prosody
16cf863b36c0
util/indexedbheap.lua
Software / code / prosody
File
util/indexedbheap.lua @ 11928:16cf863b36c0
mod_csi_simple: Skip initiating flush in all but inactive state
Both in the flushing and active states the right thing to do is skip
directly to returning the data. Also in any unknown state, like if the
filter is somehow left behind on module unload.
| author | Kim Alvefur <zash@zash.se> |
|---|---|
| date | Sat, 20 Nov 2021 23:54:43 +0100 |
| parent | 11115:7d4c292f178e |
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local setmetatable = setmetatable; local math_floor = math.floor; local t_remove = table.remove; local function _heap_insert(self, item, sync, item2, index) local pos = #self + 1; while true do local half_pos = math_floor(pos / 2); if half_pos == 0 or item > self[half_pos] then break; end self[pos] = self[half_pos]; sync[pos] = sync[half_pos]; index[sync[pos]] = pos; pos = half_pos; end self[pos] = item; sync[pos] = item2; index[item2] = pos; end local function _percolate_up(self, k, sync, index) local tmp = self[k]; local tmp_sync = sync[k]; while k ~= 1 do local parent = math_floor(k/2); if tmp >= self[parent] then break; end self[k] = self[parent]; sync[k] = sync[parent]; index[sync[k]] = k; k = parent; end self[k] = tmp; sync[k] = tmp_sync; index[tmp_sync] = k; return k; end local function _percolate_down(self, k, sync, index) local tmp = self[k]; local tmp_sync = sync[k]; local size = #self; local child = 2*k; while 2*k <= size do if child ~= size and self[child] > self[child + 1] then child = child + 1; end if tmp > self[child] then self[k] = self[child]; sync[k] = sync[child]; index[sync[k]] = k; else break; end k = child; child = 2*k; end self[k] = tmp; sync[k] = tmp_sync; index[tmp_sync] = k; return k; end local function _heap_pop(self, sync, index) local size = #self; if size == 0 then return nil; end local result = self[1]; local result_sync = sync[1]; index[result_sync] = nil; if size == 1 then self[1] = nil; sync[1] = nil; return result, result_sync; end self[1] = t_remove(self); sync[1] = t_remove(sync); index[sync[1]] = 1; _percolate_down(self, 1, sync, index); return result, result_sync; end local indexed_heap = {}; function indexed_heap:insert(item, priority, id) if id == nil then id = self.current_id; self.current_id = id + 1; end self.items[id] = item; _heap_insert(self.priorities, priority, self.ids, id, self.index); return id; end function indexed_heap:pop() local priority, id = _heap_pop(self.priorities, self.ids, self.index); if id then local item = self.items[id]; self.items[id] = nil; return priority, item, id; end end function indexed_heap:peek() return self.priorities[1]; end function indexed_heap:reprioritize(id, priority) local k = self.index[id]; if k == nil then return; end self.priorities[k] = priority; k = _percolate_up(self.priorities, k, self.ids, self.index); _percolate_down(self.priorities, k, self.ids, self.index); end function indexed_heap:remove_index(k) local result = self.priorities[k]; if result == nil then return; end local result_sync = self.ids[k]; local item = self.items[result_sync]; local size = #self.priorities; self.priorities[k] = self.priorities[size]; self.ids[k] = self.ids[size]; self.index[self.ids[k]] = k; t_remove(self.priorities); t_remove(self.ids); self.index[result_sync] = nil; self.items[result_sync] = nil; if size > k then k = _percolate_up(self.priorities, k, self.ids, self.index); _percolate_down(self.priorities, k, self.ids, self.index); end return result, item, result_sync; end function indexed_heap:remove(id) return self:remove_index(self.index[id]); end local mt = { __index = indexed_heap }; local _M = { create = function() return setmetatable({ ids = {}; -- heap of ids, sync'd with priorities items = {}; -- map id->items priorities = {}; -- heap of priorities index = {}; -- map of id->index of id in ids current_id = 1.5 }, mt); end }; return _M;
