# What's wrong with this program?

``````def short_distance(origins,(x,y),gap):
for (i,j) in origins.spilt(“ ”):
h=[]
h.append(float(math.sqrt ((i-x)*(i-x)+(j-y)*(j-y))))
for n in h:
if not gap < n:
print 0
if gap < n :
print n
``````
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It comes with no documentation! :P – Mike Mazur Nov 15 '09 at 9:27
lol. What he means is, it is easier for us to help if you explain what you are trying to do, and what is actually happening – Colin Pickard Nov 15 '09 at 9:28
We are going to need a lot more detail. What is this function being used for? – Dominic Bou-Samra Nov 15 '09 at 9:29
The indentation is broken. – ndim Nov 15 '09 at 11:58
This sounds suspiciously like a homework question. If it is homework, we can help you, but you should be the one to actually solve it. – Judah Himango Nov 15 '09 at 16:12

I would write the code more like this. If you run the code, it will report any failing tests (of which there are none).

``````import math

def short_distance(origins, point, gap):
"""
Describe origins, point, and gap are and what the
expected outcome is.

Then provide an example that tests the code
>>> short_distance('1,2 3,4', (5,6), 1.5)
5.65685424949
2.82842712475
"""
origins = parse_origins(origins)
distance_to_point = lambda point2: point_distance(point, point2)
# what's a better name for h?
h = map(distance_to_point, origins)
report(h, gap)

def report(h, gap):
"""
Take the results of the distances and report on them
"""
for distance in h:
if not (gap < distance):
print 0
else:
print distance

def point_distance(p1, p2):
"""
Calculate the distance between two points

>>> point_distance((0,0), (1,0))
1.0

more than one test here would be good
"""
x1, y1 = p1
x2, y2 = p2
return math.sqrt((x1-x2)**2 + (y1-y2)**2)

def parse_origins(origin_string):
"""
Parse an origins string.
>>> parse_origins('1,2 3,4')
((1.0, 2.0), (3.0, 4.0))
"""
points = origin_string.split(' ')
return tuple(map(parse_point, points))

def parse_point(point_string):
"""
Take a string like 1,2 and return a tuple of the numbers
in that string.

>>> parse_point('1,2.0')
(1.0, 2.0)
"""
return tuple(map(float, point_string.split(',')))

def test():
import doctest
doctest.testmod()

if __name__ == '__main__':
test()
``````
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• the indentation is wrong; the `for` loops should be indented more than the `def`
• typo: `origins.spilt(" ")` should probably be `origins.split(" ")`
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Your code is perhaps for finding points from `origins` that are close to `(x, y)`. There is a lot of errors in it:

1. Indention is wrong.
2. `split()` method is spelled wrong.
3. `split()` method returns flat list while you are expecting a list of pairs.

The former two are easy to fix. Without knowledge of `origins` string format I can't be sure what dou you wish ere. See this question for solutions on how to convert flat list to list of pairs.

Also note that `if` statement has `else` clause, so you can write:

``````if gap < n:
print n
else:
print 0
``````
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1. You'll need to import math
2. The indentation is wrong
3. If Origins is a string like `'1,1 2,2 3,3'`, `Origins.split(" ")` will give you a list of strings `["1,1", "2,2", "3,3"]`. You will need to do some extra work to be able to use it with the for loop `for (i,j) in ...` You need a list of tuples like [(1,1), (2,2), (3,3)]
4. `math.sqrt` already returns a float, so you can leave that out
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Here's the code:

``````from math import sqrt
def short_distance(origins,(x,y),gap):
def distance(i, j):
ix, iy = i - x, j - y
return sqrt (ix*ix + iy*iy)
all_distances = (distance(float(i), float(j)) for (i,j) in origins)
for n in all_distances:
print (0 if gap >= n else n)
``````

And then use it like this:

``````>>> origin = (0, 0)
>>> points = [(1, 1), (2, 1), (1, 2), (2, 2)]
>>> gap = 1.5
>>> short_distance(points, origin, gap)
0
2.2360679775
2.2360679775
2.82842712475
``````

My best guess is this does what you want.

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