I'm having some trouble resizing an image just by dragging the mouse. I found an average resize method and now am trying to modify it to use the mouse instead of given values.

The way I'm doing it makes sense to me but maybe you guys can give me some better ideas. I'm basically using the distance between the current location of the mouse and the previous location of the mouse as the scaling factor. If the distance between the current mouse location and the center of of the image is less than the distance between previous mouse location and the center of the image then the image gets smaller, and vice-versa.

With the code below I'm getting an Argument Exception (invalid parameter) when creating the new bitmap with the new height and width and I really don't understand why... any ideas?

---------------------------------EDIT------------------------------------------------------

Ok, thanks to Aaronaught the exception problem has been fixed and I updated the code below. Now I'm having a problem making the resize look smooth and finding a way to keep it from distorting to the point that you can't recognize the picture after resizing it multiple times.

My idea for keeping it from distorting is to change it back to the original image when it is within a certain range of sizes; but I'm not too sure how I would make that work without it looking wierd. Here's the updated code:

```
private static Image resizeImage(Image imgToResize, System.Drawing.Point prevMouseLoc, System.Drawing.Point currentMouseLoc)
{
int sourceWidth = imgToResize.Width;
int sourceHeight = imgToResize.Height;
float dCurrCent = 0;
float dPrevCent = 0;
float dCurrPrev = 0;
bool increase = true;
System.Drawing.Point imgCenter = new System.Drawing.Point();
float nPercent = 0;
imgCenter.X = imgToResize.Width / 2;
imgCenter.Y = imgToResize.Height / 2;
// Calculating the distance between the current mouse location and the center of the image
dCurrCent = (float)Math.Sqrt(Math.Pow(currentMouseLoc.X - imgCenter.X, 2) + Math.Pow(currentMouseLoc.Y - imgCenter.Y, 2));
// Calculating the distance between the previous mouse location and the center of the image
dPrevCent = (float)Math.Sqrt(Math.Pow(prevMouseLoc.X - imgCenter.X, 2) + Math.Pow(prevMouseLoc.Y - imgCenter.Y, 2));
// Setting flag to increase or decrease size
if (dCurrCent >= dPrevCent)
{
increase = true;
}
else
{
increase = false;
}
// Calculating the scaling factor
dCurrPrev = nPercent = (float)Math.Sqrt(Math.Pow(currentMouseLoc.X - prevMouseLoc.X, 2) + Math.Pow(currentMouseLoc.Y - prevMouseLoc.Y, 2));
if (increase)
{
nPercent = (float)dCurrPrev;
}
else
{
nPercent = (float)(1 / dCurrPrev);
}
// Calculating the new height and width of the image
int destWidth = (int)(sourceWidth * nPercent);
int destHeight = (int)(sourceHeight * nPercent);
// Create new bitmap, resize image (within limites) and return it
if (nPercent != 0 && destWidth > 100 && destWidth < 600)
{
Bitmap b = new Bitmap(destWidth, destHeight);
Graphics g = Graphics.FromImage((Image)b);
g.InterpolationMode = InterpolationMode.HighQualityBicubic;
g.DrawImage(imgToResize, 0, 0, destWidth, destHeight);
g.Dispose();
return (Image)b;
}
else
return imgToResize;
}
```