2020-02-03 07:00:36 +03:00
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// Copyright (c) 2019-2020 Alexander Medvednikov. All rights reserved.
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2019-06-23 05:21:30 +03:00
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// Use of this source code is governed by an MIT license
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// that can be found in the LICENSE file.
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2019-06-22 21:20:28 +03:00
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module builtin
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2020-02-20 22:04:06 +03:00
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import (
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strings
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hash.wyhash
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)
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/*
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This is a very fast hashmap implementation. It has several properties that in
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combination makes it very fast. Here is a short explanation of each property.
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After reading this you should have a basic understanding of how it works:
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1. |Hash-function (Wyhash)|. Wyhash is the fastest hash-function passing SMHash-
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er, so it was an easy choice.
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2. |Open addressing (Robin Hood Hashing)|. With this method, a hash collision is
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resolved by probing. As opposed to linear probing, Robin Hood hashing has a sim-
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ple but clever twist: As new keys are inserted, old keys are shifted around in a
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way such that all keys stay reasonably close to the slot they originally hash to.
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3. |Memory layout|. Key-value pairs are stored in a `DenseArray`, with an avera-
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ge of roughly 6.25% unused memory, as opposed to most other dynamic array imple-
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mentations with a growth factor of 1.5 or 2. The key-values keep their index in
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the array - they are not probed. Instead, this implementation uses another array
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"metas" storing "meta"s (meta-data). Each Key-value has a corresponding meta. A
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meta stores a reference to its key-value, and its index in "metas" is determined
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by the hash of the key and probing. A meta also stores bits from the hash (for
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faster rehashing etc.) and how far away it is from the index it was originally
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hashed to (probe_count). probe_count is 0 if empty, 1 if not probed, 2 if probed
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by 1, etc..
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meta (64 bit) = kv_index (32 bit) | probe_count (8 bits) | hashbits (24 bits)
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metas = [meta, 0, meta, 0, meta, meta, meta, 0, ...]
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key_values = [kv, kv, kv, kv, kv, ...]
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4. |Power of two size array|. The size of metas is a power of two. This makes it
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possible to find a bucket from a hash code by using "hash & (SIZE -1)" instead
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of "abs(hash) % SIZE". Modulo is extremely expensive so using '&' is a big perf-
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ormance improvement. The general concern with this is that you only use the low-
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er bits of the hash and that can cause more collisions. This is solved by using
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good hash-function.
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5. |Extra metas|. The hashmap keeps track of the highest probe_count. The trick
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is to allocate extra_metas > max(probe_count), so you never have to do any boun-
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ds-checking because the extra metas ensures that an element will never go beyond
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the last index.
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6. |Cached rehashing|. When the load_factor of the map exceeds the max_load_fac-
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tor the size of metas is doubled and all the elements need to be "rehashed" to
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find the index in the new array. Instead of rehashing completely, it simply uses
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the hashbits stored in the meta.
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*/
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const (
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// Number of bits from the hash stored for each entry
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hashbits = 24
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// Number of bits from the hash stored for rehashing
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cached_hashbits = 16
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// Initial log-number of buckets in the hashtable
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init_log_capicity = 5
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// Initial number of buckets in the hashtable
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init_capicity = 1<<init_log_capicity
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// Maximum load-factor (size / capacity)
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max_load_factor = 0.8
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// Initial highest even index in metas
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init_cap = init_capicity - 2
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// Used for incrementing `extra_metas` when max
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// probe count is too high, to avoid overflow
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extra_metas_inc = 4
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// Bitmask to select all the hashbits
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hash_mask = u32(0x00FFFFFF)
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// Used for incrementing the probe-count
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probe_inc = u32(0x01000000)
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)
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struct KeyValue {
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key string
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mut:
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value voidptr
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}
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// Dynamic array with very low growth factor
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struct DenseArray {
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mut:
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cap u32
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size u32
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deletes u32
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data &KeyValue
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}
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[inline]
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fn new_dense_array() DenseArray {
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unsafe{
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return DenseArray{
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cap: 8
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size: 0
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deletes: 0
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data: &KeyValue(malloc(8 * sizeof(KeyValue)))
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}
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}
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}
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// Push element to array and return index
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// The growth-factor is roughly 12.5 `(x + (x >> 3))`
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[inline]
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fn (d mut DenseArray) push(kv KeyValue) u32 {
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if d.cap == d.size {
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d.cap += d.cap>>3
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d.data = &KeyValue(C.realloc(d.data, sizeof(KeyValue) * d.cap))
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}
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push_index := d.size
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d.data[push_index] = kv
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d.size++
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return push_index
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}
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// Move all zeros to the end of the array
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// and resize array
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fn (d mut DenseArray) zeros_to_end() {
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mut count := u32(0)
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for i in 0 .. d.size {
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if d.data[i].key.str != 0 {
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tmp := d.data[count]
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d.data[count] = d.data[i]
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d.data[i] = tmp
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count++
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}
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}
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d.deletes = 0
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d.size = count
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d.cap = if count < 8 { 8 } else { count }
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d.data = &KeyValue(C.realloc(d.data, sizeof(KeyValue) * d.cap))
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}
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pub struct map {
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// Byte size of value
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value_bytes int
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mut:
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// Index of the highest index in the hashtable
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cap u32
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// Number of cached hashbits left for rehasing
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window byte
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// Used for right-shifting out used hashbits
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shift byte
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// Array storing key-values (ordered)
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key_values DenseArray
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// Pointer to meta-data:
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// Odd indices stores index in `key_values`.
