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- Player = game.Players.TheMadKiller104
- PlayerGui = Player.PlayerGui
- Screen = Instance.new("ScreenGui", PlayerGui)
- rope = Instance.new("TextButton", Screen)
- rope.Position = UDim2.new(0, 0, 0, 300)
- rope.Size = UDim2.new(0, 100, 0, 50)
- rope.Text = "Rope Swing"
- rope.MouseButton1Down:connect(function()
- SETTINGS = {}
- SETTINGS.GRAVITY = 196.2*1
- user = game.Players.LocalPlayer
- repeat wait() until user.Character
- char = user.Character
- mouse = user:GetMouse()
- l_arm = char:WaitForChild("Left Arm")
- r_arm = char:WaitForChild("Right Arm")
- l_leg = char:WaitForChild("Left Leg")
- r_leg = char:WaitForChild("Right Leg")
- head = char:WaitForChild("Head")
- Points = {}
- Constraints = {}
- Point = {}
- Point.new = function( x, y, z )
- local self = setmetatable( {}, { __index = Point } )
- self.x = x
- self.y = y
- self.z = z
- self.prevX = x
- self.prevY = y
- self.prevZ = z
- self.velX = 0
- self.velY = 0
- self.velZ = 0
- self.accX = 0
- self.accY = 0
- self.accZ = 0
- self.forceX = 0
- self.forceY = 0
- self.forceZ = 0
- self.pinned = false
- self.mass = 1
- return self
- end
- Point.update = function( self, delta )
- if not self.pinned then
- self.accX = 0
- self.accY = -SETTINGS.GRAVITY
- self.accZ = 0
- self.velX = ( self.x - self.prevX + self.forceX ) --* delta * 30
- self.velY = ( self.y - self.prevY + self.forceY ) --* delta * 30
- self.velZ = ( self.z - self.prevZ + self.forceZ ) --* delta * 30
- local nextX = self.x + self.velX*0.9985 + self.accX * delta^2
- local nextY = self.y + self.velY*0.9985 + self.accY * delta^2
- local nextZ = self.z + self.velZ*0.9985 + self.accZ * delta^2
- self.prevX = self.x
- self.prevY = self.y
- self.prevZ = self.z
- self.x = nextX
- self.y = nextY
- self.z = nextZ
- else
- self.accX = 0
- self.accY = 0
- self.accZ = 0
- self.velX = 0
- self.velY = 0
- self.velZ = 0
- self.prevX = self.x
- self.prevY = self.y
- self.prevZ = self.z
- end
- self.forceX = 0
- self.forceY = 0
- self.forceZ = 0
- end
- Point.setPinned = function(self, pinned)
- self.pinned = pinned
- end
- Point.setMass = function(self, mass)
- self.mass = mass
- end
- Point.getPosition = function( self )
- return Vector3.new( self.x, self.y, self.z )
- end
- Point.setPosition = function( self, pos )
- self.x = pos.x
- self.y = pos.y
- self.z = pos.z
- end
- Point.setForce = function(self, fx, fy, fz)
- self.forceX = fx
- self.forceY = fy
- self.forceZ = fz
- end
- Point.isPinned = function(self)
- return self.pinned
- end
- Constraint = {}
- Constraint.new = function( point1, point2, dist )
- local self = setmetatable( {}, { __index = Constraint } )
- self.point1 = point1
- self.point2 = point2
- self.desireddistance = dist
- self.line = Instance.new("Part", Game.Workspace)
- self.line.CanCollide = false
- self.line.FormFactor = "Custom"
- self.line.Size = Vector3.new( .2, .2, .2 )
- self.line.Anchored = true
- self.line.BrickColor = BrickColor.new("Institutional white")
- self.mesh = Instance.new("BlockMesh", self.line)
- self.mesh.Scale = Vector3.new( 0.3, 0.3, 5 ) / 0.2
- return self
- end
- Constraint.solve = function( self )
- if not self:isDisconnected() then
- local diffX = self.point1.x - self.point2.x
- local diffY = self.point1.y - self.point2.y
- local diffZ = self.point1.z - self.point2.z
- local dist = math.sqrt( diffX^2 + diffY^2 + diffZ^2 )
- local difference = ( self.desireddistance - dist ) / dist
- local massratio = self.point1.mass/self.point2.mass --?
