std::uninitialized_move_n

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uninitialized_copy
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ranges::uninitialized_copy (C++20)
ranges::uninitialized_fill (C++20)
ranges::uninitialized_move (C++20)
ranges::uninitialized_copy_n (C++20)
ranges::uninitialized_fill_n (C++20)
ranges::uninitialized_move_n (C++20)
ranges::construct_at (C++20)

ranges::uninitialized_default_construct (C++20)
ranges::uninitialized_value_construct (C++20)
ranges::destroy (C++20)
ranges::uninitialized_default_construct_n (C++20)
ranges::uninitialized_value_construct_n (C++20)
ranges::destroy_n (C++20)
ranges::destroy_at (C++20)

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(until C++17*)

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(C++23)

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(C++20)

is_sufficiently_aligned

(C++26)

C Library

malloc
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realloc

free
aligned_alloc (C++17)

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Defined in header`<memory>`
template<class InputIt,class Size,class NoThrowForwardIt> std::pair<InputIt, NoThrowForwardIt> uninitialized_move_n( InputIt first, Size count, NoThrowForwardIt d_first);	(1)	(since C++17) (constexpr since C++26)
template<class ExecutionPolicy, class ForwardIt,class Size,class NoThrowForwardIt> std::pair<ForwardIt, NoThrowForwardIt> uninitialized_move_n( ExecutionPolicy&& policy, ForwardIt first, Size count, NoThrowForwardIt d_first);	(2)	(since C++17)

1) Copies the elements fromfirst + [0, count) (using move semantics if supported) to an uninitialized memory area beginning atd_first as if by

for(; count>0;++d_first,(void)++first,--count)
::new(voidify(*d_first))
typenamestd::iterator_traits<NoThrowForwardIt>::value_type(/* value */);
return{first, d_first};

where/* value */ isstd::move(*first) if*first is of an lvalue reference type, or*first otherwise.

If an exception is thrown during the initialization, some objects infirst + [0, count) are left in a valid but unspecified state, and the objects already constructed are destroyed in an unspecified order.

2) Same as(1), but executed according topolicy.

This overload participates in overload resolution only if all following conditions are satisfied:

std::is_execution_policy_v<std::decay_t<ExecutionPolicy>> istrue.	(until C++20)
std::is_execution_policy_v<std::remove_cvref_t<ExecutionPolicy>> istrue.	(since C++20)

Ifd_first + [0, count) overlaps withfirst + [0, count), the behavior is undefined.

(since C++20)

[edit]Parameters

first	-	the beginning of the range of the elements to move
d_first	-	the beginning of the destination range
count	-	the number of elements to move
policy	-	theexecution policy to use
Type requirements
- `InputIt` must meet the requirements ofLegacyInputIterator.
- `ForwardIt` must meet the requirements ofLegacyForwardIterator.
- `NoThrowForwardIt` must meet the requirements ofLegacyForwardIterator.
- No increment, assignment, comparison, or indirection through valid instances of`NoThrowForwardIt` may throw exceptions.

[edit]Return value

As described above.

[edit]Complexity

Linear incount.

[edit]Exceptions

The overload with a template parameter namedExecutionPolicy reports errors as follows:

If execution of a function invoked as part of the algorithm throws an exception andExecutionPolicy is one of thestandard policies,std::terminate is called. For any otherExecutionPolicy, the behavior is implementation-defined.
If the algorithm fails to allocate memory,std::bad_alloc is thrown.

[edit]Notes

When the input iterator deferences to an rvalue, the behavior ofstd::uninitialized_move_n is same asstd::uninitialized_copy_n.

Feature-test macro	Value	Std	Feature
`__cpp_lib_raw_memory_algorithms`	`202411L`	(C++26)	constexpr forspecialized memory algorithms,(1)

[edit]Possible implementation

template<class InputIt,class Size,class NoThrowForwardIt>constexprstd::pair<InputIt, NoThrowForwardIt>    uninitialized_move_n(InputIt first, Size count, NoThrowForwardIt d_first){using ValueType=typenamestd::iterator_traits<NoThrowForwardIt>::value_type;    NoThrowForwardIt current= d_first;try{for(; count>0;++first,(void)++current,--count){auto addr=static_cast<void*>(std::addressof(*current));ifconstexpr(std::is_lvalue_reference_v<decltype(*first)>)::new(addr) ValueType(std::move(*first));else::new(addr) ValueType(*first);}}catch(...){std::destroy(d_first, current);throw;}return{first, current};}

[edit]Example

Run this code

#include <cstdlib>#include <iomanip>#include <iostream>#include <memory>#include <string> void print(auto rem,auto first,auto last){for(std::cout<< rem; first!= last;++first)std::cout<<std::quoted(*first)<<' ';std::cout<<'\n';} int main(){std::string in[]{"One","Definition","Rule"};    print("initially, in: ",std::begin(in),std::end(in)); if(constexprauto sz=std::size(in);void* out=std::aligned_alloc(alignof(std::string), sizeof(std::string)* sz)){try{auto first{static_cast<std::string*>(out)};auto last{first+ sz};            std::uninitialized_move_n(std::begin(in), sz, first);             print("after move, in: ",std::begin(in),std::end(in));            print("after move, out: ", first, last); std::destroy(first, last);}catch(...){std::cout<<"Exception!\n";}std::free(out);}}

Possible output:

initially, in: "One" "Definition" "Rule" after move, in: "" "" "" after move, out: "One" "Definition" "Rule"

[edit]Defect reports

The following behavior-changing defect reports were applied retroactively to previously published C++ standards.

DR	Applied to	Behavior as published	Correct behavior
LWG 3870	C++20	this algorithm might create objects on aconst storage	kept disallowed
LWG 3918	C++17	additional temporary materialization was required when the input iterator deferences to a prvalue	copies the element in this case

[edit]See also

uninitialized_move (C++17)	moves a range of objects to an uninitialized area of memory (function template)[edit]
uninitialized_copy_n (C++11)	copies a number of objects to an uninitialized area of memory (function template)[edit]
ranges::uninitialized_move_n (C++20)	moves a number of objects to an uninitialized area of memory (algorithm function object)[edit]