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-// Copyright 2017 The Abseil Authors.
-//
-// Licensed under the Apache License, Version 2.0 (the "License");
-// you may not use this file except in compliance with the License.
-// You may obtain a copy of the License at
-//
-//      https://www.apache.org/licenses/LICENSE-2.0
-//
-// Unless required by applicable law or agreed to in writing, software
-// distributed under the License is distributed on an "AS IS" BASIS,
-// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-// See the License for the specific language governing permissions and
-// limitations under the License.
-//
-// -----------------------------------------------------------------------------
-// File: container.h
-// -----------------------------------------------------------------------------
-//
-// This header file provides Container-based versions of algorithmic functions
-// within the C++ standard library. The following standard library sets of
-// functions are covered within this file:
-//
-//   * Algorithmic <iterator> functions
-//   * Algorithmic <numeric> functions
-//   * <algorithm> functions
-//
-// The standard library functions operate on iterator ranges; the functions
-// within this API operate on containers, though many return iterator ranges.
-//
-// All functions within this API are named with a `c_` prefix. Calls such as
-// `absl::c_xx(container, ...) are equivalent to std:: functions such as
-// `std::xx(std::begin(cont), std::end(cont), ...)`. Functions that act on
-// iterators but not conceptually on iterator ranges (e.g. `std::iter_swap`)
-// have no equivalent here.
-//
-// For template parameter and variable naming, `C` indicates the container type
-// to which the function is applied, `Pred` indicates the predicate object type
-// to be used by the function and `T` indicates the applicable element type.
-
-#ifndef ABSL_ALGORITHM_CONTAINER_H_
-#define ABSL_ALGORITHM_CONTAINER_H_
-
-#include <algorithm>
-#include <cassert>
-#include <iterator>
-#include <numeric>
-#include <type_traits>
-#include <unordered_map>
-#include <unordered_set>
-#include <utility>
-#include <vector>
-
-#include "absl/algorithm/algorithm.h"
-#include "absl/base/macros.h"
-#include "absl/meta/type_traits.h"
-
-namespace absl {
-ABSL_NAMESPACE_BEGIN
-namespace container_algorithm_internal {
-
-// NOTE: it is important to defer to ADL lookup for building with C++ modules,
-// especially for headers like <valarray> which are not visible from this file
-// but specialize std::begin and std::end.
-using std::begin;
-using std::end;
-
-// The type of the iterator given by begin(c) (possibly std::begin(c)).
-// ContainerIter<const vector<T>> gives vector<T>::const_iterator,
-// while ContainerIter<vector<T>> gives vector<T>::iterator.
-template <typename C>
-using ContainerIter = decltype(begin(std::declval<C&>()));
-
-// An MSVC bug involving template parameter substitution requires us to use
-// decltype() here instead of just std::pair.
-template <typename C1, typename C2>
-using ContainerIterPairType =
-    decltype(std::make_pair(ContainerIter<C1>(), ContainerIter<C2>()));
-
-template <typename C>
-using ContainerDifferenceType =
-    decltype(std::distance(std::declval<ContainerIter<C>>(),
-                           std::declval<ContainerIter<C>>()));
-
-template <typename C>
-using ContainerPointerType =
-    typename std::iterator_traits<ContainerIter<C>>::pointer;
-
-// container_algorithm_internal::c_begin and
-// container_algorithm_internal::c_end are abbreviations for proper ADL
-// lookup of std::begin and std::end, i.e.
-//   using std::begin;
-//   using std::end;
-//   std::foo(begin(c), end(c));
-// becomes
-//   std::foo(container_algorithm_internal::begin(c),
-//            container_algorithm_internal::end(c));
-// These are meant for internal use only.
-
-template <typename C>
-ContainerIter<C> c_begin(C& c) { return begin(c); }
-
-template <typename C>
-ContainerIter<C> c_end(C& c) { return end(c); }
-
-template <typename T>
-struct IsUnorderedContainer : std::false_type {};
-
-template <class Key, class T, class Hash, class KeyEqual, class Allocator>
-struct IsUnorderedContainer<
-    std::unordered_map<Key, T, Hash, KeyEqual, Allocator>> : std::true_type {};
-
-template <class Key, class Hash, class KeyEqual, class Allocator>
-struct IsUnorderedContainer<std::unordered_set<Key, Hash, KeyEqual, Allocator>>
-    : std::true_type {};
-
-// container_algorithm_internal::c_size. It is meant for internal use only.
-
-template <class C>
-auto c_size(C& c) -> decltype(c.size()) {
-  return c.size();
-}
-
-template <class T, std::size_t N>
-constexpr std::size_t c_size(T (&)[N]) {
-  return N;
-}
-
-}  // namespace container_algorithm_internal
-
-// PUBLIC API
-
-//------------------------------------------------------------------------------
-// Abseil algorithm.h functions
-//------------------------------------------------------------------------------
-
-// c_linear_search()
-//
-// Container-based version of absl::linear_search() for performing a linear
-// search within a container.
-template <typename C, typename EqualityComparable>
-bool c_linear_search(const C& c, EqualityComparable&& value) {
-  return linear_search(container_algorithm_internal::c_begin(c),
-                       container_algorithm_internal::c_end(c),
-                       std::forward<EqualityComparable>(value));
-}
-
-//------------------------------------------------------------------------------
-// <iterator> algorithms
-//------------------------------------------------------------------------------
-
-// c_distance()
-//
-// Container-based version of the <iterator> `std::distance()` function to
-// return the number of elements within a container.
-template <typename C>
-container_algorithm_internal::ContainerDifferenceType<const C> c_distance(
-    const C& c) {
-  return std::distance(container_algorithm_internal::c_begin(c),
-                       container_algorithm_internal::c_end(c));
-}
-
-//------------------------------------------------------------------------------
-// <algorithm> Non-modifying sequence operations
-//------------------------------------------------------------------------------
-
-// c_all_of()
-//
-// Container-based version of the <algorithm> `std::all_of()` function to
-// test a condition on all elements within a container.
-template <typename C, typename Pred>
-bool c_all_of(const C& c, Pred&& pred) {
-  return std::all_of(container_algorithm_internal::c_begin(c),
-                     container_algorithm_internal::c_end(c),
-                     std::forward<Pred>(pred));
-}
-
-// c_any_of()
-//
-// Container-based version of the <algorithm> `std::any_of()` function to
-// test if any element in a container fulfills a condition.
-template <typename C, typename Pred>
-bool c_any_of(const C& c, Pred&& pred) {
-  return std::any_of(container_algorithm_internal::c_begin(c),
-                     container_algorithm_internal::c_end(c),
-                     std::forward<Pred>(pred));
-}
-
-// c_none_of()
-//
-// Container-based version of the <algorithm> `std::none_of()` function to
-// test if no elements in a container fulfill a condition.
-template <typename C, typename Pred>
-bool c_none_of(const C& c, Pred&& pred) {
-  return std::none_of(container_algorithm_internal::c_begin(c),
-                      container_algorithm_internal::c_end(c),
-                      std::forward<Pred>(pred));
-}
-
-// c_for_each()
-//
-// Container-based version of the <algorithm> `std::for_each()` function to
-// apply a function to a container's elements.
-template <typename C, typename Function>
-decay_t<Function> c_for_each(C&& c, Function&& f) {
-  return std::for_each(container_algorithm_internal::c_begin(c),
-                       container_algorithm_internal::c_end(c),
-                       std::forward<Function>(f));
-}
-
-// c_find()
-//
-// Container-based version of the <algorithm> `std::find()` function to find
-// the first element containing the passed value within a container value.
-template <typename C, typename T>
-container_algorithm_internal::ContainerIter<C> c_find(C& c, T&& value) {
-  return std::find(container_algorithm_internal::c_begin(c),
-                   container_algorithm_internal::c_end(c),
-                   std::forward<T>(value));
-}
-
-// c_find_if()
-//
-// Container-based version of the <algorithm> `std::find_if()` function to find
-// the first element in a container matching the given condition.
-template <typename C, typename Pred>
-container_algorithm_internal::ContainerIter<C> c_find_if(C& c, Pred&& pred) {
-  return std::find_if(container_algorithm_internal::c_begin(c),
-                      container_algorithm_internal::c_end(c),
-                      std::forward<Pred>(pred));
-}
-
-// c_find_if_not()
-//
-// Container-based version of the <algorithm> `std::find_if_not()` function to
-// find the first element in a container not matching the given condition.
-template <typename C, typename Pred>
-container_algorithm_internal::ContainerIter<C> c_find_if_not(C& c,
-                                                             Pred&& pred) {
-  return std::find_if_not(container_algorithm_internal::c_begin(c),
-                          container_algorithm_internal::c_end(c),
-                          std::forward<Pred>(pred));
-}
-
-// c_find_end()
-//
-// Container-based version of the <algorithm> `std::find_end()` function to
-// find the last subsequence within a container.
