rust/src/libstd/map.rs

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#[doc = "A map type"];
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import chained::hashmap;
export hashmap, hashfn, eqfn, set, map, chained, hashmap, str_hash;
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export box_str_hash;
export bytes_hash, int_hash, uint_hash, set_add;
export hash_from_vec, hash_from_strs, hash_from_bytes;
export hash_from_ints, hash_from_uints;
export vec_from_set;
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#[doc = "
A function that returns a hash of a value
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The hash should concentrate entropy in the lower bits.
"]
type hashfn<K> = fn@(K) -> uint;
type eqfn<K> = fn@(K, K) -> bool;
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#[doc = "A convenience type to treat a hashmap as a set"]
type set<K> = hashmap<K, ()>;
type hashmap<K, V> = chained::t<K, V>;
iface map<K, V: copy> {
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#[doc = "Return the number of elements in the map"]
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fn size() -> uint;
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#[doc = "
Add a value to the map.
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If the map already contains a value for the specified key then the
original value is replaced.
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Returns true if the key did not already exist in the map
"]
fn insert(+K, +V) -> bool;
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#[doc = "Returns true if the map contains a value for the specified key"]
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fn contains_key(K) -> bool;
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#[doc = "
Get the value for the specified key. Fails if the key does not exist in
the map.
"]
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fn get(K) -> V;
#[doc = "Like get, but as an operator."]
fn [](K) -> V;
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#[doc = "
Get the value for the specified key. If the key does not exist in
the map then returns none.
"]
fn find(K) -> option<V>;
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#[doc = "
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Remove and return a value from the map. If the key does not exist
in the map then returns none.
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"]
fn remove(K) -> option<V>;
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#[doc = "Iterate over all the key/value pairs in the map"]
fn each(fn(K, V) -> bool);
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#[doc = "Iterate over all the keys in the map"]
fn each_key(fn(K) -> bool);
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#[doc = "Iterate over all the values in the map"]
fn each_value(fn(V) -> bool);
}
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// FIXME (#2344): package this up and export it as a datatype usable for
// external code that doesn't want to pay the cost of a box.
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mod chained {
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export t, mk, hashmap;
type entry<K, V> = {
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hash: uint,
key: K,
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mut value: V,
mut next: chain<K, V>
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};
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enum chain<K, V> {
present(@entry<K, V>),
absent
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}
type t<K, V> = @{
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mut count: uint,
mut chains: ~[mut chain<K,V>],
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hasher: hashfn<K>,
eqer: eqfn<K>
};
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enum search_result<K, V> {
not_found,
found_first(uint, @entry<K,V>),
found_after(@entry<K,V>, @entry<K,V>)
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}
impl private_methods<K, V: copy> for t<K, V> {
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fn search_rem(k: K, h: uint, idx: uint,
e_root: @entry<K,V>) -> search_result<K,V> {
let mut e0 = e_root;
let mut comp = 1u; // for logging
loop {
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alt copy e0.next {
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absent {
#debug("search_tbl: absent, comp %u, hash %u, idx %u",
comp, h, idx);
ret not_found;
}
present(e1) {
comp += 1u;
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if e1.hash == h && self.eqer(e1.key, k) {
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#debug("search_tbl: present, comp %u, \
hash %u, idx %u",
comp, h, idx);
ret found_after(e0, e1);
} else {
e0 = e1;
}
}
}
};
}
fn search_tbl(k: K, h: uint) -> search_result<K,V> {
let idx = h % vec::len(self.chains);
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alt copy self.chains[idx] {
