rust/src/libstd/treemap.rs

#[doc = "
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::{some, none};
import option = core::option;

export treemap;
export treemap;
export insert;
export find;
export traverse;

type treemap<K, V> = @mutable tree_node<K, V>;

enum tree_node<K, V> { empty, node(@K, @V, treemap<K, V>, treemap<K, V>) }

#[doc = "Create a treemap"]
fn treemap<K, V>() -> treemap<K, V> { @mutable empty }

#[doc = "Insert a value into the map"]
fn insert<K: copy, V: copy>(m: treemap<K, V>, 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 check m { @node(_, _, left, _) { insert(left, k, v); } }
        } else {
            alt check m {
              @node(_, _, _, right) { insert(right, k, v); }
            }
        }
      }
    }
}

#[doc = "Find a value based on the key"]
fn find<K: copy, V: copy>(m: treemap<K, V>, k: K) -> option<V> {
    alt *m {
      empty { none }
      // TODO: was that an optimization?
      node(@kk, @v, left, right) {
        if k == kk {
            some(v)
        } else if k < kk {
            find(left, k)
        } else { find(right, k) }
      }
    }
}

#[doc = "Visit all pairs in the map in order."]
fn traverse<K, V>(m: treemap<K, V>, f: fn(K, V)) {
    alt *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) {
        let k1 = k, v1 = v;
        traverse(left, f);
        f(*k1, *v1);
        traverse(right, f);
      }
    }
}

#[cfg(test)]
mod tests {

    #[test]
    fn init_treemap() { let _m = treemap::<int, int>(); }

    #[test]
    fn insert_one() { let m = treemap(); insert(m, 1, 2); }

    #[test]
    fn insert_two() { let m = treemap(); insert(m, 1, 2); insert(m, 3, 4); }

    #[test]
    fn insert_find() {
        let m = treemap();
        insert(m, 1, 2);
        assert (find(m, 1) == some(2));
    }

    #[test]
    fn find_empty() {
        let m = treemap::<int, int>(); assert (find(m, 1) == none);
    }

    #[test]
    fn find_not_found() {
        let m = treemap();
        insert(m, 1, 2);
        assert (find(m, 2) == none);
    }

    #[test]
    fn traverse_in_order() {
        let m = treemap();
        insert(m, 3, ());
        insert(m, 0, ());
        insert(m, 4, ());
        insert(m, 2, ());
        insert(m, 1, ());

        let n = @mutable 0;
        fn t(n: @mutable int, &&k: int, &&_v: ()) {
            assert (*n == k); *n += 1;
        }
        traverse(m, bind t(n, _, _));
    }

    #[test]
    fn u8_map() {
        let m = treemap();

        let k1 = str::bytes("foo");
        let k2 = str::bytes("bar");

        insert(m, k1, "foo");
        insert(m, k2, "bar");

        assert (find(m, k2) == some("bar"));
        assert (find(m, k1) == some("foo"));
    }
}
std: Convert to rustdoc 2012-03-07 18:17:30 -08:00			`#[doc = "`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00			`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.`
std: Convert to rustdoc 2012-03-07 18:17:30 -08:00			`"];`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00
Add companion-module core.rs that exports log levels and option/some/none everywhere. 2011-12-20 12:29:59 -08:00			`import core::option::{some, none};`
Change option::t to option Now that core exports "option" as a synonym for option::t, search-and- replace option::t with option. The only place that still refers to option::t are the modules in libcore that use option, because fixing this requires a new snapshot (forthcoming). 2012-01-31 17:05:20 -08:00			`import option = core::option;`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00
			`export treemap;`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`export treemap;`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00			`export insert;`
			`export find;`
stdlib: Added a treemap traversal function. 2011-08-26 10:50:02 -07:00			`export traverse;`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00
Update our code to new type parameter kind syntax Closes #1067 2011-10-25 15:56:55 +02:00			`type treemap<K, V> = @mutable tree_node<K, V>;`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00
Additional ; to , changes, disable "tag" and ";" in parser. Close #1430. Close #1428. 2012-01-19 19:29:21 -08:00			`enum tree_node<K, V> { empty, node(@K, @V, treemap<K, V>, treemap<K, V>) }`
Begin documenting std and add doc generation using naturaldocs Naturaldocs isn't really that great but it seems easier to get something working than with doxygen, for which we would need to convert rust code to something C++ish. We probably want to just write a rustdoc utility at some point. 2011-10-24 15:25:41 -07:00
std: Convert to rustdoc 2012-03-07 18:17:30 -08:00			`#[doc = "Create a treemap"]`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`fn treemap<K, V>() -> treemap<K, V> { @mutable empty }`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00
std: Convert to rustdoc 2012-03-07 18:17:30 -08:00			`#[doc = "Insert a value into the map"]`
Switch to new param kind bound syntax And remove support for the old syntax 2012-01-05 15:35:37 +01:00			`fn insert<K: copy, V: copy>(m: treemap<K, V>, k: K, v: V) {`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00			`alt m {`
Remove '.' after nullary tags in patterns Does what it says on the tin. The next commit will remove support for this syntax. 2012-01-18 22:37:22 -08:00			`@empty { *m = node(@k, @v, @mutable empty, @mutable empty); }`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00			`@node(@kk, _, _, _) {`
Reformat. Issue #855 2011-09-02 15:34:58 -07:00
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00			`// We have to name left and right individually, because`
			`// otherwise the alias checker complains.`
			`if k < kk {`
Rewrite exhaustiveness checker Issue #352 Closes #1720 The old checker would happily accept things like 'alt x { @some(a) { a } }'. It now properly descends into patterns, checks exhaustiveness of booleans, and complains when number/string patterns aren't exhaustive. 2012-02-15 09:40:42 +01:00			`alt check m { @node(_, _, left, _) { insert(left, k, v); } }`
			`} else {`
			`alt check m {`
			`@node(_, _, _, right) { insert(right, k, v); }`
			`}`
			`}`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00			`}`
			`}`
			`}`

