auto merge of #8227 : dim-an/rust/tree-iter, r=thestinger

This commit is contained in:
bors 2013-08-05 02:52:55 -07:00
commit 4db061160d

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@ -184,7 +184,68 @@ impl<K: TotalOrd, V> TreeMap<K, V> {
/// Get a lazy iterator over the key-value pairs in the map. /// Get a lazy iterator over the key-value pairs in the map.
/// Requires that it be frozen (immutable). /// Requires that it be frozen (immutable).
pub fn iter<'a>(&'a self) -> TreeMapIterator<'a, K, V> { pub fn iter<'a>(&'a self) -> TreeMapIterator<'a, K, V> {
TreeMapIterator{stack: ~[], node: &self.root, remaining: self.length} TreeMapIterator {
stack: ~[],
node: &self.root,
remaining_min: self.length,
remaining_max: self.length
}
}
/// Get a lazy iterator that should be initialized using
/// `iter_traverse_left`/`iter_traverse_right`/`iter_traverse_complete`.
fn iter_for_traversal<'a>(&'a self) -> TreeMapIterator<'a, K, V> {
TreeMapIterator {
stack: ~[],
node: &self.root,
remaining_min: 0,
remaining_max: self.length
}
}
/// Return a lazy iterator to the first key-value pair whose key is not less than `k`
/// If all keys in map are less than `k` an empty iterator is returned.
pub fn lower_bound_iter<'a>(&'a self, k: &K) -> TreeMapIterator<'a, K, V> {
let mut iter: TreeMapIterator<'a, K, V> = self.iter_for_traversal();
loop {
match *iter.node {
Some(ref r) => {
match k.cmp(&r.key) {
Less => iter_traverse_left(&mut iter),
Greater => iter_traverse_right(&mut iter),
Equal => {
iter_traverse_complete(&mut iter);
return iter;
}
}
}
None => {
iter_traverse_complete(&mut iter);
return iter;
}
}
}
}
/// Return a lazy iterator to the first key-value pair whose key is greater than `k`
/// If all keys in map are not greater than `k` an empty iterator is returned.
pub fn upper_bound_iter<'a>(&'a self, k: &K) -> TreeMapIterator<'a, K, V> {
let mut iter: TreeMapIterator<'a, K, V> = self.iter_for_traversal();
loop {
match *iter.node {
Some(ref r) => {
match k.cmp(&r.key) {
Less => iter_traverse_left(&mut iter),
Greater => iter_traverse_right(&mut iter),
Equal => iter_traverse_right(&mut iter)
}
}
None => {
iter_traverse_complete(&mut iter);
return iter;
}
}
}
} }
/// Get a lazy iterator that consumes the treemap. /// Get a lazy iterator that consumes the treemap.
@ -205,7 +266,8 @@ impl<K: TotalOrd, V> TreeMap<K, V> {
pub struct TreeMapIterator<'self, K, V> { pub struct TreeMapIterator<'self, K, V> {
priv stack: ~[&'self ~TreeNode<K, V>], priv stack: ~[&'self ~TreeNode<K, V>],
priv node: &'self Option<~TreeNode<K, V>>, priv node: &'self Option<~TreeNode<K, V>>,
priv remaining: uint priv remaining_min: uint,
priv remaining_max: uint
} }
impl<'self, K, V> Iterator<(&'self K, &'self V)> for TreeMapIterator<'self, K, V> { impl<'self, K, V> Iterator<(&'self K, &'self V)> for TreeMapIterator<'self, K, V> {
@ -222,7 +284,10 @@ impl<'self, K, V> Iterator<(&'self K, &'self V)> for TreeMapIterator<'self, K, V
None => { None => {
let res = self.stack.pop(); let res = self.stack.pop();
self.node = &res.right; self.node = &res.right;
self.remaining -= 1; self.remaining_max -= 1;
if self.remaining_min > 0 {
self.remaining_min -= 1;
}
return Some((&res.key, &res.value)); return Some((&res.key, &res.value));
} }
} }
@ -232,7 +297,46 @@ impl<'self, K, V> Iterator<(&'self K, &'self V)> for TreeMapIterator<'self, K, V
#[inline] #[inline]
fn size_hint(&self) -> (uint, Option<uint>) { fn size_hint(&self) -> (uint, Option<uint>) {
(self.remaining, Some(self.remaining)) (self.remaining_min, Some(self.remaining_max))
}
}
/// iter_traverse_left, iter_traverse_right and iter_traverse_complete are used to
/// initialize TreeMapIterator pointing to element inside tree structure.
