Possible Duplicate:
Size of character ('a') in C/C++

I am a beginner at C, and was confused by this.

C: I tried printing the sizeof( 'a' ) in C using the "%zu" modifier, and it prints a value 4.

C++: Printing sizeof( 'a' ) in C++ using cout, and printf(using the format above) both printed a value 1.

I believe the correct value should be 1, since 'a' will be taken as a char. Why doesn't it return 4 in C? Are the sizeof operations of both different in both the languages? If so, what's the difference, and why does it return a different value? I used the gcc compilers in both cases.

marked as duplicate by Fred Foo, RedX, interjay, AProgrammer, MSalters May 23 '12 at 13:02

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

migrated from programmers.stackexchange.com May 23 '12 at 9:45

This question came from our site for professionals, academics, and students working within the systems development life cycle.

  • 7
    Because C isn't C++. Not trying to be snide here. You probably wouldn't be surprised if a char in C was different from a char in Python, but many people think that C is simply a subset of C++. Not the case at all. Good answers below, but the bottom line is that C and C++ are 2 different languages. – Dan May 23 '12 at 5:04

In C, the 'a' is a character constant, which is treated as an integer, so you get a size of 4, whereas in C++ it's treated as a char. This is a duplicate of the question here:

Size of character ('a') in C/C++

  • I had tried searching, but it didn't match any questions. Thank you for letting me know of the duplicate. – Khushman Patel May 23 '12 at 4:35
  • -1: There is no definition in C of the size of an Int beyond its size in relation to char and long. – mattnz May 23 '12 at 5:07
  • 3
    @mattnz - If you read the linked answer, you can clearly see in the comments (of the first and only answer) that the sizeof an int is platform dependent. I didn't address this issue because 1. the linked thread addresses it and I expect a mod to close this thread and 2. given the context of the asker's question, clearly the sizeof an int is 4 on his machine. – BlackJack May 23 '12 at 5:19
  • @Blackjack : Doesn't change the fact that many C programming errors are caused by the assertion that an int is 4 characters and that your answer continues the insidious spread of the myth. If you knew 4 is not correct, why did you write it? I think we will have to agree to disagree, it's a bugbear of mine – mattnz May 23 '12 at 5:39

In C a character literal (constant) has type int. So, consider the following program

#include <stdio.h>

main(int argc, char *argv[])
  printf("%zu\n", sizeof('a'));
  printf("%zu\n", sizeof('ab'));
  printf("%zu\n", sizeof('abc'));
  printf("%zu\n", sizeof('abcd'));

  printf("%u\n", 'a');
  printf("%u\n", 'ab');
  printf("%u\n", 'abc');
  printf("%u\n", 'abcd');

  printf("%x\n", 'a');
  printf("%x\n", 'ab');
  printf("%x\n", 'abc');
  printf("%x\n", 'abcd');

  printf("%c\n", 'a');
  printf("%c\n", 'ab');
  printf("%c\n", 'abc');
  printf("%c\n", 'abcd');

The first four statements all consider the literals as one character constant and they all print 4 == sizef(int), at least on gcc (Ubuntu 4.4.3-4ubuntu5.1) 4.4.3. Note that this compiler prints several warnings for the above program:

warning: multi-character character constant

Basically, a character literal specifies the four bytes making up an int, from left to right, higher-order byte first. The missing leading bytes are filled with 0. So, on my machine the second and third group of printf statements print


In the hexadecimal output you see the layout of the four characters in the literal (the ASCII codes from left to right): the 'a' is mapped to the highest-order byte 0x61).

Finally, the fourth group prints:


i.e. the character literals are pushed on the stack as integers, but printf only prints the lowest byte of that int as a char.

C++ behaves in a similar way, but one-byte character literals are considered of type char, not int. The program

#include <iostream>

using namespace std;

main(int argc, char *argv[])
  cout << sizeof('a') << endl;
  cout << sizeof('ab') << endl;
  cout << sizeof('abc') << endl;
  cout << sizeof('abcd') << endl;

  cout << 'a' << endl;
  cout << 'ab' << endl;
  cout << 'abc' << endl;
  cout << 'abcd' << endl;

will compile using GCC and give a similar warning. Its output is different from that of C:


So one-byte character literals are treated as char, while multi-byte literals are treated as int.


I ran my tests on a 32-bit Linux system on which an int has 4 bytes. It would be interesting to see what happens on other systems, e.g. on a 64-bit system.


Fixed answer (thanks for the hint): character literals have type int in C, they are not cast to int.

  • Most systems have 4-byte int, except 16-bit ones. – Fred Foo May 23 '12 at 9:51
  • 1
    Small incorrectness: character constants don't get cast to int, they have type int in C. – Daniel Fischer May 23 '12 at 9:58
  • Thanks, I will fix this. This means that they are cast to char each time they are assigned. – Giorgio May 23 '12 at 11:53
  • @larsmans: I have never seen an implementation with int taking up 64-bits, but as far as I know the initial idea was that in C int corresponds to the width of a processor register. Nevertheless, I think that with 64-bit processors it is more natural to have 8-bit char, 16-bit short, 32-bit int, 64-bit long (64-bit int would feel a bit awkward to me). – Giorgio May 23 '12 at 11:58
  • Also I was a bit surprised that 'abcd' is represented as 0x61626364 on a little-endian architecture, somehow I was expecting 0x64636261. – Giorgio May 23 '12 at 12:04

Not the answer you're looking for? Browse other questions tagged or ask your own question.