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// Even indices stores probe_count and hashbits.
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metas &u32
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// Extra metas that allows for no ranging when incrementing
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// index in the hashmap
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extra_metas u32
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pub mut:
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// Number of key-values currently in the hashmap
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size int
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}
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fn new_map(n, value_bytes int) map {
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return map{
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value_bytes: value_bytes
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cap: init_cap
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window: cached_hashbits
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shift: init_log_capicity
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key_values: new_dense_array()
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metas: &u32(vcalloc(sizeof(u32) * (init_capicity + extra_metas_inc)))
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extra_metas: extra_metas_inc
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size: 0
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}
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}
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fn new_map_init(n, value_bytes int, keys &string, values voidptr) map {
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mut out := new_map(n, value_bytes)
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for i in 0 .. n {
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out.set(keys[i], values + i * value_bytes)
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}
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return out
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}
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[inline]
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fn (m map) key_to_index(key string) (u32,u32) {
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hash := u32(wyhash.wyhash_c(key.str, u64(key.len), 0))
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index := hash & m.cap
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meta := ((hash>>m.shift) & hash_mask) | probe_inc
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return index,meta
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}
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[inline]
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fn meta_less(metas &u32, i u32, m u32) (u32,u32) {
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mut index := i
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mut meta := m
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for meta < metas[index] {
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index += 2
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meta += probe_inc
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}
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return index,meta
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}
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[inline]
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fn (m mut map) meta_greater(ms &u32, i u32, me u32, kvi u32) &u32 {
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mut metas := ms
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mut meta := me
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mut index := i
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mut kv_index := kvi
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for metas[index] != 0 {
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if meta > metas[index] {
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tmp_meta := metas[index]
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metas[index] = meta
