package llrb type ItemIterator func(i Item) bool //func (t *Tree) Ascend(iterator ItemIterator) { // t.AscendGreaterOrEqual(Inf(-1), iterator) //} func (t *LLRB) AscendRange(greaterOrEqual, lessThan Item, iterator ItemIterator) { t.ascendRange(t.root, greaterOrEqual, lessThan, iterator) } func (t *LLRB) ascendRange(h *Node, inf, sup Item, iterator ItemIterator) bool { if h == nil { return true } if !less(h.Item, sup) { return t.ascendRange(h.Left, inf, sup, iterator) } if less(h.Item, inf) { return t.ascendRange(h.Right, inf, sup, iterator) } if !t.ascendRange(h.Left, inf, sup, iterator) { return false } if !iterator(h.Item) { return false } return t.ascendRange(h.Right, inf, sup, iterator) } // AscendGreaterOrEqual will call iterator once for each element greater or equal to // pivot in ascending order. It will stop whenever the iterator returns false. func (t *LLRB) AscendGreaterOrEqual(pivot Item, iterator ItemIterator) { t.ascendGreaterOrEqual(t.root, pivot, iterator) } func (t *LLRB) ascendGreaterOrEqual(h *Node, pivot Item, iterator ItemIterator) bool { if h == nil { return true } if !less(h.Item, pivot) { if !t.ascendGreaterOrEqual(h.Left, pivot, iterator) { return false } if !iterator(h.Item) { return false } } return t.ascendGreaterOrEqual(h.Right, pivot, iterator) } // AscendLessThan will call iterator once for each element lower than // pivot in ascending order. It will stop whenever the iterator returns false. func (t *LLRB) AscendLessThan(pivot Item, iterator ItemIterator) { t.ascendLessThan(t.root, pivot, iterator) } func (t *LLRB) ascendLessThan(h *Node, pivot Item, iterator ItemIterator) bool { if h == nil { return true } if !t.ascendLessThan(h.Left, pivot, iterator) { return false } if less(h.Item, pivot) { if !iterator(h.Item) { return false } return t.ascendLessThan(h.Right, pivot, iterator) } return true } // DescendLessOrEqual will call iterator once for each element less than the // pivot in descending order. It will stop whenever the iterator returns false. func (t *LLRB) DescendLessOrEqual(pivot Item, iterator ItemIterator) { t.descendLessOrEqual(t.root, pivot, iterator) } func (t *LLRB) descendLessOrEqual(h *Node, pivot Item, iterator ItemIterator) bool { if h == nil { return true } if less(h.Item, pivot) || !less(pivot, h.Item) { if !t.descendLessOrEqual(h.Right, pivot, iterator) { return false } if !iterator(h.Item) { return false } } return t.descendLessOrEqual(h.Left, pivot, iterator) }