QuestHelper_File["timeslice.lua"] = "4.0.1.$svnversion$" QuestHelper_Loadtime["timeslice.lua"] = GetTime() local debug_output = (QuestHelper_File["timeslice.lua"] == "Development Version") -- Any non-local item here is part of an available public interface. local coroutine_running = false local coroutine_stop_time = 0 local coroutine_list = {} local coroutine_route_pass = 1 local coroutine_verbose = false local coroutine_time_used = {} local coroutine_power_up = GetTime() local coroutine_time_exceeded = 0 function QH_Timeslice_DumpPerf() local sortable = {} for k, v in pairs(coroutine_time_used) do table.insert(sortable, {name = k, amount = v}) end table.sort(sortable, function(a, b) return a.name < b.name end) for _, v in pairs(sortable) do QuestHelper:TextOut(string.format("%s: %f", QuestHelper:HighlightText(v.name), v.amount)) end QuestHelper:TextOut(string.format("%s: %f", QuestHelper:HighlightText("poweron"), GetTime() - coroutine_power_up)) end local last_stack = nil local yield_ct = 0 local GetTime = GetTime local unyieldable = 0 function QH_Timeslice_PushUnyieldable() unyieldable = unyieldable + 1 --print(unyieldable) end function QH_Timeslice_PopUnyieldable() unyieldable = unyieldable - 1 --print(unyieldable) QuestHelper: Assert(unyieldable >= 0) end function QH_Timeslice_Yield() if unyieldable > 0 then return end if coroutine_running then -- Check if we've run our alotted time yield_ct = yield_ct + 1 if GetTime() > coroutine_stop_time then local sti = debugstack(2, 5, 5) -- string.gsub(debugstack(2, 1, 1), "\n.*", "") if qh_loud_and_annoying and GetTime() > coroutine_stop_time + 0.0015 then print(yield_ct, (GetTime() - coroutine_stop_time) * 1000, "took too long", sti, "------ from", last_stack, "------") end -- As a safety, reset stop time to 0. If somehow we fail to set it next time, -- we'll be sure to yield promptly. coroutine_stop_time = 0 coroutine.yield() last_stack = sti yield_ct = 0 end end end function QH_Timeslice_Bonus(quantity) if coroutine_verbose then QuestHelper:TextOut(string.format("timeslice: %d bonus", quantity)) end coroutine_route_pass = coroutine_route_pass + quantity end local prioritize = { preinit = {101}, init = {100}, criteria = {10}, lzw = {-5}, compress = {-8, 5}, new_routing = {-10}, } local bumped_priority = {} function QH_Timeslice_Add(workfunc, name) QuestHelper: Assert(workfunc) QuestHelper: Assert(name) local priority = prioritize[name] and prioritize[name][1] or 0 local sharding = prioritize[name] and prioritize[name][2] or 1 if coroutine_verbose then QuestHelper:TextOut(string.format("timeslice: %s added (%s, %d)", name, tostring(workfunc), priority)) end local ncoro = coroutine.create(workfunc) QuestHelper: Assert(ncoro) table.insert(coroutine_list, {priority = priority, sharding = sharding, name = name, coro = ncoro, active = true}) end function QH_Timeslice_Toggle(name, flag) --if coroutine_verbose then QuestHelper:TextOut(string.format("timeslice: %s toggled to %s", name, tostring(not not flag))) end for _, v in pairs(coroutine_list) do if v.name == name then v.active = flag end end end local started = false function QH_Timeslice_Doneinit() if not started then if debug_output then QuestHelper:TextOut("Done with initialization step") end QuestHelper.loading_main = nil QuestHelper.loading_flightpath = nil QuestHelper.loading_preroll = nil collectgarbage("collect") -- fuuuuuck youuuuuuuu end started = true end function QH_Timeslice_Bump(type, newpri) bumped_priority[type] = newpri end function QH_Timeslice_Bump_Reset(type) bumped_priority[type] = nil end local startacu = GetTime() local totalacu = 0 local lacu = 0 --[[function qhtacureset() startacu = GetTime() totalacu = 0 lacu = 0 end]] local thrown_away_excess = 0 local total_used = 0 function QH_Timeslice_Work(time_used, time_this_frame, bonus_time, verbose) -- There's probably a better way to do this, but. Eh. Lua. QuestHelper: Assert(unyieldable == 0) local coro = nil local key = nil local cpri = nil for k, v in pairs(coroutine_list) do if v.active then --if v.sharding then QuestHelper:TextOut(string.format("%d mod %d is %d, %s", time(), v.sharding, bit.mod(time(), v.sharding), tostring(bit.mod(time(), v.sharding) == 0))) end local pri = bumped_priority[v.name] or v.priority if (not v.sharding or bit.mod(time(), v.sharding) == 0) and (not coro or (pri > cpri)) then coro = v key = k cpri = pri end end end if coro then --if coroutine_verbose then QuestHelper:TextOut(string.format("timeslice: %s running", coro.name)) end if coroutine.status(coro.coro) == "dead" then -- Someone was claiming to get an infinite loop with this. I don't see how it's possible, but this should at least fix the infinite loop. coroutine_list[key] = nil end QuestHelper: Assert(coroutine.status(coro.coro) ~= "dead") local slicefactor = (QuestHelper_Pref.hide and 0.01 or (QuestHelper_Pref.perf_scale_2 * math.min(coroutine_route_pass, 5))) if not started then slicefactor = 5 * QuestHelper_Pref.perfload_scale * math.min(coroutine_route_pass, 5) end -- the init process gets much higher priority so we get done with it faster local time_to_use = slicefactor * time_this_frame * 0.075 -- We want to use 7.5% of the system CPU if InCombatLockdown() then time_to_use = time_to_use / 5 end local coroutine_intended_stop_time = time_to_use coroutine_stop_time = coroutine_intended_stop_time - coroutine_time_exceeded - time_used + bonus_time coroutine_route_pass = coroutine_route_pass - 5 if coroutine_route_pass <= 0 then coroutine_route_pass = 1 end if verbose then print(string.format("time_to_use %f, time_already_used %f, bonus_time %f, coroutine_time_exceeded %f, total_time_to_use %f", time_to_use, time_used, bonus_time, coroutine_time_exceeded, coroutine_stop_time)) print(string.format("thrown_away_excess %f, used %f, maxi %f", thrown_away_excess, total_used, slicefactor * 0.075 * 5)) end local start = GetTime() coroutine_stop_time, coroutine_intended_stop_time = coroutine_stop_time + start, coroutine_intended_stop_time + start local state, err = true, nil -- default values for "we're fine" totalacu = totalacu + math.max(0, coroutine_stop_time - start) --[[if lacu + 0.1 < totalacu then lacu = totalacu print(string.format("%f realtime, %f runtime, %f%%", start - startacu, totalacu, (totalacu / (start - startacu)) * 100)) end]] if start < coroutine_stop_time then -- We don't want to just return on failure because we want to credit the exceeded time properly. coroutine_running = true QuestHelper: Assert(unyieldable == 0) state, err = coroutine.resume(coro.coro) QuestHelper: Assert(unyieldable == 0) coroutine_running = false end local stop = GetTime() local total = stop - start local coroutine_this_cycle_exceeded = stop - coroutine_intended_stop_time -- may be either positive or negative local origcte = coroutine_time_exceeded + coroutine_this_cycle_exceeded coroutine_time_exceeded = min(origcte, slicefactor * 0.075 * 5) -- honestly, waiting for more than five seconds to recover from a stutter is just dumb thrown_away_excess = thrown_away_excess + (origcte - coroutine_time_exceeded) total_used = total_used + total coroutine_time_used[coro.name] = (coroutine_time_used[coro.name] or 0) + total if not state then if coroutine_verbose then QuestHelper:TextOut(string.format("timeslice: %s errored", coro.name)) end QuestHelper_ErrorCatcher_ExplicitError(true, err, "", string.format("(Coroutine error in %s)\n", coro.name)) end QuestHelper: Assert(coro.coro) if coroutine.status(coro.coro) == "dead" then if coroutine_verbose then QuestHelper:TextOut(string.format("timeslice: %s complete", coro.name)) end coroutine_list[key] = nil end else if coroutine_verbose then QuestHelper:TextOut(string.format("timeslice: no available tasks")) end end end function QH_Timeslice_Increment(quantity, name) local an = "(nc) " .. name coroutine_time_used[an] = (coroutine_time_used[an] or 0) + quantity end