How can I count the number of times a given substring is present within a string in Python?
For example:
>>> 'foo bar foo'.numberOfOccurrences('foo')
2
To get indices of the substrings, see How to find all occurrences of a substring?.
string.count(substring), like in:
>>> "abcdabcva".count("ab")
2
This is for non overlapping occurrences.
If you need to count overlapping occurrences, you'd better check the answers here, or just check my other answer below.
s = 'arunununghhjj'
sb = 'nun'
results = 0
sub_len = len(sb)
for i in range(len(s)):
if s[i:i+sub_len] == sb:
results += 1
print results
Depending what you really mean, I propose the following solutions:
You mean a list of space separated sub-strings and want to know what is the sub-string position number among all sub-strings:
s = 'sub1 sub2 sub3'
s.split().index('sub2')
>>> 1
You mean the char-position of the sub-string in the string:
s.find('sub2')
>>> 5
You mean the (non-overlapping) counts of appearance of a su-bstring:
s.count('sub2')
>>> 1
s.count('sub')
>>> 3
The best way to find overlapping sub-strings in a given string is to use a regular expression. With lookahead, it will find all the overlapping matches using the regular expression library's findall(). Here, left is the substring and right is the string to match.
>>> len(re.findall(r'(?=aa)', 'caaaab'))
3
To find overlapping occurences of a substring in a string in Python 3, this algorithm will do:
def count_substring(string,sub_string):
l=len(sub_string)
count=0
for i in range(len(string)-len(sub_string)+1):
if(string[i:i+len(sub_string)] == sub_string ):
count+=1
return count
I myself checked this algorithm and it worked.
You can count the frequency using two ways:
Using the count() in str:
a.count(b)
Or, you can use:
len(a.split(b))-1
Where a is the string and b is the substring whose frequency is to be calculated.
Scenario 1: Occurrence of a word in a sentence.
eg: str1 = "This is an example and is easy". The occurrence of the word "is". lets str2 = "is"
count = str1.count(str2)
Scenario 2 : Occurrence of pattern in a sentence.
string = "ABCDCDC"
substring = "CDC"
def count_substring(string,sub_string):
len1 = len(string)
len2 = len(sub_string)
j =0
counter = 0
while(j < len1):
if(string[j] == sub_string[0]):
if(string[j:j+len2] == sub_string):
counter += 1
j += 1
return counter
Thanks!
The current best answer involving method count doesn't really count for overlapping occurrences and doesn't care about empty sub-strings as well.
For example:
>>> a = 'caatatab'
>>> b = 'ata'
>>> print(a.count(b)) #overlapping
1
>>>print(a.count('')) #empty string
9
The first answer should be 2 not 1, if we consider the overlapping substrings.
As for the second answer it's better if an empty sub-string returns 0 as the asnwer.
The following code takes care of these things.
def num_of_patterns(astr,pattern):
astr, pattern = astr.strip(), pattern.strip()
if pattern == '': return 0
ind, count, start_flag = 0,0,0
while True:
try:
if start_flag == 0:
ind = astr.index(pattern)
start_flag = 1
else:
ind += 1 + astr[ind+1:].index(pattern)
count += 1
except:
break
return count
Now when we run it:
>>>num_of_patterns('caatatab', 'ata') #overlapping
2
>>>num_of_patterns('caatatab', '') #empty string
0
>>>num_of_patterns('abcdabcva','ab') #normal
2
The question isn't very clear, but I'll answer what you are, on the surface, asking.
A string S, which is L characters long, and where S[1] is the first character of the string and S[L] is the last character, has the following substrings:
The null string ''. There is one of these.
For every value A from 1 to L, for every value B from A to L, the string S[A]..S[B]
(inclusive). There are L + L-1 + L-2 + ... 1 of these strings, for a
total of 0.5*L*(L+1).
Note that the second item includes S[1]..S[L],
i.e. the entire original string S.
So, there are 0.5*L*(L+1) + 1 substrings within a string of length L. Render that expression in Python, and you have the number of substrings present within the string.
