src/third_party/llvm-project/clang-tools-extra/test/clang-tidy/Inputs/modernize-use-auto/containers.h - cobalt - Git at Google

 #ifndef CONTAINERS_H
 #define CONTAINERS_H

 namespace std {

 template <typename T>
 class iterator {
 public:
   iterator() {}
   iterator(const iterator<T> &iter) : ptr(iter.ptr) {}

   typedef T value_type;
   typedef T *pointer;
   typedef T &reference;

   reference operator*() const { return *ptr; }
   pointer operator->() const { return ptr; }
   iterator &operator++() {
     ++ptr;
     return *this;
   }
   iterator &operator--() {
     --ptr;
     return *this;
   }
   iterator operator++(int) {
     iterator res(*this);
     ++ptr;
     return res;
   }
   iterator operator--(int) {
     iterator res(*this);
     --ptr;
     return res;
   }
   bool operator!=(const iterator<T> &iter) const {
     return ptr != iter.operator->();
   }

 private:
   T *ptr;
 };

 template <class Iterator>
 class const_iterator {
 public:
   const_iterator() {}
   const_iterator(const Iterator &iter) : iter(iter) {}
   const_iterator(const const_iterator<Iterator> &citer) : iter(citer.iter) {}

   typedef const typename Iterator::value_type value_type;
   typedef const typename Iterator::pointer pointer;
   typedef const typename Iterator::reference reference;

   reference operator*() const { return *iter; }
   pointer operator->() const { return iter.operator->(); }

   const_iterator &operator++() { return ++iter; }
   const_iterator &operator--() { return --iter; }
   const_iterator operator++(int) { return iter--; }
   const_iterator operator--(int) { return iter--; }

   bool operator!=(const Iterator &it) const {
     return iter->operator->() != it.operator->();
   }
   bool operator!=(const const_iterator<Iterator> &it) const {
     return iter.operator->() != it.operator->();
   }

 private:
   Iterator iter;
 };

 template <class Iterator>
 class forward_iterable {
 public:
   forward_iterable() {}
   typedef Iterator iterator;
   typedef const_iterator<Iterator> const_iterator;

   iterator begin() { return _begin; }
   iterator end() { return _end; }

   const_iterator begin() const { return _begin; }
   const_iterator end() const { return _end; }

   const_iterator cbegin() const { return _begin; }
   const_iterator cend() const { return _end; }

 private:
   iterator _begin, _end;
 };

 template <class Iterator>
 class reverse_iterator {
 public:
   reverse_iterator() {}
   reverse_iterator(const Iterator &iter) : iter(iter) {}
   reverse_iterator(const reverse_iterator<Iterator> &rit) : iter(rit.iter) {}

   typedef typename Iterator::value_type value_type;
   typedef typename Iterator::pointer pointer;
   typedef typename Iterator::reference reference;

   reference operator*() { return *iter; }
   pointer operator->() { return iter.operator->(); }

   reverse_iterator &operator++() { return --iter; }
   reverse_iterator &operator--() { return ++iter; }
   reverse_iterator operator++(int) { return iter--; }
   reverse_iterator operator--(int) { return iter++; }

 private:
   Iterator iter;
 };

 template <class Iterator>
 class backward_iterable {
 public:
   backward_iterable() {}

   typedef reverse_iterator<Iterator> reverse_iterator;
   typedef const_iterator<reverse_iterator> const_reverse_iterator;

   reverse_iterator rbegin() { return _rbegin; }
   reverse_iterator rend() { return _rend; }

   const_reverse_iterator rbegin() const { return _rbegin; }
   const_reverse_iterator rend() const { return _rend; }

   const_reverse_iterator crbegin() const { return _rbegin; }
   const_reverse_iterator crend() const { return _rend; }

 private:
   reverse_iterator _rbegin, _rend;
 };

 template <class Iterator>
 class bidirectional_iterable : public forward_iterable<Iterator>,
                                public backward_iterable<Iterator> {};

 template <typename A, typename B>
 struct pair {
   pair(A f, B s) : first(f), second(s) {}
   A first;
   B second;
 };

 class string {
 public:
   string() {}
   string(const char *) {}
 };

 template <typename T, int n>
 class array : public backward_iterable<iterator<T>> {
 public:
   array() {}

