# Anti-aliased Arc Pygame

I am trying to code a simple circle timer in Python using Pygame. At the moment it looks like this:

As you can see, the blue line is very wavy and has white dots in it. I am achieving this blue line by using pygame.draw.arc() function, but it is not anti-aliased and looks bad. I would like it to be anti-aliased, but gfxdraw module which should let me achieve this, doesn't support arc width selection. Here's code snippet:

``````pygame.draw.arc(screen, blue, [center[0] - 120, center[1] - 120, 240, 240], pi/2, pi/2+pi*i*koef, 15)
pygame.gfxdraw.aacircle(screen, center[0], center[1], 105, black)
pygame.gfxdraw.aacircle(screen, center[0], center[1], 120, black)
``````

I am not aware of any pygame function that would solve this problem, meaning you basically have to program a solution yourself (or use something other than pygame), since `draw` is broken as you've noted and `gfxdraw` won't give you the thickness.

One very ugly but simple solution is to draw multiple times over the arc segments, always slightly shifted to "fill in" the missing gaps. This will still leave some aliasing at the very front of the timer arc, but the rest will be filled in.

``````import pygame
from pygame.locals import *
import pygame.gfxdraw
import math

# Screen size
SCREEN_HEIGHT = 350
SCREEN_WIDTH = 500

# Colors
BLACK = (0, 0, 0)
WHITE = (255, 255, 255)
GREY = (150, 150, 150)
RED = (255,0,0)

# initialisation
pygame.init()
screen = pygame.display.set_mode((SCREEN_WIDTH, SCREEN_HEIGHT))
done = False
clock = pygame.time.Clock()

# We need this if we want to be able to specify our
return deg/180.0 * math.pi

# Draw an arc that is a portion of a circle.
# We pass in screen and color,
# followed by a tuple (x,y) that is the center of the circle, and the radius.
# Next comes the start and ending angle on the "unit circle" (0 to 360)
#  of the circle we want to draw, and finally the thickness in pixels
(x,y) = center

# fill screen with background
screen.fill(WHITE)
center = [150, 200]
pygame.gfxdraw.aacircle(screen, center[0], center[1], 105, BLACK)
pygame.gfxdraw.aacircle(screen, center[0], center[1], 120, BLACK)

pygame.display.update()

step = 10
maxdeg = 0

while not done:
for event in pygame.event.get():
if event.type == pygame.QUIT:
done = True

maxdeg = maxdeg + step
for i in range(min(0,maxdeg-30),maxdeg):
drawCircleArc(screen,RED,(150,200),119,i+90,max(i+10,maxdeg)+90,14)
#+90 will shift it from starting at the right to starting (roughly) at the top
pygame.display.flip()

clock.tick(2)  # ensures a maximum of 60 frames per second

pygame.quit()
``````

Note that I have copied `degreesToRadians` and `drawCircleArc` from https://www.cs.ucsb.edu/~pconrad/cs5nm/08F/ex/ex09/drawCircleArcExample.py

I do not generally recommend this solution, but it might do in a pinch.

• That looks way better, but still isn't perfect. I will try to google or think about other possible solutions – Justas Sam Jul 1 '16 at 12:32
• Easiert way if you need to use pygame would be to just do it in a graphics program and blit the counter steps from a spritesheet. If you only need in it a handful places, a hand-written hack is probably not worth the effort. – Isa Jul 1 '16 at 12:56
• why not draw the next segment and then apply a flood fill? – Jean-François Fabre Jul 1 '16 at 13:07
• @Jean-FrançoisFabre how would you do the flood fill? Afaik pygame doesn't have a built-in function for that. You could use `pygame.gfxdraw.filled_polygon()`, but that would mean calculating the points for the polygon arc segment beforehand, which seemed arduous. – Isa Jul 1 '16 at 13:31
• In that case I would perform a forest-fire algorithm for the flood fill, but that could be cpu-consuming, unless it is pre-computed as you suggested earlier. – Jean-François Fabre Jul 1 '16 at 14:05

Ok, this is really old, but why not try to draw pies instead. For example draw a pie, then an unfilled circle as the outside ring and then a filled circle as the inside and another unfilled circle as the inside ring.

So `pie -> unfilled circle -> filled circle -> unfilled`.

The order is somewhat arbitrary but if u still have this problem give it a try. (Btw I haven't tried it but I think it will work)

I did it creating the arc with a polygon.

``````def drawArc(surface, x, y, r, th, start, stop, color):
points_outer = []
points_inner = []
n = round(r*abs(stop-start)/20)
if n<2:
n = 2
for i in range(n):
delta = i/(n-1)
phi0 = start + (stop-start)*delta
x0 = round(x+r*math.cos(phi0))
y0 = round(y+r*math.sin(phi0))
points_outer.append([x0,y0])
phi1 = stop + (start-stop)*delta
x1 = round(x+(r-th)*math.cos(phi1))
y1 = round(y+(r-th)*math.sin(phi1))
points_inner.append([x1,y1])
points = points_outer + points_inner
pygame.gfxdraw.aapolygon(surface, points, color)
pygame.gfxdraw.filled_polygon(surface, points, color)
``````

The for loop could certainly be created more elegantly with a generator, but I am not very sophisticated with python.

The arc definitely looks nicer than pygame.draw.arc, but when I compare it to the screen rendering on my mac, there is room for improvement.