- local translateX = diffX * 0.5 * difference
- local translateY = diffY * 0.5 * difference
- local translateZ = diffZ * 0.5 * difference
- if not self.point1.pinned then
- self.point1.x = self.point1.x + translateX
- self.point1.y = self.point1.y + translateY
- self.point1.z = self.point1.z + translateZ
- end
- if not self.point2.pinned then
- self.point2.x = self.point2.x - translateX
- self.point2.y = self.point2.y - translateY
- self.point2.z = self.point2.z - translateZ
- end
- end
- end
- Constraint.draw = function( self )
- if not self:isDisconnected() and self.line and self.mesh then
- local dist = math.sqrt(
- ( self.point1.x - self.point2.x )^2 +
- ( self.point1.y - self.point2.y )^2 +
- ( self.point1.z - self.point2.z )^2
- )
- self.line.CFrame = CFrame.new(
- Vector3.new( self.point1.x, self.point1.y, self.point1.z ),
- Vector3.new( self.point2.x, self.point2.y, self.point2.z )
- ) * CFrame.new( 0, 0, - dist / 2 )
- self.mesh.Scale = Vector3.new( 0.3, 0.3, dist ) / 0.2
- end
- end
- Constraint.remove = function( self )
- if self.line then self.line:Destroy() self.line = nil end
- if self.mesh then self.mesh:Destroy() self.mesh = nil end
- self.point1 = nil
- self.point2 = nil
- end
- Constraint.isDisconnected = function( self )
- return not (self.point1 and self.point2)
- end
- Constraint.setDistance = function( self, dist )
- self.desireddistance = dist
- end
- char_point = Point.new( 0, 100, 0 )
- for _,v in pairs(char.Torso:children()) do
- if v:IsA("Motor6D") and v.Name ~= "Neck" then
- v:Destroy()
- end
- end
- for _,v in pairs(char:children()) do
- if v:IsA("BasePart") then
- v.Anchored = true
- end
- end
- ragdoll = {}
- ragdoll.l_shoulder = Point.new( 0, 0, 0 )
- ragdoll.r_shoulder = Point.new( 0, 0, 0 )
- ragdoll.l_hip = Point.new( 0, 0, 0 )
- ragdoll.r_hip = Point.new( 0, 0, 0 )
- ragdoll.l_shoulder:setPinned( true )
- ragdoll.r_shoulder:setPinned( true )
- ragdoll.l_hip:setPinned( true )
- ragdoll.r_hip:setPinned( true )
- ragdoll.l_arm = Point.new( 0, -2, 0 )
- ragdoll.r_arm = Point.new( 0, -2, 0 )
- ragdoll.l_leg = Point.new( 0, -2, 0 )
- ragdoll.r_leg = Point.new( 0, -2, 0 )
- local l_arm_w = Constraint.new(ragdoll.l_shoulder, ragdoll.l_arm, 2)
- local r_arm_w = Constraint.new(ragdoll.r_shoulder, ragdoll.r_arm, 2)
- local l_leg_w = Constraint.new(ragdoll.l_hip, ragdoll.l_leg, 2)
- local r_leg_w = Constraint.new(ragdoll.r_hip, ragdoll.r_leg, 2)
- firstpoint = nil
- attachpoint = nil
- attachpart = nil
- attachoffset = Vector3.new()
- length = 8
- webshot = false
- local pointbool = false
- function shoot( from, to )
- if not webshot then
- local hit, hitpos = workspace:FindPartOnRay(Ray.new( from, (to-from).unit*999 ), char)
- if hit then
- webshot = true
- to = hitpos
- for _,v in pairs(Constraints) do
- v:remove()
- end
- attachpart = hit
- attachoffset = attachpart.CFrame:pointToObjectSpace( hitpos )
- length = 8
- Constraints = {}
- Points = {}
- local dir = ( to - from ).unit
- local dist = ( to - from ).magnitude
- if dist > 1000 then
- dist = 1000
- to = from + dir*1000
