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My tile engine is coming along. It can draw square, hexagonal and isometric staggered viewpoints. Where I'm struggling is with the isometric rotated (or diamond) viewpoint. Below is a picture of a 10x10 diamond map and the (simplified) code used to draw it. The tiles are 128x64.

for row = 0 to rowLimit

  for column = 0 to columnLimit

    x = column * (TileWidth/2) + (row * (TileWidth/2)) + Origin.X
    y = (column * (TileHeight/2)) - (row * (TileHeight/2)) + Origin.Y

    // Draw the tile's image
    buffer.Graphics.DrawPicture(Tiles(column, row).Image, x, y)

  next column

next row

// Draw the buffer to the canvas
g.DrawPicture(buffer, 0, 0)

I know that this will draw the contents of the whole of Tiles() and not just those visible on screen but I'm trying to get the basics first.

What I can't figure out is an easy way to convert x,y coordinates on the map to tile column,row coordinates. I tried to reverse:

x = column * (TileWidth/2) + (row * (TileWidth/2)) + Origin.X
y = (column * (TileHeight/2)) - (row * (TileHeight/2)) + Origin.Y

To work out column and row given x and y and came up with this:

column = ((x/2) - (Origin.X/2) + y + Origin.Y) / TileHeight
row = ((x/2) - (Origin.X/2) - y - Origin.Y) / TileHeight

But that doesn't seem to work. Can anyone think of a better way to do this? Is there a better way to transform a grid of rectangles into a diamond and back again (given that I know very little about matrices....).


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up vote 2 down vote accepted

I am not sure I can follow the details of your problem, but if you are just looking to solve your formulas for x and y in terms of column and row, then

column=(x + y - (Origin.X + Origin.Y))/TileWidth
row = (x - y - (Origin.X - Origin.Y))/TileHeight

The easiest way to get these expression is to first add the expressions for x and y and solve for column, then subtract them and solve for row.

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