# Detecting Rectangle collision with a Circle

I have a Circle with a center point (Center_X, Center_Y) and I am detecting if a rectangle falls into it's Radius (Radius). How would I be able to perform this task? I have tried using

``````if (X - Center_X)^2 + (Y - Center_Y)^2 < Radius^2:
print(1)
``````

Then I try to draw a circle to fit over this area:

``````Circle = pygame.draw.circle(Window, Blue, (Center_X, Center_Y), Radius, 0)
``````

But it doesn't seem to line up. Is there something I am doing wrong?

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What are `X` and `Y`? –  martineau Jul 13 '14 at 23:27
X and Y are the Center Points for the Enemy (EnemyCenter_X, EnemyCenter_Y) –  Gaspump1112 Jul 13 '14 at 23:31
Rectangles define four corner points, so generally speaking, you would need to make sure all of them fall inside the circle. –  martineau Jul 13 '14 at 23:52
@martineau The check that any of the 4 points is inside the circle is insufficient for a collision check though. –  Michael Anderson Jul 14 '14 at 0:29
isn't this a duplicate of stackoverflow.com/questions/401847/…? –  nonchip Jul 14 '14 at 1:02

Here's what I was describing in my comments, plus changes to correct handling of the case of a circle inside a larger rectangle which Michael Anderson pointed out in a comment:

``````import math

def collision(rleft, rtop, width, height,   # rectangle definition
center_x, center_y, radius):  # circle definition
""" Detect collision between a rectangle and circle. """

# complete boundbox of the rectangle
rright, rbottom = rleft + width/2, rtop + height/2

# bounding box of the circle

# trivial reject if bounding boxes do not intersect
if rright < cleft or rleft > cright or rbottom < ctop or rtop > cbottom:
return False  # no collision possible

# check whether any point of rectangle is inside circle's radius
for x in (rleft, rleft+width):
for y in (rtop, rtop+height):
# compare distance between circle's center point and each point of
# the rectangle with the circle's radius
return True  # collision detected

# check if center of circle is inside rectangle
if rleft <= center_x <= rright and rtop <= center_y <= rbottom:
return True  # overlaid

return False  # no collision detected
``````
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Consider a small circle inside a large box. This will return false. –  Michael Anderson Jul 14 '14 at 0:41
Now you also miss the case where a small circle has its center just outside one of the edges of the box, (Thus having two crossing points on the one edge, but not including the vertices.) –  Michael Anderson Jul 14 '14 at 3:11
@Michael: What do you mean by also miss? –  martineau Jul 14 '14 at 8:04
Maybe also was wrong, "you still don't detected the case where..." would probably be more accurate –  Michael Anderson Jul 14 '14 at 8:47
@Michael: Thanks for the clarification. As for the new failure case, while code probably could be added to handle it, at this juncture I think a better course would be to use one of the answers to the question Circle-Rectangle collision detection (intersection). –  martineau Jul 14 '14 at 14:23

You have two common options for this kind of collision detection.

The first is to understand the ways two 2D objects can collide.

1. A vertex of one can be inside the other
2. Their sides can cross (even thought no verice is inside)
3. One can be completely interior to the other.

Technically case 1. can only occur if case 2. also occurs, but it is often a cheaper check. Also case 3 is checked by case 1, in the case where both objects vertices are checked.

I would proceed like this. (as it is in order of cheapness)

1. Check that their bounding boxes intersect.
2. Check whether any vertex of the square is inside the
3. Check if the center of the circle is inside the rectangle
4. Check for circle - edge intersections.

The second and more general method is based on the notion of the product / expansion of shapes. This operation allows you to convert the intersection question into a point containment question.

In this case the circle / rectangle box intersection can be replaced with a check for a point in a rounded rectangle.

-

Use the `dist` function from Shortest distance between a point and a line segment

``````import math

def dist(p1, p2, c):
x1,y1 = p1
x2,y2 = p2
x3,y3 = c
px = x2-x1
py = y2-y1

something = px*px + py*py

u =  ((x3 - x1) * px + (y3 - y1) * py) / float(something)

if u > 1:
u = 1
elif u < 0:
u = 0

x = x1 + u * px
y = y1 + u * py

dx = x - x3
dy = y - y3

dist = math.sqrt(dx*dx + dy*dy)

return dist
``````

Here is a test:

``````rect = [[0. ,  0. ],
[ 0.2,  1. ],
[ 2.2,  0.6],
[ 2. , -0.4]]

c = 0.5, 2.0
r = 1.0

distances = [dist(rect[i], rect[j], c) for i, j in zip([0, 1, 2, 3], [1, 2, 3, 0])]
print distances
print any(d < r for d in distances)
``````

output:

``````[1.044030650891055, 1.0394155162323753, 2.202271554554524, 2.0592194189509323]
False
``````

Here is the plot:

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As @Michael Anderson pointed out to me: Consider a small circle completely inside a large box. Not any distance calculated would be less than the radius, so your approach would return `False` for that case, too. In addition using `< r` means touching wouldn't be considered a collision. –  martineau Jul 14 '14 at 2:03
I see, to detect the circle center is in the rectangle, you can use `point_in_poly()` from here: stackoverflow.com/questions/16625507/… –  HYRY Jul 14 '14 at 2:56
Detecting a point in the rectangle doesn't require the generality of a `point_in_poly()` because in `pygame` they're all upright. A case where this even detecting that fails is where a small circle has its center just outside one of the edges of the box but still intersects it at (usually) two points. –  martineau Jul 14 '14 at 13:01