namespace detail {
- // This wrapper goes around a GrowthPolicy and provides iterator
- // preservation semantics, but only if the growth policy is not the
- // default (i.e. nothing).
- template <class Policy>
- struct growth_policy_wrapper : private Policy {
- template <class Container, class Iterator>
- Iterator increase_capacity(Container& c, Iterator desired_insertion)
- {
- typedef typename Container::difference_type diff_t;
- diff_t d = desired_insertion - c.begin();
- Policy::increase_capacity(c);
- return c.begin() + d;
- }
- };
- template <>
- struct growth_policy_wrapper<void> {
- template <class Container, class Iterator>
- Iterator increase_capacity(Container&, Iterator it) {
- return it;
- }
- };
-
- /*
- * This helper returns the distance between two iterators if it is
- * possible to figure it out without messing up the range
- * (i.e. unless they are InputIterators). Otherwise this returns
- * -1.
- */
- template <class Iterator>
- int distance_if_multipass(Iterator first, Iterator last) {
- typedef typename std::iterator_traits<Iterator>::iterator_category categ;
- if (std::is_same<categ, std::input_iterator_tag>::value) {
- return -1;
- }
- return std::distance(first, last);
+// This wrapper goes around a GrowthPolicy and provides iterator
+// preservation semantics, but only if the growth policy is not the
+// default (i.e. nothing).
+template <class Policy>
+struct growth_policy_wrapper : private Policy {
+ template <class Container, class Iterator>
+ Iterator increase_capacity(Container& c, Iterator desired_insertion) {
+ typedef typename Container::difference_type diff_t;
+ diff_t d = desired_insertion - c.begin();
+ Policy::increase_capacity(c);
+ return c.begin() + d;
+ }
+};
+template <>
+struct growth_policy_wrapper<void> {
+ template <class Container, class Iterator>
+ Iterator increase_capacity(Container&, Iterator it) {
+ return it;
}
+};
- template <class OurContainer, class Vector, class GrowthPolicy>
- typename OurContainer::iterator
- insert_with_hint(OurContainer& sorted,
- Vector& cont,
- typename OurContainer::iterator hint,
- typename OurContainer::value_type&& value,
- GrowthPolicy& po)
- {
- const typename OurContainer::value_compare& cmp(sorted.value_comp());
- if (hint == cont.end() || cmp(value, *hint)) {
- if (hint == cont.begin() || cmp(*(hint - 1), value)) {
- hint = po.increase_capacity(cont, hint);
- return cont.insert(hint, std::move(value));
- } else {
- return sorted.insert(std::move(value)).first;
- }
- }
+/*
+ * This helper returns the distance between two iterators if it is
+ * possible to figure it out without messing up the range
+ * (i.e. unless they are InputIterators). Otherwise this returns
+ * -1.
+ */
+template <class Iterator>
+int distance_if_multipass(Iterator first, Iterator last) {
+ typedef typename std::iterator_traits<Iterator>::iterator_category categ;
+ if (std::is_same<categ, std::input_iterator_tag>::value) {
+ return -1;
+ }
+ return std::distance(first, last);
+}
- if (cmp(*hint, value)) {
- if (hint + 1 == cont.end() || cmp(value, *(hint + 1))) {
- hint = po.increase_capacity(cont, hint + 1);
- return cont.insert(hint, std::move(value));
- } else {
- return sorted.insert(std::move(value)).first;
- }
+template <class OurContainer, class Vector, class GrowthPolicy>
+typename OurContainer::iterator insert_with_hint(
+ OurContainer& sorted,
+ Vector& cont,
+ typename OurContainer::iterator hint,
+ typename OurContainer::value_type&& value,
+ GrowthPolicy& po) {
+ const typename OurContainer::value_compare& cmp(sorted.value_comp());
+ if (hint == cont.end() || cmp(value, *hint)) {
+ if (hint == cont.begin() || cmp(*(hint - 1), value)) {
+ hint = po.increase_capacity(cont, hint);
+ return cont.insert(hint, std::move(value));
+ } else {
+ return sorted.insert(std::move(value)).first;
}
-
- // Value and *hint did not compare, so they are equal keys.
- return hint;
}
- template <class OurContainer, class Vector, class InputIterator>
- void bulk_insert(
- OurContainer& sorted,
- Vector& cont,
- InputIterator first,
- InputIterator last) {
- // prevent deref of middle where middle == cont.end()
- if (first == last) {
- return;
+ if (cmp(*hint, value)) {
+ if (hint + 1 == cont.end() || cmp(value, *(hint + 1))) {
+ hint = po.increase_capacity(cont, hint + 1);
+ return cont.insert(hint, std::move(value));
+ } else {
+ return sorted.insert(std::move(value)).first;
}
+ }
- auto const& cmp(sorted.value_comp());
-
- int const d = distance_if_multipass(first, last);
- if (d != -1) {
- cont.reserve(cont.size() + d);
- }
- auto const prev_size = cont.size();
+ // Value and *hint did not compare, so they are equal keys.
+ return hint;
+}
- std::copy(first, last, std::back_inserter(cont));
- auto const middle = cont.begin() + prev_size;
- if (!std::is_sorted(middle, cont.end(), cmp)) {
- std::sort(middle, cont.end(), cmp);
- }
- if (middle != cont.begin() && !cmp(*(middle - 1), *middle)) {
- std::inplace_merge(cont.begin(), middle, cont.end(), cmp);
- cont.erase(
- std::unique(
- cont.begin(),
- cont.end(),
- [&](typename OurContainer::value_type const& a,
- typename OurContainer::value_type const& b) {
- return !cmp(a, b) && !cmp(b, a);
- }),
- cont.end());
- }
+template <class OurContainer, class Vector, class InputIterator>
+void bulk_insert(
+ OurContainer& sorted,
+ Vector& cont,
+ InputIterator first,
+ InputIterator last) {
+ // prevent deref of middle where middle == cont.end()
+ if (first == last) {
+ return;
+ }
+
+ auto const& cmp(sorted.value_comp());
+
+ int const d = distance_if_multipass(first, last);
+ if (d != -1) {
+ cont.reserve(cont.size() + d);
+ }
+ auto const prev_size = cont.size();
+
+ std::copy(first, last, std::back_inserter(cont));
+ auto const middle = cont.begin() + prev_size;
+ if (!std::is_sorted(middle, cont.end(), cmp)) {
+ std::sort(middle, cont.end(), cmp);
+ }
+ if (middle != cont.begin() && !cmp(*(middle - 1), *middle)) {
+ std::inplace_merge(cont.begin(), middle, cont.end(), cmp);
+ cont.erase(
+ std::unique(
+ cont.begin(),
+ cont.end(),
+ [&](typename OurContainer::value_type const& a,
+ typename OurContainer::value_type const& b) {
+ return !cmp(a, b) && !cmp(b, a);
+ }),
+ cont.end());
}
}
+} // namespace detail
//////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////
-}
+} // namespace folly