   typedef T *iterator;
   typedef const T *const_iterator;

   iterator begin() { return &v[0]; }
   iterator end() { return &v[n - 1]; }

   const_iterator begin() const { return &v[0]; }
   const_iterator end() const { return &v[n - 1]; }

   const_iterator cbegin() const { return &v[0]; }
   const_iterator cend() const { return &v[n - 1]; }

 private:
   T v[n];
 };

 template <typename T>
 class deque : public bidirectional_iterable<iterator<T>> {
 public:
   deque() {}
 };

 template <typename T>
 class list : public bidirectional_iterable<iterator<T>> {
 public:
   list() {}
 };

 template <typename T>
 class forward_list : public forward_iterable<iterator<T>> {
 public:
   forward_list() {}
 };

 template <typename T>
 class vector : public bidirectional_iterable<iterator<T>> {
 public:
   vector() {}
 };

 template <typename T>
 class set : public bidirectional_iterable<iterator<T>> {
 public:
   set() {}
 };

 template <typename T>
 class multiset : public bidirectional_iterable<iterator<T>> {
 public:
   multiset() {}
 };

 template <typename key, typename value>
 class map : public bidirectional_iterable<iterator<pair<key, value>>> {
 public:
   map() {}

   iterator<pair<key, value>> find(const key &) {}
   const_iterator<iterator<pair<key, value>>> find(const key &) const {}
 };

 template <typename key, typename value>
 class multimap : public bidirectional_iterable<iterator<pair<key, value>>> {
 public:
   multimap() {}
 };

 template <typename T>
 class unordered_set : public forward_iterable<iterator<T>> {
 public:
   unordered_set() {}
 };

 template <typename T>
 class unordered_multiset : public forward_iterable<iterator<T>> {
 public:
   unordered_multiset() {}
 };

 template <typename key, typename value>
 class unordered_map : public forward_iterable<iterator<pair<key, value>>> {
 public:
   unordered_map() {}
 };

 template <typename key, typename value>
 class unordered_multimap : public forward_iterable<iterator<pair<key, value>>> {
 public:
   unordered_multimap() {}
 };

 } // namespace std

 #endif // CONTAINERS_H
	#ifndef CONTAINERS_H
	#define CONTAINERS_H

	namespace std {

	template <typename T>
	class iterator {
	public:
	iterator() {}
	iterator(const iterator<T> &iter) : ptr(iter.ptr) {}

	typedef T value_type;
	typedef T *pointer;
	typedef T &reference;

	reference operator() const { return ptr; }
	pointer operator->() const { return ptr; }
	iterator &operator++() {
	++ptr;
	return *this;
	}
	iterator &operator--() {
	--ptr;
	return *this;
	}
	iterator operator++(int) {
	iterator res(*this);
	++ptr;
	return res;
	}
	iterator operator--(int) {
	iterator res(*this);
	--ptr;
	return res;
	}
	bool operator!=(const iterator<T> &iter) const {
	return ptr != iter.operator->();
	}

	private:
	T *ptr;
	};

	template <class Iterator>
	class const_iterator {
	public:
	const_iterator() {}
	const_iterator(const Iterator &iter) : iter(iter) {}
	const_iterator(const const_iterator<Iterator> &citer) : iter(citer.iter) {}

	typedef const typename Iterator::value_type value_type;
	typedef const typename Iterator::pointer pointer;
	typedef const typename Iterator::reference reference;

	reference operator() const { return iter; }
	pointer operator->() const { return iter.operator->(); }

	const_iterator &operator++() { return ++iter; }
	const_iterator &operator--() { return --iter; }
	const_iterator operator++(int) { return iter--; }
	const_iterator operator--(int) { return iter--; }

	bool operator!=(const Iterator &it) const {
	return iter->operator->() != it.operator->();
	}
	bool operator!=(const const_iterator<Iterator> &it) const {
	return iter.operator->() != it.operator->();
	}

	private:
	Iterator iter;
	};

	template <class Iterator>
	class forward_iterable {
	public:
	forward_iterable() {}
	typedef Iterator iterator;
	typedef const_iterator<Iterator> const_iterator;

	iterator begin() { return _begin; }
	iterator end() { return _end; }

	const_iterator begin() const { return _begin; }
	const_iterator end() const { return _end; }

	const_iterator cbegin() const { return _begin; }
	const_iterator cend() const { return _end; }

	private:
	iterator _begin, _end;
	};

	template <class Iterator>
	class reverse_iterator {
	public:
	reverse_iterator() {}
	reverse_iterator(const Iterator &iter) : iter(iter) {}
	reverse_iterator(const reverse_iterator<Iterator> &rit) : iter(rit.iter) {}

	typedef typename Iterator::value_type value_type;
	typedef typename Iterator::pointer pointer;
	typedef typename Iterator::reference reference;

	reference operator() { return iter; }
	pointer operator->() { return iter.operator->(); }

	reverse_iterator &operator++() { return --iter; }
	reverse_iterator &operator--() { return ++iter; }
	reverse_iterator operator++(int) { return iter--; }
	reverse_iterator operator--(int) { return iter++; }

	private:
	Iterator iter;
	};

	template <class Iterator>
	class backward_iterable {
	public:
	backward_iterable() {}

	typedef reverse_iterator<Iterator> reverse_iterator;
	typedef const_iterator<reverse_iterator> const_reverse_iterator;

	reverse_iterator rbegin() { return _rbegin; }
	reverse_iterator rend() { return _rend; }

	const_reverse_iterator rbegin() const { return _rbegin; }
	const_reverse_iterator rend() const { return _rend; }

	const_reverse_iterator crbegin() const { return _rbegin; }
	const_reverse_iterator crend() const { return _rend; }

	private:
	reverse_iterator _rbegin, _rend;
	};

	template <class Iterator>
	class bidirectional_iterable : public forward_iterable<Iterator>,
	public backward_iterable<Iterator> {};

	template <typename A, typename B>
	struct pair {
	pair(A f, B s) : first(f), second(s) {}
	A first;
	B second;
	};

	class string {
	public:
	string() {}
	string(const char *) {}
	};

	template <typename T, int n>
	class array : public backward_iterable<iterator<T>> {
	public:
	array() {}

	typedef T *iterator;
	typedef const T *const_iterator;

	iterator begin() { return &v[0]; }
	iterator end() { return &v[n - 1]; }

	const_iterator begin() const { return &v[0]; }
	const_iterator end() const { return &v[n - 1]; }

	const_iterator cbegin() const { return &v[0]; }
	const_iterator cend() const { return &v[n - 1]; }

	private:
	T v[n];
	};

	template <typename T>
	class deque : public bidirectional_iterable<iterator<T>> {
	public:
	deque() {}
	};

	template <typename T>
	class list : public bidirectional_iterable<iterator<T>> {
	public:
	list() {}
	};

	template <typename T>
	class forward_list : public forward_iterable<iterator<T>> {
	public:
	forward_list() {}
	};

	template <typename T>
	class vector : public bidirectional_iterable<iterator<T>> {
	public:
	vector() {}
	};

	template <typename T>
	class set : public bidirectional_iterable<iterator<T>> {
	public:
	set() {}
	};

	template <typename T>
	class multiset : public bidirectional_iterable<iterator<T>> {
	public:
	multiset() {}
	};

	template <typename key, typename value>
	class map : public bidirectional_iterable<iterator<pair<key, value>>> {
	public:
	map() {}

	iterator<pair<key, value>> find(const key &) {}
	const_iterator<iterator<pair<key, value>>> find(const key &) const {}
	};

	template <typename key, typename value>
	class multimap : public bidirectional_iterable<iterator<pair<key, value>>> {
	public:
	multimap() {}
	};

	template <typename T>
	class unordered_set : public forward_iterable<iterator<T>> {
	public:
	unordered_set() {}
	};

	template <typename T>
	class unordered_multiset : public forward_iterable<iterator<T>> {
	public:
	unordered_multiset() {}
	};

	template <typename key, typename value>
	class unordered_map : public forward_iterable<iterator<pair<key, value>>> {
	public:
	unordered_map() {}
	};

	template <typename key, typename value>
	class unordered_multimap : public forward_iterable<iterator<pair<key, value>>> {
	public:
	unordered_multimap() {}
	};

	} // namespace std

	#endif // CONTAINERS_H