-- lua-lru, LRU cache in Lua -- Copyright (c) 2015 Boris Nagaev -- See the LICENSE file for terms of use. --[[ The MIT License (MIT) Copyright (c) 2015 Boris Nagaev Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ]]-- local lru = {} function lru.new(max_size, max_bytes) assert(max_size >= 1, "max_size must be >= 1") assert(not max_bytes or max_bytes >= 1, "max_bytes must be >= 1") -- current size local size = 0 local bytes_used = 0 -- map is a hash map from keys to tuples -- tuple: value, prev, next, key -- prev and next are pointers to tuples local map = {} -- indices of tuple local VALUE = 1 local PREV = 2 local NEXT = 3 local KEY = 4 local BYTES = 5 -- newest and oldest are ends of double-linked list local newest = nil -- first local oldest = nil -- last local removed_tuple -- created in del(), removed in set() -- remove a tuple from linked list local function cut(tuple) local tuple_prev = tuple[PREV] local tuple_next = tuple[NEXT] tuple[PREV] = nil tuple[NEXT] = nil if tuple_prev and tuple_next then tuple_prev[NEXT] = tuple_next tuple_next[PREV] = tuple_prev elseif tuple_prev then -- tuple is the oldest element tuple_prev[NEXT] = nil oldest = tuple_prev elseif tuple_next then -- tuple is the newest element tuple_next[PREV] = nil newest = tuple_next else -- tuple is the only element newest = nil oldest = nil end end -- insert a tuple to the newest end local function setNewest(tuple) if not newest then newest = tuple oldest = tuple else tuple[NEXT] = newest newest[PREV] = tuple newest = tuple end end local function del(key, tuple) map[key] = nil cut(tuple) size = size - 1 bytes_used = bytes_used - (tuple[BYTES] or 0) removed_tuple = tuple end -- removes elemenets to provide enough memory -- returns last removed element or nil local function makeFreeSpace(bytes) while size + 1 > max_size or (max_bytes and bytes_used + bytes > max_bytes) do assert(oldest, "not enough storage for cache") del(oldest[KEY], oldest) end end local function get(_, key) local tuple = map[key] if not tuple then return nil end cut(tuple) setNewest(tuple) return tuple[VALUE] end local function set(_, key, value, bytes) local tuple = map[key] if tuple then del(key, tuple) end if value ~= nil then -- the value is not removed bytes = max_bytes and (bytes or #value) or 0 makeFreeSpace(bytes) local tuple1 = removed_tuple or {} map[key] = tuple1 tuple1[VALUE] = value tuple1[KEY] = key tuple1[BYTES] = max_bytes and bytes size = size + 1 bytes_used = bytes_used + bytes setNewest(tuple1) else assert(key ~= nil, "Key may not be nil") end removed_tuple = nil end local function delete(_, key) return set(_, key, nil) end local function mynext(_, prev_key) local tuple if prev_key then tuple = map[prev_key][NEXT] else tuple = newest end if tuple then return tuple[KEY], tuple[VALUE] else return nil end end -- returns iterator for keys and values local function lru_pairs() return mynext, nil, nil end local mt = { __index = {get = get, set = set, delete = delete, pairs = lru_pairs}, __pairs = lru_pairs } return setmetatable({}, mt) end return lru