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I'd like to calculate all points in a circle. I already know I can calculate points using x = r * cos(theta) + x0, y = r * sin(theta) + y0 - however I was wondering if there is a nice way to find an appropriate step size for theta, based on the resolution of my pixel canvas (or LCD for me) and the radius of the circle.

This is the code I already have (_arange() is like range() but also takes a floating value for step):

def circle(x0, y0, r):
    step = 2 * math.pi / 1000
    for theta in _arange(0, 2 * math.pi, step):
        x = x0 + r * math.cos(theta)
        y = y0 + r * math.sin(theta)
        set(round(x), round(y))
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2 Answers 2

up vote 6 down vote accepted

It sounds like the midpoint circle algorithm may be more appropriate for what you want.

the midpoint circle algorithm is an algorithm used to determine the points needed for drawing a circle

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Short and clear answer. Nice! –  Rethunk Feb 19 '13 at 2:20
    
Perfect, thanks! This also lead me to a nicer algorithm (not involving trigonometry, since I'm on a microcontroller) for drawing lines. –  The Compiler Feb 19 '13 at 5:59

For a different approach, start with a square with vertices at (x0+-r,y0) and (x0,y0+-r) and recursively divide each edge at its midpoint and project it onto the circle. Stop recursion when an edge has length less than a pixel. Perhaps not the fastest algorithm but it does avoid trigonometry, though it requires square roots and divisions.

Here is some code in Lua that implements this strategy. As a bonus consequence of how the recursion is organized, it outputs points in correct circular order.

local tolerance=1e-2

local function explore(x0,y0,r,x1,y1,x2,y2)
    local x=x1+x2
    local y=y1+y2
    local s=r/math.sqrt(x^2+y^2)
    x=s*x
    y=s*y
    if math.sqrt((x1-x2)^2+(y1-y2)^2)<tolerance then
        print(x+x0,y+x0)
    else
        explore(x0,y0,r,x1,y1,x,y)
        explore(x0,y0,r,x,y,x2,y2)
    end
end

local function circle(x0,y0,r)
    explore(x0,y0,r,r,0,0,r)
    explore(x0,y0,r,0,r,-r,0)
    explore(x0,y0,r,-r,0,0,-r)
    explore(x0,y0,r,0,-r,r,0)
end

circle(0,0,2)
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