int main()
    string s;
    cout << "enter the string :" << endl;
    cin >> s;
    for (int i = 0; i < s.length(); i++)
        s[i] ^= 32;
    cout << "modified string is : " << s << endl;
    return 0;

I saw this code which converts uppercase to lowercase on stackoverflow.

But I don't understand the line s[i] = s[i]^32.

How does it work?

  • 3
  • 15
    Don't worry about not understanding it. It is not portable and should not be used. – NathanOliver Nov 16 '16 at 20:18
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    Even for ASCII only, it rather toggles case and does bad things to characters other than alphabetic. – LogicStuff Nov 16 '16 at 20:20
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    @MarkRansom Sure if you know that your use case is only going to be ASCII then it is not an issue but that should be documented in the code. You should document when you place a limit on the cases something will work in when the C++ standard places no limit. Also I do not think that there is any exaggeration in my statement. C++ doesn't even require ASCII to be used or that characters are sequential. – NathanOliver Nov 16 '16 at 20:44
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    @MarkRansom: Of course, the knowledge can't hurt. Still, a lot of things were different in the olden days, not all of them for the better. – Christian Hackl Nov 16 '16 at 20:57

^= is the exclusive-or assignment operator. 32 is 100000 in binary, so ^= 32 switches the fifth bit in the destination. In ASCII, lower and upper case letters are 32 positions apart, so this converts lower to upper case, and also the other way.

But it only works for ASCII, not for Unicode for example, and only for letters. To write portable C++, you should not assume the character encoding to be ASCII, so please don't use such code. @πάντα ῥεῖs answer shows a way to do it properly.

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    Code like this should never be used. – Emmanuel Mathi-Amorim Nov 16 '16 at 20:21
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    And it works nicely only with alphabetic characters. It will do crazy things to others. – Fred Larson Nov 16 '16 at 20:21
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    @magic-sudo: There are a lot of ASCII characters besides a-z and A-Z. – Fred Larson Nov 16 '16 at 20:22
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    It will probably lead to hard to trace bugs later on. – Emmanuel Mathi-Amorim Nov 16 '16 at 20:22
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    @alain: Well, that's my point. You talk about the 32 positions before hinting that ASCII cannot be assumed. Which, to a beginner, may sound as if the statement "lower and upper case letters are 32 positions apart" is universally correct in C++. – Christian Hackl Nov 16 '16 at 20:37

How does it work?

Let's see for ASCII value 'A':

'A' is binary 1000001

XORed with 32 (binary 100000)

yields any value where the upper character indicating bit isn't set:

1000001 XOR 100000 = 1100001 == 'a' in ASCII.

Any sane and portable c or c++ application should use tolower():

int main()
    string s;
    cout<<"enter the string :"<<endl;
    for (int i=0;i<s.length();i++) s[i] = tolower( (unsigned char)s[i] );
                                     // ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
    cout<<"modified string is : "<<s<<endl;
    return 0;

The s[i]=s[i]^32 (cargo cult) magic, relies on ASCII table specific mapping to numeric char values.

There are other char code tables like e.g. EBCDIC , where the


method miserably fails to retrieve the corresponding lower case letters.

There's a more sophisticated c++ version of converting to lower case characters shown in the reference documentation page of std::ctype::tolower().

  • 1
    ctype is a class template, not a class, and tolower() is a non-static member function. – Barry Nov 16 '16 at 20:47
  • @Barry THX for pointing that out. Fixed to fall back to the straight c version. (well that invalidates "Any sane and portable c++ application" a bit now). – πάντα ῥεῖ Nov 16 '16 at 20:53
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    After all, this is C++. Why wouldn't we have three different functions named tolower(). I guess 4 if you count the range overload of the ctype one. – Barry Nov 16 '16 at 20:55
  • Portable code would be s[i] = tolower( (unsigned char)s[i] ) or s[i] = tolower( s[i], std::locale() ); – M.M Nov 16 '16 at 21:26
  • ^@M.M Adopted your 1st version. – πάντα ῥεῖ Nov 16 '16 at 21:34

In C++, like its predecessor C, a char is a numeric type. This is after all how characters are represented on the hardware and these languages don't hide that from you.

In ASCII, letters have the useful property that the difference between an uppercase and a lowercase letter is a single binary bit: the 5th bit (if we start numbering from the right starting at 0).

Uppercase A is represented by the byte 0b01000001 (0x41 in hex), and lowercase a is represented by the byte 0b01100001 (0x61 in hex). Notice that the only difference between uppercase and lowercase A is the fifth bit. This pattern continues from B to Z.

So, when you do ^= 32 (which, incidentally, is 2 to the 5th power) on a number that represents an ASCII character, what that does is toggle the 5th bit - if it is 0, it becomes 1, and vice versa, which changes the character from upper to lower case and vice versa.

  • ... if your C++ implementation uses ASCII. – Christian Hackl Nov 16 '16 at 20:58
  • @ChristianHackl I specifically named ASCII as the character set I was talking about in my answer (since it is the same as OP's question) – Govind Parmar Nov 16 '16 at 20:59
  • Yes, but you failed to mention that perhaps your C++ implementation does not use ASCII at all. – Christian Hackl Nov 16 '16 at 21:00
  • PLZZ give me an example thats how i can understand it easily – Rashed Sami Nov 16 '16 at 22:13
  • 1
    @RashedSami This answer has an example. Did you read it before commenting? – user743382 Nov 16 '16 at 22:14

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