///
/// They should be used in following manner:
/// - create iterator using TreeMap::iter_for_traversal
/// - find required node using `iter_traverse_left`/`iter_traverse_right`
/// (current node is `TreeMapIterator::node` field)
/// - complete initialization with `iter_traverse_complete`
#[inline]
fn iter_traverse_left<'a, K, V>(it: &mut TreeMapIterator<'a, K, V>) {
let node = it.node.get_ref();
it.stack.push(node);
it.node = &node.left;
}
#[inline]
fn iter_traverse_right<'a, K, V>(it: &mut TreeMapIterator<'a, K, V>) {
it.node = &(it.node.get_ref().right);
}
/// iter_traverse_left, iter_traverse_right and iter_traverse_complete are used to
/// initialize TreeMapIterator pointing to element inside tree structure.
///
/// Completes traversal. Should be called before using iterator.
/// Iteration will start from `self.node`.
/// If `self.node` is None iteration will start from last node from which we
/// traversed left.
#[inline]
fn iter_traverse_complete<'a, K, V>(it: &mut TreeMapIterator<'a, K, V>) {
static none: Option<~TreeNode<K, V>> = None;
match *it.node {
Some(ref n) => {
it.stack.push(n);
it.node = &none;
}
None => ()
} }
} }
@ -417,6 +521,20 @@ impl<T: TotalOrd> TreeSet<T> {
TreeSetIterator{iter: self.map.iter()} TreeSetIterator{iter: self.map.iter()}
} }
/// Get a lazy iterator pointing to the first value not less than `v` (greater or equal).
/// If all elements in the set are less than `v` empty iterator is returned.
#[inline]
pub fn lower_bound_iter<'a>(&'a self, v: &T) -> TreeSetIterator<'a, T> {
TreeSetIterator{iter: self.map.lower_bound_iter(v)}
}
/// Get a lazy iterator pointing to the first value greater than `v`.
/// If all elements in the set are not greater than `v` empty iterator is returned.
#[inline]
pub fn upper_bound_iter<'a>(&'a self, v: &T) -> TreeSetIterator<'a, T> {
TreeSetIterator{iter: self.map.upper_bound_iter(v)}
}
/// Visit all values in reverse order /// Visit all values in reverse order
#[inline] #[inline]
pub fn each_reverse(&self, f: &fn(&T) -> bool) -> bool { pub fn each_reverse(&self, f: &fn(&T) -> bool) -> bool {
@ -983,6 +1101,31 @@ mod test_treemap {
assert_eq!(*v, n * 2); assert_eq!(*v, n * 2);
n += 1; n += 1;
} }
assert_eq!(n, 5);
}
#[test]
fn test_interval_iteration() {
let mut m = TreeMap::new();
for i in range(1, 100) {
assert!(m.insert(i * 2, i * 4));
}
for i in range(1, 198) {
let mut lb_it = m.lower_bound_iter(&i);
let (&k, &v) = lb_it.next().unwrap();
let lb = i + i % 2;
assert_eq!(lb, k);
assert_eq!(lb * 2, v);
let mut ub_it = m.upper_bound_iter(&i);
let (&k, &v) = ub_it.next().unwrap();
let ub = i + 2 - i % 2;
assert_eq!(ub, k);
assert_eq!(ub * 2, v);
}
let mut end_it = m.lower_bound_iter(&199);
assert_eq!(end_it.next(), None);
} }
#[test] #[test]
@ -1256,7 +1399,6 @@ mod test_set {
let mut n = 0; let mut n = 0;
for x in m.iter() { for x in m.iter() {
printfln!(x);
assert_eq!(*x, n); assert_eq!(*x, n);
n += 1 n += 1
} }