- end
- pointbool = true
- local amnt = math.floor( dist/length )
- amnt = amnt < 2 and 2 or amnt
- local temp = {}
- for y = 1, amnt do
- local pos = from:Lerp( to, y/amnt )
- local rx, ry, rz = ( math.random()-0.5 )*2, ( math.random()-0.5 )*2, ( math.random()-0.5 )*2
- temp[y] = Point.new( pos.x+rx, pos.y+ry, pos.z+rz)
- if y ~= 1 then
- table.insert(Constraints, Constraint.new(temp[y-1], temp[y], length*1) )
- else
- firstpoint = temp[y]
- table.insert(Constraints, Constraint.new(char_point, firstpoint, 1) )
- end
- if y == amnt then
- temp[y]:setPinned(true)
- attachpoint = temp[y]
- end
- end
- for _,p in pairs(temp) do
- table.insert(Points, p)
- end
- end
- else
- attachpart = nil
- attachpoint = nil
- attachoffset = Vector3.new()
- webshot = false
- for _,v in pairs(Constraints) do
- v:remove()
- end
- Constraints = {}
- Points = {}
- end
- end
- keys = {}
- mouse.Button1Down:connect(function()
- shoot( Vector3.new(char_point.x, char_point.y, char_point.z ), mouse.Hit.p )
- end)
- mouse.KeyDown:connect(function(key)
- keys[ string.byte(key) ] = true
- end)
- mouse.KeyUp:connect(function(key)
- keys[ string.byte(key) ] = false
- end)
- prevtime = tick()
- function loop( )
- local delta = tick()-prevtime
- prevtime = tick()
- if keys[32] then
- length = length - 0.1*30*delta
- if length < 2 then length = 2 end
- end
- if keys[48] then
- length = length + 0.1*30*delta
- if length > 11 then length = 11 end
- end
- if attachpart and attachpoint then
- local po = attachpart.CFrame * attachoffset
- attachpoint.x = po.x
- attachpoint.y = po.y
- attachpoint.z = po.z
- end
- char_point:update( delta )
- if char_point.y < -150 then
- char_point = Point.new( 0, 150, 0 )
- end
- if pointbool then
- for _,p in pairs(Points) do
- p:setForce( char_point.velX*0.9, char_point.velY*0.9, char_point.velZ*0.9 )
- end
- pointbool = false
- end
- for _,p in pairs(Points) do
- p:update( delta )
- end
- for _,v in pairs(char:children()) do
- if v:IsA("BasePart") then
- v.Velocity = Vector3.new()
- v.RotVelocity = Vector3.new()
- end
- end
- if firstpoint then
- char.Torso.CFrame = CFrame.new(
- Vector3.new(char_point.x, char_point.y, char_point.z),
- Vector3.new(firstpoint.x, firstpoint.y, firstpoint.z)
- ) * CFrame.Angles(math.rad(-90), 0, 0)
- else
- char.Torso.CFrame = CFrame.new( char_point.x, char_point.y, char_point.z )
- end
- head.CFrame = char.Torso.CFrame * CFrame.new( 0, 1.5, 0 )
- for _,c in pairs(Constraints) do
- c:setDistance( length )
- end
- local tcf = char.Torso.CFrame
- ragdoll.l_shoulder:setPosition( tcf*CFrame.new( -1.5, 0.5, 0 ).p )
- ragdoll.r_shoulder:setPosition( tcf*CFrame.new( 1.5, 0.5, 0 ).p )
- ragdoll.l_hip:setPosition( tcf*CFrame.new( -0.5, -1, 0 ).p )
- ragdoll.r_hip:setPosition( tcf*CFrame.new( 0.5, -1, 0 ).p )
- for _,v in pairs(ragdoll) do
- v:update( delta*0.93 )
- end
- for i = 1, 15 do
- for _,c in pairs(Constraints) do
- c:solve()
- end
- l_arm_w:solve()
- r_arm_w:solve()
- l_leg_w:solve()
- r_leg_w:solve()
- end
- for _,c in pairs(Constraints) do
- c:draw()