-template <typename Sequence1, typename Sequence2>
-container_algorithm_internal::ContainerIter<Sequence1> c_find_end(
-    Sequence1& sequence, Sequence2& subsequence) {
-  return std::find_end(container_algorithm_internal::c_begin(sequence),
-                       container_algorithm_internal::c_end(sequence),
-                       container_algorithm_internal::c_begin(subsequence),
-                       container_algorithm_internal::c_end(subsequence));
-}
-
-// Overload of c_find_end() for using a predicate evaluation other than `==` as
-// the function's test condition.
-template <typename Sequence1, typename Sequence2, typename BinaryPredicate>
-container_algorithm_internal::ContainerIter<Sequence1> c_find_end(
-    Sequence1& sequence, Sequence2& subsequence, BinaryPredicate&& pred) {
-  return std::find_end(container_algorithm_internal::c_begin(sequence),
-                       container_algorithm_internal::c_end(sequence),
-                       container_algorithm_internal::c_begin(subsequence),
-                       container_algorithm_internal::c_end(subsequence),
-                       std::forward<BinaryPredicate>(pred));
-}
-
-// c_find_first_of()
-//
-// Container-based version of the <algorithm> `std::find_first_of()` function to
-// find the first element within the container that is also within the options
-// container.
-template <typename C1, typename C2>
-container_algorithm_internal::ContainerIter<C1> c_find_first_of(C1& container,
-                                                                C2& options) {
-  return std::find_first_of(container_algorithm_internal::c_begin(container),
-                            container_algorithm_internal::c_end(container),
-                            container_algorithm_internal::c_begin(options),
-                            container_algorithm_internal::c_end(options));
-}
-
-// Overload of c_find_first_of() for using a predicate evaluation other than
-// `==` as the function's test condition.
-template <typename C1, typename C2, typename BinaryPredicate>
-container_algorithm_internal::ContainerIter<C1> c_find_first_of(
-    C1& container, C2& options, BinaryPredicate&& pred) {
-  return std::find_first_of(container_algorithm_internal::c_begin(container),
-                            container_algorithm_internal::c_end(container),
-                            container_algorithm_internal::c_begin(options),
-                            container_algorithm_internal::c_end(options),
-                            std::forward<BinaryPredicate>(pred));
-}
-
-// c_adjacent_find()
-//
-// Container-based version of the <algorithm> `std::adjacent_find()` function to
-// find equal adjacent elements within a container.
-template <typename Sequence>
-container_algorithm_internal::ContainerIter<Sequence> c_adjacent_find(
-    Sequence& sequence) {
-  return std::adjacent_find(container_algorithm_internal::c_begin(sequence),
-                            container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_adjacent_find() for using a predicate evaluation other than
-// `==` as the function's test condition.
-template <typename Sequence, typename BinaryPredicate>
-container_algorithm_internal::ContainerIter<Sequence> c_adjacent_find(
-    Sequence& sequence, BinaryPredicate&& pred) {
-  return std::adjacent_find(container_algorithm_internal::c_begin(sequence),
-                            container_algorithm_internal::c_end(sequence),
-                            std::forward<BinaryPredicate>(pred));
-}
-
-// c_count()
-//
-// Container-based version of the <algorithm> `std::count()` function to count
-// values that match within a container.
-template <typename C, typename T>
-container_algorithm_internal::ContainerDifferenceType<const C> c_count(
-    const C& c, T&& value) {
-  return std::count(container_algorithm_internal::c_begin(c),
-                    container_algorithm_internal::c_end(c),
-                    std::forward<T>(value));
-}
-
-// c_count_if()
-//
-// Container-based version of the <algorithm> `std::count_if()` function to
-// count values matching a condition within a container.
-template <typename C, typename Pred>
-container_algorithm_internal::ContainerDifferenceType<const C> c_count_if(
-    const C& c, Pred&& pred) {
-  return std::count_if(container_algorithm_internal::c_begin(c),
-                       container_algorithm_internal::c_end(c),
-                       std::forward<Pred>(pred));
-}
-
-// c_mismatch()
-//
-// Container-based version of the <algorithm> `std::mismatch()` function to
-// return the first element where two ordered containers differ. Applies `==` to
-// the first N elements of `c1` and `c2`, where N = min(size(c1), size(c2)).
-template <typename C1, typename C2>
-container_algorithm_internal::ContainerIterPairType<C1, C2>
-c_mismatch(C1& c1, C2& c2) {
-  auto first1 = container_algorithm_internal::c_begin(c1);
-  auto last1 = container_algorithm_internal::c_end(c1);
-  auto first2 = container_algorithm_internal::c_begin(c2);
-  auto last2 = container_algorithm_internal::c_end(c2);
-
-  for (; first1 != last1 && first2 != last2; ++first1, (void)++first2) {
-    // Negates equality because Cpp17EqualityComparable doesn't require clients
-    // to overload both `operator==` and `operator!=`.
-    if (!(*first1 == *first2)) {
-      break;
-    }
-  }
-
-  return std::make_pair(first1, first2);
-}
-
-// Overload of c_mismatch() for using a predicate evaluation other than `==` as
-// the function's test condition. Applies `pred`to the first N elements of `c1`
-// and `c2`, where N = min(size(c1), size(c2)).
-template <typename C1, typename C2, typename BinaryPredicate>
-container_algorithm_internal::ContainerIterPairType<C1, C2>
-c_mismatch(C1& c1, C2& c2, BinaryPredicate pred) {
-  auto first1 = container_algorithm_internal::c_begin(c1);
-  auto last1 = container_algorithm_internal::c_end(c1);
-  auto first2 = container_algorithm_internal::c_begin(c2);
-  auto last2 = container_algorithm_internal::c_end(c2);
-
-  for (; first1 != last1 && first2 != last2; ++first1, (void)++first2) {
-    if (!pred(*first1, *first2)) {
-      break;
-    }
-  }
-
-  return std::make_pair(first1, first2);
-}
-
-// c_equal()
-//
-// Container-based version of the <algorithm> `std::equal()` function to
-// test whether two containers are equal.
-//
-// NOTE: the semantics of c_equal() are slightly different than those of
-// equal(): while the latter iterates over the second container only up to the
-// size of the first container, c_equal() also checks whether the container
-// sizes are equal.  This better matches expectations about c_equal() based on
-// its signature.
-//
-// Example:
-//   vector v1 = <1, 2, 3>;
-//   vector v2 = <1, 2, 3, 4>;
-//   equal(std::begin(v1), std::end(v1), std::begin(v2)) returns true
-//   c_equal(v1, v2) returns false
-
-template <typename C1, typename C2>
-bool c_equal(const C1& c1, const C2& c2) {
-  return ((container_algorithm_internal::c_size(c1) ==
-           container_algorithm_internal::c_size(c2)) &&
-          std::equal(container_algorithm_internal::c_begin(c1),
-                     container_algorithm_internal::c_end(c1),
-                     container_algorithm_internal::c_begin(c2)));
-}
-
-// Overload of c_equal() for using a predicate evaluation other than `==` as
-// the function's test condition.
-template <typename C1, typename C2, typename BinaryPredicate>
-bool c_equal(const C1& c1, const C2& c2, BinaryPredicate&& pred) {
-  return ((container_algorithm_internal::c_size(c1) ==
-           container_algorithm_internal::c_size(c2)) &&
-          std::equal(container_algorithm_internal::c_begin(c1),
-                     container_algorithm_internal::c_end(c1),
-                     container_algorithm_internal::c_begin(c2),
-                     std::forward<BinaryPredicate>(pred)));
-}
-
-// c_is_permutation()
-//
-// Container-based version of the <algorithm> `std::is_permutation()` function
-// to test whether a container is a permutation of another.
-template <typename C1, typename C2>
-bool c_is_permutation(const C1& c1, const C2& c2) {
-  using std::begin;
-  using std::end;
-  return c1.size() == c2.size() &&
-         std::is_permutation(begin(c1), end(c1), begin(c2));
-}
-
-// Overload of c_is_permutation() for using a predicate evaluation other than
-// `==` as the function's test condition.
-template <typename C1, typename C2, typename BinaryPredicate>
-bool c_is_permutation(const C1& c1, const C2& c2, BinaryPredicate&& pred) {
-  using std::begin;
-  using std::end;
-  return c1.size() == c2.size() &&
-         std::is_permutation(begin(c1), end(c1), begin(c2),
-                             std::forward<BinaryPredicate>(pred));
-}
-
-// c_search()
-//
-// Container-based version of the <algorithm> `std::search()` function to search
-// a container for a subsequence.
