2 interval.hh -- part of flowerlib
4 (c) 1996 Han-Wen Nienhuys
15 /** a T interval. this represents the closed interval [left,right].
16 No invariants. T must be a totally ordered ring (with division, anyway ..)
17 At instantiation, the function infinity() has to be defined explicitely.
28 T center() { return (left + right) / T(2);}
29 void translate (T t) {
42 T& operator[](int j) {
45 T operator[](int j) const {
46 return ((Interval_t<T> *)this)->idx (j);
48 T &max() { return right;}
49 T max() const { return right;}
50 T min() const{ return left; }
51 T &min(){ return left; }
54 *this and h are comparable
56 void unite (Interval_t<T> h);
57 void intersect (Interval_t<T> h);
61 bool empty_b() const { return left > right; }
62 bool contains_b (Interval_t<T> const&) const;
66 Interval_t (T m, T M) {
70 Interval_t<T> &operator += (T r) {
75 Interval_t<T> &operator *=(T r) {
92 inclusion ordering. Crash if not comparable.
95 int Interval__compare (const Interval_t<T>&,Interval_t<T> const&);
101 #include "compare.hh"
103 TEMPLATE_INSTANTIATE_COMPARE(Interval_t<T>&, Interval__compare, template<class T>);
108 intersection (Interval_t<T> a, Interval_t<T> const&b)
117 Interval_t<T> operator +(T a,Interval_t<T> i)
125 Interval_t<T> operator +(Interval_t<T> i,T a){
131 Interval_t<T> operator *(T a,Interval_t<T> i)
139 Interval_t<T> operator *(Interval_t<T> i,T a){
143 typedef Interval_t<Real> Interval;
148 #endif // INTERVAL_HH