std::malloc
Defined in header <cstdlib>
|
||
void* malloc( std::size_t size ); |
||
Allocates size
bytes of uninitialized storage.
If allocation succeeds, returns a pointer to the lowest (first) byte in the allocated memory block that is suitably aligned for any scalar type (at least as strictly as std::max_align_t).
If size
is zero, the behavior is implementation defined (null pointer may be returned, or some non-null pointer may be returned that may not be used to access storage, but has to be passed to std::free)
The following functions are required to be thread-safe:
Calls to these functions that allocate or deallocate a particular unit of storage occur in a single total order, and each such deallocation call happens-before the next allocation (if any) in this order. |
(since C++11) |
Parameters
size | - | number of bytes to allocate |
Return value
On success, returns the pointer to the beginning of newly allocated memory. To avoid a memory leak, the returned pointer must be deallocated with std::free() or std::realloc().
On failure, returns a null pointer.
Notes
This function does not call constructors or initialize memory in any way. There are no ready-to-use smart pointers that could guarantee that the matching deallocation function is called. The preferred method of memory allocation in C++ is using RAII-ready functions std::make_unique, std::make_shared, container constructors, etc, and, in low-level library code, new-expression.
For loading a large file, file mapping via OS-specific functions, e.g. mmap
on POSIX or CreateFileMapping
(A
/W
) along with MapViewOfFile
on Windows, is preferable to allocating a buffer for file reading.
Example
#include <iostream> #include <cstdlib> #include <string> #include <memory> int main() { constexpr std::size_t size = 4; if (auto ptr = reinterpret_cast<std::string*>( std::malloc(size * sizeof(std::string)))) { try { for (std::size_t i = 0; i < size; ++i) std::construct_at(ptr + i, 5, 'a' + i); for (std::size_t i = 0; i < size; ++i) std::cout << "ptr[" << i << "] == " << ptr[i] << '\n'; std::destroy_n(ptr, size); } catch(...) {} std::free(ptr); } }
Output:
p[0] == aaaaa p[1] == bbbbb p[2] == ccccc p[3] == ddddd
See also
allocation functions (function) | |
(deprecated in C++17)(removed in C++20) |
obtains uninitialized storage (function template) |