- end
- l_arm.CFrame = CFrame.new( ragdoll.l_shoulder:getPosition(), ragdoll.l_arm:getPosition() ) * CFrame.Angles(math.pi/2, 0, 0) * CFrame.new( 0, -0.5, 0 )
- r_arm.CFrame = CFrame.new( ragdoll.r_shoulder:getPosition(), ragdoll.r_arm:getPosition() ) * CFrame.Angles(math.pi/2, 0, 0) * CFrame.new( 0, -0.5, 0 )
- l_leg.CFrame = CFrame.new( ragdoll.l_hip:getPosition(), ragdoll.l_leg:getPosition() ) * CFrame.Angles(math.pi/2, 0, 0) * CFrame.new( 0, -1, 0 )
- r_leg.CFrame = CFrame.new( ragdoll.r_hip:getPosition(), ragdoll.r_leg:getPosition() ) * CFrame.Angles(math.pi/2, 0, 0) * CFrame.new( 0, -1, 0 )
- end
- game:getService("RunService").Stepped:connect(loop)
- end)
- elas = Instance.new("TextButton", Screen)
- elas.Position = UDim2.new(0, 0, 0, 350)
- elas.Size = UDim2.new(0, 100, 0, 50)
- elas.Text = "Elastic Block"
- elas.MouseButton1Down:connect(function()
- SETTINGS = {}
- SETTINGS.GRAVITY = 196.2*1
- user = game.Players.LocalPlayer
- repeat wait() until user.Character
- playergui = user.PlayerGui
- screengui = Instance.new("ScreenGui", playergui)
- screengui.Name = "xSoul Physics Sandbox"
- camera = workspace.CurrentCamera
- function screenToWorld(x,y)
- local viewsize = screengui.AbsoluteSize/2
- local a = math.tan(camera.FieldOfView*math.pi/360)
- local bx = (viewsize.x-x)/viewsize.x*(a*viewsize.X/viewsize.Y)
- local by = (viewsize.y-y)/viewsize.y*a
- return camera.CoordinateFrame:vectorToWorldSpace(Vector3.new(-bx,by,-1).unit)
- end
- char = user.Character
- mouse = user:GetMouse()
- SavedPoints = {}
- SavedConstraints = {}
- Points = {}
- Constraints = {}
- Point = {}
- Point.new = function( x, y, z )
- local self = setmetatable( {}, { __index = Point } )
- self.x = x
- self.y = y
- self.z = z
- self.prevX = x
- self.prevY = y
- self.prevZ = z
- self.velX = 0
- self.velY = 0
- self.velZ = 0
- self.accX = 0
- self.accY = 0
- self.accZ = 0
- self.forceX = 0
- self.forceY = 0
- self.forceZ = 0
- self.pinned = false
- self.renderable = true
- self.renderstate = true
- self.part = Instance.new("Part")
- self.part.FormFactor = "Custom"
- self.part.Size = Vector3.new(1,1,1)*0.2
- self.part.Anchored = true
- self.part.Parent = self.renderable and workspace or nil
- self.mesh = Instance.new("SpecialMesh",self.part)
- self.mesh.MeshType = "Sphere"
- self.mesh.Scale = Vector3.new(0.7, 0.7, 0.7)/0.2
- return self
- end
- Point.update = function( self, delta )
- if not self.pinned then
- self.accX = 0
- self.accY = -SETTINGS.GRAVITY
- self.accZ = 0
- self.velX = ( self.x - self.prevX + self.forceX ) --* delta * 30
- self.velY = ( self.y - self.prevY + self.forceY ) --* delta * 30
- self.velZ = ( self.z - self.prevZ + self.forceZ ) --* delta * 30
- if self.y <= 0.8 then
- self.velX = self.velX * 0.35
- self.velZ = self.velZ * 0.35
- self.velY = math.abs( self.velY )*0.93
- self.accY = SETTINGS.GRAVITY*(#Points-1)
- end
- local nextX = self.x + self.velX*0.999 + self.accX * delta^2
- local nextY = self.y + self.velY*0.999 + self.accY * delta^2
- local nextZ = self.z + self.velZ*0.999 + self.accZ * delta^2