One way is to use re.subn. For example, to count the number of
occurrences of 'hello' in any mix of cases you can do:
import re
_, count = re.subn(r'hello', '', astring, flags=re.I)
print('Found', count, 'occurrences of "hello"')
How about a one-liner with a list comprehension? Technically its 93 characters long, spare me PEP-8 purism. The regex.findall answer is the most readable if its a high level piece of code. If you're building something low level and don't want dependencies, this one is pretty lean and mean. I'm giving the overlapping answer. Obviously just use count like the highest score answer if there isn't overlap.
def count_substring(string, sub_string):
return len([i for i in range(len(string)) if string[i:i+len(sub_string)] == sub_string])
If you want to count all the sub-string (including overlapped) then use this method.
import re
def count_substring(string, sub_string):
regex = '(?='+sub_string+')'
# print(regex)
return len(re.findall(regex,string))
I will keep my accepted answer as the "simple and obvious way to do it", however, it does not cover overlapping occurrences.
Finding out those can be done naively, with multiple checking of the slices - as in:
sum("GCAAAAAGH"[i:].startswith("AAA") for i in range(len("GCAAAAAGH")))
which yields 3.
Or it can be done by trick use of regular expressions, as can be seen at How to use regex to find all overlapping matches - and it can also make for fine code golfing.
This is my "hand made" count for overlapping occurrences of patterns in a string which tries not to be extremely naive (at least it does not create new string objects at each interaction):
def find_matches_overlapping(text, pattern):
lpat = len(pattern) - 1
matches = []
text = array("u", text)
pattern = array("u", pattern)
indexes = {}
for i in range(len(text) - lpat):
if text[i] == pattern[0]:
indexes[i] = -1
for index, counter in list(indexes.items()):
counter += 1
if text[i] == pattern[counter]:
if counter == lpat:
matches.append(index)
del indexes[index]
else:
indexes[index] = counter
else:
del indexes[index]
return matches
def count_matches(text, pattern):
return len(find_matches_overlapping(text, pattern))
For overlapping count we can use use:
def count_substring(string, sub_string):
count=0
beg=0
while(string.find(sub_string,beg)!=-1) :
count=count+1
beg=string.find(sub_string,beg)
beg=beg+1
return count
For non-overlapping case we can use count() function:
string.count(sub_string)
Overlapping occurences:
def olpcount(string,pattern,case_sensitive=True):
if case_sensitive != True:
string = string.lower()
pattern = pattern.lower()
l = len(pattern)
ct = 0
for c in range(0,len(string)):
if string[c:c+l] == pattern:
ct += 1
return ct
test = 'my maaather lies over the oceaaan'
print test
print olpcount(test,'a')
print olpcount(test,'aa')
print olpcount(test,'aaa')
Results:
my maaather lies over the oceaaan
6
4
2
Here's a solution that works for both non-overlapping and overlapping occurrences. To clarify: an overlapping substring is one whose last character is identical to its first character.
def substr_count(st, sub):
# If a non-overlapping substring then just
# use the standard string `count` method
# to count the substring occurences
if sub[0] != sub[-1]:
return st.count(sub)
# Otherwise, create a copy of the source string,
# and starting from the index of the first occurence
# of the substring, adjust the source string to start
# from subsequent occurences of the substring and keep
# keep count of these occurences
_st = st[::]
start = _st.index(sub)
cnt = 0
while start is not None:
cnt += 1
try:
_st = _st[start + len(sub) - 1:]
start = _st.index(sub)
except (ValueError, IndexError):
return cnt
return cnt
If you're looking for a power solution that works every case this function should work:
def count_substring(string, sub_string):
ans = 0
for i in range(len(string)-(len(sub_string)-1)):
if sub_string == string[i:len(sub_string)+i]:
ans += 1
return ans
If you want to find out the count of substring inside any string; please use below code.
The code is easy to understand that's why i skipped the comments. :)
string=raw_input()
sub_string=raw_input()
start=0
answer=0
length=len(string)
index=string.find(sub_string,start,length)
while index<>-1:
start=index+1
answer=answer+1
index=string.find(sub_string,start,length)
print answer
You could use the startswith method:
def count_substring(string, sub_string):
x = 0
for i in range(len(string)):
if string[i:].startswith(sub_string):
x += 1
return x
def count_substring(string, sub_string):
inc = 0
for i in range(0, len(string)):
slice_object = slice(i,len(sub_string)+i)
count = len(string[slice_object])
if(count == len(sub_string)):
if(sub_string == string[slice_object]):
inc = inc + 1
return inc
if __name__ == '__main__':
string = input().strip()
sub_string = input().strip()
count = count_substring(string, sub_string)
print(count)
def count_substring(string, sub_string):
k=len(string)
m=len(sub_string)
i=0
l=0
count=0
while l<k:
if string[l:l+m]==sub_string:
count=count+1
l=l+1
return count
if __name__ == '__main__':
string = input().strip()
sub_string = input().strip()
count = count_substring(string, sub_string)
print(count)
2+ others have already provided this solution, and I even upvoted one of them, but mine is probably the easiest for newbies to understand.