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meta = tmp_meta
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tmp_index := metas[index + 1]
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metas[index + 1] = kv_index
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kv_index = tmp_index
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}
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index += 2
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meta += probe_inc
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}
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metas[index] = meta
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metas[index + 1] = kv_index
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probe_count := (meta>>hashbits) - 1
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if (probe_count<<1) == m.extra_metas {
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m.extra_metas += extra_metas_inc
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mem_size := (m.cap + 2 + m.extra_metas)
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metas = &u32(C.realloc(metas, sizeof(u32) * mem_size))
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C.memset(metas + mem_size - extra_metas_inc, 0, sizeof(u32) * extra_metas_inc)
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// Should almost never happen
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if probe_count == 252 {
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panic('Probe overflow')
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}
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}
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return metas
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}
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fn (m mut map) set(key string, value voidptr) {
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load_factor := f32(m.size<<1) / f32(m.cap)
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if load_factor > max_load_factor {
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m.expand()
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}
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mut index,mut meta := m.key_to_index(key)
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index,meta = meta_less(m.metas, index, meta)
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// While we might have a match
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for meta == m.metas[index] {
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kv_index := m.metas[index + 1]
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if key == m.key_values.data[kv_index].key {
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C.memcpy(m.key_values.data[kv_index].value, value, m.value_bytes)
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return
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}
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index += 2
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meta += probe_inc
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}
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// Match not possible anymore
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kv := KeyValue{
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key: key
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value: malloc(m.value_bytes)
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}
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C.memcpy(kv.value, value, m.value_bytes)
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kv_index := m.key_values.push(kv)
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m.metas = m.meta_greater(m.metas, index, meta, kv_index)
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m.size++
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}
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// Doubles the size of the hashmap
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fn (m mut map) expand() {
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old_cap := m.cap
