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send_map.rs
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/*!
Sendable hash maps. Very much a work in progress.
*/
// NB: transitionary, de-mode-ing.
#[forbid(deprecated_mode)];
#[forbid(deprecated_pattern)];
use cmp::Eq;
use hash::Hash;
use to_bytes::IterBytes;
pub trait SendMap<K:Eq Hash, V: Copy> {
// FIXME(#3148) ^^^^ once find_ref() works, we can drop V:copy
fn insert(&mut self, k: K, +v: V) -> bool;
fn remove(&mut self, k: &K) -> bool;
fn pop(&mut self, k: &K) -> Option<V>;
fn swap(&mut self, k: K, +v: V) -> Option<V>;
fn consume(&mut self, f: fn(K, V));
fn clear(&mut self);
pure fn len(&const self) -> uint;
pure fn is_empty(&const self) -> bool;
pure fn contains_key(&const self, k: &K) -> bool;
pure fn each(&self, blk: fn(k: &K, v: &V) -> bool);
pure fn each_key_ref(&self, blk: fn(k: &K) -> bool);
pure fn each_value_ref(&self, blk: fn(v: &V) -> bool);
pure fn find(&const self, k: &K) -> Option<V>;
pure fn get(&const self, k: &K) -> V;
pure fn find_ref(&self, k: &K) -> Option<&self/V>;
pure fn get_ref(&self, k: &K) -> &self/V;
}
/// Open addressing with linear probing.
pub mod linear {
const INITIAL_CAPACITY: uint = 32u; // 2^5
struct Bucket<K:Eq Hash,V> {
hash: uint,
key: K,
value: V,
}
pub struct LinearMap<K:Eq Hash,V> {
k0: u64,
k1: u64,
resize_at: uint,
size: uint,
buckets: ~[Option<Bucket<K,V>>],
}
// FIXME(#3148) -- we could rewrite found_entry
// to have type option<&bucket<K,V>> which would be nifty
// However, that won't work until #3148 is fixed
enum SearchResult {
FoundEntry(uint), FoundHole(uint), TableFull
}
fn resize_at(capacity: uint) -> uint {
((capacity as float) * 3. / 4.) as uint
}
pub fn LinearMap<K:Eq Hash,V>() -> LinearMap<K,V> {
linear_map_with_capacity(INITIAL_CAPACITY)
}
pub fn linear_map_with_capacity<K:Eq Hash,V>(
initial_capacity: uint) -> LinearMap<K,V> {
let r = rand::Rng();
linear_map_with_capacity_and_keys(r.gen_u64(), r.gen_u64(),
initial_capacity)
}
fn linear_map_with_capacity_and_keys<K:Eq Hash,V> (
k0: u64, k1: u64,
initial_capacity: uint) -> LinearMap<K,V> {
LinearMap {
k0: k0, k1: k1,
resize_at: resize_at(initial_capacity),
size: 0,
buckets: vec::from_fn(initial_capacity, |_i| None)
}
}
priv impl<K:Hash IterBytes Eq, V> LinearMap<K,V> {
#[inline(always)]
pure fn to_bucket(&const self,
h: uint) -> uint {
// FIXME(#3041) borrow a more sophisticated technique here from
// Gecko, for example borrowing from Knuth, as Eich so
// colorfully argues for here:
// https://bugzilla.mozilla.org/show_bug.cgi?id=743107#c22
h % self.buckets.len()
}
#[inline(always)]
pure fn next_bucket(&const self,
idx: uint,
len_buckets: uint) -> uint {
let n = (idx + 1) % len_buckets;
unsafe{ // argh. log not considered pure.
debug!("next_bucket(%?, %?) = %?", idx, len_buckets, n);
}
return n;
}
#[inline(always)]
pure fn bucket_sequence(&const self,
hash: uint,
op: fn(uint) -> bool) -> uint {
let start_idx = self.to_bucket(hash);
let len_buckets = self.buckets.len();
let mut idx = start_idx;
loop {
if !op(idx) {
return idx;
}
idx = self.next_bucket(idx, len_buckets);
if idx == start_idx {
return start_idx;
}
}
}
#[inline(always)]
pure fn bucket_for_key(&const self,
buckets: &[Option<Bucket<K,V>>],
k: &K) -> SearchResult {
let hash = k.hash_keyed(self.k0, self.k1) as uint;
self.bucket_for_key_with_hash(buckets, hash, k)
}
#[inline(always)]
pure fn bucket_for_key_with_hash(&const self,
buckets: &[Option<Bucket<K,V>>],
hash: uint,
k: &K) -> SearchResult {
let _ = for self.bucket_sequence(hash) |i| {
match buckets[i] {
Some(ref bkt) => if bkt.hash == hash && *k == bkt.key {
return FoundEntry(i);
},
None => return FoundHole(i)
}
};
return TableFull;
}
/// Expands the capacity of the array and re-inserts each
/// of the existing buckets.
fn expand(&mut self) {
let old_capacity = self.buckets.len();
let new_capacity = old_capacity * 2;
self.resize_at = ((new_capacity as float) * 3.0 / 4.0) as uint;
let mut old_buckets = vec::from_fn(new_capacity, |_i| None);
self.buckets <-> old_buckets;
for uint::range(0, old_capacity) |i| {
let mut bucket = None;
bucket <-> old_buckets[i];
self.insert_opt_bucket(move bucket);
}
}
fn insert_opt_bucket(&mut self, bucket: Option<Bucket<K,V>>) {
match move bucket {
Some(Bucket {hash: move hash,
key: move key,
value: move value}) => {
self.insert_internal(hash, move key, move value);
}
None => {}
}
}
/// Inserts the key value pair into the buckets.
