I'm currently learning to create generators and to use itertools. So I decided to make a string index generator, but I'd like to add some parameters such as a "start index" allowing to define where to start generating the indexes.
I came up with this ugly solution which can be very long and not efficient with large indexes:
import itertools
import string
class StringIndex(object):
'''
Generator that create string indexes in form:
A, B, C ... Z, AA, AB, AC ... ZZ, AAA, AAB, etc.
Arguments:
- startIndex = string; default = ''; start increment for the generator.
- mode = 'lower' or 'upper'; default = 'upper'; is the output index in
lower or upper case.
'''
def __init__(self, startIndex = '', mode = 'upper'):
if mode == 'lower':
self.letters = string.ascii_lowercase
elif mode == 'upper':
self.letters = string.ascii_uppercase
else:
cmds.error ('Wrong output mode, expected "lower" or "upper", ' +
'got {}'.format(mode))
if startIndex != '':
if not all(i in self.letters for i in startIndex):
cmds.error ('Illegal characters in start index; allowed ' +
'characters are: {}'.format(self.letters))
self.startIndex = startIndex
def getIndex(self):
'''
Returns:
- string; current string index
'''
startIndexOk = False
x = 1
while True:
strIdMaker = itertools.product(self.letters, repeat = x)
for stringList in strIdMaker:
index = ''.join([s for s in stringList])
# Here is the part to simpify
if self.startIndex:
if index == self.startIndex:
startIndexOk = True
if not startIndexOk:
continue
###
yield index
x += 1
Any advice or improvement is welcome. Thank you!
EDIT:
The start index must be a string!
You would have to do the arithmetic (in base 26) yourself to avoid looping over itertools.product. But you can at least set x=len(self.startIndex) or 1!
Old (incorrect) answer
If you would do it without itertools (assuming you start with a single letter), you could do the following:
letters = 'abcdefghijklmnopqrstuvwxyz'
def getIndex(start, case):
lets = list(letters.lower()) if case == 'lower' else list(letters.upper())
# default is 'upper', but can also be an elif
for r in xrange(0,10):
for l in lets[start:]:
if l.lower() == 'z':
start = 0
yield ''.join(lets[:r])+l
I run until max 10 rows of letters are created, but you could ofcourse use an infinite while loop such that it can be called forever.
Correct answer
I found the solution in a different way: I used a base 26 number translator (based on (and fixxed since it didn't work perfectly): http://quora.com/How-do-I-write-a-program-in-Python-that-can-convert-an-integer-from-one-base-to-another)
I uses itertools.count() to count and just loops over all the possibilities.
The code:
import time
from itertools import count
def toAlph(x, letters):
div = 26
r = '' if x > 0 else letters[0]
while x > 0:
r = letters[x % div] + r
if (x // div == 1) and (x % div == 0):
r = letters[0] + r
break
else:
x //= div
return r
def getIndex(start, case='upper'):
alphabet = 'abcdefghijklmnopqrstuvwxyz'
letters = alphabet.upper() if case == 'upper' else alphabet
started = False
for num in count(0,1):
l = toAlph(num, letters)
if l == start:
started = True
if started:
yield l
iterator = getIndex('AA')
for i in iterator:
print(i)
time.sleep(0.1)
Related
I am trying to generate combination of ID's
Input: cid = SPARK
oupout: list of all the comibnations as below, position of each element should be constant. I am a beginner in python any help here is much appreciated.