-template <typename Sequence1, typename Sequence2>
-container_algorithm_internal::ContainerIter<Sequence1> c_search(
-    Sequence1& sequence, Sequence2& subsequence) {
-  return std::search(container_algorithm_internal::c_begin(sequence),
-                     container_algorithm_internal::c_end(sequence),
-                     container_algorithm_internal::c_begin(subsequence),
-                     container_algorithm_internal::c_end(subsequence));
-}
-
-// Overload of c_search() for using a predicate evaluation other than
-// `==` as the function's test condition.
-template <typename Sequence1, typename Sequence2, typename BinaryPredicate>
-container_algorithm_internal::ContainerIter<Sequence1> c_search(
-    Sequence1& sequence, Sequence2& subsequence, BinaryPredicate&& pred) {
-  return std::search(container_algorithm_internal::c_begin(sequence),
-                     container_algorithm_internal::c_end(sequence),
-                     container_algorithm_internal::c_begin(subsequence),
-                     container_algorithm_internal::c_end(subsequence),
-                     std::forward<BinaryPredicate>(pred));
-}
-
-// c_search_n()
-//
-// Container-based version of the <algorithm> `std::search_n()` function to
-// search a container for the first sequence of N elements.
-template <typename Sequence, typename Size, typename T>
-container_algorithm_internal::ContainerIter<Sequence> c_search_n(
-    Sequence& sequence, Size count, T&& value) {
-  return std::search_n(container_algorithm_internal::c_begin(sequence),
-                       container_algorithm_internal::c_end(sequence), count,
-                       std::forward<T>(value));
-}
-
-// Overload of c_search_n() for using a predicate evaluation other than
-// `==` as the function's test condition.
-template <typename Sequence, typename Size, typename T,
-          typename BinaryPredicate>
-container_algorithm_internal::ContainerIter<Sequence> c_search_n(
-    Sequence& sequence, Size count, T&& value, BinaryPredicate&& pred) {
-  return std::search_n(container_algorithm_internal::c_begin(sequence),
-                       container_algorithm_internal::c_end(sequence), count,
-                       std::forward<T>(value),
-                       std::forward<BinaryPredicate>(pred));
-}
-
-//------------------------------------------------------------------------------
-// <algorithm> Modifying sequence operations
-//------------------------------------------------------------------------------
-
-// c_copy()
-//
-// Container-based version of the <algorithm> `std::copy()` function to copy a
-// container's elements into an iterator.
-template <typename InputSequence, typename OutputIterator>
-OutputIterator c_copy(const InputSequence& input, OutputIterator output) {
-  return std::copy(container_algorithm_internal::c_begin(input),
-                   container_algorithm_internal::c_end(input), output);
-}
-
-// c_copy_n()
-//
-// Container-based version of the <algorithm> `std::copy_n()` function to copy a
-// container's first N elements into an iterator.
-template <typename C, typename Size, typename OutputIterator>
-OutputIterator c_copy_n(const C& input, Size n, OutputIterator output) {
-  return std::copy_n(container_algorithm_internal::c_begin(input), n, output);
-}
-
-// c_copy_if()
-//
-// Container-based version of the <algorithm> `std::copy_if()` function to copy
-// a container's elements satisfying some condition into an iterator.
-template <typename InputSequence, typename OutputIterator, typename Pred>
-OutputIterator c_copy_if(const InputSequence& input, OutputIterator output,
-                         Pred&& pred) {
-  return std::copy_if(container_algorithm_internal::c_begin(input),
-                      container_algorithm_internal::c_end(input), output,
-                      std::forward<Pred>(pred));
-}
-
-// c_copy_backward()
-//
-// Container-based version of the <algorithm> `std::copy_backward()` function to
-// copy a container's elements in reverse order into an iterator.
-template <typename C, typename BidirectionalIterator>
-BidirectionalIterator c_copy_backward(const C& src,
-                                      BidirectionalIterator dest) {
-  return std::copy_backward(container_algorithm_internal::c_begin(src),
-                            container_algorithm_internal::c_end(src), dest);
-}
-
-// c_move()
-//
-// Container-based version of the <algorithm> `std::move()` function to move
-// a container's elements into an iterator.
-template <typename C, typename OutputIterator>
-OutputIterator c_move(C&& src, OutputIterator dest) {
-  return std::move(container_algorithm_internal::c_begin(src),
-                   container_algorithm_internal::c_end(src), dest);
-}
-
-// c_move_backward()
-//
-// Container-based version of the <algorithm> `std::move_backward()` function to
-// move a container's elements into an iterator in reverse order.
-template <typename C, typename BidirectionalIterator>
-BidirectionalIterator c_move_backward(C&& src, BidirectionalIterator dest) {
-  return std::move_backward(container_algorithm_internal::c_begin(src),
-                            container_algorithm_internal::c_end(src), dest);
-}
-
-// c_swap_ranges()
-//
-// Container-based version of the <algorithm> `std::swap_ranges()` function to
-// swap a container's elements with another container's elements. Swaps the
-// first N elements of `c1` and `c2`, where N = min(size(c1), size(c2)).
-template <typename C1, typename C2>
-container_algorithm_internal::ContainerIter<C2> c_swap_ranges(C1& c1, C2& c2) {
-  auto first1 = container_algorithm_internal::c_begin(c1);
-  auto last1 = container_algorithm_internal::c_end(c1);
-  auto first2 = container_algorithm_internal::c_begin(c2);
-  auto last2 = container_algorithm_internal::c_end(c2);
-
-  using std::swap;
-  for (; first1 != last1 && first2 != last2; ++first1, (void)++first2) {
-    swap(*first1, *first2);
-  }
-  return first2;
-}
-
-// c_transform()
-//
-// Container-based version of the <algorithm> `std::transform()` function to
-// transform a container's elements using the unary operation, storing the
-// result in an iterator pointing to the last transformed element in the output
-// range.
-template <typename InputSequence, typename OutputIterator, typename UnaryOp>
-OutputIterator c_transform(const InputSequence& input, OutputIterator output,
-                           UnaryOp&& unary_op) {
-  return std::transform(container_algorithm_internal::c_begin(input),
-                        container_algorithm_internal::c_end(input), output,
-                        std::forward<UnaryOp>(unary_op));
-}
-
-// Overload of c_transform() for performing a transformation using a binary
-// predicate. Applies `binary_op` to the first N elements of `c1` and `c2`,
-// where N = min(size(c1), size(c2)).
-template <typename InputSequence1, typename InputSequence2,
-          typename OutputIterator, typename BinaryOp>
-OutputIterator c_transform(const InputSequence1& input1,
-                           const InputSequence2& input2, OutputIterator output,
-                           BinaryOp&& binary_op) {
-  auto first1 = container_algorithm_internal::c_begin(input1);
-  auto last1 = container_algorithm_internal::c_end(input1);
-  auto first2 = container_algorithm_internal::c_begin(input2);
-  auto last2 = container_algorithm_internal::c_end(input2);
-  for (; first1 != last1 && first2 != last2;
-       ++first1, (void)++first2, ++output) {
-    *output = binary_op(*first1, *first2);
-  }
-
-  return output;
-}
-
-// c_replace()
-//
-// Container-based version of the <algorithm> `std::replace()` function to
-// replace a container's elements of some value with a new value. The container
-// is modified in place.
-template <typename Sequence, typename T>
-void c_replace(Sequence& sequence, const T& old_value, const T& new_value) {
-  std::replace(container_algorithm_internal::c_begin(sequence),
-               container_algorithm_internal::c_end(sequence), old_value,
-               new_value);
-}
-
-// c_replace_if()
-//
-// Container-based version of the <algorithm> `std::replace_if()` function to
-// replace a container's elements of some value with a new value based on some
-// condition. The container is modified in place.
-template <typename C, typename Pred, typename T>
-void c_replace_if(C& c, Pred&& pred, T&& new_value) {
-  std::replace_if(container_algorithm_internal::c_begin(c),
-                  container_algorithm_internal::c_end(c),
-                  std::forward<Pred>(pred), std::forward<T>(new_value));
-}
-
-// c_replace_copy()
-//
-// Container-based version of the <algorithm> `std::replace_copy()` function to
-// replace a container's elements of some value with a new value  and return the
-// results within an iterator.
-template <typename C, typename OutputIterator, typename T>
-OutputIterator c_replace_copy(const C& c, OutputIterator result, T&& old_value,
-                              T&& new_value) {
-  return std::replace_copy(container_algorithm_internal::c_begin(c),
-                           container_algorithm_internal::c_end(c), result,
-                           std::forward<T>(old_value),
-                           std::forward<T>(new_value));
-}
-
-// c_replace_copy_if()
-//
-// Container-based version of the <algorithm> `std::replace_copy_if()` function
-// to replace a container's elements of some value with a new value based on
-// some condition, and return the results within an iterator.
