-- SPDX-License-Identifier: GPL-3.0-or-later local Room = require "server.room" --[[ local verbose = function(...) printf(...) end --]] -- 所有当前正在运行的房间(即游戏尚未结束的房间) ---@type table local runningRooms = {} -- 所有处于就绪态的房间,以及request协程(如果就绪的话) ---@type Room[] local readyRooms = {} local requestCo = coroutine.create(function(room) require "server.request"(room) end) -- 仿照Room接口编写的request协程处理器 local requestRoom = setmetatable({ -- minDelayTime 是当没有任何就绪房间时,可以睡眠的时间。 -- 因为这个时间是所有房间预期就绪用时的最小值,故称为minDelayTime。 minDelayTime = -1, getRoom = function(_, roomId) return runningRooms[roomId] end, resume = function(self) local err, msg = coroutine.resume(requestCo, self) if err == false then fk.qCritical(msg .. "\n" .. debug.traceback(requestCo)) end return nil, 0 end, isReady = function(self) return self.thread:hasRequest() end, registerRoom = function(self, id) local cRoom = self.thread:getRoom(id) local room = Room:new(cRoom) runningRooms[room.id] = room end, }, { __tostring = function() return "" end, }) runningRooms[-1] = requestRoom -- 从所有运行中房间中挑出就绪的房间。 -- 方法暂时就是最简单的遍历。 local function refreshReadyRooms() -- verbose '[+] Refreshing ready queue...' for k, v in pairs(runningRooms) do local ready, rest = v:isReady() if ready then table.insertIfNeed(readyRooms, v) elseif rest and rest >= 0 then local time = requestRoom.minDelayTime time = math.min((time <= 0 and 9999999 or time), rest) requestRoom.minDelayTime = math.ceil(time) end end -- verbose('[+] now have %d ready rooms...', #readyRooms) end -- 主循环。只要线程没有被杀掉,就一直循环下去。 -- 函数每轮循环会从队列中取一个元素并交给控制权, -- 如果没有,则尝试刷新队列,无法刷新则开始睡眠。 local function mainLoop() -- request协程的专用特判变量。因为处理request不应当重置睡眠时长 local rest_sleep_time while not requestRoom.thread:isTerminated() do local room = table.remove(readyRooms, 1) if room then -- verbose '============= LOOP ==============' -- verbose('[*] Switching to %s...', tostring(room)) RoomInstance = (room ~= requestRoom and room or nil) local over, rest = room:resume() RoomInstance = nil if over then -- verbose('[#] %s is finished, removing ...', tostring(room)) room.logic = nil runningRooms[room.id] = nil else local time = requestRoom.minDelayTime if room == requestRoom then rest = rest_sleep_time end if rest and rest >= 0 then time = math.min((time <= 0 and 9999999 or time), rest) else time = -1 end requestRoom.minDelayTime = math.ceil(time) -- verbose("[+] minDelay is %d ms...", requestRoom.minDelayTime) -- verbose('[-] %s successfully yielded, %d ready rooms left...', -- tostring(room), #readyRooms) end else refreshReadyRooms() if #readyRooms == 0 then refreshReadyRooms() if #readyRooms == 0 then local time = requestRoom.minDelayTime -- verbose('[.] Sleeping for %d ms...', time) local cur = os.getms() time = math.min((time <= 0 and 9999999 or time), 200) -- 调用RoomThread的trySleep函数开始真正的睡眠。会被wakeUp(c++)唤醒。 requestRoom.thread:trySleep(time) -- verbose('[!] Waked up after %f ms...', (os.getms() - cur) / 1000) if time > 0 then rest_sleep_time = math.floor(time - (os.getms() - cur) / 1000) else rest_sleep_time = -1 end requestRoom.minDelayTime = -1 end end end end -- verbose '=========== LOOP END ============' -- verbose '[:)] Goodbye!' end -- 当Cpp侧的RoomThread运行时,以下这个函数就是这个线程的主函数。 -- 而这个函数里面又调用了上面的mainLoop。 function InitScheduler(_thread) requestRoom.thread = _thread Pcall(mainLoop) end