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m.cap = ((m.cap + 2)<<1) - 2
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// Check if any hashbits are left
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if m.window == 0 {
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m.shift += cached_hashbits
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m.window = cached_hashbits
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m.rehash()
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}
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2020-02-20 22:04:06 +03:00
|
|
|
else {
|
2020-03-19 08:52:34 +03:00
|
|
|
m.cached_rehash(old_cap)
|
2019-08-29 01:52:32 +03:00
|
|
|
}
|
2020-02-20 22:04:06 +03:00
|
|
|
m.window--
|
2020-02-20 19:58:13 +03:00
|
|
|
}
|
|
|
|
|
2020-03-19 08:52:34 +03:00
|
|
|
fn (m mut map) rehash() {
|
|
|
|
meta_bytes := sizeof(u32) * (m.cap + 2 + m.extra_metas)
|
|
|
|
m.metas = &u32(C.realloc(m.metas, meta_bytes))
|
|
|
|
C.memset(m.metas, 0, meta_bytes)
|
|
|
|
for i := u32(0); i < m.key_values.size; i++ {
|
|
|
|
if m.key_values.data[i].key.str == 0 {
|
|
|
|
continue
|
2020-03-16 15:01:31 +03:00
|
|
|
}
|
2020-03-19 08:52:34 +03:00
|
|
|
kv := m.key_values.data[i]
|
2020-03-21 15:55:07 +03:00
|
|
|
mut index,mut meta := m.key_to_index(kv.key)
|
|
|
|
index,meta = meta_less(m.metas, index, meta)
|
2020-03-19 08:52:34 +03:00
|
|
|
m.metas = m.meta_greater(m.metas, index, meta, i)
|
2020-03-16 15:01:31 +03:00
|
|
|
}
|
2019-08-29 01:52:32 +03:00
|
|
|
}
|
|
|
|
|
2020-03-19 08:52:34 +03:00
|
|
|
fn (m mut map) cached_rehash(old_cap u32) {
|
|
|
|
mut new_meta := &u32(vcalloc(sizeof(u32) * (m.cap + 2 + m.extra_metas)))
|
|
|
|
old_extra_metas := m.extra_metas
|
2020-03-21 15:55:07 +03:00
|
|
|
for i := u32(0); i <= old_cap + old_extra_metas; i += 2 {
|
2020-03-19 08:52:34 +03:00
|
|
|
if m.metas[i] == 0 {
|
|
|
|
continue
|
2020-03-16 15:01:31 +03:00
|
|
|
}
|
2020-03-19 08:52:34 +03:00
|
|
|
old_meta := m.metas[i]
|
2020-03-21 15:55:07 +03:00
|
|
|
old_probe_count := ((old_meta>>hashbits) - 1)<<1
|
|
|
|
old_index := (i - old_probe_count) & (m.cap>>1)
|
|
|
|
mut index := (old_index | (old_meta<<m.shift)) & m.cap
|
2020-03-19 08:52:34 +03:00
|
|
|
mut meta := (old_meta & hash_mask) | probe_inc
|
2020-03-21 15:55:07 +03:00
|
|
|
index,meta = meta_less(new_meta, index, meta)
|
2020-03-19 08:52:34 +03:00
|
|
|
kv_index := m.metas[i + 1]
|
|
|
|
new_meta = m.meta_greater(new_meta, index, meta, kv_index)
|
2019-10-30 20:19:59 +03:00
|
|
|
}
|
2020-02-20 22:04:06 +03:00
|
|
|
unsafe{
|
2020-03-19 08:52:34 +03:00
|
|
|
free(m.metas)
|
2020-01-24 22:13:59 +03:00
|
|
|
}
|
2020-03-19 08:52:34 +03:00
|
|
|
m.metas = new_meta
|
2019-12-30 22:01:24 +03:00
|
|
|
}
|
|
|
|
|
2020-02-20 22:04:06 +03:00
|
|
|
fn (m map) get(key string, out voidptr) bool {
|
2020-03-21 15:55:07 +03:00
|
|
|
mut index,mut meta := m.key_to_index(key)
|
|
|
|
index,meta = meta_less(m.metas, index, meta)
|
2020-03-19 08:52:34 +03:00
|
|
|
for meta == m.metas[index] {
|
|
|
|
kv_index := m.metas[index + 1]
|
|
|
|
if key == m.key_values.data[kv_index].key {
|
|
|
|
C.memcpy(out, m.key_values.data[kv_index].value, m.value_bytes)
|
2020-02-20 22:04:06 +03:00
|
|
|
return true
|
2020-02-20 19:58:13 +03:00
|
|
|
}
|
2020-03-19 08:52:34 +03:00
|
|
|
index += 2
|
|
|
|
meta += probe_inc
|
2020-01-24 22:13:59 +03:00
|
|
|
}
|
2020-02-20 22:04:06 +03:00
|
|
|
return false
|
2020-02-20 19:58:13 +03:00
|
|
|
}
|
|
|
|
|
2020-03-19 08:52:34 +03:00
|
|
|
fn (m map) get2(key string) voidptr {
|
2020-03-21 15:55:07 +03:00
|
|
|
mut index,mut meta := m.key_to_index(key)
|
|
|
|
index,meta = meta_less(m.metas, index, meta)
|
2020-03-19 08:52:34 +03:00
|
|
|
for meta == m.metas[index] {
|
|
|
|
kv_index := m.metas[index + 1]
|
|
|
|
if key == m.key_values.data[kv_index].key {
|
|
|
|
out := malloc(m.value_bytes)
|
|
|
|
C.memcpy(out, m.key_values.data[kv_index].value, m.value_bytes)
|
|
|
|
return out
|
|
|
|
}
|
|
|
|
index += 2
|
|
|
|
meta += probe_inc
|
|
|
|
}
|
|
|
|
return voidptr(0)
|
2020-03-18 10:41:49 +03:00
|
|
|
}
|
|
|
|
|
2020-03-23 22:02:09 +03:00
|
|
|
fn (m map) get3(key string, zero voidptr) voidptr {
|
|
|