-template <typename C, typename OutputIterator, typename Pred, typename T>
-OutputIterator c_replace_copy_if(const C& c, OutputIterator result, Pred&& pred,
-                                 T&& new_value) {
-  return std::replace_copy_if(container_algorithm_internal::c_begin(c),
-                              container_algorithm_internal::c_end(c), result,
-                              std::forward<Pred>(pred),
-                              std::forward<T>(new_value));
-}
-
-// c_fill()
-//
-// Container-based version of the <algorithm> `std::fill()` function to fill a
-// container with some value.
-template <typename C, typename T>
-void c_fill(C& c, T&& value) {
-  std::fill(container_algorithm_internal::c_begin(c),
-            container_algorithm_internal::c_end(c), std::forward<T>(value));
-}
-
-// c_fill_n()
-//
-// Container-based version of the <algorithm> `std::fill_n()` function to fill
-// the first N elements in a container with some value.
-template <typename C, typename Size, typename T>
-void c_fill_n(C& c, Size n, T&& value) {
-  std::fill_n(container_algorithm_internal::c_begin(c), n,
-              std::forward<T>(value));
-}
-
-// c_generate()
-//
-// Container-based version of the <algorithm> `std::generate()` function to
-// assign a container's elements to the values provided by the given generator.
-template <typename C, typename Generator>
-void c_generate(C& c, Generator&& gen) {
-  std::generate(container_algorithm_internal::c_begin(c),
-                container_algorithm_internal::c_end(c),
-                std::forward<Generator>(gen));
-}
-
-// c_generate_n()
-//
-// Container-based version of the <algorithm> `std::generate_n()` function to
-// assign a container's first N elements to the values provided by the given
-// generator.
-template <typename C, typename Size, typename Generator>
-container_algorithm_internal::ContainerIter<C> c_generate_n(C& c, Size n,
-                                                            Generator&& gen) {
-  return std::generate_n(container_algorithm_internal::c_begin(c), n,
-                         std::forward<Generator>(gen));
-}
-
-// Note: `c_xx()` <algorithm> container versions for `remove()`, `remove_if()`,
-// and `unique()` are omitted, because it's not clear whether or not such
-// functions should call erase on their supplied sequences afterwards. Either
-// behavior would be surprising for a different set of users.
-
-// c_remove_copy()
-//
-// Container-based version of the <algorithm> `std::remove_copy()` function to
-// copy a container's elements while removing any elements matching the given
-// `value`.
-template <typename C, typename OutputIterator, typename T>
-OutputIterator c_remove_copy(const C& c, OutputIterator result, T&& value) {
-  return std::remove_copy(container_algorithm_internal::c_begin(c),
-                          container_algorithm_internal::c_end(c), result,
-                          std::forward<T>(value));
-}
-
-// c_remove_copy_if()
-//
-// Container-based version of the <algorithm> `std::remove_copy_if()` function
-// to copy a container's elements while removing any elements matching the given
-// condition.
-template <typename C, typename OutputIterator, typename Pred>
-OutputIterator c_remove_copy_if(const C& c, OutputIterator result,
-                                Pred&& pred) {
-  return std::remove_copy_if(container_algorithm_internal::c_begin(c),
-                             container_algorithm_internal::c_end(c), result,
-                             std::forward<Pred>(pred));
-}
-
-// c_unique_copy()
-//
-// Container-based version of the <algorithm> `std::unique_copy()` function to
-// copy a container's elements while removing any elements containing duplicate
-// values.
-template <typename C, typename OutputIterator>
-OutputIterator c_unique_copy(const C& c, OutputIterator result) {
-  return std::unique_copy(container_algorithm_internal::c_begin(c),
-                          container_algorithm_internal::c_end(c), result);
-}
-
-// Overload of c_unique_copy() for using a predicate evaluation other than
-// `==` for comparing uniqueness of the element values.
-template <typename C, typename OutputIterator, typename BinaryPredicate>
-OutputIterator c_unique_copy(const C& c, OutputIterator result,
-                             BinaryPredicate&& pred) {
-  return std::unique_copy(container_algorithm_internal::c_begin(c),
-                          container_algorithm_internal::c_end(c), result,
-                          std::forward<BinaryPredicate>(pred));
-}
-
-// c_reverse()
-//
-// Container-based version of the <algorithm> `std::reverse()` function to
-// reverse a container's elements.
-template <typename Sequence>
-void c_reverse(Sequence& sequence) {
-  std::reverse(container_algorithm_internal::c_begin(sequence),
-               container_algorithm_internal::c_end(sequence));
-}
-
-// c_reverse_copy()
-//
-// Container-based version of the <algorithm> `std::reverse()` function to
-// reverse a container's elements and write them to an iterator range.
-template <typename C, typename OutputIterator>
-OutputIterator c_reverse_copy(const C& sequence, OutputIterator result) {
-  return std::reverse_copy(container_algorithm_internal::c_begin(sequence),
-                           container_algorithm_internal::c_end(sequence),
-                           result);
-}
-
-// c_rotate()
-//
-// Container-based version of the <algorithm> `std::rotate()` function to
-// shift a container's elements leftward such that the `middle` element becomes
-// the first element in the container.
-template <typename C,
-          typename Iterator = container_algorithm_internal::ContainerIter<C>>
-Iterator c_rotate(C& sequence, Iterator middle) {
-  return absl::rotate(container_algorithm_internal::c_begin(sequence), middle,
-                      container_algorithm_internal::c_end(sequence));
-}
-
-// c_rotate_copy()
-//
-// Container-based version of the <algorithm> `std::rotate_copy()` function to
-// shift a container's elements leftward such that the `middle` element becomes
-// the first element in a new iterator range.
-template <typename C, typename OutputIterator>
-OutputIterator c_rotate_copy(
-    const C& sequence,
-    container_algorithm_internal::ContainerIter<const C> middle,
-    OutputIterator result) {
-  return std::rotate_copy(container_algorithm_internal::c_begin(sequence),
-                          middle, container_algorithm_internal::c_end(sequence),
-                          result);
-}
-
-// c_shuffle()
-//
-// Container-based version of the <algorithm> `std::shuffle()` function to
-// randomly shuffle elements within the container using a `gen()` uniform random
-// number generator.
-template <typename RandomAccessContainer, typename UniformRandomBitGenerator>
-void c_shuffle(RandomAccessContainer& c, UniformRandomBitGenerator&& gen) {
-  std::shuffle(container_algorithm_internal::c_begin(c),
-               container_algorithm_internal::c_end(c),
-               std::forward<UniformRandomBitGenerator>(gen));
-}
-
-//------------------------------------------------------------------------------
-// <algorithm> Partition functions
-//------------------------------------------------------------------------------
-
-// c_is_partitioned()
-//
-// Container-based version of the <algorithm> `std::is_partitioned()` function
-// to test whether all elements in the container for which `pred` returns `true`
-// precede those for which `pred` is `false`.
-template <typename C, typename Pred>
-bool c_is_partitioned(const C& c, Pred&& pred) {
-  return std::is_partitioned(container_algorithm_internal::c_begin(c),
-                             container_algorithm_internal::c_end(c),
-                             std::forward<Pred>(pred));
-}
-
-// c_partition()
-//
-// Container-based version of the <algorithm> `std::partition()` function
-// to rearrange all elements in a container in such a way that all elements for
-// which `pred` returns `true` precede all those for which it returns `false`,
-// returning an iterator to the first element of the second group.
-template <typename C, typename Pred>
-container_algorithm_internal::ContainerIter<C> c_partition(C& c, Pred&& pred) {
-  return std::partition(container_algorithm_internal::c_begin(c),
-                        container_algorithm_internal::c_end(c),
-                        std::forward<Pred>(pred));
-}
-
-// c_stable_partition()
-//
-// Container-based version of the <algorithm> `std::stable_partition()` function
-// to rearrange all elements in a container in such a way that all elements for
-// which `pred` returns `true` precede all those for which it returns `false`,
-// preserving the relative ordering between the two groups. The function returns
-// an iterator to the first element of the second group.
-template <typename C, typename Pred>
-container_algorithm_internal::ContainerIter<C> c_stable_partition(C& c,
-                                                                  Pred&& pred) {
-  return std::stable_partition(container_algorithm_internal::c_begin(c),
-                               container_algorithm_internal::c_end(c),
-                               std::forward<Pred>(pred));
-}
-
-// c_partition_copy()
-//
-// Container-based version of the <algorithm> `std::partition_copy()` function
-// to partition a container's elements and return them into two iterators: one
-// for which `pred` returns `true`, and one for which `pred` returns `false.`
-
-template <typename C, typename OutputIterator1, typename OutputIterator2,
-          typename Pred>
-std::pair<OutputIterator1, OutputIterator2> c_partition_copy(
-    const C& c, OutputIterator1 out_true, OutputIterator2 out_false,
-    Pred&& pred) {
-  return std::partition_copy(container_algorithm_internal::c_begin(c),
-                             container_algorithm_internal::c_end(c), out_true,
-                             out_false, std::forward<Pred>(pred));
-}
-
-// c_partition_point()
-//
-// Container-based version of the <algorithm> `std::partition_point()` function
-// to return the first element of an already partitioned container for which
-// the given `pred` is not `true`.
