rust/src/libstd/fun_treemap.rs
2012-08-28 18:52:44 -07:00

77 lines
1.9 KiB
Rust

#[deny(non_camel_case_types)];
/*!
* A functional key,value store that works on anything.
*
* This works using a binary search tree. In the first version, it's a
* very naive algorithm, but it will probably be updated to be a
* red-black tree or something else.
*
* This is copied and modified from treemap right now. It's missing a lot
* of features.
*/
import option::{Some, None};
import option = option;
export Treemap;
export init;
export insert;
export find;
export traverse;
type Treemap<K, V> = @TreeNode<K, V>;
enum TreeNode<K, V> {
Empty,
Node(@K, @V, @TreeNode<K, V>, @TreeNode<K, V>)
}
/// Create a treemap
fn init<K, V>() -> Treemap<K, V> { @Empty }
/// Insert a value into the map
fn insert<K: copy, V: copy>(m: Treemap<K, V>, k: K, v: V) -> Treemap<K, V> {
@match m {
@Empty => Node(@k, @v, @Empty, @Empty),
@Node(@kk, vv, left, right) => {
if k < kk {
Node(@kk, vv, insert(left, k, v), right)
} else if k == kk {
Node(@kk, @v, left, right)
} else { Node(@kk, vv, left, insert(right, k, v)) }
}
}
}
/// Find a value based on the key
fn find<K, V: copy>(m: Treemap<K, V>, k: K) -> Option<V> {
match *m {
Empty => None,
Node(@kk, @v, left, right) => {
if k == kk {
Some(v)
} else if k < kk { find(left, k) } else { find(right, k) }
}
}
}
/// Visit all pairs in the map in order.
fn traverse<K, V: copy>(m: Treemap<K, V>, f: fn(K, V)) {
match *m {
Empty => (),
/*
Previously, this had what looked like redundant
matches to me, so I changed it. but that may be a
de-optimization -- tjc
*/
Node(@k, @v, left, right) => {
// copy v to make aliases work out
let v1 = v;
traverse(left, f);
f(k, v1);
traverse(right, f);
}
}
}