def count_substring(string, sub_string):
slen = len(string)
sslen = len(sub_string)
range_s = slen - sslen + 1
count = 0
for i in range(range_s):
if string[i:i+sslen] == sub_string:
count += 1
return count
I'm not sure if this is something looked at already, but I thought of this as a solution for a word that is 'disposable':
for i in xrange(len(word)):
if word[:len(term)] == term:
count += 1
word = word[1:]
print count
Where word is the word you are searching in and term is the term you are looking for
string="abc"
mainstr="ncnabckjdjkabcxcxccccxcxcabc"
count=0
for i in range(0,len(mainstr)):
k=0
while(k<len(string)):
if(string[k]==mainstr[i+k]):
k+=1
else:
break
if(k==len(string)):
count+=1;
print(count)
my_string = """Strings are amongst the most popular data types in Python.
We can create the strings by enclosing characters in quotes.
Python treats single quotes the same as double quotes."""
Count = my_string.lower().strip("\n").split(" ").count("string")
Count = my_string.lower().strip("\n").split(" ").count("strings")
print("The number of occurance of word String is : " , Count)
print("The number of occurance of word Strings is : " , Count)
For a simple string with space delimitation, using Dict would be quite fast, please see the code as below
def getStringCount(mnstr:str, sbstr:str='')->int:
""" Assumes two inputs string giving the string and
substring to look for number of occurances
Returns the number of occurances of a given string
"""
x = dict()
x[sbstr] = 0
sbstr = sbstr.strip()
for st in mnstr.split(' '):
if st not in [sbstr]:
continue
try:
x[st]+=1
except KeyError:
x[st] = 1
return x[sbstr]
s = 'foo bar foo test one two three foo bar'
getStringCount(s,'foo')
Below logic will work for all string & special characters
def cnt_substr(inp_str, sub_str):
inp_join_str = ''.join(inp_str.split())
sub_join_str = ''.join(sub_str.split())
return inp_join_str.count(sub_join_str)
print(cnt_substr("the sky is $blue and not greenthe sky is $blue and not green", "the sky"))
Here's the solution in Python 3 and case insensitive:
s = 'foo bar foo'.upper()
sb = 'foo'.upper()
results = 0
sub_len = len(sb)
for i in range(len(s)):
if s[i:i+sub_len] == sb:
results += 1
print(results)
j = 0
while i < len(string):
sub_string_out = string[i:len(sub_string)+j]
if sub_string == sub_string_out:
count += 1
i += 1
j += 1
return count
#counting occurence of a substring in another string (overlapping/non overlapping)
s = input('enter the main string: ')# e.g. 'bobazcbobobegbobobgbobobhaklpbobawanbobobobob'
p=input('enter the substring: ')# e.g. 'bob'
counter=0
c=0
for i in range(len(s)-len(p)+1):
for j in range(len(p)):
if s[i+j]==p[j]:
if c<len(p):
c=c+1
if c==len(p):
counter+=1
c=0
break
continue
else:
break
print('number of occurences of the substring in the main string is: ',counter)
Related
For example: string = aaaacccc, then I need the output to be 4a4c. Is there a way to do this without using any advanced methods, such as libraries or functions?
Also, if someone knows how to do the reverse: turning "4a4c: into aaaacccc, that would be great to know.
This will do the work in one iteration
Keep two temp variable one for current character, another for count of that character and one variable for the result.
Just iterate through the string and keep increasing the count if it matches with the previous one.
If it doesn't then update the result with count and value of character and update the character and count.
