You mean the effect we can see at about 1:16 (and probably also at other times), when you choose stuff in the menus?

## Concept

As far as I can see, you can do this with simple rotations and scaling. So, if you do not want to make an animated gif (which you suppose it is), you can just do it inside your XNA code. Take a png or gif with alpha-channel (so that the non-text is transparent).

Then, when you draw it on the screen with `spriteBatch.draw()`

you can choose one of the overloads that support **scaling** and **rotation**.

Then you have to set:

- the rotation you want to have (which will be a rotation over time)
- the origin (to the center of the image)
- the scale (which will be scaling over time)

As the clock is sent to the `update()`

method as far as I remember XNA, we will have to update the rotation and scale of the image there. We need the clock, because we cannot just set `rotaton = 10°`

and XNA will handle everything for us. We have to calculate the current rotation in **each time step** ourselves. E.g. if a full rotation shall endure 10 seconds and 5 seconds have passed, then you know you have a half rotation. So we would tell XNA: `Set our rotation to 180° now`

, and in the next time step, we might tell: `Set our rotation to 190° now`

.

The basic concept is:

- Calculate how much part of rotation/scale we have done in the current time step
- Tell XNA to adjust this rotation/scale in this time step
- Iterate these two steps again and again

## Implementation

I think the best thing to do here, is using a sin() or cos() function for the scaling and rotation. The good things about them:

- they have positive and negative values as well (so we can easily rotate in both directions)
- they are smooth, meaning your rotation and scaling will not look too abrupt at the end of the rotation/scaling

I hope my maths is correct here. I will explain everything, so others can correct me if something is wrong. Or also you can find out, if something is wrong. We will use a sin() here, because it starts at 0, which in our case means that nothing should happen. That’s what we want: We want to begin at a situation where nothing happens.

Now, sin() has a cycle time of 2*PI. Of course, we do not want a scaling to last 2*PI, but rather something like 1000 milliseconds. We cannot change the definition of `Math.Sin()`

in C#, but we can change the value we throw inside. So when we mean 1000 milliseconds, we will give `Math.Sin()`

2PI and when we mean 500 milliseconds, we give it PI.

We would define these member variables:

```
// define some variables for rotation and scale speed, in milliseconds
int fullRotationTime = 1000; // max rotation will be reached after 1 second
float maxRotationAngle = MathHelper.ToRadians(10); // we will rotate by 10 degree up and down
int rotationTimePassed = 0;
float currentRotationAngle = 0;
int fullScaleTime = 1000; // max scale will be reached after 1 second
float maxScaleSize = 1.2f; // we will scale to 20% larger max
int scaleTimePassed = 0;
float currentScaleFactor = 1.0;
```

And in the `Update()`

method, we calculate how much of our rotation we already have done.

```
protected virtual void Update(GameTime gameTime)
{
int milliseconds = gameTime.ElapsedGameTime.TotalMilliseconds;
// these are the milliseconds in the current rotation
rotationTimePassed += milliseconds;
scaleTimePassed += milliseconds;
if (rotationTimePassed >= fullRotationTime)
rotationTimePassed %= fullRotationTime;
if (scaleTimePassed >= fullScaleTime)
scaleTimePassed %= fullScaleTime;
float rotationTimeAdjustedToTwoPi = ((float)rotationTimePassed)/fullRotationTime * 2* Math.PI);
currentRotationAngle = maxRotationAngle * Math.Sin(rotationTimeAdjustedToTwoPi);
// we do not want the scaling to be negative, thus we add 1 to the whole and
// divide by 2. Then the maximum will be 1 and the minimum 0
float scaleTimeAdjustedToTwoPi = ((float)scaleTimePassed)/fullScaleTime * 2* Math.PI);
currentScaleFactor = maxScaleSize * (Math.Sin(scaleTimeAdjustedToTwoPi) + 1)/2;
}
```

Then, in the `Draw()`

method we can take the values calculated before and display our rotated and scaled image.

```
protected virtual void Draw()
{
spriteBatch.Begin();
spriteBatch.Draw(texture,
new Vector2(50, 50),
null,
Color.White,
currentRotationAngle,
new Vector2(texture.width/2, texture.height/2),
currentScaleFactor,
SpriteEffects.None,
0
);
spriteBatch.End();
}
```

It’s not tested, so there might even be syntax errors, but I at least the basic idea should be correct and I think the important thing is that you understand **how** it can be done conceptually.

## Variable time steps

It’s easy to integrate the variable time steps *user1306322* has mentioned into the code above. We had these if-conditions where we checked if the current time-slice is over, like this: `if (rotationTimePassed >= fullRotationTime)`

.

Now it we want to make the time-slices variable length, just adjust a new time-slice based on a random number here. Like this:

```
var rand = new Random();
if (rotationTimePassed >= fullRotationTime)
{
rotationTimePassed %= fullRotationTime;
// next rotation might take between 0.5 and 2.5 seconds
fullRotationTime = rand.next(500, 2500);
}
```