Code first. Discussion below the code.
# get alphabet and reversed alphabet
# Python 2.x
alpha1 = string.lowercase
# Python 3.x and newer
alpha1 = string.ascii_lowercase
alpha2 = alpha1[::-1] # use slicing to reverse alpha1
# make a dictionary where the key, value pairs are symmetric
# for example symd['a'] == 'z', symd['b'] == 'y', and so on
_symd = dict(zip(alpha1, alpha2))
if not word:
return False # zero-length word is not symmetric
i1 = 0
i2 = len(word) - 1
if i1 >= i2:
return True # we have checked the whole string
# get a pair of chars
c1 = word[i1]
c2 = word[i2]
if _symd[c1] != c2:
return False # the pair wasn't symmetric
i1 += 1
i2 -= 1
# note, added a space to list of chars to filter to a space
_filter_to_space = ",.?!:'\/ "
if ch in _filter_to_space:
return ' ' # return a space
elif ch in alpha1:
return ch # it's an alphabet letter so return it
# It's something we don't want. Return empty string.
return ''.join(_filter_ch(ch) for ch in text.lower())
# filter text: keep only chars in the alphabet or spaces
for word in clean(text).split():
# use of yield makes this a generator.
lst = list(symmetrics("The boy...is a yob."))
print(lst) # prints: ['boy', 'a', 'yob']
No need to type the alphabet twice; we can reverse the first one.
We can make a dictionary that pairs each letter with its symmetric letter. This will make it very easy to test whether any given pair of letters is a symmetric pair. The function
zip() makes pairs from two sequences; they need to be the same length, but since we are using a string and a reversed copy of the string, they will be the same length.
It's best to write a simple function that does one thing, so we write a function that does nothing but check if a string is symmetric. If you give it a zero-length string it returns
False, otherwise it sets
i1 to the first character in the string and
i2 to the last. It compares characters as long as they continue to be symmetric, and increments
i1 while decrementing
i2. If the two meet or pass each other, we know we have seen the whole string and it must be symmetric, in which case we return
True; if it ever finds any pair of characters that are not symmetric, it returns
False. We have to do the check for whether
i2 have met or passed at the top of the loop, so it won't try to check if a character is its own symmetric character. (A character can't be both
'z' at the same time, so a character is never its own symmetric character!)
Now we write a wrapper that filters out the junk, splits the string into words, and tests each word. Not only does it convert the chosen punctuation characters to spaces, but it also strips out any unexpected characters (anything not an approved punctuation char, a space, or a letter). That way we know nothing unexpected will get through to the inner function. The wrapper is "lazy"... it is a generator that yields up one word at a time, instead of building the whole list and returning that. It's easy to use
list() to force the generator's results into a list. If you want, you can easily modify this function to just build a list and return it.
If you have any questions about this, just ask.
EDIT: The original version of the code didn't do the right thing with the punctuation characters; this version does. Also, as @heltonbiker suggested, why type the alphabet when Python has a copy of it you can use? So I made that change too.
EDIT: @heltonbiker's change introduced a dependency on Python version! I left it in with a suitable
except block to handle the problem. It appears that Python 3.x has improved the name of the lowercase ASCII alphabet to
string.ascii_lowercase instead of plain