std: Convert to rustdoc 2012-03-07 18:17:30 -08:00			`#[doc = "Find a value based on the key"]`
Switch to new param kind bound syntax And remove support for the old syntax 2012-01-05 15:35:37 +01:00			`fn find<K: copy, V: copy>(m: treemap<K, V>, k: K) -> option<V> {`
Reformat. Issue #855 2011-09-02 15:34:58 -07:00			`alt *m {`
Remove '.' after nullary tags in patterns Does what it says on the tin. The next commit will remove support for this syntax. 2012-01-18 22:37:22 -08:00			`empty { none }`
Require alts to be exhaustive middle::check_alt does the work. Lots of changes to add default cases into alts that were previously inexhaustive. 2012-01-30 21:00:57 -08:00			`// TODO: was that an optimization?`
			`node(@kk, @v, left, right) {`
Reformat. Issue #855 2011-09-02 15:34:58 -07:00			`if k == kk {`
			`some(v)`
			`} else if k < kk {`
Require alts to be exhaustive middle::check_alt does the work. Lots of changes to add default cases into alts that were previously inexhaustive. 2012-01-30 21:00:57 -08:00			`find(left, k)`
			`} else { find(right, k) }`
stdlib: Added an incredibly simple treemap. 2011-08-25 17:19:23 -07:00			`}`
			`}`
			`}`
stdlib: Added a treemap traversal function. 2011-08-26 10:50:02 -07:00
std: Convert to rustdoc 2012-03-07 18:17:30 -08:00			`#[doc = "Visit all pairs in the map in order."]`
s/block()/fn()/g 2012-01-23 14:59:00 -08:00			`fn traverse<K, V>(m: treemap<K, V>, f: fn(K, V)) {`
Reformat. Issue #855 2011-09-02 15:34:58 -07:00			`alt *m {`
Remove '.' after nullary tags in patterns Does what it says on the tin. The next commit will remove support for this syntax. 2012-01-18 22:37:22 -08:00			`empty { }`
Require alts to be exhaustive middle::check_alt does the work. Lots of changes to add default cases into alts that were previously inexhaustive. 2012-01-30 21:00:57 -08:00			`/*`
			`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) {`
Reformat. Issue #855 2011-09-02 15:34:58 -07:00			`let k1 = k, v1 = v;`
Require alts to be exhaustive middle::check_alt does the work. Lots of changes to add default cases into alts that were previously inexhaustive. 2012-01-30 21:00:57 -08:00			`traverse(left, f);`
Reformat. Issue #855 2011-09-02 15:34:58 -07:00			`f(k1, v1);`
Require alts to be exhaustive middle::check_alt does the work. Lots of changes to add default cases into alts that were previously inexhaustive. 2012-01-30 21:00:57 -08:00			`traverse(right, f);`
stdlib: Added a treemap traversal function. 2011-08-26 10:50:02 -07:00			`}`
			`}`
			`}`
libstd: Move std tests into libstd 2012-01-17 19:05:07 -08:00
			`#[cfg(test)]`
			`mod tests {`

			`#[test]`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`fn init_treemap() { let _m = treemap::<int, int>(); }`
libstd: Move std tests into libstd 2012-01-17 19:05:07 -08:00
			`#[test]`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`fn insert_one() { let m = treemap(); insert(m, 1, 2); }`
libstd: Move std tests into libstd 2012-01-17 19:05:07 -08:00
			`#[test]`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`fn insert_two() { let m = treemap(); insert(m, 1, 2); insert(m, 3, 4); }`
libstd: Move std tests into libstd 2012-01-17 19:05:07 -08:00
			`#[test]`
			`fn insert_find() {`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`let m = treemap();`
libstd: Move std tests into libstd 2012-01-17 19:05:07 -08:00			`insert(m, 1, 2);`
			`assert (find(m, 1) == some(2));`
			`}`

			`#[test]`
			`fn find_empty() {`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`let m = treemap::<int, int>(); assert (find(m, 1) == none);`
libstd: Move std tests into libstd 2012-01-17 19:05:07 -08:00			`}`

			`#[test]`
			`fn find_not_found() {`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`let m = treemap();`
libstd: Move std tests into libstd 2012-01-17 19:05:07 -08:00			`insert(m, 1, 2);`
			`assert (find(m, 2) == none);`
			`}`

			`#[test]`
			`fn traverse_in_order() {`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`let m = treemap();`
libstd: Move std tests into libstd 2012-01-17 19:05:07 -08:00			`insert(m, 3, ());`
			`insert(m, 0, ());`
			`insert(m, 4, ());`
			`insert(m, 2, ());`
			`insert(m, 1, ());`

			`let n = @mutable 0;`
			`fn t(n: @mutable int, &&k: int, &&_v: ()) {`
			`assert (n == k); n += 1;`
			`}`
			`traverse(m, bind t(n, _, _));`
			`}`

			`#[test]`
			`fn u8_map() {`
Overhaul constructor naming in libs 2012-03-12 15:52:30 -07:00			`let m = treemap();`
libstd: Move std tests into libstd 2012-01-17 19:05:07 -08:00
			`let k1 = str::bytes("foo");`
			`let k2 = str::bytes("bar");`

			`insert(m, k1, "foo");`
			`insert(m, k2, "bar");`

			`assert (find(m, k2) == some("bar"));`
			`assert (find(m, k1) == some("foo"));`
			`}`
			`}`