THOR11WM

hola quisiera saber como cambio un script para poder ponerlo solo para admin, S.mods, mods el script se llama Superman hay 3 archivos el Client.lua,Server.lua y la meta XML el client.lua dice esto local Superman = {} -- Settings local ZERO_TOLERANCE = 0.00001 local MAX_ANGLE_SPEED = 6 -- In degrees per frame local MAX_SPEED = 1.0 local EXTRA_SPEED_FACTOR = 1.85 local LOW_SPEED_FACTOR = 0.40 local ACCELERATION = 0.025 local EXTRA_ACCELERATION_FACTOR = 1.8 local LOW_ACCELERATION_FACTOR = 0.85 local TAKEOFF_VELOCITY = 1.75 local TAKEOFF_FLIGHT_DELAY = 750 local SMOKING_SPEED = 1.25 local GROUND_ZERO_TOLERANCE = 0.18 local LANDING_DISTANCE = 3.2 local FLIGHT_ANIMLIB = "swim" local FLIGHT_ANIMATION = "Swim_Dive_Under" local FLIGHT_ANIM_LOOP = false local IDLE_ANIMLIB = "cop_ambient" local IDLE_ANIMATION = "Coplook_loop" local IDLE_ANIM_LOOP = true local MAX_Y_ROTATION = 55 local ROTATION_Y_SPEED = 3.8 -- Static global variables local thisResource = getThisResource() local rootElement = getRootElement() local localPlayer = getLocalPlayer() local serverGravity = getGravity() -- -- Utility functions -- local function isPlayerFlying(player) local data = getElementData(player, "superman:flying") if not data or data == false then return false else return true end end local function setPlayerFlying(player, state) if state == true then state = true else state = false end setElementData(player, "superman:flying", state) end local function iterateFlyingPlayers() local current = 1 local allPlayers = getElementsByType("player") return function() local player repeat player = allPlayers[current] current = current + 1 until not player or (isPlayerFlying(player) and isElementStreamedIn(player)) return player end end function Superman:restorePlayer(player) setPlayerFlying(player, false) setPedAnimation(player, false) setElementVelocity(player, 0, 0, 0) setElementRotation(player, 0, 0, 0) --setPedRotation(player, getPedRotation(player)) setElementCollisionsEnabled(player, true) self:destroySmokeGenerators(player) self.rotations[player] = nil self.previousVelocity[player] = nil end function Superman:createSmokeGenerator(player) local generator = createObject(2780, getElementPosition(player)) setElementCollisionsEnabled(generator, false) setObjectScale(generator, 0) return generator end function Superman:createSmokeGenerators(player) if not self.smokeGenerators[player] then local smokeGenerators = {} smokeGenerators[1] = self:createSmokeGenerator(player) attachElementToElement(smokeGenerators[1], player, 0.75, -0.2, -0.4, -40, 0, 60) smokeGenerators[2] = self:createSmokeGenerator(player) attachElementToElement(smokeGenerators[2], player, -0.75, -0.2, -0.4, -40, 0, -60) self.smokeGenerators[player] = smokeGenerators end end function Superman:destroySmokeGenerators(player) if self.smokeGenerators[player] then for k, v in ipairs(self.smokeGenerators[player]) do destroyElement(v) end self.smokeGenerators[player] = nil end end function angleDiff(angle1, angle2) angle1, angle2 = angle1 % 360, angle2 % 360 local diff = (angle1 - angle2) % 360 if diff <= 180 then return diff else return -(360 - diff) end end local function isPedInWater(ped) local pedPosition = Vector3D:new(getElementPosition(ped)) if pedPosition.z <= 0 then return true end local waterLevel = getWaterLevel(pedPosition.x, pedPosition.y, pedPosition.z) if not isElementStreamedIn(ped) or not waterLevel or waterLevel < pedPosition.z then return false else return true end end local function isnan(x) math.inf = 1/0 if x == math.inf or x == -math.inf or x ~= x then return true end return false end local function getVector2DAngle(vec) if vec.x == 0 and vec.y == 0 then return 0 end local angle = math.deg(math.atan(vec.x / vec.y)) + 90 if vec.y < 0 then angle = angle + 180 end return angle end -- -- Initialization and shutdown functions -- function Superman.Start() local self = Superman -- Register events