which run upon OpenTK: http://code.google.com/p/glgdiplus/
I'm not sure about stability, it has some issues with DrawString (problem with TextPrint from OpenTK). But if you need performance boost for your utility (like level editor in my case) it can be solution.
You might wanna look into the Brush object, and it's true that you won't get near real-time performance out of a GDI+ program, but you can easily maintain a decent fps as long as the geometry and number of objects stay within reasonable bounds. As for line drawing, I don't see why not.
But if you reach the point where you doing what you think is optimal, and all that is, drawing lines.. you should consider a different graphics stack, and if you like .NET but have issues with unmanaged APIs like OpenGL and DirectX, go with WPF or Silverlight, it's quite powerful.
Anyway, you could try setting up a System.Drawing.Drawing2D.GraphicsPath and then using a System.Drawing.Drawing2D.PathGradientBrush to a apply the colors this way. That's a single buffered draw call and if you can't get enough performance out of that. You'll have to go with something other entirely than GDI+
Not GDI(+) at all, but a completely different way to tackle this could be to work with a block of memory, draw your lines into there, convert it to a Bitmap
object to instantly paint where you need to show your lines.
Of course this hinges in the extreme on fast ways to
- draw lines of given color in the memory representation of choice and
- convert that to the
Bitmap
to show.
Not in the .NET Framework, I think, but perhaps in a third party library? Isn't there a bitmap writer of sorts in Silverlight for stuff like this? (Not into Silverlight myself that much yet...)
At least it might be an out of the box way to approach this. Hope it helps.
I think you have to dispose pen object and e.Graphics object after drawing. One more thing it is better if you write your drawLine code inside onPaint().
just override onPaint() method it support better drawing and fast too.
精彩评论