Today, I was fooling around with a couple of programming puzzles. Faced with the task of testing a string to see whether or not it is a palindrome, I conceived of several ways to accomplish this. The basics of these three methods are depicted below (most neatifying and testing code is omitted).
def check_palin(victim, method): if method is 1: # check progressively inner chars x = 0 while x < (len(victim)/2): # len/2 is num of iter needed for guarantee if victim[x+0] is victim[-(1+x)]: # on pass n, compare nth letter # and nth to last letter x += 1 # then increment the n counter else: return False return True elif method is 2: # check first and last chars repeatedly tmp =  for i in victim: tmp.append(i) # convert string into list while len(tmp) > 1: # if 1 or 0 char left, palin is guaranteed if tmp is tmp[-1]: # if the first and last characters are the same letter tmp.pop(0) # remove them both tmp.pop(-1) else: return False return True elif method is 3: # reverse string and compare to original tmp = "" for i in victim: # for every letter tmp = i + tmp # cat it to the beginning, not append return tmp == victim else: return -1
Method 1 takes advantage of the fact that characters in a string can be indexed like elements of a list. We can imagine this method thusly: you start with your fingers under the first and last letters of a word; with each iteration, you first check whether the letters above your fingers are the same; if they are different, the word is not a palindrome; if they are the same, you move each of your fingers 1 letter toward the center of the word and repeat.
The bulk of computation with this method would be the condition testing, index slicing, and comparisons. There is also a counter variable which is a constant part of a calculation for the index slicing.
Method 2 also employs the indexing of characters in a string. The first and last characters are compared, then discarded, and these steps are repeated until a palindrome is guaranteed (or disproven).
Costs would be similar to Method 1, with some differences: the addition of conversion from str -> list, popping elements from a list, and minus a counter variable.
Method 3 reverses the given string, and then compares it to the original. There are various ways to reverse a string (
list.__reversed__(), etc.), but I've only shown one such possibility: converting the string to a list, and then concatenating each element of that list to the BEGINNING of a new string.
With different methods for reversing a string, there may be different operations, and thus costs, involved. For my chosen method here, we have the cost of slicing each and every element from a list and concatenating it with a str variable.
Which of these methods would be the fastest executing and why? Also, is there any way to improve the efficiency of these methods? (On a tangent, how do you test the execution speed of modules in Python?)