--[[ Name: Compost-2.0 Revision: $Rev: 11579 $ Author: Tekkub Stoutwrithe (tekkub@gmail.com) Website: http://wiki.wowace.com/index.php/CompostLib Documentation: http://wiki.wowace.com/index.php/Compost-2.0_API_Documentation SVN: svn://svn.wowace.com/root/trunk/CompostLib/Compost-2.0 Description: Recycle tables to reduce garbage generation Dependencies: AceLibrary ]] local vmajor, vminor = "Compost-2.0", "$Revision: 11579 $" if not AceLibrary then error(vmajor .. " requires AceLibrary.") end if not AceLibrary:IsNewVersion(vmajor, vminor) then return end local lib = {} local table_setn do local version = GetBuildInfo() if string.find(version, "^2%.") then -- 2.0.0 table_setn = function() end else table_setn = table.setn end end -- Activate a new instance of this library local function activate(self, oldLib, oldDeactivate) if oldLib then -- if upgrading self.var, self.k = oldLib.var, oldLib.k else self.k = { -- Constants go here maxcache = 10, -- I think this is a good number, I'll change it later if necessary } self.var = { -- "Local" variables go here cache = {}, secondarycache = {}, } -- This makes the secondary cache table a weak table, any values in it will be reclaimed -- during a GC if there are no other references to them setmetatable(self.var.secondarycache, {__mode = "v"}) end if not self.var.tablechecks then self.var.tablechecks = {} setmetatable(self.var.tablechecks, {__mode = "kv"}) for i,v in ipairs(self.var.cache) do self.var.tablechecks[v] = true end for i,v in ipairs(self.var.secondarycache) do self.var.tablechecks[v] = true end end if oldDeactivate then oldDeactivate(oldLib) end end -- Removes an empty table from the cache and returns it -- or generates a new table if none available function lib:GetTable() if self.var.disabled then return {} end if table.getn(self.var.cache) > 0 then for i in pairs(self.var.cache) do local t = table.remove(self.var.cache, i) self.var.tablechecks[t] = nil if next(t) then -- Table has been modified, someone holds a ref still, discard it error("Someone is modifying tables reclaimed by Compost!") self:IncDec("numdiscarded", 1) else -- It's clean, we think... return it. self:IncDec("totn", -1) self:IncDec("numrecycled", 1) return t end end end if next(self.var.secondarycache) then for i in pairs(self.var.secondarycache) do local t = table.remove(self.var.secondarycache, i) self.var.tablechecks[t] = nil if next(t) then -- Table has been modified, someone holds a ref still, discard it error("Someone is modifying tables reclaimed by Compost!") self:IncDec("numdiscarded", 1) else -- It's clean, we think... return it. self:IncDec("totn", -1) self:IncDec("numrecycled", 1) return t end end end self:IncDec("numnew", 1) return {} end -- Returns a table, populated with any variables passed -- basically: return {a1, a2, ... a20} function lib:Acquire(a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11,a12,a13,a14,a15,a16,a17,a18,a19,a20) local t = self:GetTable() return self:Populate(t,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11,a12,a13,a14,a15,a16,a17,a18,a19,a20) end -- Acquires a table and fills it with values, hash style -- basically: return {k1 = v1, k2 = v2, ... k10 = v10} function lib:AcquireHash(k1,v1,k2,v2,k3,v3,k4,v4,k5,v5,k6,v6,k7,v7,k8,v8,k9,v9,k10,v10) local t = self:GetTable() return self:PopulateHash(t,k1,v1,k2,v2,k3,v3,k4,v4,k5,v5,k6,v6,k7,v7,k8,v8,k9,v9,k10,v10) end -- Erases the table passed, fills it with the args passed, and returns it -- Essentially the same as doing Reclaim then Acquire, except the same table is reused function lib:Recycle(t,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11,a12,a13,a14,a15,a16,a17,a18,a19,a20) t = self:Erase(t) return self:Populate(t,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11,a12,a13,a14,a15,a16,a17,a18,a19,a20) end -- Erases the table passed, fills it with the args passed, and returns it -- Essentially the same as doing Reclaim then AcquireHash, except the same table is reused function lib:RecycleHash(t,k1,v1,k2,v2,k3,v3,k4,v4,k5,v5,k6,v6,k7,v7,k8,v8,k9,v9,k10,v10) t = self:Erase(t) return self:PopulateHash(t,k1,v1,k2,v2,k3,v3,k4,v4,k5,v5,k6,v6,k7,v7,k8,v8,k9,v9,k10,v10) end -- Returns a table to the cache -- All tables referenced inside the passed table will be reclaimed also -- If a depth is passed, Reclaim will call itsself recursivly -- to reclaim all tables contained in t to the depth specified function lib:Reclaim(t, depth) if type(t) ~= "table" or self.var.disabled then return end