'S****'
'S***K'
'S**R*'
'S**RK'
'S*A**'
'S*A*K'
'S*AR*'
'S*ARK'
'SP***'
'SP**K'
'SP*R*'
'SP*RK'
'SPA**'
'SPA*K'
'SPAR*'
'SPARK'
I tried below, I need a dynamic code:
cid = 'SPARK'
# print(cid.replace(cid[1],'*'))
# cu_len = lenth of cid [SPARK] here which is 5
# com_stars = how many stars i.e '*' or '**'
def cubiod_combo_gen(cu_len, com_stars, j_ite, i_ite):
cubiodList = []
crange = cu_len
i = i_ite #2 #3
j = j_ite #1
# com_stars = ['*','**','***','****']
while( i <= crange):
# print(j,i)
if len(com_stars) == 1:
x = len(com_stars)
n_cid = cid.replace(cid[j:i],com_stars)
i += x
j += x
cubiodList.append(n_cid)
elif len(com_stars) == 2:
x = len(com_stars)
n_cid = cid.replace(cid[j:i],com_stars)
i += x
j += x
cubiodList.append(n_cid)
elif len(com_stars) == 3:
x = len(com_stars)
n_cid = cid.replace(cid[j:i],com_stars)
i += x
j += x
cubiodList.append(n_cid)
return cubiodList
#print(i)
#print(n_cid)
# for item in cubiodList:
# print(item)
print(cubiod_combo_gen(5,'*',1,2))
print(cubiod_combo_gen(5,'**',1,3))
For every character in your given string, you can represent it as a binary string, using a 1 for a character that stays the same and a 0 for a character to replace with an asterisk.
def cubiod_combo_gen(string, count_star):
str_list = [char0 for char0 in string] # a list with the characters of the string
itercount = 2 ** (len(str_list)) # 2 to the power of the length of the input string
results = []
for config in range(itercount):
# return a string of i in binary representation
binary_repr = bin(config)[2:]
while len(binary_repr) < len(str_list):
binary_repr = '0' + binary_repr # add padding
# construct a list with asterisks
i = -1
result_list = str_list.copy() # soft copy, this made me spend like 10 minutes debugging lol
for char in binary_repr:
i += 1
if char == '0':
result_list[i] = '*'
if char == '1':
result_list[i] = str_list[i]
# now we have a possible string value
if result_list.count('*') == count_star:
# convert back to string and add to list of accepted strings
result = ''
for i in result_list:
result = result + i
results.append(result)
return results
# this function returns the value, so you have to use `print(cubiod_combo_gen(args))`
# comment this stuff out if you don't want an interactive user prompt
string = input('Enter a string : ')
count_star = input('Enter number of stars : ')
print(cubiod_combo_gen(string, int(count_star)))
It iterates through 16 characters in about 4 seconds and 18 characters in about 17 seconds. Also you made a typo on "cuboid" but I left the original spelling
Enter a string : DPSCT
Enter number of stars : 2
['**SCT', '*P*CT', '*PS*T', '*PSC*', 'D**CT', 'D*S*T', 'D*SC*', 'DP**T', 'DP*C*', 'DPS**']
As a side effect of this binary counting, the list is ordered by the asterisks, where the earliest asterisk takes precedence, with next earliest asterisks breaking ties.
If you want a cumulative count like 1, 4, 5, and 6 asterisks from for example "ABCDEFG", you can use something like
star_counts = (1, 4, 5, 6)
string = 'ABCDEFG'
for i in star_counts:
print(cubiod_combo_gen(string, star_counts))
If you want the nice formatting you have in your answer, try adding this block at the end of your code:
def formatted_cuboid(string, count_star):
values = cubiod_combo_gen(string, count_star)
for i in values:
print(values[i])
I honestly do not know what your j_ite and i_ite are, but it seems like they have no use so this should work. If you still want to pass these arguments, change the first line to def cubiod_combo_gen(string, count_star, *args, **kwargs):
I am not sure what com_stars does, but to produce your sample output, the following code does.
def cuboid_combo(cid):
fill_len = len(cid)-1
items = []
for i in range(2 ** fill_len):
binary = f'{i:0{fill_len}b}'
#print(binary, 'binary', 'num', i)
s = cid[0]
for idx, bit in enumerate(binary,start=1):
if bit == '0':
s += '*'
else: # 'bit' == 1
s += cid[idx]
items.append(s)
return items
#cid = 'ABCDEFGHI'
cid = 'DPSCT'
result = cuboid_combo(cid)
for item in result:
print(item)
Prints:
D****
D***T
D**C*
D**CT
D*S**
D*S*T
D*SC*
D*SCT
DP***
DP**T
DP*C*
DP*CT
DPS**
DPS*T
DPSC*
DPSCT
I wanna write a function that takes a string, s, and an int, x. It should return a new string where every xth character (starting from zero) is now followed by an '*'.
