Resize a Rectangle which is on an angle

I have a Rectangle which is an array of 4 Point structures. It can be rotated in place on any angle (0 to 360 degrees) and will draw properly.

The user can also drag a corner to resize the rectangle. For example, if they move the bottom-left point, it will also update the X coordinate of the upper-left point, and the Y coordinate of the lower-right point. In this way, it will always be a rectangle no matter which point they move.

``````Points[point] = newValue;

switch (point)
{
case TopLeft:
Points[BottomLeft].X = newValue.X;
Points[TopRight].Y = newValue.Y;
break;

case BottomRight:
Points[TopRight].X = newValue.X;
Points[BottomLeft].Y = newValue.Y;
break;

case BottomLeft:
Points[TopLeft].X = newValue.X;
Points[BottomRight].Y = newValue.Y;
break;

case TopRight:
Points[BottomRight].X = newValue.X;
Points[TopLeft].Y = newValue.Y;
break;
}
``````

Here I change any of the four points to the given input point (newValue), and then modify the linked points so that it stays a Rectangle shape.

However, I need to modify the above code to work if my rectangle is on an angle like this:

http://www.assembla.com/code/moozhe-testing/subversion/nodes/rotateRectangle

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Added sample code to an SVN repository linked above. It works except in certain conditions which I can't figure out how to isolate. – Trevor Elliott Sep 17 '11 at 19:02

I see 2 solutions. The first one theoretically works, but because of rounding, it ends up not working. I'll let the first solution there, but the second one is the good one.

In these samples, I'll call the 4 corners CornerA, B, C and D, named in a clockwise fashion. Let's say you're moving "CornerA" from a position `Point oldPoint` to position `Point newPoint`.

First solution :

1. Get the position delta
2. Do a projection of that delta on Side `sideAtoB` and add that vector to PointD.
3. Do a projection of that delta on Side `sideDtoA` and add that vector to PointB.
4. Set PointA to newPoint.

Second solution :

1. Get the vector linking the opposite corner to the moving corner's new position, let's call it "Diagonal".
2. Set B's position to "C + [Projection of Diagonal on sideAtoD].
3. Set D's position to "C + [Projection of Diagonal on sideAtoB].
4. Set PointA to newPoint.

Here is the code for that 2nd solution :

``````public class Rectangle
{
// Obviously, one would need to assign values to these points.
Point CornerA = new Point();
Point CornerB = new Point();
Point CornerC = new Point();
Point CornerD = new Point();
Dictionary<int, Point> points = new Dictionary<int, Point>();

public Rectangle()
{
}

public void MoveAPoint(int id, Point newPoint)
{
// Get the old point
Point oldPoint = points[id];
// Get the previous point
Point pointPrevious = points[(id + 3) % 4];
// Get the next point
Point pointNext = points[(id + 1) % 4];
// Get the opposite point
Point pointOpposite = points[(id + 2) % 4];
// Get the delta (variation) of the moving point
Point delta = newPoint.Substract(oldPoint);

// I call sides points, but they are actually vectors.
// Get side from 'oldPoint' to 'pointPrevious'.
Point sidePrevious = pointPrevious.Substract(oldPoint);

// Get side from 'oldPoint' to 'pointNext'.
Point sideNext = pointNext.Substract(oldPoint);

// Get side from 'pointOpposite' to 'newPoint'.
Point sideTransversal = newPoint.Substract(pointOpposite);

PointF previousProjection;
PointF nextProjection;

if (sideNext.X == 0 && sideNext.Y == 0)
{
if (sidePrevious.X == 0 && sidePrevious.Y == 0)
{
return;
}

sideNext = new PointF(-sidePrevious.Y, sidePrevious.X);
}
else
{
sidePrevious = new PointF(-sideNext.Y, sideNext.X);
}

Point previousProjection = Projection(delta, sidePrevious);
Point nextProjection = Projection(delta, sideNext);

oldPoint.SetToPoint(newPoint);
}

private static Point Projection(Point vectorA, Point vectorB)
{
Point vectorBUnit = new Point(vectorB.X, vectorB.Y);
vectorBUnit = vectorBUnit.Normalize();

decimal dotProduct = vectorA.X * vectorBUnit.X + vectorA.Y * vectorBUnit.Y;
return vectorBUnit.MultiplyByDecimal(dotProduct);
}
}

public static class ExtendPoint
{
public static Point Normalize(this Point pointA)
{
double length = Math.Sqrt(pointA.X * pointA.X + pointA.Y * pointA.Y);
return new Point(pointA.X / length, pointA.Y / length);
}

public static Point MultiplyByDecimal (this Point point, decimal length)
{
return new Point((int)(point.X * length), (int)(point.Y * length));
}

public static Point AddPoints(this Point firstPoint, Point secondPoint)
{
return new Point(firstPoint.X + secondPoint.X, firstPoint.Y + secondPoint.Y);
}

public static Point Substract(this Point firstPoint, Point secondPoint)
{
return new Point(firstPoint.X - secondPoint.X, firstPoint.Y - secondPoint.Y);
}

public static void SetToPoint(this Point oldPoint, Point newPoint)
{
oldPoint.X = newPoint.X;
oldPoint.Y = newPoint.Y;
}
}
``````
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Can you elaborate on what the Normalize extension is supposed to be doing? The function returns "new Point()" which should always be 0,0. Am I missing something? – Trevor Elliott Sep 16 '11 at 15:49
Assuming that you meant the Normalize() function to normalize the vector by dividing the vector x,y by the length, I have been able to get this to work however I do not know how to handle when the length is 0. – Trevor Elliott Sep 16 '11 at 16:51
lol, yes, it's supposed to transform the vector into a unit vector. My bad, I just wanted to remove the red in my VS :-P – Tipx Sep 16 '11 at 17:53
@Moozhe : I've found a solution, so I'll update my solution. However, if you stack the 4 points on one another, the "anchorPath.IsVisible(cursorPosition)" in the "OnMouseDown" will always return false so you won't be able to move the square again :-S – Tipx Sep 18 '11 at 14:49
@SaraSaeed: Yes, delta = newpoint - oldpoint. The second thing you saw was actually an error. I edited that code so often to find the right answer and I didn't notice that error. Thanks for these constructive feedbacks! – Tipx Nov 16 '11 at 18:11