rust/src/libstd/smallintmap.rs

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// Copyright 2012 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
/*!
* A simple map based on a vector for small integer keys. Space requirements
* are O(highest integer key).
*/
#[forbid(deprecated_mode)];
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use core::option;
use core::option::{Some, None};
use dvec::DVec;
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use map::Map;
// FIXME (#2347): Should not be @; there's a bug somewhere in rustc that
// requires this to be.
type SmallIntMap_<T: Copy> = {v: DVec<Option<T>>};
pub enum SmallIntMap<T:Copy> {
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SmallIntMap_(@SmallIntMap_<T>)
}
/// Create a smallintmap
pub fn mk<T: Copy>() -> SmallIntMap<T> {
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let v = DVec();
return SmallIntMap_(@{v: move v});
}
/**
* Add a value to the map. If the map already contains a value for
* the specified key then the original value is replaced.
*/
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#[inline(always)]
pub fn insert<T: Copy>(self: SmallIntMap<T>, key: uint, val: T) {
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//io::println(fmt!("%?", key));
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self.v.grow_set_elt(key, &None, Some(val));
}
/**
* Get the value for the specified key. If the key does not exist
* in the map then returns none
*/
pub pure fn find<T: Copy>(self: SmallIntMap<T>, key: uint) -> Option<T> {
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if key < self.v.len() { return self.v.get_elt(key); }
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return None::<T>;
}
/**
* Get the value for the specified key
*
* # Failure
*
* If the key does not exist in the map
*/
pub pure fn get<T: Copy>(self: SmallIntMap<T>, key: uint) -> T {
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match find(self, key) {
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None => {
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error!("smallintmap::get(): key not present");
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fail;
}
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Some(move v) => return v
}
}
/// Returns true if the map contains a value for the specified key
pub pure fn contains_key<T: Copy>(self: SmallIntMap<T>, key: uint) -> bool {
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return !find(self, key).is_none();
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}
/// Implements the map::map interface for smallintmap
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impl<V: Copy> SmallIntMap<V>: map::Map<uint, V> {
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pure fn size() -> uint {
let mut sz = 0u;
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for self.v.each |item| {
match *item {
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Some(_) => sz += 1u,
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_ => ()
}
}
sz
}
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#[inline(always)]
fn insert(key: uint, value: V) -> bool {
let exists = contains_key(self, key);
insert(self, key, value);
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return !exists;
}
fn remove(key: uint) -> bool {
if key >= self.v.len() {
return false;
}
let old = self.v.get_elt(key);
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self.v.set_elt(key, None);
old.is_some()
}
fn clear() {
self.v.set(~[]);
}
pure fn contains_key(key: uint) -> bool {
contains_key(self, key)
}
pure fn contains_key_ref(key: &uint) -> bool {
contains_key(self, *key)
}
pure fn get(key: uint) -> V { get(self, key) }
pure fn find(key: uint) -> Option<V> { find(self, key) }
fn update_with_key(key: uint, val: V, ff: fn(uint, V, V) -> V) -> bool {
match self.find(key) {
None => return self.insert(key, val),
Some(copy orig) => return self.insert(key, ff(key, orig, val)),
}
}
fn update(key: uint, newval: V, ff: fn(V, V) -> V) -> bool {
return self.update_with_key(key, newval, |_k, v, v1| ff(v,v1));
}
pure fn each(it: fn(key: uint, value: V) -> bool) {
self.each_ref(|k, v| it(*k, *v))
}
pure fn each_key(it: fn(key: uint) -> bool) {
self.each_ref(|k, _v| it(*k))
}
pure fn each_value(it: fn(value: V) -> bool) {
self.each_ref(|_k, v| it(*v))
}
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pure fn each_ref(it: fn(key: &uint, value: &V) -> bool) {
let mut idx = 0u, l = self.v.len();
while idx < l {
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match self.v.get_elt(idx) {
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Some(ref elt) => if !it(&idx, elt) { break },
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None => ()
}
idx += 1u;
}
}
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pure fn each_key_ref(blk: fn(key: &uint) -> bool) {
self.each_ref(|k, _v| blk(k))
}
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pure fn each_value_ref(blk: fn(value: &V) -> bool) {
self.each_ref(|_k, v| blk(v))
}
}
impl<V: Copy> SmallIntMap<V>: ops::Index<uint, V> {
pure fn index(&self, key: uint) -> V {
unsafe {
get(*self, key)
}
}
}
/// Cast the given smallintmap to a map::map
pub fn as_map<V: Copy>(s: SmallIntMap<V>) -> map::Map<uint, V> {
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s as map::Map::<uint, V>
}
#[cfg(test)]
mod tests {
#[test]
fn test_insert_with_key() {
let map: SmallIntMap<uint> = mk();
// given a new key, initialize it with this new count, given
// given an existing key, add more to its count
fn addMoreToCount(_k: uint, v0: uint, v1: uint) -> uint {
v0 + v1
}
fn addMoreToCount_simple(v0: uint, v1: uint) -> uint {
v0 + v1
}
// count integers
map.update(3, 1, addMoreToCount_simple);
map.update_with_key(9, 1, addMoreToCount);
map.update(3, 7, addMoreToCount_simple);
map.update_with_key(5, 3, addMoreToCount);
map.update_with_key(3, 2, addMoreToCount);
// check the total counts
assert 10 == option::get(map.find(3));
assert 3 == option::get(map.find(5));
assert 1 == option::get(map.find(9));
// sadly, no sevens were counted
assert None == map.find(7);
}
}