At last add the last character and the count to the result. Done!
input_str = "aaaacccc"
if input_str.isalpha():
current_str = input_str[0]
count = 0
final_string = ""
for i in input_str:
if i==current_str:
count+=1
else:
final_string+=str(count)+current_str
current_str = i
count = 1
final_string+=str(count)+current_str
print (final_string)
Another solution and I included even a patchwork reverse operation like you mentioned in your post. Both run in O(n) and are fairly simple to understand. The encode is basically identical one posted by Akanasha, he was just a bit faster in posting his answer while i was writing the decode().
def encode(x):
if not x.isalpha():
raise ValueError()
output = ""
current_l = x[0]
counter = 0
for pos in x:
if current_l != pos:
output += str(counter) + current_l
counter = 1
current_l = pos
else:
counter += 1
return output + str(counter) + current_l
def decode(x):
output = ""
i = 0
while i < len(x):
if x[i].isnumeric():
n = i + 1
while x[n].isnumeric():
n += 1
output += int(x[i:n])*x[n]
i = n
i += 1
return output
test = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaasasggggggbbbbdd"
test1 = encode(test)
print(test1)
test2 = decode(test1)
print(test2)
print(test == test2)
yes, you do not need any libraries:
list1 = list("aaaacccc")
letters = []
for i in list1:
if i not in letters:
letters.append(i)
string = ""
for i in letters:
string += str(list1.count(i))
string+=str(i)
print(string)
Basically, it loops through the list, finds the unique letters and then prints the count with the letter itself. Reversing would be the same function, just print the amount.
I'm working on an assignment and have gotten stuck on a particular task. I need to write two functions that do similar things. The first needs to correct capitalization at the beginning of a sentence, and count when this is done. I've tried the below code:
def fix_capitalization(usrStr):
count = 0
fixStr = usrStr.split('.')
for sentence in fixStr:
if sentence[0].islower():
sentence[0].upper()
count += 1
print('Number of letters capitalized: %d' % count)
print('Edited text: %s' % fixStr)
Bu receive an out of range error. I'm getting an "Index out of range error" and am not sure why. Should't sentence[0] simply reference the first character in that particular string in the list?
I also need to replace certain characters with others, as shown below:
def replace_punctuation(usrStr):
s = list(usrStr)
exclamationCount = 0
semicolonCount = 0
for sentence in s:
for i in sentence:
if i == '!':
sentence[i] = '.'
exclamationCount += 1
if i == ';':
sentence[i] = ','
semicolonCount += 1
newStr = ''.join(s)
print(newStr)
print(semicolonCount)
print(exclamationCount)
But I'm struggling to figure out how to actually do the replacing once the character is found. Where am I going wrong here?
Thank you in advance for any help!
I would use str.capitalize over str.upper on one character. It also works correctly on empty strings. The other major improvement would be to use enumerate to also track the index as you iterate over the list:
def fix_capitalization(s):
sentences = [sentence.strip() for sentence in s.split('.')]
count = 0
for index, sentence in enumerate(sentences):
capitalized = sentence.capitalize()
if capitalized != sentence:
count += 1
sentences[index] = capitalized
result = '. '.join(sentences)
return result, count
You can take a similar approach to replacing punctuation:
replacements = {'!': '.', ';': ','}
def replace_punctuation(s):
l = list(s)
counts = dict.fromkeys(replacements, 0)
for index, item in enumerate(l):
if item in replacements:
l[index] = replacements[item]
counts[item] += 1
print("Replacement counts:")
for k, v in counts.items():
print("{} {:>5}".format(k, v))
return ''.join(l)
There are better ways to do these things but I'll try to change your code minimally so you will learn something.
The first function's issue is that when you split the sentence like "Hello." there will be two sentences in your fixStr list that the last one is an empty string; so the first index of an empty string is out of range. fix it by doing this.
def fix_capitalization(usrStr):
count = 0
fixStr = usrStr.split('.')
for sentence in fixStr:
# changed line
if sentence != "":
sentence[0].upper()
count += 1
print('Number of letters capitalized: %d' % count)
print('Edited text: %s' % fixStr)
In second snippet you are trying to write, when you pass a string to list() you get a list of characters of that string. So all you need to do is to iterate over the elements of the list and replace them and after that get string from the list.
def replace_punctuation(usrStr):
newStr = ""
s = list(usrStr)
exclamationCount = 0
semicolonCount = 0
for c in s:
if c == '!':
c = '.'
exclamationCount += 1
if c == ';':
c = ','
semicolonCount += 1
newStr = newStr + c
print(newStr)
print(semicolonCount)
print(exclamationCount)
Hope I helped!
Python has a nice build in function for this
for str in list:
new_str = str.replace('!', '.').replace(';', ',')
You can write a oneliner to get a new list
new_list = [str.replace('!', '.').replace(';', ',') for str in list]
You also could go for the split/join method
new_str = '.'.join(str.split('!'))
new_str = ','.join(str.split(';'))
To count capitalized letters you could do
result = len([cap for cap in str if str(cap).isupper()])
And to capitalize them words just use the
str.capitalize()
Hope this works out for you
I have a string with multiple words separated by underscores like this:
string = 'this_is_my_string'
And let's for example take string[n] which will return a letter.
