/* Module: treemap A 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. */ import core::option; import option::{some, none}; import option = option::t; export treemap; export init; export insert; export find; export traverse; /* Section: Types */ /* Type: treemap */ type treemap = @mutable tree_node; /* Tag: tree_node */ tag tree_node { empty; node(@K, @V, treemap, treemap); } /* Section: Operations */ /* Function: init Create a treemap */ fn init() -> treemap { @mutable empty } /* Function: insert Insert a value into the map */ fn insert(m: treemap, k: K, v: V) { alt m { @empty. { *m = node(@k, @v, @mutable empty, @mutable empty); } @node(@kk, _, _, _) { // We have to name left and right individually, because // otherwise the alias checker complains. if k < kk { alt m { @node(_, _, left, _) { insert(left, k, v); } } } else { alt m { @node(_, _, _, right) { insert(right, k, v); } } } } } } /* Function: find Find a value based on the key */ fn find(m: treemap, k: K) -> option { alt *m { empty. { none } node(@kk, @v, _, _) { if k == kk { some(v) } else if k < kk { // Again, ugliness to unpack left and right individually. alt *m { node(_, _, left, _) { find(left, k) } } } else { alt *m { node(_, _, _, right) { find(right, k) } } } } } } /* Function: traverse Visit all pairs in the map in order. */ fn traverse(m: treemap, f: block(K, V)) { alt *m { empty. { } node(k, v, _, _) { let k1 = k, v1 = v; alt *m { node(_, _, left, _) { traverse(left, f); } } f(*k1, *v1); alt *m { node(_, _, _, right) { traverse(right, f); } } } } }