So far I've tried this code:
def string_chunks(string, x):
"""
>>> string_chunks("Once upon a time, in a land far, far away", 5)
'O*nce u*pon a* time*, in *a lan*d far*, far* away*'
"""
for ch in string:
return ch + "*"
but I am very stuck and am unable to make it work.
I would appreciate any help. If you provide an answer, it would be nice if you could comment the code also.
Turn it into a list and every nth index append a '*', then join it back to a string.
def string_chunks(string, x):
string = list(string)
for i in range(0, len(string)-1, 5):
string[i] += '*'
return ''.join(string)
Using a new string instead of a list
I thought it could be easier using a new string (ns) instead of a list to be joined, just adding each character of the original string (text = s) with a '' after each multiple of the interval x (checked with the if multiple_of_x. To check if the n (index of the character of s) is a multiple I used n % x == 0 that is equal to zero only for multiple of x (ex.: 5 10 15, because 5 % 5 = 0, 15 % 5 = 0.... and so on). If the result of n % x in not 0, it will add only the character without the ''.
def string_chunks(s,x=5):
ns = ""
for n,ch in enumerate(s):
multiple_of_x = (n % x == 0)
ns += ch + "*" if multiple_of_x else ch
return ns
text = "Once upon a time, in a land far, far away"
print(string_chunks(text))
Using a list
It can be done this way too.
def string_chunks(s,x=5):
ns = []
for n,ch in enumerate(s):
multiple_of_interval = (n % x == 0)
ns.append(ch + "*") if multiple_of_interval else ns.append(ch)
ns = "".join(ns)
return ns
text = "Once upon a time, in a land far, far away"
print(string_chunks(text))
Output
O*nce u*pon a* time*, in *a lan*d far*, far* away*
Currently you do this:
for ch in string:
return ch + "*"
This immediately exists the function. Instead, you want to create the whole string by doing something like this:
chunked_text = chunked_text + ch + "*"
and only after iterating over the whole string you want to return it.
try this
def string_chunks(string, x):
"""
>>>
'O*nce u*pon a* time*, in *a lan*d far*, far* away*'
"""
count = 0
newstring = []
for ch in string:
count = count + 1
if count == x:
newstring.append("*")
newstring.append(ch)
count = 0
else:
newstring.append(ch)
return("".join(str(x) for x in newstring))
output_s = string_chunks("Once upon a time, in a land far, far away", 5)
print output_s
Output:
Once* upon* a ti*me, i*n a l*and f*ar, f*ar aw*ay
I want to create a new string from a given string with alternate uppercase and lowercase.
I have tried iterating over the string and changing first to uppercase into a new string and then to lower case into another new string again.
def myfunc(x):
even = x.upper()
lst = list(even)
for itemno in lst:
if (itemno % 2) !=0:
even1=lst[1::2].lowercase()
itemno=itemno+1
even2=str(even1)
print(even2)
Since I cant change the given string I need a good way of creating a new string alternate caps.
