Difference between revisions of "cpp/string/byte/memcpy"
(→Notes: + implicit object creation, corresponding to effective types in C) |
m (→Example: add `memcpy` for object creation in dedicated buffer; fmt) |
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| Line 45: | Line 45: | ||
char source[] = "once upon a midnight dreary...", dest[4]; | char source[] = "once upon a midnight dreary...", dest[4]; | ||
std::memcpy(dest, source, sizeof dest); | std::memcpy(dest, source, sizeof dest); | ||
| + | std::cout << "dest[4] = { "; | ||
for (char c : dest) | for (char c : dest) | ||
| − | std::cout << c << '\n | + | std::cout << "'" << c << "', "; |
| + | std::cout << "};\n"; | ||
// reinterpreting | // reinterpreting | ||
| Line 55: | Line 57: | ||
std::cout << std::hexfloat << d << " is " << std::hex << n | std::cout << std::hexfloat << d << " is " << std::hex << n | ||
| − | << " as an std::int64_t\n"; | + | << " as an std::int64_t\n" << std::dec; |
| + | |||
| + | // object creation in destination buffer | ||
| + | struct S { | ||
| + | int x{42}; | ||
| + | void print() const { std::cout << "{" << x << "}\n"; } | ||
| + | } s; | ||
| + | alignas(S) char buf[sizeof(S)]; | ||
| + | S* ps = new (buf) S; // placement new | ||
| + | std::memcpy(ps, &s, sizeof s); | ||
| + | ps->print(); | ||
} | } | ||
| output= | | output= | ||
| − | o | + | dest[4] = { 'o', 'n', 'c', 'e', }; |
| − | n | + | |
| − | c | + | |
| − | e | + | |
0x1.999999999999ap-4 is 3fb999999999999a as an std::int64_t | 0x1.999999999999ap-4 is 3fb999999999999a as an std::int64_t | ||
| + | {42} | ||
}} | }} | ||
Revision as of 02:33, 15 November 2020
| Defined in header <cstring>
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| void* memcpy( void* dest, const void* src, std::size_t count ); |
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Copies count bytes from the object pointed to by src to the object pointed to by dest. Both objects are reinterpreted as arrays of unsigned char.
If the objects overlap, the behavior is undefined.
If either dest or src is an invalid or null pointer, the behavior is undefined, even if count is zero.
If the objects are potentially-overlapping or not TriviallyCopyable, the behavior of memcpy is not specified and may be undefined.
Contents |
Parameters
| dest | - | pointer to the memory location to copy to |
| src | - | pointer to the memory location to copy from |
| count | - | number of bytes to copy |
Return value
dest
Notes
std::memcpy may be used to implicitly create objects in the destination buffer.
std::memcpy is meant to be the fastest library routine for memory-to-memory copy. It is usually more efficient than std::strcpy, which must scan the data it copies or std::memmove, which must take precautions to handle overlapping inputs.
Several C++ compilers transform suitable memory-copying loops to std::memcpy calls.
Where strict aliasing prohibits examining the same memory as values of two different types, std::memcpy may be used to convert the values.
Example
#include <iostream> #include <cstdint> #include <cstring> int main() { // simple usage char source[] = "once upon a midnight dreary...", dest[4]; std::memcpy(dest, source, sizeof dest); std::cout << "dest[4] = { "; for (char c : dest) std::cout << "'" << c << "', "; std::cout << "};\n"; // reinterpreting double d = 0.1; // std::int64_t n = *reinterpret_cast<std::int64_t*>(&d); // aliasing violation std::int64_t n; std::memcpy(&n, &d, sizeof d); // OK std::cout << std::hexfloat << d << " is " << std::hex << n << " as an std::int64_t\n" << std::dec; // object creation in destination buffer struct S { int x{42}; void print() const { std::cout << "{" << x << "}\n"; } } s; alignas(S) char buf[sizeof(S)]; S* ps = new (buf) S; // placement new std::memcpy(ps, &s, sizeof s); ps->print(); }
Output:
dest[4] = { 'o', 'n', 'c', 'e', };
0x1.999999999999ap-4 is 3fb999999999999a as an std::int64_t
{42}See also
| moves one buffer to another (function) | |
| fills a buffer with a character (function) | |
| copies a certain amount of wide characters between two non-overlapping arrays (function) | |
| (C++11) |
copies a range of elements to a new location (function template) |
| copies a range of elements in backwards order (function template) | |
| (C++11) |
checks if a type is trivially copyable (class template) |
| C documentation for memcpy
| |