Now for this index I want to get the whole word between the underscores.
So for string[12] I'd want to get back the word 'string' and for string[1] I'd get back 'this'
Very simple approach using string slicing is to:
slice the list in two parts based on position
split() each part based on _.
concatenate last item from part 1 and first item from part 2
Sample code:
>>> my_string = 'this_is_my_sample_string'
# ^ index 14
>>> pos = 14
>>> my_string[:pos].split('_')[-1] + my_string[pos:].split('_')[0]
'sample'
This shuld work:
string = 'this_is_my_string'
words = string.split('_')
idx = 0
indexes = {}
for word in words:
for i in range(len(word)):
idx += 1
indexes[idx] = word
print(indexes[1]) # this
print(indexes[12]) #string
The following code works. You can change the index and string variables and adapt to new strings. You can also define a new function with the code to generalize it.
string = 'this_is_my_string'
sp = string.split('_')
index = 12
total_len = 0
for word in sp:
total_len += (len(word) + 1) #The '+1' accounts for the underscore
if index < total_len:
result = word
break
print result
A little bit of regular expression magic does the job:
import re
def wordAtIndex(text, pos):
p = re.compile(r'(_|$)')
beg = 0
for m in p.finditer(text):
#(end, sym) = (m.start(), m.group())
#print (end, sym)
end = m.start()
if pos < end: # 'pos' is within current split piece
break
beg = end+1 # advance to next split piece
if pos == beg-1: # handle case where 'pos' is index of split character
return ""
else:
return text[beg:end]
text = 'this_is_my_string'
for i in range(0, len(text)+1):
print ("Text["+str(i)+"]: ", wordAtIndex(text, i))
It splits the input string at '_' characters or at end-of-string, and then iteratively compares the given position index with the actual split position.
I am a python newbie, and am struggling for what I thought was a simple code. My instructions are, Write a function that takes one string parameter word and will return the number of vowels in the string.
Also, just for clarification, supercat is my one string parameter word.
I've been working on this code for some time, and it's gotten a little jumbled.
This is what I have so far.
vowelletters = ["A","E","I","O","U","a","e","i","o","u"]
def isVowel(supercat):
if supercat in vowel:
return True
else:
return False
print isVowel(supercat)
def countvowel(supercat):
count = 0
for index in super cat:
if isVowel(vowelletters): count += 1
return count
y = countvowel(super cat)
print(y)
you can first make the string to test lowercase() so that you don't have to check for capital vowels (this make it more efficient). Next you can count() how many times each vowel is in the teststring and make a final sum() to get a total.
vowelletters = ["a","e","i","o","u"]
teststring= "hellO world foo bAr"
count = sum(teststring.lower().count(v) for v in vowelletters)
print count #6
You can place everything in a function to easily reuse the code.
def countVowels(mystring):
vowelletters = ["a","e","i","o","u"]
return sum(mystring.lower().count(v) for v in vowelletters)
Spaces in variable names not allowed, I would say:
for index in super cat:
and
y = countvowel(super cat)
It looks to me as if your indentation has problems and you left an extra space in there. (super cat instead of supercat)
You also used vowelletters instead of index in countvowel() and forgot to use the global statement in isVowel().
vowelletters = ["A","E","I","O","U","a","e","i","o","u"]
def isVowel(supercat):
global vowelletters
if supercat in vowelletters:
return True
else:
return False
print isVowel(supercat) # This isn't executed
# because it is after a return statement.
def countvowel(supercat):
count = 0
for index in supercat:
if isVowel(index): count += 1
return count
y = countvowel("supercat")
print(y)
how about this:
vowelletters = ("a","e","i","o","u")
def countvowel(word):
word = word.lower()
count = 0
for char in word:
if char in vowelletters:
count += 1
return count
print countvowel('super cat') # prints 3
or using the list comprehension:
vowelletters = ("a","e","i","o","u")
def countvowel(word):
word = word.lower()
vowels = [char for char in word if char in vowelletters]
return len(vowels)
You can simplify this function that you're writing
def countvowel(supercat):
count = 0
for i in range(len(supercat)-1):
if supercat[i] in "AEIOUaeiou":
count += 1
print(count)
You can use sum() and a generator.