- self.prevX = self.x
- self.prevY = self.y
- self.prevZ = self.z
- self.x = nextX
- self.y = nextY
- self.z = nextZ
- else
- self.accX = 0
- self.accY = 0
- self.accZ = 0
- self.velX = 0
- self.velY = 0
- self.velZ = 0
- self.prevX = self.x
- self.prevY = self.y
- self.prevZ = self.z
- end
- self.forceX = 0
- self.forceY = 0
- self.forceZ = 0
- end
- Point.draw = function(self)
- if self.part and self.renderable and self.renderstate then
- if self.part.Parent ~= workspace then
- self.part.Parent = workspace
- end
- self.part.CFrame = CFrame.new(self.x, self.y, self.z)
- else
- if self.part.Parent ~= nil then
- self.part.Parent = nil
- end
- end
- end
- Point.setPinned = function(self, pinned)
- self.pinned = pinned
- end
- Point.setForce = function(self, fx, fy, fz)
- self.forceX = fx
- self.forceY = fy
- self.forceZ = fz
- end
- Point.isPinned = function(self)
- return self.pinned
- end
- Point.clone = function(self)
- local p = Point.new( self.x, self.y, self.z )
- p:setPinned( self.pinned )
- p.renderable = self.renderable
- return p
- end
- Point.destroy = function( self )
- if self.part then self.part:Destroy() end
- end
- Point.setRenderState = function( self, renderstate )
- if self.renderable then
- self.renderstate = renderstate
- end
- end
- Constraint = {}
- Constraint.new = function( point1, point2, dist, renderable )
- local self = setmetatable( {}, { __index = Constraint } )
- self.point1 = point1
- self.point2 = point2
- self.renderable = renderable
- self.renderstate = renderable
- self.desireddistance = dist
- self.line = Instance.new("Part")
- self.line.CanCollide = false
- self.line.FormFactor = "Custom"
- self.line.Size = Vector3.new( .2, .2, .2 )
- self.line.Anchored = true
- self.line.BrickColor = BrickColor.new("Institutional white")
- self.line.Parent = renderable and workspace or nil
- self.mesh = Instance.new("BlockMesh", self.line)
- self.mesh.Scale = Vector3.new( 0.3, 0.3, 5 ) / 0.2
- return self
- end
- Constraint.solve = function( self )
- if not self:isDisconnected() then
- local diffX = self.point1.x - self.point2.x
- local diffY = self.point1.y - self.point2.y
- local diffZ = self.point1.z - self.point2.z
- local dist = math.sqrt( diffX^2 + diffY^2 + diffZ^2 )
- local difference = ( self.desireddistance - dist ) / dist
- local translateX = diffX * 0.00045 * difference
- local translateY = diffY * 0.00045 * difference
- local translateZ = diffZ * 0.00045 * difference
- if not self.point1.pinned then
- self.point1.x = self.point1.x + translateX
- self.point1.y = self.point1.y + translateY
- self.point1.z = self.point1.z + translateZ
- end
- if not self.point2.pinned then
- self.point2.x = self.point2.x - translateX
- self.point2.y = self.point2.y - translateY
- self.point2.z = self.point2.z - translateZ
- end
- end
- end
- Constraint.draw = function( self )
- if (not self:isDisconnected()) and self.renderable and self.renderstate then
- if self.line.Parent ~= workspace then
- self.line.Parent = workspace
- end
- local dist = math.sqrt(
- ( self.point1.x - self.point2.x )^2 +
- ( self.point1.y - self.point2.y )^2 +
- ( self.point1.z - self.point2.z )^2
- )
- self.line.CFrame = CFrame.new(
- Vector3.new( self.point1.x, self.point1.y, self.point1.z ),
- Vector3.new( self.point2.x, self.point2.y, self.point2.z )
- ) * CFrame.new( 0, 0, - dist / 2 )
- self.mesh.Scale = Vector3.new( 0.3, 0.3, dist + 0.3 ) / 0.2
- else
- if self.line.Parent ~= nil then
- self.line.Parent = nil
- end
- end
- end
- Constraint.isDisconnected = function( self )
- return not (self.point1 and self.point2)
- end
- Constraint.setDistance = function( self, dist )
- self.desireddistance = dist
- end
- Constraint.clone = function( self )
- local c = Constraint.new(self.point1, self.point2, self.desireddistance, self.renderable)
- return c
- end
- Constraint.destroy = function( self )
- if self.line then self.line:Destroy() end
- end
- Constraint.setRenderState = function( self, renderstate )
- if self.renderable then
- self.renderstate = renderstate
- end
- end
- function modify( properties )
- for prop, val in pairs(properties) do
- if prop ~= 1 then
- properties[1][prop] = val
- end
- end
- end
- function worldToScreen(x,y,z)
- local p = Vector3.new(x, y, z)
- local pos = camera.CoordinateFrame:pointToObjectSpace(p)
- local viewsize = Vector2.new(mouse.ViewSizeX,mouse.ViewSizeY)/2
- if pos.Z < 0 then
- local a = math.tan(camera.FieldOfView*math.pi/360)
- local scale = Vector2.new(a * viewsize.X/viewsize.Y,a)
- local b = Vector2.new(-pos.X,pos.Y) / pos.Z
- local c = viewsize + viewsize * b / scale
- return Vector2.new(math.floor(c.x), math.floor(c.y)), pos.Z
- else
- return Vector2.new(-100,-100)
- end
- end
- settings = {}
- settings.point = true
- settings.pinnedpoint = false
- settings.constraint = false
- settings.editmode = true
- backframe = Instance.new("Frame", screengui)
- modify { backframe,
- Size = UDim2.new( 0, 256, 0, 128+128 ), Position = UDim2.new(1, -256-16, 0, 16), BorderSizePixel = 3, BorderColor3 = Color3.new(0.68, 0.62, 0.56),
- BackgroundColor3 = Color3.new( 0.8, 0.75, 0.6 )
- }
- selectiongui = Instance.new("Frame", screengui)
- modify { selectiongui,
- Size = UDim2.new(0, 24, 0, 24), Rotation = 45, BackgroundColor3 = Color3.new(0.3, 0.9, 0.1), BorderSizePixel = 4,
- Transparency = 0.5, Position = UDim2.new(0, -100, 0, -100), BorderColor3 = Color3.new(0.1, 0.35, 0.05)
- }
- Checkboxes = {}
- CheckBox = {}
- CheckBox.new = function( parent, pos, property, func )
- local self = setmetatable( {}, { __index = CheckBox } )
- self.position = pos
- self.property = property
- self.gui = Instance.new("ImageButton", parent)
- modify{ self.gui,
- Size = UDim2.new(0, 32, 0, 32), Position = pos, BackgroundColor3 = Color3.new( 0.93, 0.87, 0.82 ), AutoButtonColor = false,
- BorderSizePixel = 3, BorderColor3 = Color3.new(0.72, 0.66, 0.6), Image = settings[property] and "rbxassetid://138510306" or ""
- }
- self.gui.MouseButton1Down:connect( function()
- func( self )
- end)
- return self
- end
- CheckBox.set = function(self, asd)
- settings[ self.property ] = asd
- self.gui.Image = settings[ self.property ] and "rbxassetid://138510306" or ""
- end
- local function typeboxfunc( self )
- for _,v in pairs(Checkboxes) do
- v:set(false)
- end
- self:set( not settings[self.property] )
- end
- local function generalboxfunc( self )
- self:set( not settings[self.property] )
- end
- local checkbox1 = CheckBox.new( backframe, UDim2.new(0, 8, 0, 8+40*0), "point", typeboxfunc )
- local checkbox2 = CheckBox.new( backframe, UDim2.new(0, 8, 0, 8+40*1), "pinnedpoint", typeboxfunc )
- local checkbox3 = CheckBox.new( backframe, UDim2.new(0, 8, 0, 8+40*2), "constraint", typeboxfunc )
- local editbox1 = CheckBox.new( backframe, UDim2.new(0, 8, 0, 8+40*3+10), "editmode", generalboxfunc )
- table.insert(Checkboxes, checkbox1)
- table.insert(Checkboxes, checkbox2)
- table.insert(Checkboxes, checkbox3)
- local text1 = Instance.new("TextLabel", checkbox1.gui)
- modify { text1,
- TextXAlignment = "Left", TextYAlignment = "Top", Position = UDim2.new( 1, 8, 0, 0 ), Size = UDim2.new(),
- Text = "Point", BackgroundTransparency = 1, TextColor3 = Color3.new(), FontSize = "Size18", Font = "SourceSans"
- }
- local text2 = Instance.new("TextLabel", checkbox2.gui)
- modify { text2,
- TextXAlignment = "Left", TextYAlignment = "Top", Position = UDim2.new( 1, 8, 0, 0 ), Size = UDim2.new(),
- Text = "Pinned point", BackgroundTransparency = 1, TextColor3 = Color3.new(), FontSize = "Size18", Font = "SourceSans"
- }
- local text3 = Instance.new("TextLabel", checkbox3.gui)
- modify { text3,
- TextXAlignment = "Left", TextYAlignment = "Top", Position = UDim2.new( 1, 8, 0, 0 ), Size = UDim2.new(),
- Text = "Constraint", BackgroundTransparency = 1, TextColor3 = Color3.new(), FontSize = "Size18", Font = "SourceSans"
- }
- local text4 = Instance.new("TextLabel", editbox1.gui)
- modify { text4,
- TextXAlignment = "Left", TextYAlignment = "Top", Position = UDim2.new( 1, 8, 0, 0 ), Size = UDim2.new(),
- Text = "Edit mode", BackgroundTransparency = 1, TextColor3 = Color3.new(), FontSize = "Size18", Font = "SourceSans"
- }
- paused = false
- running = false
- local startbutton = Instance.new("TextButton", backframe)
- modify { startbutton,
- Position = UDim2.new(0, 0, 1, 8), Size = UDim2.new(0.5, -4, 0, 32), BackgroundColor3 = Color3.new(0.8, 0.75, 0.6), FontSize = "Size24",
- Font = "SourceSans", TextColor3 = Color3.new(), Text = "START", BorderSizePixel = 3, BorderColor3 = Color3.new(0.68, 0.62, 0.56)
- }
- startbutton.MouseButton1Down:connect(function()
- if not running then
- for i,v in pairs(SavedPoints) do
- Points[i] = v:clone()
- v:setRenderState( false )
- end
- for i,v in pairs(SavedConstraints) do
- local con = v:clone()
- v:setRenderState( false )
- for ii, p in pairs(SavedPoints) do
- if p == v.point1 then
- con.point1 = Points[ii]
- elseif p == v.point2 then
- con.point2 = Points[ii]
- end
- end
- table.insert(Constraints, con)
- end
- running = true
- paused = false
- else
- paused = not paused
- end
- startbutton.Text = paused and "RETURN" or "PAUSE"
- end)
- local stopbutton = Instance.new("TextButton", backframe)