-template <typename C, typename Pred>
-container_algorithm_internal::ContainerIter<C> c_partition_point(C& c,
-                                                                 Pred&& pred) {
-  return std::partition_point(container_algorithm_internal::c_begin(c),
-                              container_algorithm_internal::c_end(c),
-                              std::forward<Pred>(pred));
-}
-
-//------------------------------------------------------------------------------
-// <algorithm> Sorting functions
-//------------------------------------------------------------------------------
-
-// c_sort()
-//
-// Container-based version of the <algorithm> `std::sort()` function
-// to sort elements in ascending order of their values.
-template <typename C>
-void c_sort(C& c) {
-  std::sort(container_algorithm_internal::c_begin(c),
-            container_algorithm_internal::c_end(c));
-}
-
-// Overload of c_sort() for performing a `comp` comparison other than the
-// default `operator<`.
-template <typename C, typename Compare>
-void c_sort(C& c, Compare&& comp) {
-  std::sort(container_algorithm_internal::c_begin(c),
-            container_algorithm_internal::c_end(c),
-            std::forward<Compare>(comp));
-}
-
-// c_stable_sort()
-//
-// Container-based version of the <algorithm> `std::stable_sort()` function
-// to sort elements in ascending order of their values, preserving the order
-// of equivalents.
-template <typename C>
-void c_stable_sort(C& c) {
-  std::stable_sort(container_algorithm_internal::c_begin(c),
-                   container_algorithm_internal::c_end(c));
-}
-
-// Overload of c_stable_sort() for performing a `comp` comparison other than the
-// default `operator<`.
-template <typename C, typename Compare>
-void c_stable_sort(C& c, Compare&& comp) {
-  std::stable_sort(container_algorithm_internal::c_begin(c),
-                   container_algorithm_internal::c_end(c),
-                   std::forward<Compare>(comp));
-}
-
-// c_is_sorted()
-//
-// Container-based version of the <algorithm> `std::is_sorted()` function
-// to evaluate whether the given container is sorted in ascending order.
-template <typename C>
-bool c_is_sorted(const C& c) {
-  return std::is_sorted(container_algorithm_internal::c_begin(c),
-                        container_algorithm_internal::c_end(c));
-}
-
-// c_is_sorted() overload for performing a `comp` comparison other than the
-// default `operator<`.
-template <typename C, typename Compare>
-bool c_is_sorted(const C& c, Compare&& comp) {
-  return std::is_sorted(container_algorithm_internal::c_begin(c),
-                        container_algorithm_internal::c_end(c),
-                        std::forward<Compare>(comp));
-}
-
-// c_partial_sort()
-//
-// Container-based version of the <algorithm> `std::partial_sort()` function
-// to rearrange elements within a container such that elements before `middle`
-// are sorted in ascending order.
-template <typename RandomAccessContainer>
-void c_partial_sort(
-    RandomAccessContainer& sequence,
-    container_algorithm_internal::ContainerIter<RandomAccessContainer> middle) {
-  std::partial_sort(container_algorithm_internal::c_begin(sequence), middle,
-                    container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_partial_sort() for performing a `comp` comparison other than
-// the default `operator<`.
-template <typename RandomAccessContainer, typename Compare>
-void c_partial_sort(
-    RandomAccessContainer& sequence,
-    container_algorithm_internal::ContainerIter<RandomAccessContainer> middle,
-    Compare&& comp) {
-  std::partial_sort(container_algorithm_internal::c_begin(sequence), middle,
-                    container_algorithm_internal::c_end(sequence),
-                    std::forward<Compare>(comp));
-}
-
-// c_partial_sort_copy()
-//
-// Container-based version of the <algorithm> `std::partial_sort_copy()`
-// function to sort the elements in the given range `result` within the larger
-// `sequence` in ascending order (and using `result` as the output parameter).
-// At most min(result.last - result.first, sequence.last - sequence.first)
-// elements from the sequence will be stored in the result.
-template <typename C, typename RandomAccessContainer>
-container_algorithm_internal::ContainerIter<RandomAccessContainer>
-c_partial_sort_copy(const C& sequence, RandomAccessContainer& result) {
-  return std::partial_sort_copy(container_algorithm_internal::c_begin(sequence),
-                                container_algorithm_internal::c_end(sequence),
-                                container_algorithm_internal::c_begin(result),
-                                container_algorithm_internal::c_end(result));
-}
-
-// Overload of c_partial_sort_copy() for performing a `comp` comparison other
-// than the default `operator<`.
-template <typename C, typename RandomAccessContainer, typename Compare>
-container_algorithm_internal::ContainerIter<RandomAccessContainer>
-c_partial_sort_copy(const C& sequence, RandomAccessContainer& result,
-                    Compare&& comp) {
-  return std::partial_sort_copy(container_algorithm_internal::c_begin(sequence),
-                                container_algorithm_internal::c_end(sequence),
-                                container_algorithm_internal::c_begin(result),
-                                container_algorithm_internal::c_end(result),
-                                std::forward<Compare>(comp));
-}
-
-// c_is_sorted_until()
-//
-// Container-based version of the <algorithm> `std::is_sorted_until()` function
-// to return the first element within a container that is not sorted in
-// ascending order as an iterator.
-template <typename C>
-container_algorithm_internal::ContainerIter<C> c_is_sorted_until(C& c) {
-  return std::is_sorted_until(container_algorithm_internal::c_begin(c),
-                              container_algorithm_internal::c_end(c));
-}
-
-// Overload of c_is_sorted_until() for performing a `comp` comparison other than
-// the default `operator<`.
-template <typename C, typename Compare>
-container_algorithm_internal::ContainerIter<C> c_is_sorted_until(
-    C& c, Compare&& comp) {
-  return std::is_sorted_until(container_algorithm_internal::c_begin(c),
-                              container_algorithm_internal::c_end(c),
-                              std::forward<Compare>(comp));
-}
-
-// c_nth_element()
-//
-// Container-based version of the <algorithm> `std::nth_element()` function
-// to rearrange the elements within a container such that the `nth` element
-// would be in that position in an ordered sequence; other elements may be in
-// any order, except that all preceding `nth` will be less than that element,
-// and all following `nth` will be greater than that element.
-template <typename RandomAccessContainer>
-void c_nth_element(
-    RandomAccessContainer& sequence,
-    container_algorithm_internal::ContainerIter<RandomAccessContainer> nth) {
-  std::nth_element(container_algorithm_internal::c_begin(sequence), nth,
-                   container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_nth_element() for performing a `comp` comparison other than
-// the default `operator<`.
-template <typename RandomAccessContainer, typename Compare>
-void c_nth_element(
-    RandomAccessContainer& sequence,
-    container_algorithm_internal::ContainerIter<RandomAccessContainer> nth,
-    Compare&& comp) {
-  std::nth_element(container_algorithm_internal::c_begin(sequence), nth,
-                   container_algorithm_internal::c_end(sequence),
-                   std::forward<Compare>(comp));
-}
-
-//------------------------------------------------------------------------------
-// <algorithm> Binary Search
-//------------------------------------------------------------------------------
-
-// c_lower_bound()
-//
-// Container-based version of the <algorithm> `std::lower_bound()` function
-// to return an iterator pointing to the first element in a sorted container
-// which does not compare less than `value`.
-template <typename Sequence, typename T>
-container_algorithm_internal::ContainerIter<Sequence> c_lower_bound(
-    Sequence& sequence, T&& value) {
-  return std::lower_bound(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence),
-                          std::forward<T>(value));
-}
-
-// Overload of c_lower_bound() for performing a `comp` comparison other than
-// the default `operator<`.
-template <typename Sequence, typename T, typename Compare>
-container_algorithm_internal::ContainerIter<Sequence> c_lower_bound(
-    Sequence& sequence, T&& value, Compare&& comp) {
-  return std::lower_bound(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence),
-                          std::forward<T>(value), std::forward<Compare>(comp));
-}
-
-// c_upper_bound()
-//
-// Container-based version of the <algorithm> `std::upper_bound()` function
-// to return an iterator pointing to the first element in a sorted container
-// which is greater than `value`.
-template <typename Sequence, typename T>
-container_algorithm_internal::ContainerIter<Sequence> c_upper_bound(
-    Sequence& sequence, T&& value) {
-  return std::upper_bound(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence),
-                          std::forward<T>(value));
-}
-
-// Overload of c_upper_bound() for performing a `comp` comparison other than
-// the default `operator<`.
