I'd been searching for it for like an hour and I didn't find any result on that: When I am programming some methods I pretty often run into situation when a method needs to repeat some fragments. I know it is bad to just copy these.

What I want to do is to get some code into for example `Action<>`

or `Func<>`

and use it in different places in my code. The problem is, I cannot use any `this.`

properties. Visual studio suggest to declare something like `var thisForAction = this;`

and use this local variable. Is it really the only way around?

Thanks in advance :)

// EDIT: That's my solution so far

```
struct TransformationMod
{
public Nullable<float> Rotation;
public Nullable<Vector2D> Position;
public Nullable<Vector2> Scale;
public struct Origin
{
public Vector2D Point; // if not Absolute, then 0 <= x,y <= 1
public bool HasAbsoluteCoordinates;
}
public Nullable<Origin> RotationOrigin;
public bool Absolute;
public Transformation Perform(Transformation On)
{
Transformation result = On;
float rotationBefore = result.Rotation;
Action<Origin?> HandleRotationOrigin =
delegate(Origin? RotationOrigin)
{
if (RotationOrigin.HasValue)
{
// We need to change position to a new one - produced by rotation around a spacified origin
// http://www.gamefromscratch.com/post/2012/11/24/GameDev-math-recipes-Rotating-one-point-around-another-point.aspx
// counting center of rotation
Vector2D center;
center = RotationOrigin.Value.Point;
if (!RotationOrigin.Value.HasAbsoluteCoordinates)
{
// check with lines below if() and the link provided. Also from stackoverflow:
/*
float s = sin(angle);
float c = cos(angle);
// translate point back to origin:
p.x -= cx;
p.y -= cy;
// rotate point
float xnew = p.x * c - p.y * s;
float ynew = p.x * s + p.y * c;
// translate point back:
p.x = xnew + cx;
p.y = ynew + cy;
*/
// we rotate an ABSOLUTE angle, not the difference
double sinx = Math.Sin(rotationBefore);
double cosx = Math.Cos(rotationBefore);
center.X *= result.Size.X;
center.Y *= result.Size.Y;
double tmpCenX = cosx * center.X - sinx * center.Y;
center.Y = sinx * center.X + cosx * center.Y;
center.X = tmpCenX;
center += result.Position;
}
// counting rotation
double cos, sin;
cos = Math.Cos(result.Rotation - rotationBefore);
sin = Math.Sin(result.Rotation - rotationBefore);
result.Position.X -= center.X;
result.Position.Y -= center.Y;
double tmpPosX = cos * result.Position.X - sin * result.Position.Y;
result.Position.Y = sin * result.Position.X + cos * result.Position.Y;
result.Position.X = tmpPosX;
result.Position.X += center.X;
result.Position.Y += center.Y;
}
};
if (Absolute)
{
if (Rotation.HasValue)
{
result.Rotation = Rotation.Value;
HandleRotationOrigin(RotationOrigin);
}
if (Position.HasValue)
result.Position = Position.Value;
if (Scale.HasValue)
result.Scale = Scale.Value;
}
else
{
if (Rotation.HasValue)
{
result.Rotation += Rotation.Value;
HandleRotationOrigin(RotationOrigin);
}
if (Position.HasValue)
result.Position += Position.Value;
if (Scale.HasValue)
result.Scale += Scale.Value;
}
return result;
}
```

I use a lot of local variablessounds like refactoring - aggregate them in struct/classes, abstract operations, create helper classes with static methods an so on. – Konrad Kokosa Nov 28 '13 at 23:10