Here's a onliner
"".join([x.upper() if i%2 else x.lower() for i,x in enumerate(mystring)])
You can simply randomly choose for each letter in the old string if you should lowercase or uppercase it, like this:
import random
def myfunc2(old):
new = ''
for c in old:
lower = random.randint(0, 1)
if lower:
new += c.lower()
else:
new += c.upper()
return new
Here's one that returns a new string using with alternate caps:
def myfunc(x):
seq = []
for i, v in enumerate(x):
seq.append(v.upper() if i % 2 == 0 else v.lower())
return ''.join(seq)
This does the job also
def foo(input_message):
c = 0
output_message = ""
for m in input_message:
if (c%2==0):
output_message = output_message + m.lower()
else:
output_message = output_message + m.upper()
c = c + 1
return output_message
Here's a solution using itertools which utilizes string slicing:
from itertools import chain, zip_longest
x = 'inputstring'
zipper = zip_longest(x[::2].lower(), x[1::2].upper(), fillvalue='')
res = ''.join(chain.from_iterable(zipper))
# 'iNpUtStRiNg'
Using a string slicing:
from itertools import zip_longest
s = 'example'
new_s = ''.join(x.upper() + y.lower()
for x, y in zip_longest(s[::2], s[1::2], fillvalue=''))
# ExAmPlE
Using an iterator:
s_iter = iter(s)
new_s = ''.join(x.upper() + y.lower()
for x, y in zip_longest(s_iter, s_iter, fillvalue=''))
# ExAmPlE
Using the function reduce():
def func(x, y):
if x[-1].islower():
return x + y.upper()
else:
return x + y.lower()
new_s = reduce(func, s) # eXaMpLe
This code also returns alternative caps string:-
def alternative_strings(strings):
for i,x in enumerate(strings):
if i % 2 == 0:
print(x.upper(), end="")
else:
print(x.lower(), end= "")
return ''
print(alternative_strings("Testing String"))
def myfunc(string):
# Un-hash print statements to watch python build out the string.
# Script is an elementary example of using an enumerate function.
# An enumerate function tracks an index integer and its associated value as it moves along the string.
# In this example we use arithmetic to determine odd and even index counts, then modify the associated variable.
# After modifying the upper/lower case of the character, it starts adding the string back together.
# The end of the function then returns back with the new modified string.
#print(string)
retval = ''
for space, letter in enumerate(string):
if space %2==0:
retval = retval + letter.upper()
#print(retval)
else:
retval = retval + letter.lower()
#print(retval)
print(retval)
return retval
myfunc('Thisisanamazingscript')
I am working on a problem where one must determine if a string is a concatenation of other string (these strings can be repeated in the concatenated strings). I am using backtracking to be as efficient as possible. If the string is a concatenation, it will print the strings it is a concatenation of. If not, it will print NOT POSSIBLE. Here is my python code:
# note: strList has to have been sorted
def findFirstSubstr(strList, substr, start = 0):
index = start
if (index >= len(strList)):
return -1
while (strList[index][:len(substr)] != substr):
index += 1
if (index >= len(strList)):
return -1
return index
def findPossibilities(stringConcat, stringList):
stringList.sort()
i = 0
index = 0
substr = ''
resultDeque = []
indexStack = []
while (i < len(stringConcat)):
substr += stringConcat[i]
index = findFirstSubstr(stringList, substr, index)
if (index < 0):
if (len(resultDeque) == 0):
return 'NOT POSSIBLE'
else:
i -= len(resultDeque.pop())
index = indexStack.pop() + 1
substr = ''
continue
elif (stringList[index] == substr):
resultDeque.append(stringList[index])
indexStack.append(index)
index = 0
substr = ''
i += 1
return ' '.join(resultDeque)
I keep failing the last half of the test cases and can't figure out why. Could someone prompt me in the right direction for any cases that this would fail? Thanks!
First, of all, this code is unnecessary complicated. For example, here is an equivalent but shorter solution:
def findPossibilities(stringConcat, stringList):
if not stringConcat: # if you want exact match, add `and not stringList`
return True
return any(findPossibilities(stringConcat[len(s):],
stringList[:i] + stringList[i+1:]) # assuming non-repeatable match. Otherwise, simply replace with `stringList`
for i, s in enumerate(stringList)
if stringConcat.startswith(s))
Actual answer:
Border condition: remaining part of stringConcat matches some of stringList, search is stopped:
>>> findPossibilities('aaaccbbbccc', ['aaa', 'bb', 'ccb', 'cccc'])
'aaa ccb bb'
EDIT: I am aware that a question with similar task was already asked in SO but I'm interested to find out the problem in this specific piece of code. I am also aware that this problem can be solved without using recursion.
The task is to write a program which will find (and print) the longest sub-string in which the letters occur in alphabetical order. If more than 1 equally long sequences were found, then the first one should be printed. For example, the output for a string abczabcd will be abcz.
