I'm writing a 2d game and I have birds in a camera-space. I want to make them fly. So, I generate 3 ~random points. First one is left-upper side, second: middle-bottom, third: right-upper.

As a result I have 180deg rotated triangle.

To move a bird through the curve's path I have a t-parameter which is increased in each frame (render loop) by some delta.

The problem is that in different curves birds have different speed. If the triangle is "wide" (**1**) they are more slowly, if it's stretched by Y-coordinate (**2**), the speed is very fast.

But I want to make speed equal at different curves. It's logically, that I have to change `delta`

which is appended each frame for each curve.

I've tried to solve it like this:

Find the ~length of the curve by summing length of 2 vectors: `P1P2`

and `P2P3`

.

Than I've defined the speed for 1 virtual meter per frame. A little pseudocode:

```
float pixelsInMeter = 92.f; // One virtual meter equals to this number of pixels
float length = len(P1P2) + len(P2P3)
float speed = 0.0003f; // m/frame
// (length * speed) / etalon_length
float speedForTheCurve = toPixels( (toMeters(length) * speed) / 1.f);
// ...
// Each frame code:
t += speedForTheCurve;
Vector2 newPos = BezierQuadratic(t, P1, P2, P3);
```

But birds anyway have different speed. What's wrong? Or maybe there is a better way.

`1.f`

? What significance does that have? – Tyler Jandreau Feb 9 '13 at 20:05