180

I would like to read some characters from a string s1 and put it into another string s2.

However, assigning to s2[j] gives an error:

s2[j] = s1[i]

# TypeError: 'str' object does not support item assignment

In C, this works:

int i = j = 0;
while (s1[i] != '\0')
    s2[j++] = s1[i++];

My attempt in Python:

s1 = "Hello World"
s2 = ""
j = 0

for i in range(len(s1)):
    s2[j] = s1[i]
    j = j + 1
2
  • 27
    Btw, don't name your variables after python builtins. If you use str as a variable here, you will be unable to do string conversions with str(var_that_is_not_a_string) or type comparisions such as type(var_with_unknown_type) == str. May 17 '12 at 7:23
  • 1
    See stackoverflow.com/questions/41752946/… to fix TypeError: 'str' object does not support item assignment.
    – Friedrich
    Mar 11 at 17:16
150

The other answers are correct, but you can, of course, do something like:

>>> str1 = "mystring"
>>> list1 = list(str1)
>>> list1[5] = 'u'
>>> str1 = ''.join(list1)
>>> print(str1)
mystrung
>>> type(str1)
<type 'str'>

if you really want to.

0
130

In Python, strings are immutable, so you can't change their characters in-place.

You can, however, do the following:

for c in s1:
    s2 += c

The reasons this works is that it's a shortcut for:

for c in s1:
    s2 = s2 + c

The above creates a new string with each iteration, and stores the reference to that new string in s2.

8
  • 1
    @RasmiRanjanNayak: It depends on what you need to do with those characters. In my answer I've shown how they can be appended to another string.
    – NPE
    May 17 '12 at 7:24
  • 5
    @RasmiRanjanNayak: print " ".join(reversed("Hello world".split())).capitalize() May 17 '12 at 7:29
  • 2
    @aix: That was literally within a few seconds of each other. :D May 17 '12 at 7:31
  • 1
    I wanted to know how that affects memory, for example, if I'm dealing with code which has to do this for millions of times, would the new created strings in each iteration get garbage collected or what.. i'm just hopelessly confused here Jul 12 '13 at 12:41
  • 1
    @ronnieaka In older versions of Python, this would indeed generate huge amounts of of garbage. Modern ones can sometimes optimize (which is one of the advantages of a language that doesn't make guarantees about underlying implementation details), but it's better not to rely on that. See stackoverflow.com/questions/1316887/… Aug 1 '13 at 23:49
22

Python strings are immutable so what you are trying to do in C will be simply impossible in python. You will have to create a new string.

I would like to read some characters from a string and put it into other string.

Then use a string slice:

>>> s1 = 'Hello world!!'
>>> s2 = s1[6:12]
>>> print s2
world!
6

As aix mentioned - strings in Python are immutable (you cannot change them inplace).

What you are trying to do can be done in many ways:

# Copy the string

foo = 'Hello'
bar = foo

# Create a new string by joining all characters of the old string

new_string = ''.join(c for c in oldstring)

# Slice and copy
new_string = oldstring[:]
1

Another approach if you wanted to swap out a specific character for another character:

def swap(input_string):
   if len(input_string) == 0:
     return input_string
   if input_string[0] == "x":
     return "y" + swap(input_string[1:])
   else:
     return input_string[0] + swap(input_string[1:])
0

Performant methods

If you are frequently performing index replacements, a more performant and memory-compact method is to convert to a different data structure. Then, convert back to string when you're done.

list:

Easiest and simplest:

s = "TEXT"
s = list(s)
s[1] = "_"
s = "".join(s)

bytearray (ASCII):

This method uses less memory. The memory is also contiguous, though that doesn't really matter much in Python if you're doing single-element random access anyways:

ENC_TYPE = "ascii"
s = "TEXT"
s = bytearray(s, ENC_TYPE)
s[1] = ord("_")
s = s.decode(ENC_TYPE)

bytearray (UTF-32):

More generally, for characters outside the base ASCII set, I recommend using UTF-32 (or sometimes UTF-16), which will ensure alignment for random access:

ENC_TYPE = "utf32"
ENC_WIDTH = 4

def replace(s, i, replacement):
    start = ENC_WIDTH * (i + 1)
    end = ENC_WIDTH * (i + 2)
    s[start:end] = bytearray(replacement, ENC_TYPE)[ENC_WIDTH:]


s = "TEXT HI ひ RA ら GA が NA な DONE"
s = bytearray(s, ENC_TYPE)

# Performs s[1] = "_"
replace(s, 1, "_")

s = s.decode(ENC_TYPE)

Though this method may be more memory-compact than using list, it does require many more operations.

0

Other answers convert the string to a list or construct a new string character by character. These methods can be costly, especially for large strings. Instead, we can use slicing to get the parts of the string before and after the character that is changed, and combine those with the new character.

Here I modify the example code from Crowman's answer to replace a single character in the string using string slicing instead of conversion to a list.

>>> str1 = "mystring"
>>> pos = 5
>>> new_char = 'u'
>>> str2 = str1[:pos] + new_char + str1[pos+1:]
>>> print(str2)
mystrung
>>> type(str2)
<class 'str'>
-1

How about this solution:

str="Hello World" (as stated in problem) srr = str+ ""

-1

Hi you should try the string split method:

i = "Hello world"
output = i.split()

j = 'is not enough'

print 'The', output[1], j

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