I have solved this problem with recursion which seemed to pass my manual tests. However when I run an automated tests set which generate random strings, I have noticed that in some cases, the output is incorrect. For example:
if s = 'hixwluvyhzzzdgd', the output is hix instead of luvy
if s = 'eseoojlsuai', the output is eoo instead of jlsu
if s = 'drurotsxjehlwfwgygygxz', the output is dru instead of ehlw
After some time struggling, I couldn't figure out what is so special about these strings that causes the bug.
This is my code:
pos = 0
maxLen = 0
startPos = 0
endPos = 0
def last_pos(pos):
if pos < (len(s) - 1):
if s[pos + 1] >= s[pos]:
pos += 1
if pos == len(s)-1:
return len(s)
else:
return last_pos(pos)
return pos
for i in range(len(s)):
if last_pos(i+1) != None:
diff = last_pos(i) - i
if diff - 1 > maxLen:
maxLen = diff
startPos = i
endPos = startPos + diff
print s[startPos:endPos+1]
There are many things to improve in your code but making minimum changes so as to make it work. The problem is you should have if last_pos(i) != None: in your for loop (i instead of i+1) and you should compare diff (not diff - 1) against maxLen. Please read other answers to learn how to do it better.
for i in range(len(s)):
if last_pos(i) != None:
diff = last_pos(i) - i + 1
if diff > maxLen:
maxLen = diff
startPos = i
endPos = startPos + diff - 1
Here. This does what you want. One pass, no need for recursion.
def find_longest_substring_in_alphabetical_order(s):
groups = []
cur_longest = ''
prev_char = ''
for c in s.lower():
if prev_char and c < prev_char:
groups.append(cur_longest)
cur_longest = c
else:
cur_longest += c
prev_char = c
return max(groups, key=len) if groups else s
Using it:
>>> find_longest_substring_in_alphabetical_order('hixwluvyhzzzdgd')
'luvy'
>>> find_longest_substring_in_alphabetical_order('eseoojlsuai')
'jlsu'
>>> find_longest_substring_in_alphabetical_order('drurotsxjehlwfwgygygxz')
'ehlw'
Note: It will probably break on strange characters, has only been tested with the inputs you suggested. Since this is a "homework" question, I will leave you with the solution as is, though there is still some optimization to be done, I wanted to leave it a little bit understandable.
You can use nested for loops, slicing and sorted. If the string is not all lower-case then you can convert the sub-strings to lower-case before comparing using str.lower:
def solve(strs):
maxx = ''
for i in xrange(len(strs)):
for j in xrange(i+1, len(strs)):
s = strs[i:j+1]
if ''.join(sorted(s)) == s:
maxx = max(maxx, s, key=len)
else:
break
return maxx
Output:
>>> solve('hixwluvyhzzzdgd')
'luvy'
>>> solve('eseoojlsuai')
'jlsu'
>>> solve('drurotsxjehlwfwgygygxz')
'ehlw'
Python has a powerful builtin package itertools and a wonderful function within groupby
An intuitive use of the Key function can give immense mileage.
In this particular case, you just have to keep a track of order change and group the sequence accordingly. The only exception is the boundary case which you have to handle separately
Code
def find_long_cons_sub(s):
class Key(object):
'''
The Key function returns
1: For Increasing Sequence
0: For Decreasing Sequence
'''
def __init__(self):
self.last_char = None
def __call__(self, char):
resp = True
if self.last_char:
resp = self.last_char < char
self.last_char = char
return resp
def find_substring(groups):
'''
The Boundary Case is when an increasing sequence
starts just after the Decresing Sequence. This causes
the first character to be in the previous group.
If you do not want to handle the Boundary Case
seperately, you have to mak the Key function a bit
complicated to flag the start of increasing sequence'''
yield next(groups)
try:
while True:
yield next(groups)[-1:] + next(groups)
except StopIteration:
pass
groups = (list(g) for k, g in groupby(s, key = Key()) if k)
#Just determine the maximum sequence based on length
return ''.join(max(find_substring(groups), key = len))
Result
>>> find_long_cons_sub('drurotsxjehlwfwgygygxz')
'ehlw'
>>> find_long_cons_sub('eseoojlsuai')
'jlsu'
>>> find_long_cons_sub('hixwluvyhzzzdgd')
'luvy'
Simple and easy.
