Simply put in C and variants (unlike that wuss java with its virtual machine) the size of primitive types on different targets can vary greatly, and there is really no guarantee unless you use the fixed width types defined in stdint.h, and even then your implemenation has to support them.

Anyway hypothetically(because on most modern machines a byte is an octet, for networking purposes I assume(ASCII)) does sizeof return the size of a datatype in bytes or in octets?

  • 3
    Bytes, but a single byte (represented as char) has CHAR_BITS bits. If you want the number of octets in a T, do sizeof(T) * CHAR_BITS / 8. On most platforms, CHAR_BITS is 8.
    – GManNickG
    Aug 8, 2012 at 15:46
  • 2
    @GManNickG CHAR_BIT (there's no S) :)
    – Praetorian
    Aug 8, 2012 at 15:55
  • float octetPercent = sizeof(T) * CHAR_BIT /8.0;
    – awiebe
    Aug 8, 2012 at 16:05
  • 1
    Note that POSIX and Windows (i.e. basically 99.999% of non-DSP systems) both require a byte to be an octet, the the question is mostly of interest for purposes of pedantry/language-lawyering. Aug 8, 2012 at 17:58
  • 1
    You've got it, that's why it says hypothetical.
    – awiebe
    Aug 8, 2012 at 18:04

4 Answers 4


Answer: sizeof returns the size of the type in bytes.

Example: sizeof(char) is 100% guaranteed to be 1, but this does not mean, that it's one octet (8 bits).

Proved by the standard:

in, point 2:

The sizeof operator yields the size (in bytes) of its operand, which may be an expression or the parenthesized name of a type. The size is determined from the type of the operand. The result is an integer. If the type of the operand is a variable length array type, the operand is evaluated; otherwise, the operand is not evaluated and the result is an integer constant.


When applied to an operand that has type char, unsigned char, or signed char, (or a qualified version thereof) the result is 1. When applied to an operand that has array type, the result is the total number of bytes in the array) When applied to an operand that has structure or union type, the result is the total number of bytes in such an object, including internal and trailing padding.

Also, in Section 3.6, point 3:

A byte is composed of a contiguous sequence of bits, the number of which is implementation-defined

  • What is the reason why sizeof(char) = 1? Sep 2, 2020 at 3:59
  • 1
    @ConnorFuhrman It is the definition: 3.7.1: character: single-byte character and for sizeof: The sizeof operator: [...] When applied to an operand that has type char, unsigned char, or signed char, (or a qualified version thereof) the result is 1
    – Z4-tier
    Jan 21, 2021 at 21:29

sizeof always returns size as the number of bytes. But according to wikipedia:

In the programming languages C and C++, the unary operator sizeof is used to calculate the size of any datatype, measured in the number of bytes required to represent the type. A byte in this context is the same as an unsigned char, and may be larger than 8 bits, although that is uncommon.


sizeof gives the size in bytes. However, note that "byte" is a technical term in the C standard, and is defined such that sizeof(char) == 1.


From my own experience, working on embedded micro controllers with exotic 'C' compilers, I have seen:

sizeof( uint8 )

return 1

sizeof( uint16 )

return 1

sizeof( uint32 )

return 2

Clearly, I was dealing with a machine were the smallest addressable entity was 16 bit, so the sizeof does not comply with C89 or C99.

I would say that on mainstream C89 & C99 compliant systems, the accepted answer is correct. Unfortunately, a "C" compiler can still be called a "C" compiler, even if it does not comply to a 25 year old standard. I hope this answer help put things in perspective, given more exotic systems.

  • 1
    Why do you think this does not comply to the standard? If char is 16 bits wide this is exactly what I would expect. If the smallest addressable entity is 16-bits, it also makes sense that a uint8_t must occupy at least 16 bits (thus sizeof(uint8_t) == sizeof(uint16_t)).
    – Al Gebra
    Sep 25, 2018 at 17:44
  • 1
    This is a great answer, it reveals the nuances. The take home: Check CHAR_BIT in <limits.h> and compare that to sizeof(char) for reference. Where byte in all strictly technical cases is 8bits, except when (software says it is not) CHAR_BIT is not equal to 8. As C derives its definition for byte from CHAR_BIT. In the case of your 16bit minimum addressable size I bet CHAR_BIT was set to 16. Can you corroborate this? Oct 13, 2018 at 15:18

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