boost/multi_array/index_range.hpp
// Copyright 2002 The Trustees of Indiana University. // Use, modification and distribution is subject to the Boost Software // License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at // http://www.boost.org/LICENSE_1_0.txt) // Boost.MultiArray Library // Authors: Ronald Garcia // Jeremy Siek // Andrew Lumsdaine // See http://www.boost.org/libs/multi_array for documentation. #ifndef BOOST_INDEX_RANGE_RG071801_HPP #define BOOST_INDEX_RANGE_RG071801_HPP #include <boost/config.hpp> #include <utility> #include <boost/limits.hpp> // For representing intervals, also with stride. // A degenerate range is a range with one element. // Thanks to Doug Gregor for the really cool idea of using the // comparison operators to express various interval types! // Internally, we represent the interval as half-open. namespace boost { namespace detail { namespace multi_array { template <typename Index,typename SizeType> class index_range { public: typedef Index index; typedef SizeType size_type; private: static index from_start() { return (std::numeric_limits<index>::min)(); } static index to_end() { return (std::numeric_limits<index>::max)(); } public: index_range() { start_ = from_start(); finish_ = to_end(); stride_ = 1; degenerate_ = false; } explicit index_range(index pos) { start_ = pos; finish_ = pos+1; stride_ = 1; degenerate_ = true; } explicit index_range(index start, index finish, index stride=1) : start_(start), finish_(finish), stride_(stride), degenerate_(false) { } // These are for chaining assignments to an index_range index_range& start(index s) { start_ = s; degenerate_ = false; return *this; } index_range& finish(index f) { finish_ = f; degenerate_ = false; return *this; } index_range& stride(index s) { stride_ = s; return *this; } index start() const { return start_; } index get_start(index low_index_range = index_range::from_start()) const { if (start_ == from_start()) return low_index_range; return start_; } index finish() const { return finish_; } index get_finish(index high_index_range = index_range::to_end()) const { if (finish_ == to_end()) return high_index_range; return finish_; } index stride() const { return stride_; } void set_index_range(index start, index finish, index stride=1) { start_ = start; finish_ = finish; stride_ = stride; } static index_range all() { return index_range(from_start(), to_end(), 1); } bool is_degenerate() const { return degenerate_; } index_range operator-(index shift) const { return index_range(start_ - shift, finish_ - shift, stride_); } index_range operator+(index shift) const { return index_range(start_ + shift, finish_ + shift, stride_); } index operator[](unsigned i) const { return start_ + i * stride_; } index operator()(unsigned i) const { return start_ + i * stride_; } // add conversion to std::slice? public: index start_, finish_, stride_; bool degenerate_; }; // Express open and closed interval end-points using the comparison // operators. // left closed template <typename Index, typename SizeType> inline index_range<Index,SizeType> operator<=(Index s, const index_range<Index,SizeType>& r) { return index_range<Index,SizeType>(s, r.finish(), r.stride()); } // left open template <typename Index, typename SizeType> inline index_range<Index,SizeType> operator<(Index s, const index_range<Index,SizeType>& r) { return index_range<Index,SizeType>(s + 1, r.finish(), r.stride()); } // right open template <typename Index, typename SizeType> inline index_range<Index,SizeType> operator<(const index_range<Index,SizeType>& r, Index f) { return index_range<Index,SizeType>(r.start(), f, r.stride()); } // right closed template <typename Index, typename SizeType> inline index_range<Index,SizeType> operator<=(const index_range<Index,SizeType>& r, Index f) { return index_range<Index,SizeType>(r.start(), f + 1, r.stride()); } } // namespace multi_array } // namespace detail } // namespace boost #endif // BOOST_INDEX_RANGE_RG071801_HPP