Code :
s = 'hixwluvyhzzzdgd'
r,p,t = '','',''
for c in s:
if p <= c:
t += c
p = c
else:
if len(t) > len(r):
r = t
t,p = c,c
if len(t) > len(r):
r = t
print 'Longest substring in alphabetical order is: ' + r
Output :
Longest substring in alphabetical order which appeared first: luvy
Here is a single pass solution with a fast loop. It reads each character only once. Inside the loop operations are limited to
1 string comparison (1 char x 1 char)
1 integer increment
2 integer subtractions
1 integer comparison
1 to 3 integer assignments
1 string assignment
No containers are used. No function calls are made. The empty string is handled without special-case code. All character codes, including chr(0), are properly handled. If there is a tie for the longest alphabetical substring, the function returns the first winning substring it encountered. Case is ignored for purposes of alphabetization, but case is preserved in the output substring.
def longest_alphabetical_substring(string):
start, end = 0, 0 # range of current alphabetical string
START, END = 0, 0 # range of longest alphabetical string yet found
prev = chr(0) # previous character
for char in string.lower(): # scan string ignoring case
if char < prev: # is character out of alphabetical order?
start = end # if so, start a new substring
end += 1 # either way, increment substring length
if end - start > END - START: # found new longest?
START, END = start, end # if so, update longest
prev = char # remember previous character
return string[START : END] # return longest alphabetical substring
Result
>>> longest_alphabetical_substring('drurotsxjehlwfwgygygxz')
'ehlw'
>>> longest_alphabetical_substring('eseoojlsuai')
'jlsu'
>>> longest_alphabetical_substring('hixwluvyhzzzdgd')
'luvy'
>>>
a lot more looping, but it gets the job done
s = raw_input("Enter string")
fin=""
s_pos =0
while s_pos < len(s):
n=1
lng=" "
for c in s[s_pos:]:
if c >= lng[n-1]:
lng+=c
n+=1
else :
break
if len(lng) > len(fin):
fin= lng`enter code here`
s_pos+=1
print "Longest string: " + fin
def find_longest_order():
`enter code here`arr = []
`enter code here`now_long = ''
prev_char = ''
for char in s.lower():
if prev_char and char < prev_char:
arr.append(now_long)
now_long = char
else:
now_long += char
prev_char = char
if len(now_long) == len(s):
return now_long
else:
return max(arr, key=len)
def main():
print 'Longest substring in alphabetical order is: ' + find_longest_order()
main()
Simple and easy to understand:
s = "abcbcd" #The original string
l = len(s) #The length of the original string
maxlenstr = s[0] #maximum length sub-string, taking the first letter of original string as value.
curlenstr = s[0] #current length sub-string, taking the first letter of original string as value.
for i in range(1,l): #in range, the l is not counted.
if s[i] >= s[i-1]: #If current letter is greater or equal to previous letter,
curlenstr += s[i] #add the current letter to current length sub-string
else:
curlenstr = s[i] #otherwise, take the current letter as current length sub-string
if len(curlenstr) > len(maxlenstr): #if current cub-string's length is greater than max one,
maxlenstr = curlenstr; #take current one as max one.
print("Longest substring in alphabetical order is:", maxlenstr)
s = input("insert some string: ")
start = 0
end = 0
temp = ""
while end+1 <len(s):
while end+1 <len(s) and s[end+1] >= s[end]:
end += 1
if len(s[start:end+1]) > len(temp):
temp = s[start:end+1]
end +=1
start = end
print("longest ordered part is: "+temp)
I suppose this is problem set question for CS6.00.1x on EDX. Here is what I came up with.