/// Assumes that there will be a bucket.
/// True if there was no previous entry with that key
fn insert_internal(&mut self, hash: uint, k: K, v: V) -> bool {
match self.bucket_for_key_with_hash(self.buckets, hash, &k) {
TableFull => { fail ~"Internal logic error"; }
FoundHole(idx) => {
debug!("insert fresh (%?->%?) at idx %?, hash %?",
k, v, idx, hash);
self.buckets[idx] = Some(Bucket {hash: hash,
key: move k,
value: move v});
self.size += 1;
true
}
FoundEntry(idx) => {
debug!("insert overwrite (%?->%?) at idx %?, hash %?",
k, v, idx, hash);
self.buckets[idx] = Some(Bucket {hash: hash,
key: move k,
value: move v});
false
}
}
}
fn pop_internal(&mut self, hash: uint, k: &K) -> Option<V> {
// Removing from an open-addressed hashtable
// is, well, painful. The problem is that
// the entry may lie on the probe path for other
// entries, so removing it would make you think that
// those probe paths are empty.
//
// To address this we basically have to keep walking,
// re-inserting entries we find until we reach an empty
// bucket. We know we will eventually reach one because
// we insert one ourselves at the beginning (the removed
// entry).
//
// I found this explanation elucidating:
// http://www.maths.lse.ac.uk/Courses/MA407/del-hash.pdf
let mut idx = match self.bucket_for_key_with_hash(self.buckets,
hash, k) {
TableFull | FoundHole(_) => return None,
FoundEntry(idx) => idx
};
let len_buckets = self.buckets.len();
let mut bucket = None;
self.buckets[idx] <-> bucket;
let value = match move bucket {
None => None,
Some(move bucket) => {
let Bucket { value: move value, _ } = move bucket;
Some(move value)
},
};
idx = self.next_bucket(idx, len_buckets);
while self.buckets[idx].is_some() {
let mut bucket = None;
bucket <-> self.buckets[idx];
self.insert_opt_bucket(move bucket);
idx = self.next_bucket(idx, len_buckets);
}
self.size -= 1;
move value
}
fn search(&self,
hash: uint,
op: fn(x: &Option<Bucket<K,V>>) -> bool) {
let _ = self.bucket_sequence(hash, |i| op(&self.buckets[i]));
}
}
impl<K:Hash IterBytes Eq,V> LinearMap<K,V> {
fn insert(&mut self, k: K, v: V) -> bool {
if self.size >= self.resize_at {
// n.b.: We could also do this after searching, so
// that we do not resize if this call to insert is
// simply going to update a key in place. My sense
// though is that it's worse to have to search through
// buckets to find the right spot twice than to just
// resize in this corner case.
self.expand();
}
let hash = k.hash_keyed(self.k0, self.k1) as uint;
self.insert_internal(hash, move k, move v)
}
fn remove(&mut self, k: &K) -> bool {
match self.pop(k) {
Some(_) => true,
None => false,
}
}
fn pop(&mut self, k: &K) -> Option<V> {
let hash = k.hash_keyed(self.k0, self.k1) as uint;
self.pop_internal(hash, k)
}
fn swap(&mut self, k: K, v: V) -> Option<V> {
// this could be faster.
let hash = k.hash_keyed(self.k0, self.k1) as uint;
let old_value = self.pop_internal(hash, &k);
if self.size >= self.resize_at {
// n.b.: We could also do this after searching, so
// that we do not resize if this call to insert is
// simply going to update a key in place. My sense
// though is that it's worse to have to search through
// buckets to find the right spot twice than to just
// resize in this corner case.