addEventHandler("onClientResourceStop", getResourceRootElement(thisResource), Superman.Stop, false) addEventHandler("onPlayerJoin", rootElement, Superman.onJoin) addEventHandler("onPlayerQuit", rootElement, Superman.onQuit) addEventHandler("onClientPreRender", rootElement, Superman.processControls) addEventHandler("onClientPreRender", rootElement, Superman.processFlight) addEventHandler("onClientPlayerDamage", localPlayer, Superman.onDamage, false) addEventHandler("onClientElementDataChange", rootElement, Superman.onDataChange) addEventHandler("onClientElementStreamIn", rootElement, Superman.onStreamIn) addEventHandler("onClientElementStreamOut", rootElement, Superman.onStreamOut) -- Bind keys bindKey("jump", "down", Superman.onJump) -- Register commands addCommandHandler("superman", Superman.cmdSuperman) -- Initializate attributes self.smokeGenerators = {} self.rotations = {} self.previousVelocity = {} end addEventHandler("onClientResourceStart", getResourceRootElement(thisResource), Superman.Start, false) function Superman.Stop() local self = Superman setGravity(serverGravity) -- Restore all players animations, collisions, etc for player in iterateFlyingPlayers() do self:restorePlayer(player) end end -- -- Join/Quit -- function Superman.onJoin(player) local self = Superman local player = player or source setPlayerFlying(player, false) end function Superman.onQuit(reason, player) local self = Superman local player = player or source if isPlayerFlying(player) then self:restorePlayer(player) end end -- -- onDamage: superman is invulnerable -- function Superman.onDamage() local self = Superman if isPlayerFlying(localPlayer) then cancelEvent() end end -- -- onStreamIn: Reset rotation attribute for player -- function Superman.onStreamIn() local self = Superman end function Superman.onStreamOut() local self = Superman if source and isElement(source) and getElementType(source) == "player" and isPlayerFlying(source) then self.rotations[source] = nil self.previousVelocity[source] = nil end end -- -- onDataChange: Check if somebody who is out of stream stops being superman -- function Superman.onDataChange(dataName, oldValue) local self = Superman if dataName == "superman:flying" and isElement(source) and getElementType(source) == "player" and oldValue ~= getElementData(source, dataName) and oldValue == true and getElementData(source, dataName) == false then self:restorePlayer(source) end end -- -- onJump: Combo to start flight without any command -- function Superman.onJump(key, keyState) local self = Superman local task = getPlayerSimplestTask(localPlayer) if not isPlayerFlying(localPlayer) then if task == "TASK_SIMPLE_IN_AIR" then setElementVelocity(localPlayer, 0, 0, TAKEOFF_VELOCITY) setTimer(Superman.startFlight, 100, 1) end end end -- -- Commands -- function Superman.cmdSuperman() local self = Superman if isPedInVehicle(localPlayer) or isPlayerFlying(localPlayer) then return end setElementVelocity(localPlayer, 0, 0, TAKEOFF_VELOCITY) setTimer(Superman.startFlight, TAKEOFF_FLIGHT_DELAY, 1) end function Superman.startFlight() local self = Superman if isPlayerFlying(localPlayer) then return end triggerServerEvent("superman:start", rootElement) setPlayerFlying(localPlayer, true) setElementVelocity(localPlayer, 0, 0, 0) self.currentSpeed = 0 self.extraVelocity = { x = 0, y = 0, z = 0 } end -- -- Controls processing -- function Superman.processControls() local self = Superman if not isPlayerFlying(localPlayer) then return end if getElementHealth(localPlayer) < 100.0 then setElementHealth(localPlayer, 100.0) end -- Calculate the requested movement direction local Direction = Vector3D:new(0, 0, 0) if getControlState("forwards") then Direction.y = 1 elseif getControlState("backwards") then Direction.y = -1 end if getControlState("left") then Direction.x = 1 elseif getControlState("right") then Direction.x = -1 end Direction:Normalize() -- Calculate the sight direction local cameraX, cameraY, cameraZ, lookX, lookY, lookZ = getCameraMatrix() local SightDirection = Vector3D:new((lookX - cameraX), (lookY - cameraY), (lookZ - cameraZ)) SightDirection:Normalize() if getControlState("look_behind") then SightDirection = SightDirection:Mul(-1) end -- Calculate the current max speed and acceleration values local maxSpeed = MAX_SPEED local acceleration = ACCELERATION if getControlState("sprint") then maxSpeed = MAX_SPEED * EXTRA_SPEED_FACTOR acceleration = acceleration * EXTRA_ACCELERATION_FACTOR elseif getControlState("walk") then maxSpeed = MAX_SPEED * LOW_SPEED_FACTOR acceleration = acceleration * LOW_ACCELERATION_FACTOR end local DirectionModule = Direction:Module() -- Check if we must change the gravity if DirectionModule == 0 and self.currentSpeed ~= 0 then setGravity(0) else setGravity(serverGravity) end -- Calculate the new current speed if self.currentSpeed ~= 0 and (DirectionModule == 0 or self.currentSpeed > maxSpeed) then -- deccelerate self.currentSpeed = self.currentSpeed - acceleration if self.currentSpeed < 0 then self.currentSpeed = 0 end elseif DirectionModule ~= 0 and self.currentSpeed < maxSpeed then -- accelerate self.currentSpeed = self.currentSpeed + acceleration if self.currentSpeed > maxSpeed then self.currentSpeed = maxSpeed end end -- Calculate the movement requested direction if DirectionModule ~= 0 then Direction = Vector3D:new(SightDirection.x * Direction.y - SightDirection.y * Direction.x, SightDirection.x * Direction.x + SightDirection.y * Direction.y, SightDirection.z * Direction.y) -- Save the last movement direction for when player releases all direction keys self.lastDirection = Direction else -- Player is not specifying any direction, use last known direction or the current velocity if self.lastDirection then Direction = self.lastDirection if self.currentSpeed == 0 then self.lastDirection = nil end else Direction = Vector3D:new(getElementVelocity(localPlayer)) end end Direction:Normalize() Direction = Direction:Mul(self.currentSpeed) -- Applicate a smooth direction change, if moving if self.currentSpeed > 0 then local VelocityDirection = Vector3D:new(getElementVelocity(localPlayer)) VelocityDirection:Normalize() if math.sqrt(VelocityDirection.x^2 + VelocityDirection.y^2) > 0 then local DirectionAngle = getVector2DAngle(Direction) local VelocityAngle = getVector2DAngle(VelocityDirection) local diff = angleDiff(DirectionAngle, VelocityAngle) local calculatedAngle if diff >= 0 then if diff > MAX_ANGLE_SPEED then calculatedAngle = VelocityAngle + MAX_ANGLE_SPEED else calculatedAngle = DirectionAngle end else if diff < MAX_ANGLE_SPEED then calculatedAngle = VelocityAngle - MAX_ANGLE_SPEED else calculatedAngle = DirectionAngle end end calculatedAngle = calculatedAngle % 360 local DirectionModule2D = math.sqrt(Direction.x^2 + Direction.y^2) Direction.x = -DirectionModule2D*math.cos(math.rad(calculatedAngle)) Direction.y = DirectionModule2D*math.sin(math.rad(calculatedAngle)) end end if Direction:Module() == 0 then self.extraVelocity = { x = 0, y = 0, z = 0 } end -- Set the new velocity setElementVelocity(localPlayer, Direction.x + self.extraVelocity.x, Direction.y + self.extraVelocity.y, Direction.z + self.extraVelocity.z) if self.extraVelocity.z > 0 then self.extraVelocity.z = self.extraVelocity.z - 1 if self.extraVelocity.z < 0 then self.extraVelocity.z = 0 end elseif self.extraVelocity.z < 0 then self.extraVelocity.z = self.extraVelocity.z + 1 if self.extraVelocity.z > 0 then self.extraVelocity.z = 0 end end end -- -- Players flight processing -- function Superman.processFlight() local self = Superman for player in iterateFlyingPlayers() do local Velocity = Vector3D:new(getElementVelocity(player)) local distanceToBase = getElementDistanceFromCentreOfMassToBaseOfModel(player) local playerPos = Vector3D:new(getElementPosition(player)) playerPos.z = playerPos.z - distanceToBase local distanceToGround if playerPos.z > 0 then local hit, hitX, hitY, hitZ, hitElement = processLineOfSight(playerPos.x, playerPos.y, playerPos.z, playerPos.x, playerPos.y, playerPos.z - LANDING_DISTANCE - 1, true, true, true, true, true, false, false, false) if hit then distanceToGround = playerPos.z - hitZ end end if distanceToGround and distanceToGround < GROUND_ZERO_TOLERANCE then self:restorePlayer(player) if player == localPlayer then setGravity(serverGravity) triggerServerEvent("superman:stop", getRootElement()) end elseif distanceToGround and distanceToGround < LANDING_DISTANCE then self:processLanding(player, Velocity, distanceToGround) elseif Velocity:Module() < ZERO_TOLERANCE then self:processIdleFlight(player) else self:processMovingFlight(player, Velocity) end end end function Superman:processIdleFlight(player) -- Set the proper animation on the player local animLib, animName = getPedAnimation(player) if animLib ~= IDLE_ANIMLIB or animName ~= IDLE_ANIMATION then setPedAnimation(player, IDLE_ANIMLIB, IDLE_ANIMATION, -1, IDLE_ANIM_LOOP, false, false) end setElementCollisionsEnabled(player, false) -- If this is myself, calculate the ped rotation depending on the camera rotation if player == localPlayer then local cameraX, cameraY, cameraZ, lookX, lookY, lookZ = getCameraMatrix() local Sight = Vector3D:new(lookX - cameraX, lookY - cameraY, lookZ - cameraZ) Sight:Normalize() if getControlState("look_behind") then Sight = Sight:Mul(-1) end Sight.z = math.atan(Sight.x / Sight.y) if Sight.y > 0 then Sight.z = Sight.z + math.pi end Sight.z = math.deg(Sight.z) + 180 setPedRotation(localPlayer, Sight.z) setElementRotation(localPlayer, 0, 0, Sight.z) else local Zangle = getPedCameraRotation(player) setPedRotation(player, Zangle) setElementRotation(player, 0, 0, Zangle) end end function Superman:processMovingFlight(player, Velocity) -- Set the proper animation on the player local animLib, animName = getPedAnimation(player) if animLib ~= FLIGHT_ANIMLIB or animName ~= FLIGHT_ANIMATION then setPedAnimation(player, FLIGHT_ANIMLIB, FLIGHT_ANIMATION, -1, FLIGHT_ANIM_LOOP, true, false) end if player == localPlayer then setElementCollisionsEnabled(player, true) else setElementCollisionsEnabled(player, false) end -- Calculate the player rotation depending on their velocity local Rotation = Vector3D:new(0, 0, 0) if Velocity.x == 0 and Velocity.y == 0 then Rotation.z = getPedRotation(player) else Rotation.z = math.deg(math.atan(Velocity.x / Velocity.y)) if Velocity.y > 0 then Rotation.z = Rotation.z - 180 end Rotation.z = (Rotation.z + 180) % 360 end Rotation.x = -math.deg(Velocity.z / Velocity:Module() * 1.2) -- Rotation compensation for the self animation rotation Rotation.x = Rotation.x - 40 -- Calculate the Y rotation for barrel rotations if not self.rotations[player] then self.rotations[player] = 0 end if not self.previousVelocity[player] then self.previousVelocity[player] = Vector3D:new(0, 0, 0) end local previousAngle = getVector2DAngle(self.previousVelocity[player]) local currentAngle = getVector2DAngle(Velocity) local diff = angleDiff(currentAngle, previousAngle) if isnan(diff) then diff = 0 end local calculatedYRotation = -diff * MAX_Y_ROTATION / MAX_ANGLE_SPEED if calculatedYRotation > self.rotations[player] then if calculatedYRotation - self.rotations[player] > ROTATION_Y_SPEED then self.rotations[player] = self.rotations[player] + ROTATION_Y_SPEED else self.rotations[player] = calculatedYRotation end else if self.rotations[player] - calculatedYRotation > ROTATION_Y_SPEED then self.rotations[player] = self.rotations[player] - ROTATION_Y_SPEED else self.rotations[player] = calculatedYRotation end end if self.rotations[player] > MAX_Y_ROTATION then self.rotations[player] = MAX_Y_ROTATION elseif self.rotations[player] < -MAX_Y_ROTATION then self.rotations[player] = -MAX_Y_ROTATION elseif math.abs(self.rotations[player]) < ZERO_TOLERANCE then self.rotations[player] = 0 end Rotation.y = self.rotations[player] -- Apply the calculated rotation setPedRotation(player, Rotation.z) setElementRotation(player, Rotation.x, Rotation.y, Rotation.z) -- Save the current velocity self.previousVelocity[player] = Velocity -- If the speed is over the given value, create the smoke generators if Velocity:Module() > (SMOKING_SPEED - ZERO_TOLERANCE) and not isPedInWater(player) then self:createSmokeGenerators(player) else self:destroySmokeGenerators(player) end end function Superman:processLanding(player, Velocity, distanceToGround) -- Set the proper animation on the player local animLib, animName = getPedAnimation(player) if animLib ~= FLIGHT_ANIMLIB or animName ~= FLIGHT_ANIMATION then setPedAnimation(player, FLIGHT_ANIMLIB, FLIGHT_ANIMATION, -1, FLIGHT_ANIM_LOOP, true, false) end if player == localPlayer then setElementCollisionsEnabled(player, true) else setElementCollisionsEnabled(player, false) end -- If the speed is over the given value, create the smoke generators if Velocity:Module() > (SMOKING_SPEED - ZERO_TOLERANCE) and not isPedInWater(player) then self:createSmokeGenerators(player) else self:destroySmokeGenerators(player) end -- Calculate the player rotation depending on their velocity and distance to ground local Rotation = Vector3D:new(0, 0, 0) if Velocity.x == 0 and Velocity.y == 0 then Rotation.z = getPedRotation(player) else Rotation.z = math.deg(math.atan(Velocity.x / Velocity.y)) if Velocity.y > 0 then Rotation.z = Rotation.z - 180 end Rotation.z = (Rotation.z + 180) % 360 end Rotation.x = -(85 - (distanceToGround * 85 / LANDING_DISTANCE)) -- Rotation compensation for the self animation rotation Rotation.x = Rotation.x - 40 -- Apply the calculated rotation setPedRotation(player, Rotation.z) setElementRotation(player, Rotation.x, Rotation.y, Rotation.z) end -- -- Vectors -- Vector3D = { new = function(self, _x, _y, _z) local newVector = { x = _x or 0.0, y = _y or 0.0, z = _z or 0.0 } return setmetatable(newVector, { __index = Vector3D }) end, Copy = function(self) return Vector3D:new(self.x, self.y, self.z) end, Normalize = function(self) local mod = self:Module() if mod ~= 0 then self.x = self.x / mod self.y = self.y / mod self.z = self.z / mod end end, Dot = function(self, V) return self.x * V.x + self.y * V.y + self.z * V.z end, Module = function(self) return math.sqrt(self.x * self.x + self.y * self.y + self.z * self.z) end, AddV = function(self, V) return Vector3D:new(self.x + V.x, self.y + V.y, self.z + V.z) end, SubV = function(self, V) return Vector3D:new(self.x - V.x, self.y - V.y, self.z - V.z) end, CrossV = function(self, V) return Vector3D:new(self.y * V.z - self.z * V.y, self.z * V.x - self.x * V.z, self.x * V.y - self.y * V.z) end, Mul = function(self, n) return Vector3D:new(self.x * n, self.y * n, self.z * n) end, Div = function(self, n) return Vector3D:new(self.x / n, self.y / n, self.z / n) end, MulV = function(self, V) return Vector3D:new(self.x * V.x, self.y * V.y, self.z * V.z) end, DivV = function(self, V) return Vector3D:new(self.x / V.x, self.y / V.y, self.z / V.z) end, } esta el server.lua y supongo que ahí entra la edición para poder poner solo para admins local Superman = {} -- Static global values local rootElement = getRootElement() local thisResource = getThisResource() -- Resource events addEvent("superman:start", true) addEvent("superman:stop", true) -- -- Start/stop functions -- function Superman.Start() local self = Superman addEventHandler("superman:start", rootElement, self.clientStart) addEventHandler("superman:stop", rootElement, self.clientStop) end addEventHandler("onResourceStart", getResourceRootElement(thisResource), Superman.Start, false) function Superman.clientStart() setElementData(client, "superman:flying", true) end function Superman.clientStop() setElementData(client, "superman:flying", false) end y la meta que dice esto <meta> <info author="Alberto Alonso (ryden)" version="1.0" type="script" /> <script src="server.lua" type="server" /> <script src="client.lua" type="client" /> </meta> que edito?