absent {
#debug("search_tbl: absent, comp %u, hash %u, idx %u",
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0u, h, idx);
ret not_found;
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}
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present(e) {
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if e.hash == h && self.eqer(e.key, k) {
#debug("search_tbl: present, comp %u, hash %u, idx %u",
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1u, h, idx);
ret found_first(idx, e);
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} else {
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ret self.search_rem(k, h, idx, e);
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}
}
}
}
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fn rehash() {
let n_old_chains = vec::len(self.chains);
let n_new_chains: uint = uint::next_power_of_two(n_old_chains+1u);
let new_chains = chains(n_new_chains);
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for self.each_entry |entry| {
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let idx = entry.hash % n_new_chains;
entry.next = new_chains[idx];
new_chains[idx] = present(entry);
}
self.chains = new_chains;
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}
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fn each_entry(blk: fn(@entry<K,V>) -> bool) {
let mut i = 0u, n = vec::len(self.chains);
while i < n {
let mut chain = self.chains[i];
loop {
chain = alt chain {
absent { break; }
present(entry) {
let next = entry.next;
if !blk(entry) { ret; }
next
}
}
}
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i += 1u;
}
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}
}
impl hashmap<K, V: copy> of map<K, V> for t<K, V> {
fn size() -> uint { self.count }
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fn contains_key(k: K) -> bool {
let hash = self.hasher(k);
alt self.search_tbl(k, hash) {
not_found {false}
found_first(*) | found_after(*) {true}
}
}
fn insert(+k: K, +v: V) -> bool {
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let hash = self.hasher(k);
alt self.search_tbl(k, hash) {
not_found {
self.count += 1u;
let idx = hash % vec::len(self.chains);
let old_chain = self.chains[idx];
self.chains[idx] = present(@{
hash: hash,
key: k,
mut value: v,
mut next: old_chain});
// consider rehashing if more 3/4 full
let nchains = vec::len(self.chains);
let load = {num: (self.count + 1u) as int,
den: nchains as int};
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if !util::rational_leq(load, {num:3, den:4}) {
self.rehash();
}
ret true;
}
found_first(_, entry) {
entry.value = v;
ret false;
}
found_after(_, entry) {
entry.value = v;
ret false
}
}
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}
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fn find(k: K) -> option<V> {
alt self.search_tbl(k, self.hasher(k)) {
not_found {none}
found_first(_, entry) {some(entry.value)}
found_after(_, entry) {some(entry.value)}
}
}
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fn get(k: K) -> V {
self.find(k).expect("Key not found in table")
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}
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fn [](k: K) -> V {
self.get(k)
}
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fn remove(k: K) -> option<V> {
alt self.search_tbl(k, self.hasher(k)) {
not_found {none}
found_first(idx, entry) {
self.count -= 1u;
self.chains[idx] = entry.next;
some(entry.value)
}
found_after(eprev, entry) {
self.count -= 1u;
eprev.next = entry.next;
some(entry.value)
}
}
}
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fn each(blk: fn(K,V) -> bool) {
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for self.each_entry |entry| {
if !blk(entry.key, copy entry.value) { break; }
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}
}
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fn each_key(blk: fn(K) -> bool) { self.each(|k, _v| blk(k)) }
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fn each_value(blk: fn(V) -> bool) { self.each(|_k, v| blk(v)) }
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}
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fn chains<K,V>(nchains: uint) -> ~[mut chain<K,V>] {
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ret vec::to_mut(vec::from_elem(nchains, absent));
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}
fn mk<K, V: copy>(hasher: hashfn<K>, eqer: eqfn<K>) -> t<K,V> {
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let initial_capacity: uint = 32u; // 2^5
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let slf: t<K, V> = @{mut count: 0u,
mut chains: chains(initial_capacity),
hasher: hasher,
eqer: eqer};
slf
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}
}
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/*
Function: hashmap
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Construct a hashmap.