-template <typename Sequence, typename T, typename Compare>
-container_algorithm_internal::ContainerIter<Sequence> c_upper_bound(
-    Sequence& sequence, T&& value, Compare&& comp) {
-  return std::upper_bound(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence),
-                          std::forward<T>(value), std::forward<Compare>(comp));
-}
-
-// c_equal_range()
-//
-// Container-based version of the <algorithm> `std::equal_range()` function
-// to return an iterator pair pointing to the first and last elements in a
-// sorted container which compare equal to `value`.
-template <typename Sequence, typename T>
-container_algorithm_internal::ContainerIterPairType<Sequence, Sequence>
-c_equal_range(Sequence& sequence, T&& value) {
-  return std::equal_range(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence),
-                          std::forward<T>(value));
-}
-
-// Overload of c_equal_range() for performing a `comp` comparison other than
-// the default `operator<`.
-template <typename Sequence, typename T, typename Compare>
-container_algorithm_internal::ContainerIterPairType<Sequence, Sequence>
-c_equal_range(Sequence& sequence, T&& value, Compare&& comp) {
-  return std::equal_range(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence),
-                          std::forward<T>(value), std::forward<Compare>(comp));
-}
-
-// c_binary_search()
-//
-// Container-based version of the <algorithm> `std::binary_search()` function
-// to test if any element in the sorted container contains a value equivalent to
-// 'value'.
-template <typename Sequence, typename T>
-bool c_binary_search(Sequence&& sequence, T&& value) {
-  return std::binary_search(container_algorithm_internal::c_begin(sequence),
-                            container_algorithm_internal::c_end(sequence),
-                            std::forward<T>(value));
-}
-
-// Overload of c_binary_search() for performing a `comp` comparison other than
-// the default `operator<`.
-template <typename Sequence, typename T, typename Compare>
-bool c_binary_search(Sequence&& sequence, T&& value, Compare&& comp) {
-  return std::binary_search(container_algorithm_internal::c_begin(sequence),
-                            container_algorithm_internal::c_end(sequence),
-                            std::forward<T>(value),
-                            std::forward<Compare>(comp));
-}
-
-//------------------------------------------------------------------------------
-// <algorithm> Merge functions
-//------------------------------------------------------------------------------
-
-// c_merge()
-//
-// Container-based version of the <algorithm> `std::merge()` function
-// to merge two sorted containers into a single sorted iterator.
-template <typename C1, typename C2, typename OutputIterator>
-OutputIterator c_merge(const C1& c1, const C2& c2, OutputIterator result) {
-  return std::merge(container_algorithm_internal::c_begin(c1),
-                    container_algorithm_internal::c_end(c1),
-                    container_algorithm_internal::c_begin(c2),
-                    container_algorithm_internal::c_end(c2), result);
-}
-
-// Overload of c_merge() for performing a `comp` comparison other than
-// the default `operator<`.
-template <typename C1, typename C2, typename OutputIterator, typename Compare>
-OutputIterator c_merge(const C1& c1, const C2& c2, OutputIterator result,
-                       Compare&& comp) {
-  return std::merge(container_algorithm_internal::c_begin(c1),
-                    container_algorithm_internal::c_end(c1),
-                    container_algorithm_internal::c_begin(c2),
-                    container_algorithm_internal::c_end(c2), result,
-                    std::forward<Compare>(comp));
-}
-
-// c_inplace_merge()
-//
-// Container-based version of the <algorithm> `std::inplace_merge()` function
-// to merge a supplied iterator `middle` into a container.
-template <typename C>
-void c_inplace_merge(C& c,
-                     container_algorithm_internal::ContainerIter<C> middle) {
-  std::inplace_merge(container_algorithm_internal::c_begin(c), middle,
-                     container_algorithm_internal::c_end(c));
-}
-
-// Overload of c_inplace_merge() for performing a merge using a `comp` other
-// than `operator<`.
-template <typename C, typename Compare>
-void c_inplace_merge(C& c,
-                     container_algorithm_internal::ContainerIter<C> middle,
-                     Compare&& comp) {
-  std::inplace_merge(container_algorithm_internal::c_begin(c), middle,
-                     container_algorithm_internal::c_end(c),
-                     std::forward<Compare>(comp));
-}
-
-// c_includes()
-//
-// Container-based version of the <algorithm> `std::includes()` function
-// to test whether a sorted container `c1` entirely contains another sorted
-// container `c2`.
-template <typename C1, typename C2>
-bool c_includes(const C1& c1, const C2& c2) {
-  return std::includes(container_algorithm_internal::c_begin(c1),
-                       container_algorithm_internal::c_end(c1),
-                       container_algorithm_internal::c_begin(c2),
-                       container_algorithm_internal::c_end(c2));
-}
-
-// Overload of c_includes() for performing a merge using a `comp` other than
-// `operator<`.
-template <typename C1, typename C2, typename Compare>
-bool c_includes(const C1& c1, const C2& c2, Compare&& comp) {
-  return std::includes(container_algorithm_internal::c_begin(c1),
-                       container_algorithm_internal::c_end(c1),
-                       container_algorithm_internal::c_begin(c2),
-                       container_algorithm_internal::c_end(c2),
-                       std::forward<Compare>(comp));
-}
-
-// c_set_union()
-//
-// Container-based version of the <algorithm> `std::set_union()` function
-// to return an iterator containing the union of two containers; duplicate
-// values are not copied into the output.
-template <typename C1, typename C2, typename OutputIterator,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C1>::value,
-              void>::type,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C2>::value,
-              void>::type>
-OutputIterator c_set_union(const C1& c1, const C2& c2, OutputIterator output) {
-  return std::set_union(container_algorithm_internal::c_begin(c1),
-                        container_algorithm_internal::c_end(c1),
-                        container_algorithm_internal::c_begin(c2),
-                        container_algorithm_internal::c_end(c2), output);
-}
-
-// Overload of c_set_union() for performing a merge using a `comp` other than
-// `operator<`.
-template <typename C1, typename C2, typename OutputIterator, typename Compare,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C1>::value,
-              void>::type,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C2>::value,
-              void>::type>
-OutputIterator c_set_union(const C1& c1, const C2& c2, OutputIterator output,
-                           Compare&& comp) {
-  return std::set_union(container_algorithm_internal::c_begin(c1),
-                        container_algorithm_internal::c_end(c1),
-                        container_algorithm_internal::c_begin(c2),
-                        container_algorithm_internal::c_end(c2), output,
-                        std::forward<Compare>(comp));
-}
-
-// c_set_intersection()
-//
-// Container-based version of the <algorithm> `std::set_intersection()` function
-// to return an iterator containing the intersection of two containers.
-template <typename C1, typename C2, typename OutputIterator,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C1>::value,
-              void>::type,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C2>::value,
-              void>::type>
-OutputIterator c_set_intersection(const C1& c1, const C2& c2,
-                                  OutputIterator output) {
-  return std::set_intersection(container_algorithm_internal::c_begin(c1),
-                               container_algorithm_internal::c_end(c1),
-                               container_algorithm_internal::c_begin(c2),
-                               container_algorithm_internal::c_end(c2), output);
-}
-
-// Overload of c_set_intersection() for performing a merge using a `comp` other
-// than `operator<`.
-template <typename C1, typename C2, typename OutputIterator, typename Compare,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C1>::value,
-              void>::type,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C2>::value,
-              void>::type>
-OutputIterator c_set_intersection(const C1& c1, const C2& c2,
-                                  OutputIterator output, Compare&& comp) {
-  return std::set_intersection(container_algorithm_internal::c_begin(c1),
-                               container_algorithm_internal::c_end(c1),
-                               container_algorithm_internal::c_begin(c2),
-                               container_algorithm_internal::c_end(c2), output,
-                               std::forward<Compare>(comp));
-}
-
-// c_set_difference()
-//
-// Container-based version of the <algorithm> `std::set_difference()` function
-// to return an iterator containing elements present in the first container but
-// not in the second.
-template <typename C1, typename C2, typename OutputIterator,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C1>::value,
-              void>::type,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C2>::value,
-              void>::type>
-OutputIterator c_set_difference(const C1& c1, const C2& c2,
-                                OutputIterator output) {
-  return std::set_difference(container_algorithm_internal::c_begin(c1),
-                             container_algorithm_internal::c_end(c1),
-                             container_algorithm_internal::c_begin(c2),
-                             container_algorithm_internal::c_end(c2), output);
-}
-
-// Overload of c_set_difference() for performing a merge using a `comp` other
-// than `operator<`.
-template <typename C1, typename C2, typename OutputIterator, typename Compare,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C1>::value,
-              void>::type,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C2>::value,
-              void>::type>
-OutputIterator c_set_difference(const C1& c1, const C2& c2,
-                                OutputIterator output, Compare&& comp) {
-  return std::set_difference(container_algorithm_internal::c_begin(c1),
-                             container_algorithm_internal::c_end(c1),
-                             container_algorithm_internal::c_begin(c2),
-                             container_algorithm_internal::c_end(c2), output,
-                             std::forward<Compare>(comp));
-}
-
-// c_set_symmetric_difference()
-//
-// Container-based version of the <algorithm> `std::set_symmetric_difference()`
-// function to return an iterator containing elements present in either one
-// container or the other, but not both.
-template <typename C1, typename C2, typename OutputIterator,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C1>::value,
-              void>::type,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C2>::value,
-              void>::type>
-OutputIterator c_set_symmetric_difference(const C1& c1, const C2& c2,
-                                          OutputIterator output) {
-  return std::set_symmetric_difference(
-      container_algorithm_internal::c_begin(c1),
-      container_algorithm_internal::c_end(c1),
-      container_algorithm_internal::c_begin(c2),
-      container_algorithm_internal::c_end(c2), output);
-}
-
-// Overload of c_set_symmetric_difference() for performing a merge using a
-// `comp` other than `operator<`.
-template <typename C1, typename C2, typename OutputIterator, typename Compare,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C1>::value,
-              void>::type,
-          typename = typename std::enable_if<
-              !container_algorithm_internal::IsUnorderedContainer<C2>::value,
-              void>::type>
-OutputIterator c_set_symmetric_difference(const C1& c1, const C2& c2,
-                                          OutputIterator output,
-                                          Compare&& comp) {
-  return std::set_symmetric_difference(
-      container_algorithm_internal::c_begin(c1),
-      container_algorithm_internal::c_end(c1),
-      container_algorithm_internal::c_begin(c2),
-      container_algorithm_internal::c_end(c2), output,
-      std::forward<Compare>(comp));
-}
-
-//------------------------------------------------------------------------------
-// <algorithm> Heap functions
-//------------------------------------------------------------------------------
-
-// c_push_heap()
-//
-// Container-based version of the <algorithm> `std::push_heap()` function
-// to push a value onto a container heap.
-template <typename RandomAccessContainer>
-void c_push_heap(RandomAccessContainer& sequence) {
-  std::push_heap(container_algorithm_internal::c_begin(sequence),
-                 container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_push_heap() for performing a push operation on a heap using a
-// `comp` other than `operator<`.
-template <typename RandomAccessContainer, typename Compare>
-void c_push_heap(RandomAccessContainer& sequence, Compare&& comp) {
-  std::push_heap(container_algorithm_internal::c_begin(sequence),
-                 container_algorithm_internal::c_end(sequence),
-                 std::forward<Compare>(comp));
-}
-
-// c_pop_heap()
-//
-// Container-based version of the <algorithm> `std::pop_heap()` function
-// to pop a value from a heap container.
-template <typename RandomAccessContainer>
-void c_pop_heap(RandomAccessContainer& sequence) {
-  std::pop_heap(container_algorithm_internal::c_begin(sequence),
-                container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_pop_heap() for performing a pop operation on a heap using a
-// `comp` other than `operator<`.
-template <typename RandomAccessContainer, typename Compare>
-void c_pop_heap(RandomAccessContainer& sequence, Compare&& comp) {
-  std::pop_heap(container_algorithm_internal::c_begin(sequence),
-                container_algorithm_internal::c_end(sequence),
-                std::forward<Compare>(comp));
-}
-
-// c_make_heap()
-//
-// Container-based version of the <algorithm> `std::make_heap()` function
-// to make a container a heap.
-template <typename RandomAccessContainer>
-void c_make_heap(RandomAccessContainer& sequence) {
-  std::make_heap(container_algorithm_internal::c_begin(sequence),
-                 container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_make_heap() for performing heap comparisons using a
-// `comp` other than `operator<`
-template <typename RandomAccessContainer, typename Compare>
-void c_make_heap(RandomAccessContainer& sequence, Compare&& comp) {
-  std::make_heap(container_algorithm_internal::c_begin(sequence),
-                 container_algorithm_internal::c_end(sequence),
-                 std::forward<Compare>(comp));
-}
-
-// c_sort_heap()
-//
-// Container-based version of the <algorithm> `std::sort_heap()` function
-// to sort a heap into ascending order (after which it is no longer a heap).
-template <typename RandomAccessContainer>
-void c_sort_heap(RandomAccessContainer& sequence) {
-  std::sort_heap(container_algorithm_internal::c_begin(sequence),
-                 container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_sort_heap() for performing heap comparisons using a
-// `comp` other than `operator<`
-template <typename RandomAccessContainer, typename Compare>
-void c_sort_heap(RandomAccessContainer& sequence, Compare&& comp) {
-  std::sort_heap(container_algorithm_internal::c_begin(sequence),
-                 container_algorithm_internal::c_end(sequence),
-                 std::forward<Compare>(comp));
-}
-
-// c_is_heap()
-//
-// Container-based version of the <algorithm> `std::is_heap()` function
-// to check whether the given container is a heap.
-template <typename RandomAccessContainer>
-bool c_is_heap(const RandomAccessContainer& sequence) {
-  return std::is_heap(container_algorithm_internal::c_begin(sequence),
-                      container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_is_heap() for performing heap comparisons using a
-// `comp` other than `operator<`
-template <typename RandomAccessContainer, typename Compare>
-bool c_is_heap(const RandomAccessContainer& sequence, Compare&& comp) {
-  return std::is_heap(container_algorithm_internal::c_begin(sequence),
-                      container_algorithm_internal::c_end(sequence),
-                      std::forward<Compare>(comp));
-}
-
-// c_is_heap_until()
-//
-// Container-based version of the <algorithm> `std::is_heap_until()` function
-// to find the first element in a given container which is not in heap order.
-template <typename RandomAccessContainer>
-container_algorithm_internal::ContainerIter<RandomAccessContainer>
-c_is_heap_until(RandomAccessContainer& sequence) {
-  return std::is_heap_until(container_algorithm_internal::c_begin(sequence),
-                            container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_is_heap_until() for performing heap comparisons using a
-// `comp` other than `operator<`
-template <typename RandomAccessContainer, typename Compare>
-container_algorithm_internal::ContainerIter<RandomAccessContainer>
-c_is_heap_until(RandomAccessContainer& sequence, Compare&& comp) {
-  return std::is_heap_until(container_algorithm_internal::c_begin(sequence),
-                            container_algorithm_internal::c_end(sequence),
-                            std::forward<Compare>(comp));
-}
-
-//------------------------------------------------------------------------------
-//  <algorithm> Min/max
-//------------------------------------------------------------------------------
-
-// c_min_element()
-//
-// Container-based version of the <algorithm> `std::min_element()` function
-// to return an iterator pointing to the element with the smallest value, using
-// `operator<` to make the comparisons.
-template <typename Sequence>
-container_algorithm_internal::ContainerIter<Sequence> c_min_element(
-    Sequence& sequence) {
-  return std::min_element(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_min_element() for performing a `comp` comparison other than
-// `operator<`.
-template <typename Sequence, typename Compare>
-container_algorithm_internal::ContainerIter<Sequence> c_min_element(
-    Sequence& sequence, Compare&& comp) {
-  return std::min_element(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence),
-                          std::forward<Compare>(comp));
-}
-
-// c_max_element()
-//
-// Container-based version of the <algorithm> `std::max_element()` function
-// to return an iterator pointing to the element with the largest value, using
-// `operator<` to make the comparisons.
-template <typename Sequence>
-container_algorithm_internal::ContainerIter<Sequence> c_max_element(
-    Sequence& sequence) {
-  return std::max_element(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence));
-}
-
-// Overload of c_max_element() for performing a `comp` comparison other than
-// `operator<`.
-template <typename Sequence, typename Compare>
-container_algorithm_internal::ContainerIter<Sequence> c_max_element(
-    Sequence& sequence, Compare&& comp) {
-  return std::max_element(container_algorithm_internal::c_begin(sequence),
-                          container_algorithm_internal::c_end(sequence),
-                          std::forward<Compare>(comp));
-}
-
-// c_minmax_element()
-//
-// Container-based version of the <algorithm> `std::minmax_element()` function
-// to return a pair of iterators pointing to the elements containing the
-// smallest and largest values, respectively, using `operator<` to make the
-// comparisons.
-template <typename C>
-container_algorithm_internal::ContainerIterPairType<C, C>
-c_minmax_element(C& c) {
-  return std::minmax_element(container_algorithm_internal::c_begin(c),
-                             container_algorithm_internal::c_end(c));
-}
-
-// Overload of c_minmax_element() for performing `comp` comparisons other than
-// `operator<`.