|
mut index,mut meta := m.key_to_index(key)
|
|
|
|
index,meta = meta_less(m.metas, index, meta)
|
|
|
|
for meta == m.metas[index] {
|
|
|
|
kv_index := m.metas[index + 1]
|
|
|
|
if key == m.key_values.data[kv_index].key {
|
|
|
|
out := malloc(m.value_bytes)
|
|
|
|
C.memcpy(out, m.key_values.data[kv_index].value, m.value_bytes)
|
|
|
|
return out
|
|
|
|
}
|
|
|
|
index += 2
|
|
|
|
meta += probe_inc
|
|
|
|
}
|
|
|
|
out := malloc(m.value_bytes)
|
|
|
|
C.memcpy(out, zero, m.value_bytes)
|
|
|
|
return out
|
|
|
|
//return voidptr(0)
|
|
|
|
}
|
|
|
|
|
2020-02-20 22:04:06 +03:00
|
|
|
fn (m map) exists(key string) bool {
|
|
|
|
if m.value_bytes == 0 {
|
|
|
|
return false
|
2020-02-20 19:58:13 +03:00
|
|
|
}
|
2020-03-21 15:55:07 +03:00
|
|
|
mut index,mut meta := m.key_to_index(key)
|
|
|
|
index,meta = meta_less(m.metas, index, meta)
|
2020-03-19 08:52:34 +03:00
|
|
|
for meta == m.metas[index] {
|
|
|
|
kv_index := m.metas[index + 1]
|
|
|
|
if key == m.key_values.data[kv_index].key {
|
2020-02-20 22:04:06 +03:00
|
|
|
return true
|
2020-02-20 19:58:13 +03:00
|
|
|
}
|
2020-03-19 08:52:34 +03:00
|
|
|
index += 2
|
|
|
|
meta += probe_inc
|
2020-02-20 19:58:13 +03:00
|
|
|
}
|
2020-02-20 22:04:06 +03:00
|
|
|
return false
|
2019-12-30 08:57:56 +03:00
|
|
|
}
|
|
|
|
|
2020-03-19 08:52:34 +03:00
|
|
|
pub fn (m mut map) delete(key string) {
|
2020-03-21 15:55:07 +03:00
|
|
|
mut index,mut meta := m.key_to_index(key)
|
|
|
|
index,meta = meta_less(m.metas, index, meta)
|
2020-03-19 08:52:34 +03:00
|
|
|
// Perform backwards shifting
|
|
|
|
for meta == m.metas[index] {
|
|
|
|
kv_index := m.metas[index + 1]
|
|
|
|
if key == m.key_values.data[kv_index].key {
|
|
|
|
C.memset(&m.key_values.data[kv_index], 0, sizeof(KeyValue))
|
2020-03-21 15:55:07 +03:00
|
|
|
for (m.metas[index + 2]>>hashbits) > 1 {
|
|
|
|
m.metas[index] = m.metas[index + 2] - probe_inc
|
|
|
|
m.metas[index + 1] = m.metas[index + 3]
|
2020-03-19 08:52:34 +03:00
|
|
|
index += 2
|
|
|
|
}
|
|
|
|
m.size--
|
2020-03-21 15:55:07 +03:00
|
|
|
m.metas[index] = 0
|
2020-03-19 08:52:34 +03:00
|
|
|
m.key_values.deletes++
|
2020-03-21 15:55:07 +03:00
|
|
|
if m.key_values.size <= 32 {
|
|
|
|
return
|
|
|
|
}
|
2020-03-19 08:52:34 +03:00
|
|
|
if (f32(m.key_values.size) / f32(m.key_values.deletes)) < 1 {
|
|
|
|
m.key_values.zeros_to_end()
|
|
|
|
m.rehash()
|
|
|
|
}
|
|
|
|
return
|
|
|
|
}
|
|
|
|
index += 2
|
|
|
|
meta += probe_inc
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
2020-01-24 22:13:59 +03:00
|
|
|
pub fn (m &map) keys() []string {
|
|
|
|
mut keys := [''].repeat(m.size)
|
2020-02-20 22:04:06 +03:00
|
|
|
if m.value_bytes == 0 {
|
2020-01-24 22:13:59 +03:00
|
|
|
return keys
|
2019-12-30 08:57:56 +03:00
|
|
|
}
|
2020-02-20 22:04:06 +03:00
|
|
|
mut j := 0
|
2020-03-19 08:52:34 +03:00
|
|
|
for i := u32(0); i < m.key_values.size; i++ {
|
|
|
|
if m.key_values.data[i].key.str == 0 {
|
|
|
|
continue
|
2020-02-20 22:04:06 +03:00
|
|
|
}
|
2020-03-19 08:52:34 +03:00
|
|
|
keys[j] = m.key_values.data[i].key
|
|
|
|
j++
|
2020-02-20 22:04:06 +03:00
|
|
|
}
|
2020-01-24 22:13:59 +03:00
|
|
|
return keys
|
2019-12-30 22:01:24 +03:00
|
|
|
}
|
|
|
|
|
2020-03-19 08:52:34 +03:00
|
|
|
pub fn (m map) free() {
|
2020-03-21 15:55:07 +03:00
|
|
|
unsafe{
|
2020-03-19 08:52:34 +03:00
|
|
|
free(m.metas)
|
|
|
|
free(m.key_values.data)
|
2020-01-24 22:13:59 +03:00
|
|
|
}
|
2019-07-23 23:57:06 +03:00
|
|
|
}
|
|
|
|
|
2019-06-27 14:14:59 +03:00
|
|
|
pub fn (m map) print() {
|
2020-02-20 22:04:06 +03:00
|
|
|
println('TODO')
|
2019-06-22 21:20:28 +03:00
|
|
|
}
|
|
|
|
|
2019-06-27 14:14:59 +03:00
|
|
|
pub fn (m map_string) str() string {
|
2019-07-14 12:01:32 +03:00
|
|
|
if m.size == 0 {
|
2019-06-22 21:20:28 +03:00
|
|
|
return '{}'
|
|
|
|
}
|
2019-08-05 06:54:16 +03:00
|
|
|
mut sb := strings.new_builder(50)
|
2019-08-29 01:52:32 +03:00
|
|
|
sb.writeln('{')
|
2020-03-21 15:55:07 +03:00
|
|
|
for key, val in m {
|
2019-08-29 01:52:32 +03:00
|
|
|
sb.writeln(' "$key" => "$val"')
|
2019-08-05 05:34:12 +03:00
|
|
|
}
|
2019-08-29 01:52:32 +03:00
|
|
|
sb.writeln('}')
|
|
|
|
return sb.str()
|
2020-03-19 09:05:20 +03:00
|
|
|
}
|