# What does sizeof do?

What is the main function of `sizeof` (I am new to C++). For instance

``````int k=7;
char t='Z';
``````

What do `sizeof (k)` or `sizeof (int)` and `sizeof (char)` mean?

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You are missing a ' in your char. –  Konrad Jul 8 '10 at 11:50
@Tyler McHenry Timing is little off the mark for me at 0.08 secs. –  DumbCoder Jul 8 '10 at 12:02
@davit: if you're going to learn a programming language you should really try reading a decent introductory book on the language to get the basics, not just leave it to trial, error, guesswork and endless questions on SO. –  Paul R Jul 8 '10 at 12:19
It always amuses me when I Google for a question, and the first link is to SO where someone's being berated for asking rather than googling! :) –  Chap Jul 26 '13 at 1:21
The answer on What does sizeof do? should explain what is happening. –  SnoringFrog Nov 3 '13 at 21:48

`sizeof(x)` returns the amount of memory (in bytes) that the variable or type `x` occupies. It has nothing to do with the value of the variable.

For example, if you have an array of some arbitrary type `T` then the distance between elements of that array is exactly `sizeof(T)`.

``````int a[10];
assert(&(a[0]) + sizeof(int) == &(a[1]));
``````

When used on a variable, it is equivalent to using it on the type of that variable:

``````T x;
assert(sizeof(T) == sizeof(x));
``````

As a rule-of-thumb, it is best to use the variable name where possible, just in case the type changes:

``````int x;
std::cout << "x uses " << sizeof(x) << " bytes." << std::endl
// If x is changed to a char, then the statement doesn't need to be changed.
// If we used sizeof(int) instead, we would need to change 2 lines of code
``````

When used on user-defined types, `sizeof` still returns the amount of memory used by instances of that type, but it's worth pointing out that this does not necessary equal the sum of its members.

``````struct Foo { int a; char b; };
``````

While `sizeof(int) + sizeof(char)` is typically `5`, on many machines, `sizeof(Foo)` may be `8` because the compiler needs to pad out the structure so that it lies on 4 byte boundaries. This is not always the case, and it's quite possible that on your machine `sizeof(Foo)` will be 5, but you can't depend on it.

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int means that if variable t is given t=100 than sizeof(t)= 1? –  dato datuashvili Jul 8 '10 at 11:53
but it show me 4 why –  dato datuashvili Jul 8 '10 at 11:54
It shows 4 because an `int` typically uses up 4 bytes. `sizeof` has nothing to do with the value stored in the variable. –  Peter Alexander Jul 8 '10 at 11:57
nit: technically, sizeof does not report the size in bytes, but whatever unit necessary so that sizeof(char) == 1. The is nearly universally bytes, but in theory at least, not necessarily. –  James Curran Jul 8 '10 at 14:44
From the standard: "The sizeof operator yields the number of bytes in the object representation of its operand." However, you are right that byte in the standard isn't explicitly defined as 8-bits as it usually is. –  Peter Alexander Jul 9 '10 at 6:58

To add to Peter Alexander's answer: sizeof yields the size of a value or type in multiples of the size of a `char`---`char` being defined as the smallest unit of memory addressable (by C or C++) for a given architecture (and, in C++ at least, at least 8 bits in size according to the standard). This is what's generally meant by "bytes" (smallest addressable unit for a given architecture) but it never hurts to clarify, and there are occasionally questions about the variability of `sizeof (char)`, which is of course always `1`.

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A byte isn't necessarily the "smallest addressable unit for a given architecture". On some CDC Cyber computers, the smallest addressable unit is a 16-bit word (Address 0 is 16-bits, address 1 is a distinct 16-bits), and they refer to the two halves as bytes. –  James Curran Jul 8 '10 at 14:50
@James: Right: my point was that "byte" is an inherently ambiguous term, and no matter how you define it, somebody somewhere will use it differently. Interesting about the CDCs. –  Derrick Turk Jul 8 '10 at 16:02
Most people will agree that a byte is 8 bits, and while there used to be some confusion, it's standardized nowadays: IEC 80000-13. In contrast, the smallest addressable unit in a machine is often called a word, and it is machine-dependent. There are 16-, 32-, 64-bit architectures, but even in those contexts, a byte will still be 8 bit. –  Zane Nov 7 '13 at 11:59

sizeof() returns the size of the argument passed to it. sizeof() cpp reference

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