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I've been racking my brain trying to figure out how to animate an effect. This is related to a question I asked on math.stackexchange.com.

http://math.stackexchange.com/questions/91120/equal-division-of-rectangles-to-make-total/

As a side note, I didn't implement the drawing algorithm that was defined on the question above -- instead using my own in order to change the perspective to make it look more condensed.

I've been able to draw a stationary 3d style effect, but I am having trouble wrapping my brain around the logic to make the lines below look like they are coming towards you.

enter image description here

My code is as follows,

        List<double> sizes = new List<double>();
        private void Form1_Load(object sender, EventArgs e)
        {
            for (int y = 1; y < 10; y++)
            {
                double s = ((240 / 2) / y) / 4;
                sizes.Add(s);
            }
            sizes.Add(0);
        }

        int offset = 0;
        private void button1_Click(object sender, EventArgs e)
        {
            Bitmap b = new Bitmap(320, 480);
            Graphics g = Graphics.FromImage(b);

            Color firstColor = Color.DarkGray;
            Color secondColor = Color.Gray;    
            Color c = firstColor;

            int yOffset = 0;
            for(int i = 0; i < sizes.Count; i++)
            {
                c = (i % 2 == 0) ? firstColor : secondColor;

                int y = (int)Math.Round(b.Height - yOffset - sizes[i]);
                int height = (int)Math.Round(sizes[i]);

                g.FillRectangle(new SolidBrush(c), new Rectangle(0, y + offset, b.Width, height + offset));
                yOffset += (int)sizes[i];
            }

            this.BackgroundImage = b;
            offset+=1;
        }

Each button click should cause the rectangles to resize and move closer. However, my rectangles aren't growing as they should. My logic draws fine, but simply doesn't work as far as moving goes.

So my question is:

Is there an existing algorithm for this effect that I am not aware of, or is this something pretty simple that I'm over thinking? Any help in correcting my logic or pointing me in the right direction would be very appreciated.

share|improve this question
    
Unrelated side note, you create three different disposable resources on each click. Try wrapping them in a "using" statement, and dispose of the old BackgroundImage when replacing it with a new one. –  Trevor Elliott Dec 14 '11 at 15:15
    
@Moozhe -- This is just throw away code (as noted by button1 and Form1) to get the logic in place, so I'm not really overly concerned about the performance. The final product will be developed in iOS. I'm just trying to hammer out the general drawing algorithm. :) –  George Johnston Dec 14 '11 at 15:16
    
@George I did what I can - there's my answer that might satisfy you –  Daniel Mošmondor Dec 14 '11 at 18:23

2 Answers 2

up vote 3 down vote accepted

Interesting...

(video of the answer here: http://youtu.be/estq62yz7v0)

I would do it like that:

First, drop all RECTANGLE drawing and draw your effect line by line. Like so:

for (int y=start;y<end;y++) 
{
    color = DetermineColorFor(y-start);
    DrawLine(left, y, right, y, color);
}

This is of course pseudo-code not to be troubled with GDI+ or something.

Everything is clear here, except on how to code DetermineColorFor() method. That method will have to return color of the line at specified PROJECTED height. projection diagram

Now, on the picture, you have:

  • you point of view (X) - didn't know how to draw an eye
  • red line (that's your screen - projection plane)
  • your background (alternating stripes at the bottom)
  • and few projecting lines that should help you devise the DetermineColorFor() method

Hint - use triangle similarity to go from screen coordinates to 'bar' coordinates.
Next hint - when you are in 'bar' coordinates, use modulo operator to determine color.

I'll add more hints if needed, but it would be great if you solved this on your own.


I was somehow inspired by the question, and have created a code for the solution. Here it is:

int _offset = 0;
double period = 20.0;
private void timer1_Tick(object sender, EventArgs e)
{
    for (int y = Height / 3; y < Height; y++)
    {
        using (Graphics g = CreateGraphics())
        {
            Pen p = new Pen(GetColorFor(y - Height / 3));
            g.DrawLine(p, 0, y, Width, y);
            p.Dispose();
        }
    }
    _offset++;
}

private Color GetColorFor(int y)
{
    double d = 10.0;
    double h = 20.0;
    double z = 0.0;
    if (y != 0)
    {
        z = d * h / (double)y + _offset;
    }
    double l = 128 + 127 * Math.Sin(z * 2.0 * Math.PI / period);
    return Color.FromArgb((int)l, (int)l, (int)l);
}

Experiment with:

  • d - distance from the eye to the projection screen
  • h - height of the eye from the 'bar'
  • period - stripe width on the 'bar'

I had a timer on the form and event properly hooked. Timer duration was 20ms.

share|improve this answer
    
Very cool solution -- however, is it possible to prevent the gradient effect and have the solid lines like in my screen shot in the original question? –  George Johnston Dec 14 '11 at 18:24
    
It is. But I won't serve it for you from this point :) experiment a little... –  Daniel Mošmondor Dec 14 '11 at 18:24
    
if (l <= 128) {l = 0;} else {l = 255;} =P –  George Johnston Dec 14 '11 at 18:33
    
Exactly :) you can even drop Sin() out, if you want some kind of speedup at that level. –  Daniel Mošmondor Dec 14 '11 at 18:34
    
Thanks for the help -- you thought of it from a completely different perspective. –  George Johnston Dec 14 '11 at 18:37

Considering that you're talking here about 2D rendering, as much as I understodd, to me it seems that you're gonna to reenvent the wheel. Cause what you need, IMHO; is use Matrix Transformations already available in GDI+ for 2D rendering.

Example of aplying it in GDI+ : GDI+ and MatrixTranformations

For this they use System.Drawing.Drawing2D.Matrix class, which is inside Graphics.

The best ever 2D rendering framework I ever used is Piccolo2D framework which I used with great success in big real production project. Definitely use this for your 2D rendering projects, but first you need to study it little bit.

Hope this helps.

share|improve this answer
    
Thanks -- but I'm looking for a algorithm to use that isn't framework specific. Even if I could implement it in .NET, I don't know how well I'd be able to move that over to iOS. –  George Johnston Dec 14 '11 at 15:23
    
@George: so definitely relay on Matrix tranformations of GDI+. They are not complicated, and much more reliable then just an algorithm, cause there are years of math behind that stuff. –  Tigran Dec 14 '11 at 15:25
    
You so don't need Matrix transformations of any kind. The problem is interesting and has to me tackled in 2d domain only. –  Daniel Mošmondor Dec 14 '11 at 15:56
    
@DanielMošmondor: you use 2D matrix transformations. MT is not only about 3D. Actually GDI+ Graphics matrix are for 2D transform –  Tigran Dec 14 '11 at 15:58
    
@Tigran yes, you are correct here, but I feel (gut feeling) that it should be solved by hacking, not mathematics. Let me try it in an answer form... –  Daniel Mošmondor Dec 14 '11 at 16:00

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