# Isometric screen to map issue

Hi all i know that about isometric map a lot of advice but i've read most of them and did't solve my problem I rewrite code for C# for more simplicity (this code will be used on Android platform) I need to get screen cords to isometric coords

here we go i used 1:2 tiles for me 64x32, i build diamond map using this code

``````        private void drawIsoGrid(PaintEventArgs e)
{
for(int y=0;y<20;y++)
for(int x=0;x<20;x++)
{
float rx = (x - y) * (surface.Width) / 2 - globX;
float ry = (x + y) * (surface.Height) / 2 - globY;
e.Graphics.DrawImage(surface,rx,ry);
}
``````

i also use global anchor for scroll my map code here

``````        protected override void OnMouseMove(MouseEventArgs e)
{
mouseCoordsX = e.X;
mouseCoordsY = e.Y;
if(e.Button==MouseButtons.Left)
{
globX += prevX - e.X;
globY += prevY - e.Y;
this.Invalidate();
}
prevX = e.X;
prevY = e.Y;
}
``````

the main question is how to get tile under the mouse which formula will be usefull for me.

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Since this hasn't been answered, and it is one of the top results for "isometric screen" here, I figured I'd answer this (not to mention that I just finished this).

Since you have a function that maps from an iso grid to screen coordinates, and it's a linear transform with an inverse, we can just go backwards to get the other function. So let's do just that.

We want to go from:

``````rx = (x - y) * (surface.Width) / 2 - globX
ry = (x + y) * (surface.Height) / 2 - globY
``````

to:

``````x = <something>
y = <something>
``````

It's easiest to solve these at the same time. Add the globals to both sides:

``````rx + globX = (x - y) * (surface.Width) / 2
ry + globY = (x + y) * (surface.Height) / 2
``````

Divide by `(surface.Width) / 2` and `(surface.Height) / 2`:

``````(rx + globX) / (surface.Width / 2)  = x - y
(ry + globY) / (surface.Height / 2) = x + y
``````

Almost done, let's add both equations together to get rid of the `y`'s:

``````(rx + globX) / (surface.Width / 2) + (ry + globY) / (surface.Height / 2) = 2 * x
``````

Now to get rid of the x's subtract the first equation from the second:

``````(ry + globY) / (surface.Height / 2) - (rx + globX) / (surface.Width / 2) = 2 * y
``````

Divide both equations through by 2, and we're tentatively done:

``````x = ((rx + globX) / (surface.Width / 2) + (ry + globY) / (surface.Height / 2)) / 2
y = ((ry + globY) / (surface.Height / 2) - (rx + globX) / (surface.Width / 2)) / 2
``````

Cool, now you have the grid coordinates in terms of the screen. Let's clean some of this up, since we have basically `(a / (b / c)) / c` which is the same as `a / b`, we can get rid of the `c`'s, in this case the `2`'s:

``````x = (rx + globX) / surface.Width + (ry + globY) / surface.Height
y = (ry + globY) / surface.Height - (rx + globX) / surface.Width
``````

So you should be able to write up a function that takes the screen x and y positions and returns the x and y grid positions. I am not incredibly familiar with c# so I don't know how it handles float values that should be int's, but since you're running this on android, I suppose it doesn't really matter.

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