/** * At the moment, this is a partial hashmap implementation, not yet fit for * use, but useful as a stress test for rustboot. */ import std._int; import std.sys; import std.util; import std._vec; type hashfn[K] = fn(&K) -> uint; type eqfn[K] = fn(&K, &K) -> bool; type hashmap[K, V] = obj { fn size() -> uint; fn insert(&K key, &V val) -> bool; fn contains_key(&K key) -> bool; fn get(&K key) -> V; fn find(&K key) -> util.option[V]; fn remove(&K key) -> util.option[V]; fn rehash(); iter items() -> tup(K,V); }; fn mk_hashmap[K, V](&hashfn[K] hasher, &eqfn[K] eqer) -> hashmap[K, V] { let uint initial_capacity = 32u; // 2^5 let util.rational load_factor = rec(num=3, den=4); tag bucket[K, V] { nil; deleted; some(K, V); } fn make_buckets[K, V](uint nbkts) -> vec[mutable bucket[K, V]] { ret _vec.init_elt[mutable bucket[K, V]](nil[K, V], nbkts); } // Derive two hash functions from the one given by taking the upper // half and lower half of the uint bits. Our bucket probing // sequence is then defined by // // hash(key, i) := hashl(key) + i * hashr(key) for i = 0, 1, 2, ... // // Tearing the hash function apart this way is kosher in practice // as, assuming 32-bit uints, the table would have to be at 2^32 // buckets before the resulting pair of hash functions no longer // probes all buckets for a fixed key. Note that hashr is made to // output odd numbers (hence coprime to the number of nbkts, which // is always a power of 2), so that all buckets are probed for a // fixed key. fn hashl[K](&hashfn[K] hasher, uint nbkts, &K key) -> uint { ret (hasher(key) >>> (sys.rustrt.size_of[uint]() * 8u / 2u)); } fn hashr[K](&hashfn[K] hasher, uint nbkts, &K key) -> uint { ret ((((~ 0u) >>> (sys.rustrt.size_of[uint]() * 8u / 2u)) & hasher(key)) * 2u + 1u); } fn hash[K](&hashfn[K] hasher, uint nbkts, &K key, uint i) -> uint { ret (hashl[K](hasher, nbkts, key) + i * hashr[K](hasher, nbkts, key)) % nbkts; } /** * We attempt to never call this with a full table. If we do, it * will fail. */ fn insert_common[K, V](&hashfn[K] hasher, &eqfn[K] eqer, vec[mutable bucket[K, V]] bkts, uint nbkts, &K key, &V val) -> bool { let uint i = 0u; while (i < nbkts) { let uint j = hash[K](hasher, nbkts, key, i); alt (bkts.(j)) { case (some[K, V](?k, _)) { if (eqer(key, k)) { bkts.(j) = some[K, V](k, val); ret false; } i += 1u; } case (_) { bkts.(j) = some[K, V](key, val); ret true; } } } fail; // full table } fn find_common[K, V](&hashfn[K] hasher, &eqfn[K] eqer, vec[mutable bucket[K, V]] bkts, uint nbkts, &K key) -> util.option[V] { let uint i = 0u; while (i < nbkts) { let uint j = (hash[K](hasher, nbkts, key, i)); alt (bkts.(j)) { case (some[K, V](?k, ?v)) { if (eqer(key, k)) { ret util.some[V](v); } } case (nil[K, V]) { ret util.none[V]; } case (deleted[K, V]) { } } i += 1u; } ret util.none[V]; } fn rehash[K, V](&hashfn[K] hasher, &eqfn[K] eqer, vec[mutable bucket[K, V]] oldbkts, uint noldbkts, vec[mutable bucket[K, V]] newbkts, uint nnewbkts) { for (bucket[K, V] b in oldbkts) { alt (b) { case (some[K, V](?k, ?v)) { insert_common[K, V](hasher, eqer, newbkts, nnewbkts, k, v); } case (_) { } } } } obj hashmap[K, V](hashfn[K] hasher, eqfn[K] eqer, mutable vec[mutable bucket[K, V]] bkts, mutable uint nbkts, mutable uint nelts, util.rational lf) { fn size() -> uint { ret nelts; } fn insert(&K key, &V val) -> bool { let util.rational load = rec(num=(nelts + 1u) as int, den=nbkts as int); if (!util.rational_leq(load, lf)) { let uint nnewbkts = _uint.next_power_of_two(nbkts + 1u); let vec[mutable bucket[K, V]] newbkts = make_buckets[K, V](nnewbkts); rehash[K, V](hasher, eqer, bkts, nbkts, newbkts, nnewbkts); bkts = newbkts; nbkts = nnewbkts; } if (insert_common[K, V](hasher, eqer, bkts, nbkts, key, val)) { nelts += 1u; ret true; } ret false; } fn contains_key(&K key) -> bool { alt (find_common[K, V](hasher, eqer, bkts, nbkts, key)) { case (util.some[V](_)) { ret true; } case (_) { ret false; } } } fn get(&K key) -> V { alt (find_common[K, V](hasher, eqer, bkts, nbkts, key)) { case (util.some[V](?val)) { ret val; } case (_) { fail; } } } fn find(&K key) -> util.option[V] { be find_common[K, V](hasher, eqer, bkts, nbkts, key); } fn remove(&K key) -> util.option[V] { let uint i = 0u; while (i < nbkts) { let uint j = (hash[K](hasher, nbkts, key, i)); alt (bkts.(j)) { case (some[K, V](?k, ?v)) { if (eqer(key, k)) { bkts.(j) = deleted[K, V]; nelts -= 1u; ret util.some[V](v); } } case (deleted[K, V]) { } case (nil[K, V]) { ret util.none[V]; } } i += 1u; } ret util.none[V]; } fn rehash() { let vec[mutable bucket[K, V]] newbkts = make_buckets[K, V](nbkts); rehash[K, V](hasher, eqer, bkts, nbkts, newbkts, nbkts); bkts = newbkts; } iter items() -> tup(K,V) { for (bucket[K,V] b in bkts) { alt (b) { case(some[K,V](?k,?v)) { put tup(k,v); } case (_) { } } } } } let vec[mutable bucket[K, V]] bkts = make_buckets[K, V](initial_capacity); ret hashmap[K, V](hasher, eqer, bkts, initial_capacity, 0u, load_factor); } // Local Variables: // mode: rust; // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // compile-command: "make -k -C .. 2>&1 | sed -e 's/\\/x\\//x:\\//g'"; // End: