#pragma once /* * Created by Brett on 06/02/24. * Licensed under GNU General Public License V3.0 * See LICENSE file for license detail */ #ifndef BLT_RANGES_H #define BLT_RANGES_H #include #include #include namespace blt { template class enumerator { public: class iterator { public: using iterator_category = std::input_iterator_tag; using value_type = typename TYPE_ITR::value_type; using difference_type = typename TYPE_ITR::difference_type; using pointer = typename TYPE_ITR::pointer; using reference = typename TYPE_ITR::reference; private: blt::size_t index = 0; TYPE_ITR current; public: explicit iterator(TYPE_ITR current): current(std::move(current)) {} iterator& operator++() { ++index; ++current; return *this; } bool operator==(iterator other) const { return current == other.current; } bool operator!=(iterator other) const { return current != other.current; } std::pair operator*() const { return {index, *current}; }; std::pair operator*() { return {index, *current}; }; }; explicit enumerator(TYPE_ITR begin, TYPE_ITR end): begin_(std::move(begin)), end_(std::move(end)) {} iterator begin() { return begin_; } iterator end() { return end_; } private: iterator begin_; iterator end_; }; template static inline auto enumerate(const T& container) { return enumerator{container.begin(), container.end()}; } template static inline auto enumerate(T& container) { return enumerator{container.begin(), container.end()}; } template struct range { public: struct range_itr { public: using iterator_category = std::bidirectional_iterator_tag; using difference_type = T; using value_type = T; using pointer = T*; using reference = T&; private: T current; bool forward; public: explicit range_itr(T current, bool forward): current(current), forward(forward) {} value_type operator*() const { return current; } value_type operator->() { return current; } range_itr& operator++() { if (forward) current++; else current--; return *this; } range_itr& operator--() { if (forward) current--; else current++; return *this; } friend bool operator==(const range_itr& a, const range_itr& b) { return a.current == b.current; } friend bool operator!=(const range_itr& a, const range_itr& b) { return a.current != b.current; } }; private: T _begin; T _end; T offset = 0; public: range(T begin, T end): _begin(begin), _end(end), offset(end < begin ? 1 : 0) {} range_itr begin() { return range_itr(_begin - offset, offset == 0); } range_itr end() { // not sure if i like this return range_itr(_end - offset, offset == 0); } }; } #endif //BLT_RANGES_H