std::size_t
Defined in header
<cstddef>
|
||
Defined in header
<cstdio>
|
||
Defined in header
<cstring>
|
||
Defined in header
<ctime>
|
||
Defined in header
<cstdlib>
|
(since C++11) |
|
Defined in header
<cwchar>
|
(since C++11) |
|
typedef /*implementation-defined*/ size_t;
|
||
std::size_t is the unsigned integer type of the result of the sizeof operator as well as the sizeof... operator and the alignof operator (since C++11).
[edit] Notes
std::size_t can store the maximum size of a theoretically possible object of any type (including array). A type whose size cannot be represented by std::size_t
is ill-formed (since C++14) On many platforms (an exception is systems with segmented addressing) std::size_t can safely store the value of any non-member pointer, in which case it is synonymous with std::uintptr_t.
std::size_t is commonly used for array indexing and loop counting. Programs that use other types, such as unsigned int, for array indexing may fail on, e.g. 64-bit systems when the index exceeds UINT_MAX or if it relies on 32-bit modular arithmetic.
When indexing C++ containers, such as std::string, std::vector, etc, the appropriate type is the member typedef size_type provided by such containers. It is usually defined as a synonym for std::size_t.
[edit] Example
#include <cstddef> #include <iostream> int main() { const std::size_t N = 10; int* a = new int[N]; for (std::size_t n = 0; n < N; ++n) a[n] = n; for (std::size_t n = N; n-- > 0;) // Reverse cycles are tricky for unsigned types. std::cout << a[n] << " "; delete[] a; }
Output:
9 8 7 6 5 4 3 2 1 0
[edit] See also
signed integer type returned when subtracting two pointers (typedef) |
|
byte offset from the beginning of a standard-layout type to specified member (function macro) |
|
C documentation for size_t
|