-template <typename C, typename Compare>
-container_algorithm_internal::ContainerIterPairType<C, C>
-c_minmax_element(C& c, Compare&& comp) {
-  return std::minmax_element(container_algorithm_internal::c_begin(c),
-                             container_algorithm_internal::c_end(c),
-                             std::forward<Compare>(comp));
-}
-
-//------------------------------------------------------------------------------
-//  <algorithm> Lexicographical Comparisons
-//------------------------------------------------------------------------------
-
-// c_lexicographical_compare()
-//
-// Container-based version of the <algorithm> `std::lexicographical_compare()`
-// function to lexicographically compare (e.g. sort words alphabetically) two
-// container sequences. The comparison is performed using `operator<`. Note
-// that capital letters ("A-Z") have ASCII values less than lowercase letters
-// ("a-z").
-template <typename Sequence1, typename Sequence2>
-bool c_lexicographical_compare(Sequence1&& sequence1, Sequence2&& sequence2) {
-  return std::lexicographical_compare(
-      container_algorithm_internal::c_begin(sequence1),
-      container_algorithm_internal::c_end(sequence1),
-      container_algorithm_internal::c_begin(sequence2),
-      container_algorithm_internal::c_end(sequence2));
-}
-
-// Overload of c_lexicographical_compare() for performing a lexicographical
-// comparison using a `comp` operator instead of `operator<`.
-template <typename Sequence1, typename Sequence2, typename Compare>
-bool c_lexicographical_compare(Sequence1&& sequence1, Sequence2&& sequence2,
-                               Compare&& comp) {
-  return std::lexicographical_compare(
-      container_algorithm_internal::c_begin(sequence1),
-      container_algorithm_internal::c_end(sequence1),
-      container_algorithm_internal::c_begin(sequence2),
-      container_algorithm_internal::c_end(sequence2),
-      std::forward<Compare>(comp));
-}
-
-// c_next_permutation()
-//
-// Container-based version of the <algorithm> `std::next_permutation()` function
-// to rearrange a container's elements into the next lexicographically greater
-// permutation.
-template <typename C>
-bool c_next_permutation(C& c) {
-  return std::next_permutation(container_algorithm_internal::c_begin(c),
-                               container_algorithm_internal::c_end(c));
-}
-
-// Overload of c_next_permutation() for performing a lexicographical
-// comparison using a `comp` operator instead of `operator<`.
-template <typename C, typename Compare>
-bool c_next_permutation(C& c, Compare&& comp) {
-  return std::next_permutation(container_algorithm_internal::c_begin(c),
-                               container_algorithm_internal::c_end(c),
-                               std::forward<Compare>(comp));
-}
-
-// c_prev_permutation()
-//
-// Container-based version of the <algorithm> `std::prev_permutation()` function
-// to rearrange a container's elements into the next lexicographically lesser
-// permutation.
-template <typename C>
-bool c_prev_permutation(C& c) {
-  return std::prev_permutation(container_algorithm_internal::c_begin(c),
-                               container_algorithm_internal::c_end(c));
-}
-
-// Overload of c_prev_permutation() for performing a lexicographical
-// comparison using a `comp` operator instead of `operator<`.
-template <typename C, typename Compare>
-bool c_prev_permutation(C& c, Compare&& comp) {
-  return std::prev_permutation(container_algorithm_internal::c_begin(c),
-                               container_algorithm_internal::c_end(c),
-                               std::forward<Compare>(comp));
-}
-
-//------------------------------------------------------------------------------
-// <numeric> algorithms
-//------------------------------------------------------------------------------
-
-// c_iota()
-//
-// Container-based version of the <algorithm> `std::iota()` function
-// to compute successive values of `value`, as if incremented with `++value`
-// after each element is written. and write them to the container.
-template <typename Sequence, typename T>
-void c_iota(Sequence& sequence, T&& value) {
-  std::iota(container_algorithm_internal::c_begin(sequence),
-            container_algorithm_internal::c_end(sequence),
-            std::forward<T>(value));
-}
-// c_accumulate()
-//
-// Container-based version of the <algorithm> `std::accumulate()` function
-// to accumulate the element values of a container to `init` and return that
-// accumulation by value.
-//
-// Note: Due to a language technicality this function has return type
-// absl::decay_t<T>. As a user of this function you can casually read
-// this as "returns T by value" and assume it does the right thing.
-template <typename Sequence, typename T>
-decay_t<T> c_accumulate(const Sequence& sequence, T&& init) {
-  return std::accumulate(container_algorithm_internal::c_begin(sequence),
-                         container_algorithm_internal::c_end(sequence),
-                         std::forward<T>(init));
-}
-
-// Overload of c_accumulate() for using a binary operations other than
-// addition for computing the accumulation.
-template <typename Sequence, typename T, typename BinaryOp>
-decay_t<T> c_accumulate(const Sequence& sequence, T&& init,
-                        BinaryOp&& binary_op) {
-  return std::accumulate(container_algorithm_internal::c_begin(sequence),
-                         container_algorithm_internal::c_end(sequence),
-                         std::forward<T>(init),
-                         std::forward<BinaryOp>(binary_op));
-}
-
-// c_inner_product()
-//
-// Container-based version of the <algorithm> `std::inner_product()` function
-// to compute the cumulative inner product of container element pairs.
-//
-// Note: Due to a language technicality this function has return type
-// absl::decay_t<T>. As a user of this function you can casually read
-// this as "returns T by value" and assume it does the right thing.
-template <typename Sequence1, typename Sequence2, typename T>
-decay_t<T> c_inner_product(const Sequence1& factors1, const Sequence2& factors2,
-                           T&& sum) {
-  return std::inner_product(container_algorithm_internal::c_begin(factors1),
-                            container_algorithm_internal::c_end(factors1),
-                            container_algorithm_internal::c_begin(factors2),
-                            std::forward<T>(sum));
-}
-
-// Overload of c_inner_product() for using binary operations other than
-// `operator+` (for computing the accumulation) and `operator*` (for computing
-// the product between the two container's element pair).
-template <typename Sequence1, typename Sequence2, typename T,
-          typename BinaryOp1, typename BinaryOp2>
-decay_t<T> c_inner_product(const Sequence1& factors1, const Sequence2& factors2,
-                           T&& sum, BinaryOp1&& op1, BinaryOp2&& op2) {
-  return std::inner_product(container_algorithm_internal::c_begin(factors1),
-                            container_algorithm_internal::c_end(factors1),
-                            container_algorithm_internal::c_begin(factors2),
-                            std::forward<T>(sum), std::forward<BinaryOp1>(op1),
-                            std::forward<BinaryOp2>(op2));
-}
-
-// c_adjacent_difference()
-//
-// Container-based version of the <algorithm> `std::adjacent_difference()`
-// function to compute the difference between each element and the one preceding
-// it and write it to an iterator.
-template <typename InputSequence, typename OutputIt>
-OutputIt c_adjacent_difference(const InputSequence& input,
-                               OutputIt output_first) {
-  return std::adjacent_difference(container_algorithm_internal::c_begin(input),
-                                  container_algorithm_internal::c_end(input),
-                                  output_first);
-}
-
-// Overload of c_adjacent_difference() for using a binary operation other than
-// subtraction to compute the adjacent difference.
-template <typename InputSequence, typename OutputIt, typename BinaryOp>
-OutputIt c_adjacent_difference(const InputSequence& input,
-                               OutputIt output_first, BinaryOp&& op) {
-  return std::adjacent_difference(container_algorithm_internal::c_begin(input),
-                                  container_algorithm_internal::c_end(input),
-                                  output_first, std::forward<BinaryOp>(op));
-}
-
-// c_partial_sum()
-//
-// Container-based version of the <algorithm> `std::partial_sum()` function
-// to compute the partial sum of the elements in a sequence and write them
-// to an iterator. The partial sum is the sum of all element values so far in
-// the sequence.
-template <typename InputSequence, typename OutputIt>
-OutputIt c_partial_sum(const InputSequence& input, OutputIt output_first) {
-  return std::partial_sum(container_algorithm_internal::c_begin(input),
-                          container_algorithm_internal::c_end(input),
-                          output_first);
-}
-
-// Overload of c_partial_sum() for using a binary operation other than addition
-// to compute the "partial sum".
-template <typename InputSequence, typename OutputIt, typename BinaryOp>
-OutputIt c_partial_sum(const InputSequence& input, OutputIt output_first,
-                       BinaryOp&& op) {
-  return std::partial_sum(container_algorithm_internal::c_begin(input),
-                          container_algorithm_internal::c_end(input),
-                          output_first, std::forward<BinaryOp>(op));
-}
-
-ABSL_NAMESPACE_END
-}  // namespace absl
-
-#endif  // ABSL_ALGORITHM_CONTAINER_H_