Parameters:
hasher - The hash function for key type K
eqer - The equality function for key type K
*/
fn hashmap<K: const, V: copy>(hasher: hashfn<K>, eqer: eqfn<K>)
-> hashmap<K, V> {
chained::mk(hasher, eqer)
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}
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#[doc = "Construct a hashmap for string keys"]
fn str_hash<V: copy>() -> hashmap<str, V> {
ret hashmap(str::hash, str::eq);
}
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#[doc = "Construct a hashmap for boxed string keys"]
fn box_str_hash<V: copy>() -> hashmap<@str, V> {
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ret hashmap(|x: @str| str::hash(*x), |x,y| str::eq(*x,*y));
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}
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#[doc = "Construct a hashmap for byte string keys"]
fn bytes_hash<V: copy>() -> hashmap<~[u8], V> {
ret hashmap(vec::u8::hash, vec::u8::eq);
}
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#[doc = "Construct a hashmap for int keys"]
fn int_hash<V: copy>() -> hashmap<int, V> {
ret hashmap(int::hash, int::eq);
}
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#[doc = "Construct a hashmap for uint keys"]
fn uint_hash<V: copy>() -> hashmap<uint, V> {
ret hashmap(uint::hash, uint::eq);
}
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#[doc = "
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Convenience function for adding keys to a hashmap with nil type keys
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"]
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fn set_add<K: const copy>(set: set<K>, key: K) -> bool {
ret set.insert(key, ());
}
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#[doc = "
Convert a set into a vector.
"]
fn vec_from_set<T: copy>(s: set<T>) -> ~[T] {
let mut v = ~[];
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do s.each_key() |k| {
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vec::push(v, k);
true
};
v
}
#[doc = "Construct a hashmap from a vector"]
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fn hash_from_vec<K: const copy, V: copy>(hasher: hashfn<K>, eqer: eqfn<K>,
items: ~[(K, V)]) -> hashmap<K, V> {
let map = hashmap(hasher, eqer);
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do vec::iter(items) |item| {
let (key, value) = item;
map.insert(key, value);
}
map
}
#[doc = "Construct a hashmap from a vector with string keys"]
fn hash_from_strs<V: copy>(items: ~[(str, V)]) -> hashmap<str, V> {
hash_from_vec(str::hash, str::eq, items)
}
#[doc = "Construct a hashmap from a vector with byte keys"]
fn hash_from_bytes<V: copy>(items: ~[(~[u8], V)]) -> hashmap<~[u8], V> {
hash_from_vec(vec::u8::hash, vec::u8::eq, items)
}
#[doc = "Construct a hashmap from a vector with int keys"]
fn hash_from_ints<V: copy>(items: ~[(int, V)]) -> hashmap<int, V> {
hash_from_vec(int::hash, int::eq, items)
}
#[doc = "Construct a hashmap from a vector with uint keys"]
fn hash_from_uints<V: copy>(items: ~[(uint, V)]) -> hashmap<uint, V> {
hash_from_vec(uint::hash, uint::eq, items)
}
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#[cfg(test)]
mod tests {
#[test]
fn test_simple() {
#debug("*** starting test_simple");
fn eq_uint(&&x: uint, &&y: uint) -> bool { ret x == y; }
fn uint_id(&&x: uint) -> uint { x }
let hasher_uint: map::hashfn<uint> = uint_id;
let eqer_uint: map::eqfn<uint> = eq_uint;
let hasher_str: map::hashfn<str> = str::hash;
let eqer_str: map::eqfn<str> = str::eq;
#debug("uint -> uint");
let hm_uu: map::hashmap<uint, uint> =
map::hashmap::<uint, uint>(hasher_uint, eqer_uint);
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assert (hm_uu.insert(10u, 12u));
assert (hm_uu.insert(11u, 13u));
assert (hm_uu.insert(12u, 14u));
assert (hm_uu.get(11u) == 13u);
assert (hm_uu.get(12u) == 14u);
assert (hm_uu.get(10u) == 12u);
assert (!hm_uu.insert(12u, 14u));
assert (hm_uu.get(12u) == 14u);
assert (!hm_uu.insert(12u, 12u));
assert (hm_uu.get(12u) == 12u);
let ten: str = "ten";
let eleven: str = "eleven";
let twelve: str = "twelve";
#debug("str -> uint");
let hm_su: map::hashmap<str, uint> =
map::hashmap::<str, uint>(hasher_str, eqer_str);
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assert (hm_su.insert("ten", 12u));
assert (hm_su.insert(eleven, 13u));
assert (hm_su.insert("twelve", 14u));
assert (hm_su.get(eleven) == 13u);
assert (hm_su.get("eleven") == 13u);
assert (hm_su.get("twelve") == 14u);
assert (hm_su.get("ten") == 12u);
assert (!hm_su.insert("twelve", 14u));
assert (hm_su.get("twelve") == 14u);
assert (!hm_su.insert("twelve", 12u));
assert (hm_su.get("twelve") == 12u);
#debug("uint -> str");
let hm_us: map::hashmap<uint, str> =
map::hashmap::<uint, str>(hasher_uint, eqer_uint);
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assert (hm_us.insert(10u, "twelve"));
assert (hm_us.insert(11u, "thirteen"));
assert (hm_us.insert(12u, "fourteen"));
assert (str::eq(hm_us.get(11u), "thirteen"));
assert (str::eq(hm_us.get(12u), "fourteen"));
assert (str::eq(hm_us.get(10u), "twelve"));
assert (!hm_us.insert(12u, "fourteen"));
assert (str::eq(hm_us.get(12u), "fourteen"));
assert (!hm_us.insert(12u, "twelve"));
assert (str::eq(hm_us.get(12u), "twelve"));
#debug("str -> str");
let hm_ss: map::hashmap<str, str> =
map::hashmap::<str, str>(hasher_str, eqer_str);
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assert (hm_ss.insert(ten, "twelve"));
assert (hm_ss.insert(eleven, "thirteen"));
assert (hm_ss.insert(twelve, "fourteen"));
assert (str::eq(hm_ss.get("eleven"), "thirteen"));
assert (str::eq(hm_ss.get("twelve"), "fourteen"));
assert (str::eq(hm_ss.get("ten"), "twelve"));
assert (!hm_ss.insert("twelve", "fourteen"));
assert (str::eq(hm_ss.get("twelve"), "fourteen"));
assert (!hm_ss.insert("twelve", "twelve"));
assert (str::eq(hm_ss.get("twelve"), "twelve"));
#debug("*** finished test_simple");
}
/**
* Force map growth
*/
#[test]
fn test_growth() {
#debug("*** starting test_growth");
let num_to_insert: uint = 64u;
fn eq_uint(&&x: uint, &&y: uint) -> bool { ret x == y; }
fn uint_id(&&x: uint) -> uint { x }
#debug("uint -> uint");
let hasher_uint: map::hashfn<uint> = uint_id;
let eqer_uint: map::eqfn<uint> = eq_uint;
let hm_uu: map::hashmap<uint, uint> =
map::hashmap::<uint, uint>(hasher_uint, eqer_uint);
let mut i: uint = 0u;
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while i < num_to_insert {
assert (hm_uu.insert(i, i * i));
#debug("inserting %u -> %u", i, i*i);
i += 1u;
}
#debug("-----");
i = 0u;
while i < num_to_insert {
#debug("get(%u) = %u", i, hm_uu.get(i));
assert (hm_uu.get(i) == i * i);
i += 1u;
}
assert (hm_uu.insert(num_to_insert, 17u));
assert (hm_uu.get(num_to_insert) == 17u);
#debug("-----");
i = 0u;
while i < num_to_insert {
#debug("get(%u) = %u", i, hm_uu.get(i));
assert (hm_uu.get(i) == i * i);
i += 1u;
}
#debug("str -> str");
let hasher_str: map::hashfn<str> = str::hash;
let eqer_str: map::eqfn<str> = str::eq;
let hm_ss: map::hashmap<str, str> =
