uninitialized_copy
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Categories: allocators, algorithms |
Component type: function |
Prototype
template <class InputIterator, class ForwardIterator>
ForwardIterator uninitialized_copy(InputIterator first, InputIterator last,
ForwardIterator result);
Description
In C++, the operator new allocates memory for an object and then
creates an object at that location by calling a constructor. Occasionally,
however, it is useful to separate those two operations. [1] If each iterator
in the range [result, result + (last - first)) points to uninitialized
memory, then uninitialized_copy creates a copy of [first, last)
in that range. That is, for each iterator i in the input range,
uninitialized_copy creates a copy of *i in
the location pointed to by the corresponding iterator in the
output range by calling construct(&*(result + (i - first)), *i).
Definition
Defined in the standard header memory, and in the nonstandard
backward-compatibility header algo.h.
Requirements on types
-
InputIterator is a model of Input Iterator.
-
ForwardIterator is a model of Forward Iterator.
-
ForwardIterator is mutable.
-
ForwardIterator's value type has a constructor that takes a
single argument whose type is InputIterator's value type.
Preconditions
-
[first, last) is a valid range.
-
[result, result + (last - first)) is a valid range.
-
Each iterator in [result, result + (last - first)) points to
a region of uninitialized memory that is large enough to store
a value of ForwardIterator's value type.
Complexity
Linear. Exactly last - first constructor calls.
Example
class Int {
public:
Int(int x) : val(x) {}
int get() { return val; }
private:
int val;
};
int main()
{
int A1[] = {1, 2, 3, 4, 5, 6, 7};
const int N = sizeof(A1) / sizeof(int);
Int* A2 = (Int*) malloc(N * sizeof(Int));
uninitialized_copy(A1, A1 + N, A2);
}
Notes
[1]
In particular, this sort of low-level memory management is used
in the implementation of some container classes.
See also
Allocators, construct, destroy,
uninitialized_fill, uninitialized_fill_n,
raw_storage_iterator
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