def countVowels(word):
return sum(1 for c in word if c in "AEIOUaeiou")
print(countVowels('supercat'))
Python newb here. I m trying to count the number of letter "a"s in a given string. Code is below. It keeps returning 1 instead 3 in string "banana". Any input appreciated.
def count_letters(word, char):
count = 0
while count <= len(word):
for char in word:
if char == word[count]:
count += 1
return count
print count_letters('banana','a')
The other answers show what's wrong with your code. But there's also a built-in way to do this, if you weren't just doing this for an exercise:
>>> 'banana'.count('a')
3
Danben gave this corrected version:
def count_letters(word, char):
count = 0
for c in word:
if char == c:
count += 1
return count
Here are some other ways to do it, hopefully they will teach you more about Python!
Similar, but shorter for loop. Exploits the fact that booleans can turn into 1 if true and 0 if false:
def count_letters(word, char):
count = 0
for c in word:
count += (char == c)
return count
Short for loops can generally be turned into list/generator comprehensions. This creates a list of integers corresponding to each letter, with 0 if the letter doesn't match char and 1 if it does, and then sums them:
def count_letters(word, char):
return sum(char == c for c in word)
The next one filters out all the characters that don't match char, and counts how many are left:
def count_letters(word, char):
return len([c for c in word if c == char])
One problem is that you are using count to refer both to the position in the word that you are checking, and the number of char you have seen, and you are using char to refer both to the input character you are checking, and the current character in the string. Use separate variables instead.
Also, move the return statement outside the loop; otherwise you will always return after checking the first character.
Finally, you only need one loop to iterate over the string. Get rid of the outer while loop and you will not need to track the position in the string.
Taking these suggestions, your code would look like this:
def count_letters(word, char):
count = 0
for c in word:
if char == c:
count += 1
return count
A simple way is as follows:
def count_letters(word, char):
return word.count(char)
Or, there's another way count each element directly:
from collections import Counter
Counter('banana')
Of course, you can specify one element, e.g.
Counter('banana')['a']
Your return is in your for loop! Be careful with indentation, you want the line return count to be outside the loop. Because the for loop goes through all characters in word, the outer while loop is completely unneeded.
A cleaned-up version:
def count_letters(word, to_find):
count = 0
for char in word:
if char == to_find:
count += 1
return count
You have a number of problems:
There's a problem with your indentation as others already pointed out.
There's no need to have nested loops. Just one loop is enough.
You're using char to mean two different things, but the char variable in the for loop will overwrite the data from the parameter.
This code fixes all these errors:
def count_letters(word, char):
count = 0
for c in word:
if char == c:
count += 1
return count
A much more concise way to write this is to use a generator expression:
def count_letters(word, char):
return sum(char == c for c in word)
Or just use the built-in method count that does this for you:
print 'abcbac'.count('c')
I see a few things wrong.
You reuse the identifier char, so that will cause issues.
You're saying if char == word[count] instead of word[some index]
You return after the first iteration of the for loop!
You don't even need the while. If you rename the char param to search,
for char in word:
if char == search:
count += 1
return count
Alternatively You can use:
mystring = 'banana'
number = mystring.count('a')
count_letters=""
number=count_letters.count("")
print number
"banana".count("ana") returns 1 instead of 2 !
I think the method iterates over the string (or the list) with a step equal to the length of the substring so it doesn't see this kind of stuff.
So if you want a "full count" you have to implement your own counter with the correct loop of step 1
Correct me if I'm wrong...
def count_letter(word, char):
count = 0
for char in word:
if char == word:
count += 1
return count #Your return is inside your for loop
r = count_word("banana", "a")
print r
3
x=str(input("insert string"))
c=0
for i in x:
if 'a' in i:
c=c+1
print(c)
Following program takes a string as input and output a pandas DataFrame, which represents the letter count.
Sample Input
hello
Sample Output
char Freq.
0 h 1
1 e 1
2 l 2
3 o 1
import pandas as pd
def count_letters(word, char):
return word.count(char)
text = input()
text_split = text.split()
list1 = []
list2 = []
for i in text_split:
for j in i:
counter = count_letters (text, j)
list1.append(j)
list2.append(counter)
dictn = dict(zip(list1, list2))
df = pd.DataFrame (dictn.items(), columns = ['char', 'freq.'])
print (df)