# Inteviewstreet Median in python. Fails on all but the first test case

So i wrote this code and it passes the first test case, and fails all the rest. However, I can't seem to find an input that breaks it. Maybe it's because I've been staring at the code too long, but i would appreciate any help. The algorithm uses two priority queues for the smallest and largest halves of the current list. Here's the code:

``````#!/bin/python
import heapq

def fix(minset, maxset):
if len(maxset) > len(minset):
item = heapq.heappop(maxset)
heapq.heappush(minset, -item)
elif len(minset) > (len(maxset) + 1):
item = heapq.heappop(minset)
heapq.heappush(maxset, -item)

N = int(raw_input())

s = []
x = []

for i in range(0, N):

tmp = raw_input()
a, b = [xx for xx in tmp.split(' ')]
s.append(a)
x.append(int(b))

minset = []
maxset = []

for i in range(0, N):
wrong = False
if s[i] == "a":
if len(minset) == 0:
heapq.heappush(minset,-x[i])
else:
if x[i] > minset[0]:
heapq.heappush(maxset, x[i])
else:
heapq.heappush(minset, -x[i])
fix(minset, maxset)
elif s[i] == "r":
if -x[i] in minset:
minset.remove(-x[i])
heapq.heapify(minset)
elif x[i] in maxset:
maxset.remove(x[i])
heapq.heapify(maxset)
else:
wrong = True
fix(minset, maxset)
if len(minset) == 0 and len(maxset) == 0:
wrong = True

if wrong == False:
#Calculate median
if len(minset) > len(maxset):
item = - minset[0]
print int(item)
else:
item = ((-float(minset[0])) + float(maxset[0])) / 2
if item.is_integer():
print int(item)
continue
out =  str(item)
out.rstrip('0')
print out
else:
print "Wrong!"
``````
-
`a,b=[xx for xx in tmp.split(' ')]` can be just: `a,b = tmp.split(' ')` – mgilson Aug 13 '12 at 12:14
Also, please check your indentation. You have a `continue` statement that isn't in a loop (as far as I can tell). – mgilson Aug 13 '12 at 12:16
Also check the indentation for the last two lines. The code as written will only print "Wrong!" at the end of the loop. – Peter de Rivaz Aug 13 '12 at 18:37
My bad, the code wouldn't past with the correct indentation. Had to manually fix it. Now could you help :P – Farhan Abrol Aug 14 '12 at 3:39

Your original was not so legible, so first I made it object-oriented: `MedianHeapq` supports methods `rebalance(), add(), remove(), size(), median()`. We seriously want to hide the members `minset,maxset` from the client code, for all sorts of sensible reasons: prevent client from swapping them, modifying them etc. If client needs to see them you just write an accessor. We also added a `__str__()` method which we will use to debug visually and make your life easier.

Also added legibility changes to avoid the indexing with `[i]` everywhere, rename `s,x` arrays to `op,val`, add prompts on the `raw_input()`, reject invalid ops at the input stage. Your actual computation of the median confuses me (when do you want float and when integer? the `rstrip('0')` is a bit wack), so I rewrote it, change that if you want something else. A discussion of the algorithm is here.

Now it is legible and self-contained. Also makes it testable. You might be making sign errors in your code, I don't know, I'll look at that later. Next we will want to automate it by writing some PyUnit testcases. doctest is also a possibility. TBC.

Ok I think I see a bug in the sloppiness about locating the median. Remember the minset and maxset can have a size mismatch of +/-1. So take more care about precisely where the median is located.

``````#!/bin/python
import heapq

class MedianHeapq(object):
def __init__(self):
self.minset = []
self.maxset = []
def rebalance(self):
size_imbalance = len(self.maxset) - len(self.minset)
if len(self.maxset) > len(self.minset):
#if size_imbalance > 0:
item = heapq.heappop(self.maxset)
heapq.heappush(self.minset, -item)
#elif size_imbalance < -1:
elif len(self.minset) > (len(self.maxset) + 1):
item = heapq.heappop(self.minset)
heapq.heappush(self.maxset, -item)
if len(self.minset) == 0:
heapq.heappush(self.minset,-value)
else:
if value > self.minset[0]:
heapq.heappush(self.maxset, value)
else:
heapq.heappush(self.minset, -value)
self.rebalance()
if verbose: print self.__str__()
return False
def remove(self,value,verbose=False):
wrong = False
if -value in self.minset:
minset.remove(-value)
heapq.heapify(self.minset)
elif value in maxset:
maxset.remove(value)
heapq.heapify(self.maxset)
else:
wrong = True
self.rebalance()
if verbose: print self.__str__()
return wrong
def size(self):
return len(self.minset)+len(self.maxset)
def median(self):
if len(self.minset) > len(self.maxset):
item = - self.minset[0]
return int(item)
else:
item = (-self.minset[0] + self.maxset[0]) / 2.0
# Can't understand the intent of your code here: int, string or float?
if item.is_integer():
return int(item)
#    continue # intent???
else:
return item
# The intent of this vv seems to be round floats and return '%.1f' % item ??
#out =  str(item)
#out.rstrip('0') # why can't you just int()? or // operator?
#return out

def __str__(self):
return 'Median: %s Minset:%s Maxset:%s' % (self.median(), self.minset,self.maxset)

# Read size and elements from stdin
N = int(raw_input('Size of heap? '))
op = []
val = []
while(len(val)<N):
tmp = raw_input('a/r value : ')
op_, val_ = tmp.split(' ')
if op_ not in ['a','r']: # reject invalid ops
print 'First argument (operation) must be a:Add or r:Remove! '
continue
op.append(op_)
val.append(int(val_))

mhq = MedianHeapq()
for op_,val_ in zip(op,val): # use zip to avoid indexing with [i] everywhere
wrong = False
if op_ == 'a':