We can say that points are arranged evenly in a circle when there is a constant angle
theta between neighboring points.
theta can be calculated as 2*pi radians divided by the number of points. The first point is at angle
0 with respect to the x axis, the second point at angle
theta*1, the third point at angle
Using simple trigonometry, you can find the X and Y coordinates of any point that lies on the edge of a circle. For a point at angle
ohm lying on a circle with radius
xFromCenter = r*cos(ohm)
yFromCenter = r*sin(ohm)
Using this math, it is possible to arrange your images evenly on a circle:
from PIL import Image
def arrangeImagesInCircle(masterImage, imagesToArrange):
imgWidth, imgHeight = masterImage.size
#we want the circle to be as large as possible.
#but the circle shouldn't extend all the way to the edge of the image.
#If we do that, then when we paste images onto the circle, those images will partially fall over the edge.
#so we reduce the diameter of the circle by the width/height of the widest/tallest image.
diameter = min(
imgWidth - max(img.size for img in imagesToArrange),
imgHeight - max(img.size for img in imagesToArrange)
radius = diameter / 2
circleCenterX = imgWidth / 2
circleCenterY = imgHeight / 2
theta = 2*math.pi / len(imagesToArrange)
for i in range(len(imagesToArrange)):
curImg = imagesToArrange[i]
angle = i * theta
dx = int(radius * math.cos(angle))
dy = int(radius * math.sin(angle))
#dx and dy give the coordinates of where the center of our images would go.
#so we must subtract half the height/width of the image to find where their top-left corners should be.
pos = (
circleCenterX + dx - curImg.size/2,
circleCenterY + dy - curImg.size/2
img = Image.new("RGB", (500,500), (255,255,255))
#red.png, blue.png, green.png are simple 50x50 pngs of solid color
imageFilenames = ["red.png", "blue.png", "green.png"] * 5
images = [Image.open(filename) for filename in imageFilenames]