#ifndef HORUS_TINYSET_H #define HORUS_TINYSET_H #include #include using namespace std; template > class TinySet { public: TinySet (const TinySet& s) : vec_(s.vec_), cmp_(s.cmp_) { } TinySet (const Compare& cmp = Compare()) : vec_(), cmp_(cmp) { } TinySet (const T& t, const Compare& cmp = Compare()) : vec_(1, t), cmp_(cmp) { } TinySet (const vector& elements, const Compare& cmp = Compare()) : vec_(elements), cmp_(cmp) { std::sort (begin(), end(), cmp_); } typedef typename vector::iterator iterator; typedef typename vector::const_iterator const_iterator; iterator insert (const T& t) { iterator it = std::lower_bound (begin(), end(), t, cmp_); if (it == end() || cmp_(t, *it)) { vec_.insert (it, t); } return it; } void insert_sorted (const T& t) { vec_.push_back (t); assert (consistent()); } void remove (const T& t) { iterator it = std::lower_bound (begin(), end(), t, cmp_); if (it != end()) { vec_.erase (it); } } const_iterator find (const T& t) const { const_iterator it = std::lower_bound (begin(), end(), t, cmp_); return it == end() || cmp_(t, *it) ? end() : it; } iterator find (const T& t) { iterator it = std::lower_bound (begin(), end(), t, cmp_); return it == end() || cmp_(t, *it) ? end() : it; } /* set union */ TinySet operator| (const TinySet& s) const { TinySet res; std::set_union ( vec_.begin(), vec_.end(), s.vec_.begin(), s.vec_.end(), std::back_inserter (res.vec_), cmp_); return res; } /* set intersection */ TinySet operator& (const TinySet& s) const { TinySet res; std::set_intersection ( vec_.begin(), vec_.end(), s.vec_.begin(), s.vec_.end(), std::back_inserter (res.vec_), cmp_); return res; } /* set difference */ TinySet operator- (const TinySet& s) const { TinySet res; std::set_difference ( vec_.begin(), vec_.end(), s.vec_.begin(), s.vec_.end(), std::back_inserter (res.vec_), cmp_); return res; } TinySet& operator|= (const TinySet& s) { return *this = (*this | s); } TinySet& operator&= (const TinySet& s) { return *this = (*this & s); } TinySet& operator-= (const TinySet& s) { return *this = (*this - s); } bool contains (const T& t) const { return std::binary_search ( vec_.begin(), vec_.end(), t, cmp_); } bool contains (const TinySet& s) const { return std::includes ( vec_.begin(), vec_.end(), s.vec_.begin(), s.vec_.end(), cmp_); } bool in (const TinySet& s) const { return std::includes ( s.vec_.begin(), s.vec_.end(), vec_.begin(), vec_.end(), cmp_); } bool intersects (const TinySet& s) const { return (*this & s).size() > 0; } const T& operator[] (typename vector::size_type i) const { return vec_[i]; } T front (void) const { return vec_.front(); } T& front (void) { return vec_.front(); } T back (void) const { return vec_.back(); } T& back (void) { return vec_.back(); } const vector& elements (void) const { return vec_; } bool empty (void) const { return size() == 0; } typename vector::size_type size (void) const { return vec_.size(); } void clear (void) { vec_.clear(); } void reserve (typename vector::size_type size) { vec_.reserve (size); } iterator begin (void) { return vec_.begin(); } iterator end (void) { return vec_.end(); } const_iterator begin (void) const { return vec_.begin(); } const_iterator end (void) const { return vec_.end(); } friend bool operator== (const TinySet& s1, const TinySet& s2) { return s1.vec_ == s2.vec_; } friend bool operator!= (const TinySet& s1, const TinySet& s2) { return ! (s1.vec_ == s2.vec_); } friend std::ostream& operator << (std::ostream& out, const TinySet& s) { out << "{" ; typename vector::size_type i; for (i = 0; i < s.size(); i++) { out << ((i != 0) ? "," : "") << s.vec_[i]; } out << "}" ; return out; } private: bool consistent (void) const { typename vector::size_type i; for (i = 0; i < vec_.size() - 1; i++) { if (cmp_(vec_[i], vec_[i + 1]) == false) { return false; } } return true; } vector vec_; Compare cmp_; }; #endif // HORUS_TINYSET_H