# Sum of numbers in array, not counting 13 and number directly after it (CodingBat puzzle)

The Question:

Return the sum of the numbers in the array, returning 0 for an empty array. Except the number 13 is very unlucky, so it does not count and numbers that come immediately after a 13 also do not count.

My Code:

``````def sum13(nums):
l = len(nums)
tot = 0

if l==0:
return 0

for x in range(l):
if nums[x]!=13:
if nums[x-1]!=13:
tot+=nums[x]

``````

Where It's Failing:

``````sum13([1, 2, 2, 1, 13]) should → 6, but my code is outputting 5
sum13([1, 2, 13, 2, 1, 13]) should → 4, but my code is outputting 3
``````
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Your problem is when `x` is zero. `x - 1` will be `-1` so it will get the last element of your list (`13`). To fix it, don't test `x - 1` if `x` is zero:

``````if x == 0 or nums[x-1] != 13:
``````

In Python, when you pass a negative index to a list it accesses its elements backwards, so:

``````>>> x = [1,2,3,4,5]
>>> x[-1]
5
>>> x[-2]
4
``````
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Thanks, that's been driving me nuts! I'll accept the answer as soon as the time limit passes! – jackerman09 Feb 15 '13 at 18:48

You could avoid the bug by using `next()` function instead of error-prone indexes:

``````def exclude13(iterable):
it = iter(iterable)
for x in it:
if x == 13: # don't yield 13
next(it) # skip number immediately after 13
else:
yield x

print(sum(exclude13([1, 2, 2, 1, 13]))) # -> 6
print(sum(exclude13([1, 2, 13, 2, 1, 13]))) # -> 4
``````
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Thanks, but I don't have control over how the function is called b/c it is on CodingBat.com, but either way, thanks for the tip! – jackerman09 Feb 15 '13 at 19:15
you could easily define the function: `sum13 = lambda L: sum(exclude13(L))` – J.F. Sebastian Feb 15 '13 at 19:16

You're excluding numbers that come immediately before a 13 when you should be excluding numbers that come immediately after.

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When x is 4, and nums[4]=7, I also need to check that nums[3] is not 13 (or the 7 wouldn't count), so I'm pretty sure that I'm checking the number that comes immediately after, but I could be missing something. – jackerman09 Feb 15 '13 at 18:47
Right you are, my mistake. – Alex Hammel Feb 15 '13 at 18:50
``````def sum13(nums):
count = 0
while count < len(nums):
if nums[count] == 13:
del nums[count:count+2]
continue
count += 1
return sum(nums)
``````
-
``````def sum13(nums):
count = 0
sum = 0
for i in range(len(nums)):
if nums[i] == 13 or sum == 1 :
nums[i]= 0
sum = sum + 1
count = count + nums[i]
if sum  ==  2:
sum  = 0
if nums == []:
return 0
return coun
``````
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`enumerate()` can give the index, then it can be done using a generator expression in `sum()`. The extra 0 added to the end of the list makes it work for `nums[i-1]` when `i = 0`.

``````def sum13(nums):
nums += [0]
return sum(n for i, n in enumerate(nums) if n != 13 and nums[i-1] != 13)
``````
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I would suggest to use a recursive solution. Note that while index of a list can be out of range the slicing gives an empty list and not an error, e.g. if a = [1,1,2] then a[3] would give an error while a[3:] gives the empty list [].

``````def sum13(nums):
if len(nums) == 0:
return 0
sum = sum13(nums[1:])
if nums[0] != 13:
return sum + nums[0]
if nums[0] == 13:
return sum13(nums[2:])
``````
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I solved the problem in the following fashion. It is brute force, but it does work:

``````def sum13(nums):
count = 0
if len(nums) == 0:
return 0
for ans in range(len(nums)):
if nums[ans] == 13 and ans < len(nums)-1:
nums[ans] = 0
nums[ans+1] = 0
elif nums[ans] == 13 and ans == len(nums)-1:
nums[ans] = 0
else:
count += nums[ans]

return count
``````
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I did that way, it'is brute force but it worked. – Alexandre Amaral Dec 29 '14 at 22:08
``````def sum13(nums):
if len(nums)==0:
return 0
sum=0
for i in range(1,len(nums)):
if nums[i]==13 or nums[i-1]==13:
sum = sum
else:
sum += nums[i]
if nums[0]==13:
return sum
else:
return sum + nums[0]
``````

Start the loop form 1 and add back the first number (if it's not 13) at the end.

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