s = raw_input("Enter the string: ")
longest_sub = ""
last_longest = ""
for i in range(len(s)):
if len(last_longest) > 0:
if last_longest[-1] <= s[i]:
last_longest += s[i]
else:
last_longest = s[i]
else:
last_longest = s[i]
if len(last_longest) > len(longest_sub):
longest_sub = last_longest
print(longest_sub)
I came up with this solution
def longest_sorted_string(s):
max_string = ''
for i in range(len(s)):
for j in range(i+1, len(s)+1):
string = s[i:j]
arr = list(string)
if sorted(string) == arr and len(max_string) < len(string):
max_string = string
return max_string
Assuming this is from Edx course:
till this question, we haven't taught anything about strings and their advanced operations in python
So, I would simply go through the looping and conditional statements
string ="" #taking a plain string to represent the then generated string
present ="" #the present/current longest string
for i in range(len(s)): #not len(s)-1 because that totally skips last value
j = i+1
if j>= len(s):
j=i #using s[i+1] simply throws an error of not having index
if s[i] <= s[j]: #comparing the now and next value
string += s[i] #concatinating string if above condition is satisied
elif len(string) != 0 and s[i] > s[j]: #don't want to lose the last value
string += s[i] #now since s[i] > s[j] #last one will be printed
if len(string) > len(present): #1 > 0 so from there we get to store many values
present = string #swapping to largest string
string = ""
if len(string) > len(present): #to swap from if statement
present = string
if present == s[len(s)-1]: #if no alphabet is in order then first one is to be the output
present = s[0]
print('Longest substring in alphabetical order is:' + present)
I agree with #Abhijit about the power of itertools.groupby() but I took a simpler approach to (ab)using it and avoided the boundary case problems:
from itertools import groupby
LENGTH, LETTERS = 0, 1
def longest_sorted(string):
longest_length, longest_letters = 0, []
key, previous_letter = 0, chr(0)
def keyfunc(letter):
nonlocal key, previous_letter
if letter < previous_letter:
key += 1
previous_letter = letter
return key
for _, group in groupby(string, keyfunc):
letters = list(group)
length = len(letters)
if length > longest_length:
longest_length, longest_letters = length, letters
return ''.join(longest_letters)
print(longest_sorted('hixwluvyhzzzdgd'))
print(longest_sorted('eseoojlsuai'))
print(longest_sorted('drurotsxjehlwfwgygygxz'))
print(longest_sorted('abcdefghijklmnopqrstuvwxyz'))
OUTPUT
> python3 test.py
luvy
jlsu
ehlw
abcdefghijklmnopqrstuvwxyz
>
s = 'azcbobobegghakl'
i=1
subs=s[0]
subs2=s[0]
while(i<len(s)):
j=i
while(j<len(s)):
if(s[j]>=s[j-1]):
subs+=s[j]
j+=1
else:
subs=subs.replace(subs[:len(subs)],s[i])
break
if(len(subs)>len(subs2)):
subs2=subs2.replace(subs2[:len(subs2)], subs[:len(subs)])
subs=subs.replace(subs[:len(subs)],s[i])
i+=1
print("Longest substring in alphabetical order is:",subs2)
s = 'gkuencgybsbezzilbfg'
x = s.lower()
y = ''
z = [] #creating an empty listing which will get filled
for i in range(0,len(x)):
if i == len(x)-1:
y = y + str(x[i])
z.append(y)
break
a = x[i] <= x[i+1]
if a == True:
y = y + str(x[i])
else:
y = y + str(x[i])
z.append(y) # fill the list
y = ''
# search of 1st longest string
L = len(max(z,key=len)) # key=len takes length in consideration
for i in range(0,len(z)):
a = len(z[i])
if a == L:
print 'Longest substring in alphabetical order is:' + str(z[i])
break
first_seq=s[0]
break_seq=s[0]
current = s[0]
for i in range(0,len(s)-1):
if s[i]<=s[i+1]:
first_seq = first_seq + s[i+1]
if len(first_seq) > len(current):
current = first_seq
else:
first_seq = s[i+1]
break_seq = first_seq
print("Longest substring in alphabetical order is: ", current)