# Get curved result set rather than angular in JavaScript (maths help needed)

I've got a script that creates a gradient by shading cells based on their distance from a set of coordinates. What I want to do is make the gradient circular rather than the diamond shape that it currently is. You can see an en example here: http://jsbin.com/uwivev/9/edit

``````var row = 5, col = 5, total_rows = 20, total_cols = 20;

\$('table td').each(function(index, item) {

// Current row and column
var current_row = \$(item).parent().index(),
current_col = \$(item).index();

// Percentage based on location, always using positive numbers
var percentage_row = Math.abs(current_row-row)/total_rows;
var percentage_col = Math.abs(current_col-col)/total_cols;

// I'm thinking this is what I need to change to achieve the curve I'm after
var percentage = (percentage_col+percentage_row)/2;

});
``````

If you can give me hand with the right maths function to get the curve I'm after that would be great! Thanks!

Darren

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Why are you doing it like this? Why not use canvas? –  elclanrs Nov 11 '12 at 22:20

``````// Current row and column
var current_row = \$(item).parent().index(),
current_col = \$(item).index();

// distance away from the bright pixel
var dist = Math.sqrt(Math.pow(current_row - row, 2) + Math.pow(current_col - col, 2))

// do something with dist, you might change this
var percentage = dist / total_cols;

``````
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If I wanted to increase the severity of the curve, like in easeInQuart how could I do that to the gradient? Thanks! –  iamdarrenhall Nov 14 '12 at 12:09
Not exactly sure what you mean but you could try squaring dist or 1 - dist to get a quicker or slower light dropoff. –  James Nov 18 '12 at 20:53
Thanks, in the end I went with fade = percentage-(0.5-percentage); –  iamdarrenhall Nov 19 '12 at 10:41

You can use the square of the distance formula:

((current_row - row)*(current_row - row) + (current_col - col)*(current_col - col))

then multiply it by whatever scale factor you need.

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Here is a circle drawing procudure I wrote many moons ago in Pascal which you can use as pseudo code to understand how to color pixels at the radius from an (X,Y) and work your way in. Multiple shrinking circles should cover the entire area you need. The code also gives you the formula for accessing the radius.

`````` PROCEDURE DrawCircle(X,Y,Radius:Integer);
VAR A,B,Z:LongInt;
BEGIN
FOR B:=0 TO Z DO
BEGIN
PutPixel(X+A,Y+B,8);
PutPixel(X+A,Y-B,9);
PutPixel(X-A,Y+B,10);
PutPixel(X-A,Y-B,11);
PutPixel(X+B,Y+A,12);
PutPixel(X+B,Y-A,13);
PutPixel(X-B,Y+A,14);
PutPixel(X-B,Y-A,15);
END;
END;
``````

NB: "Longint()" is a compiler typecast for larger numeric computations so don't let that worry you.

NB: Inner-most brackets are executed first.

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