map::hashmap::<str, str>(hasher_str, eqer_str);
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i = 0u;
while i < num_to_insert {
assert hm_ss.insert(uint::to_str(i, 2u), uint::to_str(i * i, 2u));
#debug("inserting \"%s\" -> \"%s\"",
uint::to_str(i, 2u),
uint::to_str(i*i, 2u));
i += 1u;
}
#debug("-----");
i = 0u;
while i < num_to_insert {
#debug("get(\"%s\") = \"%s\"",
uint::to_str(i, 2u),
hm_ss.get(uint::to_str(i, 2u)));
assert (str::eq(hm_ss.get(uint::to_str(i, 2u)),
uint::to_str(i * i, 2u)));
i += 1u;
}
assert (hm_ss.insert(uint::to_str(num_to_insert, 2u),
uint::to_str(17u, 2u)));
assert (str::eq(hm_ss.get(uint::to_str(num_to_insert, 2u)),
uint::to_str(17u, 2u)));
#debug("-----");
i = 0u;
while i < num_to_insert {
#debug("get(\"%s\") = \"%s\"",
uint::to_str(i, 2u),
hm_ss.get(uint::to_str(i, 2u)));
assert (str::eq(hm_ss.get(uint::to_str(i, 2u)),
uint::to_str(i * i, 2u)));
i += 1u;
}
#debug("*** finished test_growth");
}
#[test]
fn test_removal() {
#debug("*** starting test_removal");
let num_to_insert: uint = 64u;
fn eq(&&x: uint, &&y: uint) -> bool { ret x == y; }
fn hash(&&u: uint) -> uint {
// This hash function intentionally causes collisions between
// consecutive integer pairs.
ret u / 2u * 2u;
}
assert (hash(0u) == hash(1u));
assert (hash(2u) == hash(3u));
assert (hash(0u) != hash(2u));
let hasher: map::hashfn<uint> = hash;
let eqer: map::eqfn<uint> = eq;
let hm: map::hashmap<uint, uint> =
map::hashmap::<uint, uint>(hasher, eqer);
let mut i: uint = 0u;
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while i < num_to_insert {
assert (hm.insert(i, i * i));
#debug("inserting %u -> %u", i, i*i);
i += 1u;
}
assert (hm.size() == num_to_insert);
#debug("-----");
#debug("removing evens");
i = 0u;
while i < num_to_insert {
let v = hm.remove(i);
alt v {
option::some(u) { assert (u == i * i); }
option::none { fail; }
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}
i += 2u;
}
assert (hm.size() == num_to_insert / 2u);
#debug("-----");
i = 1u;
while i < num_to_insert {
#debug("get(%u) = %u", i, hm.get(i));
assert (hm.get(i) == i * i);
i += 2u;
}
#debug("-----");
i = 1u;
while i < num_to_insert {
#debug("get(%u) = %u", i, hm.get(i));
assert (hm.get(i) == i * i);
i += 2u;
}
#debug("-----");
i = 0u;
while i < num_to_insert {
assert (hm.insert(i, i * i));
#debug("inserting %u -> %u", i, i*i);
i += 2u;
}
assert (hm.size() == num_to_insert);
#debug("-----");
i = 0u;
while i < num_to_insert {
#debug("get(%u) = %u", i, hm.get(i));
assert (hm.get(i) == i * i);
i += 1u;
}
#debug("-----");
assert (hm.size() == num_to_insert);
i = 0u;
while i < num_to_insert {
#debug("get(%u) = %u", i, hm.get(i));
assert (hm.get(i) == i * i);
i += 1u;
}
#debug("*** finished test_removal");
}
#[test]
fn test_contains_key() {
let key = "k";
let map = map::hashmap::<str, str>(str::hash, str::eq);
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assert (!map.contains_key(key));
map.insert(key, "val");
assert (map.contains_key(key));
}
#[test]
fn test_find() {
let key = "k";
let map = map::hashmap::<str, str>(str::hash, str::eq);
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assert (option::is_none(map.find(key)));
map.insert(key, "val");
assert (option::get(map.find(key)) == "val");
}
#[test]
fn test_hash_from_vec() {
let map = map::hash_from_strs(~[
("a", 1),
("b", 2),
("c", 3)
]);
assert map.size() == 3u;
assert map.get("a") == 1;
assert map.get("b") == 2;
assert map.get("c") == 3;
}
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}