3.7 KiB
[forward.iterators]
24 Iterators library [iterators]
24.3 Iterator requirements [iterator.requirements]
24.3.5 C++17 iterator requirements [iterator.cpp17]
24.3.5.5 Forward iterators [forward.iterators]
A class or pointer typeX meets the Cpp17ForwardIterator requirements if
X meets the Cpp17InputIterator requirements ([input.iterators]),
X meets the Cpp17DefaultConstructible requirements ([utility.arg.requirements]),
if X is a mutable iterator, reference is a reference to T; if X is a constant iterator, reference is a reference to const T,
the expressions in Table 81 are valid and have the indicated semantics, and
objects of type X offer the multi-pass guarantee, described below.
The domain of == for forward iterators is that of iterators over the same underlying sequence.
However, value-initialized iterators may be compared and shall compare equal to other value-initialized iterators of the same type.
[Note 1:
Value-initialized iterators behave as if they refer past the end of the same empty sequence.
â end note]
Two dereferenceable iterators a and b of type X offer themulti-pass guarantee if
a == b implies ++a == ++b and
X is a pointer type or the expression(void)++X(a), *a is equivalent to the expression *a.
[Note 2:
The requirement thata == b implies++a == ++b (which is not true for input and output iterators) and the removal of the restrictions on the number of the assignments through a mutable iterator (which applies to output iterators) allows the use of multi-pass one-directional algorithms with forward iterators.
â end note]
Table 81 — Cpp17ForwardIterator requirements (in addition to Cpp17InputIterator) [tab:forwarditerator]
| ð Expression |
Return type | Operational | Assertion/note |
|---|---|---|---|
| ð | semantics | pre-/post-condition | |
| ð r++ |
convertible to const X& | { X tmp = r; ++r; return tmp; } | |
| ð *r++ |
reference |
If a and b are equal, then either a and b are both dereferenceable or else neither is dereferenceable.
If a and b are both dereferenceable, then a == b if and only if*a and *b are bound to the same object.