operator<,<=,>,>= (std::basic_const_iterator<Iter>)
|
template
<
/*not-a-const-iterator*/
I
>
friend
constexpr
bool
operator
<
(
const
I
&
x,
const
basic_const_iterator
&
y
)
|
(1) | (since C++23) |
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template
<
/*not-a-const-iterator*/
I
>
friend
constexpr
bool
operator
>
(
const
I
&
x,
const
basic_const_iterator
&
y
)
|
(2) | (since C++23) |
|
template
<
/*not-a-const-iterator*/
I
>
friend
constexpr
bool
operator
<=
(
const
I
&
x,
const
basic_const_iterator
&
y
)
|
(3) | (since C++23) |
|
template
<
/*not-a-const-iterator*/
I
>
friend
constexpr
bool
operator
>=
(
const
I
&
x,
const
basic_const_iterator
&
y
)
|
(4) | (since C++23) |
Compare a
basic_const_iterator
with another value. These function templates are used when the left operand is not a
basic_const_iterator
.
I
satisfies the exposition-only concept
/*not-a-const-iterator*/
if and only if it's not a specialization of
basic_const_iterator
.
These functions are not visible to ordinary unqualified or qualified lookup , and can only be found by argument-dependent lookup when basic_const_iterator < Iter > is an associated class of the arguments.
Contents |
Parameters
| x, y | - | iterators to compare |
Return value
Notes
If the left operand is a
basic_const_iterator
, the
member comparison functions
are used.
Example
#include <iterator> int main() { static int arr[1]; static constexpr std::basic_const_iterator<int*> it = std::end(arr); static_assert(arr < it); }
See also
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