# Why does the order of statements in an 'or' condition matter?

I was working through a problem where I was reversing words in place. I noticed that depending on the order of my statements before and after my `or` operator, the code would not work or work.

If I change

``````if i == len(s1) or s1[i] == ' ':
``````

to

``````if s1[i] == ' ' or i == len(s1):
``````

I get the error

``````Traceback (most recent call last):
File "reverse_words_in_place.py", line 58, in <module>
reverse_words(s1)
File "reverse_words_in_place.py", line 6, in reverse_words
if s1[i] == ' ' or i == len(s1):
IndexError: list index out of range
``````
``````def reverse_words(s1):
reverse_string(s1, 0, len(s1)-1)

start_index = 0
for i in range(len(s1)+1):
if i == len(s1) or s1[i] == ' ':
reverse_string(s1, start_index, i-1)
start_index = i + 1
return s1

def reverse_string(s1, first, last):
while(first < last):
s1[first], s1[last] = s1[last], s1[first]

first += 1
last -= 1

s1 = ['c', 'a', 'k', 'e', ' ',
'p', 'o', 'u', 'n', 'd', ' ',
's', 't', 'e', 'a', 'l']

reverse_words(s1)

# Prints: 'steal pound cake'
print(''.join(s1))
``````

The output for this code is

``````steal pound cake
``````

as long as

``````if i == len(s1) or s1[i] == ' ':
``````

Why does it matter in what order these statements are?

This is because in python, as in most programming languages, the operators or and and short circuit. For example, if the left hand side of or is true, then it knows the entire or statement will be true without bothering to check the right hand side.

Long winded explanation:

It may seem like to evaluate A or B we would start by evaluating A, then we'd evaluate B and finally the results would be or'd together for the final result. However, what actually happens is the "short circuit": A is evaluated and, if it is true, we don't bother evaluating B AT ALL because we know right then and there that A or B evaluates to true.

Similarly, A and B short circuits: we start by evaluating A and if it is false we already know that A and B will evaluate to false, so we don't bother evaluating B at all.

This can actually be used to write more succinct code. For example, the following:

``````if A: # is obj valid?
if B: # do a check that requires obj to be valid
C
``````

...could be written like this instead:

``````if A and B:
C
``````

Because if `i == len(s1)` is `true` the second statement is not evaluated and you don't get `IndexError`.

The reason for it is Short-circuit_evaluation.

OR stops looking for condition as soon as it finds true.