self:assert(not self.var.tablechecks[t], "Cannot reclaim a table twice") if not self:ItemsInSecondaryCache() then self.var.totn = table.getn(self.var.cache) end if depth and depth > 0 then for i in pairs(t) do if type(t[i]) == "table" then self:Reclaim(t[i], depth - 1) end end end self:Erase(t) if self.k.maxcache and table.getn(self.var.cache) >= self.k.maxcache then table.insert(self.var.secondarycache, t) else table.insert(self.var.cache, t) end self:IncDec("numreclaim", 1) self:IncDec("totn", 1) self.var.maxn = math.max(self.var.maxn or 0, self.var.totn) self.var.tablechecks[t] = true end -- Reclaims multiple tables, can take 10 recursive sets or 20 non-recursives, -- or any combination of the two. Pass args in the following manner: -- table1, depth1, tabl2, depth2, table3, table4, table5, depth5, ... function lib:ReclaimMulti(a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11,a12,a13,a14,a15,a16,a17,a18,a19,a20) if not a1 then return end if type(a2) == "number" then self:Reclaim(a1, a2) self:ReclaimMulti(a3,a4,a5,a6,a7,a8,a9,a10,a11,a12,a13,a14,a15,a16,a17,a18,a19,a20) else self:Reclaim(a1) self:ReclaimMulti(a2,a3,a4,a5,a6,a7,a8,a9,a10,a11,a12,a13,a14,a15,a16,a17,a18,a19,a20) end end -- Erases the table passed, nothing more nothing less :) -- Tables referenced inside the passed table are NOT erased function lib:Erase(t) if type(t) ~= "table" then return end if self.var.disabled then return {} end local mem = gcinfo() setmetatable(t, nil) for i in pairs(t) do t[i] = nil end t.reset = 1 t.reset = nil table_setn(t, 0) self:IncDec("memfreed", math.abs(gcinfo() - mem)) self:IncDec("numerased", 1) return t end -- Fills the table passed with the args passed function lib:Populate(t,a1,a2,a3,a4,a5,a6,a7,a8,a9,a10,a11,a12,a13,a14,a15,a16,a17,a18,a19,a20) if not t then return end if a1 ~= nil then table.insert(t, a1) end if a2 ~= nil then table.insert(t, a2) end if a3 ~= nil then table.insert(t, a3) end if a4 ~= nil then table.insert(t, a4) end if a5 ~= nil then table.insert(t, a5) end if a6 ~= nil then table.insert(t, a6) end if a7 ~= nil then table.insert(t, a7) end if a8 ~= nil then table.insert(t, a8) end if a9 ~= nil then table.insert(t, a9) end if a10 ~= nil then table.insert(t, a10) end if a11 ~= nil then table.insert(t, a11) end if a12 ~= nil then table.insert(t, a12) end if a13 ~= nil then table.insert(t, a13) end if a14 ~= nil then table.insert(t, a14) end if a15 ~= nil then table.insert(t, a15) end if a16 ~= nil then table.insert(t, a16) end if a17 ~= nil then table.insert(t, a17) end if a18 ~= nil then table.insert(t, a18) end if a19 ~= nil then table.insert(t, a19) end if a20 ~= nil then table.insert(t, a20) end return t end -- Same as Populate, but takes 10 key-value pairs instead function lib:PopulateHash(t,k1,v1,k2,v2,k3,v3,k4,v4,k5,v5,k6,v6,k7,v7,k8,v8,k9,v9,k10,v10) if not t then return end if k1 ~= nil then t[k1] = v1 end if k2 ~= nil then t[k2] = v2 end if k3 ~= nil then t[k3] = v3 end if k4 ~= nil then t[k4] = v4 end if k5 ~= nil then t[k5] = v5 end if k6 ~= nil then t[k6] = v6 end if k7 ~= nil then t[k7] = v7 end if k8 ~= nil then t[k8] = v8 end if k9 ~= nil then t[k9] = v9 end if k10 ~= nil then t[k10] = v10 end return t end function lib:IncDec(variable, diff) self.var[variable] = (self.var[variable] or 0) + diff end function lib:ItemsInSecondaryCache() for i in pairs(self.var.secondarycache) do return true end end function lib:GetSecondaryCacheSize() local n = 0 for i in pairs(self.var.secondarycache) do n = n + 1 end return n end -- Prints out statistics on table recycling -- /script CompostLib:GetInstance("compost-1"):Stats() function lib:Stats() if self.var.disabled then ChatFrame1:AddMessage("CompostLib is disabled!") else ChatFrame1:AddMessage( string.format( "|cff00ff00New: %d|r | |cffffff00Recycled: %d|r | |cff00ffffMain: %d|r | |cffff0000Secondary: %d|r | |cffff8800Max %d|r | |cff888888Erases: %d|r | |cffff00ffMem Saved: %d KiB|r | |cffff0088Lost to GC: %d", self.var.numnew or 0, self.var.numrecycled or 0, table.getn(self.var.cache), self:GetSecondaryCacheSize(), self.var.maxn or 0, (self.var.numerased or 0) - (self.var.numreclaim or 0), (self.var.memfreed or 0) + 32/1024*(self.var.numrecycled or 0), (self.var.numreclaim or 0) - (self.var.numrecycled or 0) - table.getn(self.var.cache))) end end setmetatable(lib, { __call = lib.Acquire }) -------------------------------- -- Load this bitch! -- -------------------------------- AceLibrary:Register(lib, vmajor, vminor, activate) lib = nil