# Intersecting rectangles with Python

Given two rectangles r1 and r2 I try to test if the two intersect. Why don't the following two functions produce the same output?

Function 1:

``````def separate_helper(r1, r2):
r1_left, r1_top, r1_right, r1_bottom = r1
r2_left, r2_top, r2_right, r2_bottom = r2

if r1_right < r2_left:
separate = True
elif    r1_left > r2_right:
separate = True
elif r1_top > r2_bottom:
separate = True
elif r1_bottom < r2_top:
separate = True
elif contains(r1, r2):
separate = False
else:
separate = False
return separate
``````

Function 2:

``````def separate_helper2(r1, r2):
r1_left, r1_top, r1_right, r1_bottom = r1
r2_left, r2_top, r2_right, r2_bottom = r2

separate = r1_right < r2_left or \
r1_left > r2_right or \
r1_top > r2_bottom or \
r1_bottom < r2_top or \
not contains(r1, r2)
return separate
``````

Function to check if rectangle 1 contains rectangle 2:

``````def contains(r1, r2):
r1_left, r1_top, r1_right, r1_bottom = r1
r2_left, r2_top, r2_right, r2_bottom = r2
return r1_right >= r2_right and  r1_left <= r2_left and  r1_top <= r2_top and  r1_bottom >= r2_bottom
``````

Here's a test case that fails:

assert separate_helper([29, 35, 53, 90], [23, 47, 90, 86]) == separate_helper2([29, 35, 53, 90], [23, 47, 90, 86])

It only fails when rectangle 1 contains rectangle 2, but I can't wrap my head around why.

Edit:

I'm using quickcheck for Python and nose to test the function. Here's the test code I'm using:

``````from qc import forall, lists, integers
from intersect import separate_helper, separate_helper2

@forall(tries=100, r1=lists(items=integers(), size=(4, 4)), r2=lists(items=integers(), size=(4, 4)))
def test_separate(r1, r2):
assert separate_helper(r1, r2) == separate_helper2(r1, r2)
``````
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What do you mean fails? Crashes or just doesn't say they intersected? – DiegoNolan Apr 8 '13 at 21:31
@DiegoNolan If you run the code provided, you'll see that the equality at the end returns `False` but shouldn't. – askewchan Apr 8 '13 at 21:36
@DiegoNolan The assertion fails. See updated question for details. – mre Apr 8 '13 at 21:37

``````elif contains(r1, r2):
separate = False
else:
separate = False
``````

Assuming you get through all of the proper-intersection cases, this will return `False` whether `r1` contains `r2` or not.

``````... or \
not contains(r1, r2)
``````

This will return `False` is `r1` does not contain `r2`, but `True` otherwise.

So, they're doing different things in precisely the case "when rectangle 1 contains rectangle 2".

As a side question: why should `r1` containing `r2` return a different result from `r2` containing `r1`?

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I think he just wants to check whether the sides of the rectangle intersects. – Phoexo Apr 8 '13 at 21:43
@Phoexo: I assume you're commenting on my side question. If you're right, there's no reason to check `contains` at all. If you're wrong, he needs to check `contains` in both directions. Either way, I can't see why he wants to check one way and not the other. – abarnert Apr 8 '13 at 22:26
Thanks for your explanation. The full code contains both directions. I left it out intentionally to show a minimal failing test case. – mre Apr 8 '13 at 23:26
@mre: No problem; I just wanted to make sure you hadn't overlooked something and, more importantly, I hadn't misunderstood your logic. (That's why it was just a side question.) – abarnert Apr 9 '13 at 0:08