self.expand();
}
self.insert_internal(hash, move k, move v);
move old_value
}
fn consume(&mut self, f: fn(K, V)) {
let mut buckets = ~[];
self.buckets <-> buckets;
self.size = 0;
do vec::consume(move buckets) |_i, bucket| {
match move bucket {
None => { },
Some(move bucket) => {
let Bucket {
key: move key,
value: move value,
_
} = move bucket;
f(move key, move value)
}
}
}
}
fn clear(&mut self) {
for uint::range(0, self.buckets.len()) |idx| {
self.buckets[idx] = None;
}
self.size = 0;
}
pure fn len(&const self) -> uint {
self.size
}
pure fn is_empty(&const self) -> bool {
self.len() == 0
}
pure fn contains_key(&const self,
k: &K) -> bool {
match self.bucket_for_key(self.buckets, k) {
FoundEntry(_) => {true}
TableFull | FoundHole(_) => {false}
}
}
pure fn find_ref(&self, k: &K) -> Option<&self/V> {
match self.bucket_for_key(self.buckets, k) {
FoundEntry(idx) => {
match self.buckets[idx] {
Some(ref bkt) => {
// FIXME(#3148)---should be inferred
let bkt: &self/Bucket<K,V> = bkt;
Some(&bkt.value)
}
None => {
fail ~"LinearMap::find: internal logic error"
}
}
}
TableFull | FoundHole(_) => {
None
}
}
}
pure fn get_ref(&self, k: &K) -> &self/V {
match self.find_ref(k) {
Some(v) => v,
None => fail fmt!("No entry found for key: %?", k),
}
}
pure fn each(&self, blk: fn(k: &K, v: &V) -> bool) {
for vec::each(self.buckets) |slot| {
let mut broke = false;
do slot.iter |bucket| {
if !blk(&bucket.key, &bucket.value) {
broke = true; // FIXME(#3064) just write "break;"
}
}
if broke { break; }
}
}
pure fn each_key(&self, blk: fn(k: &K) -> bool) {
self.each(|k, _v| blk(k))
}
pure fn each_value(&self, blk: fn(v: &V) -> bool) {
self.each(|_k, v| blk(v))
}
}
impl<K:Hash IterBytes Eq, V: Copy> LinearMap<K,V> {
pure fn find(&const self, k: &K) -> Option<V> {
match self.bucket_for_key(self.buckets, k) {
FoundEntry(idx) => {
// FIXME (#3148): Once we rewrite found_entry, this
// failure case won't be necessary
match self.buckets[idx] {
Some(Bucket {value: copy value, _}) => {Some(value)}
None => fail ~"LinearMap::find: internal logic error"
}
}
TableFull | FoundHole(_) => {
None
}
}
}
pure fn get(&const self, k: &K) -> V {
let value = self.find(k);
if value.is_none() {
fail fmt!("No entry found for key: %?", k);
}
option::unwrap(move value)
}
}
}
#[test]
pub mod test {
use linear::LinearMap;
#[test]
pub fn inserts() {
let mut m = ~LinearMap();
assert m.insert(1, 2);
assert m.insert(2, 4);
assert m.get(&1) == 2;
assert m.get(&2) == 4;
}
#[test]
pub fn overwrite() {
let mut m = ~LinearMap();
assert m.insert(1, 2);
assert m.get(&1) == 2;
assert !m.insert(1, 3);
assert m.get(&1) == 3;
}
#[test]
pub fn conflicts() {
let mut m = linear::linear_map_with_capacity(4);
assert m.insert(1, 2);
assert m.insert(5, 3);
assert m.insert(9, 4);
assert m.get(&9) == 4;
assert m.get(&5) == 3;
assert m.get(&1) == 2;
}
#[test]
pub fn conflict_remove() {
let mut m = linear::linear_map_with_capacity(4);
assert m.insert(1, 2);
assert m.insert(5, 3);
assert m.insert(9, 4);
assert m.remove(&1);
assert m.get(&9) == 4;
assert m.get(&5) == 3;
}
#[test]
pub fn empty() {
let mut m = linear::linear_map_with_capacity(4);
assert m.insert(1, 2);
assert !m.is_empty();
assert m.remove(&1);
assert m.is_empty();
}
#[test]
pub fn pops() {
let mut m = ~LinearMap();
m.insert(1, 2);
assert m.pop(&1) == Some(2);
assert m.pop(&1) == None;
}
#[test]
pub fn swaps() {
let mut m = ~LinearMap();
assert m.swap(1, 2) == None;
assert m.swap(1, 3) == Some(2);
assert m.swap(1, 4) == Some(3);
}
#[test]
pub fn consumes() {
let mut m = ~LinearMap();
assert m.insert(1, 2);
assert m.insert(2, 3);
let mut m2 = ~LinearMap();
do m.consume |k, v| {
m2.insert(k, v);
}
assert m.len() == 0;
assert m2.len() == 2;
assert m2.find(&1) == Some(2);
assert m2.find(&2) == Some(3);
}
#[test]
pub fn iterate() {
let mut m = linear::linear_map_with_capacity(4);
for uint::range(0, 32) |i| {
assert m.insert(i, i*2);
}
let mut observed = 0;
for m.each |k, v| {
assert *v == *k * 2;
observed |= (1 << *k);
}
assert observed == 0xFFFF_FFFF;
}
#[test]
pub fn find_ref() {
let mut m = ~LinearMap();
assert m.find_ref(&1).is_none();
m.insert(1, 2);
match m.find_ref(&1) {
None => fail,
Some(v) => assert *v == 2
}
}
}