- modify { stopbutton,
- Position = UDim2.new(0.5, 4, 1, 8), Size = UDim2.new(0.5, -4, 0, 32), BackgroundColor3 = Color3.new(0.8, 0.75, 0.6), FontSize = "Size24",
- Font = "SourceSans", TextColor3 = Color3.new(), Text = "STOP", BorderSizePixel = 3, BorderColor3 = Color3.new(0.68, 0.62, 0.56)
- }
- stopbutton.MouseButton1Down:connect(function()
- running = false
- paused = false
- startbutton.Text = "START"
- for i,v in pairs(Points) do
- v:destroy()
- Points[i] = nil
- end
- for i,v in pairs(Constraints) do
- v:destroy()
- Constraints[i] = nil
- end
- for i,v in pairs(SavedPoints) do
- v:setRenderState(true)
- end
- for i,v in pairs(SavedConstraints) do
- v:setRenderState(true)
- end
- end)
- button1down = false
- click = false
- up = false
- mouse.Button1Down:connect(function()
- button1down = true
- click = true
- up = false
- end)
- mouse.Button1Up:connect(function()
- button1down = false
- up = true
- end)
- function cube( x, y, z, size )
- local sx = math.random()*size/2+size/2
- local sy = math.random()*size/2+size/2
- local sz = math.random()*size/2+size/2
- local blb = Point.new( x-sx, y-sy, z-sz ) blb.renderable = false
- local brb = Point.new( x+sx, y-sy, z-sz ) brb.renderable = false
- local tlb = Point.new( x-sx, y+sy, z-sz ) tlb.renderable = false
- local trb = Point.new( x+sx, y+sy, z-sz ) trb.renderable = false
- local blf = Point.new( x-sx, y-sy, z+sz ) blf.renderable = false
- local brf = Point.new( x+sx, y-sy, z+sz ) brf.renderable = false
- local tlf = Point.new( x-sx, y+sy, z+sz ) tlf.renderable = false
- local trf = Point.new( x+sx, y+sy, z+sz ) trf.renderable = false
- local function connect(pp1, pp2, rend)
- table.insert( SavedConstraints, Constraint.new( pp1, pp2, math.sqrt( (pp2.x-pp1.x)^2 + (pp2.y-pp1.y)^2 + (pp2.z-pp1.z)^2 ), rend) )
- end
- table.insert(SavedPoints, blb)
- table.insert(SavedPoints, brb)
- table.insert(SavedPoints, tlb)
- table.insert(SavedPoints, trb)
- table.insert(SavedPoints, blf)
- table.insert(SavedPoints, brf)
- table.insert(SavedPoints, tlf)
- table.insert(SavedPoints, trf)
- connect( blb, brb, true ) --front
- connect( blb, tlb, true )
- connect( brb, trb, true )
- connect( tlb, trb, true )
- connect( blf, brf, true ) --back
- connect( blf, tlf, true )
- connect( brf, trf, true )
- connect( tlf, trf, true )
- connect( blb, blf, true ) --edges
- connect( brb, brf, true )
- connect( tlb, tlf, true )
- connect( trb, trf, true )
- connect( blb, trb, false ) --back diagonal
- connect( brb, tlb, false ) --back diagonal
- connect( brf, tlf, false ) --front diagonal
- connect( blf, trf, false ) --front diagonal
- connect( blf, tlb, false ) --left diagonal
- connect( blb, tlf, false ) --left diagonal
- connect( brb, trf, false ) --right diagonal
- connect( brf, trb, false ) --right diagonal
- connect( trb, tlf, false ) -- top diagonal
- connect( tlb, trf, false ) -- top diagonal
- connect( blb, brf, false ) -- bottom diagonal
- connect( brb, blf, false ) -- bottom diagonal
- end
- selectedpoint = nil
- selecteddist = 20
- cube( 0, 20, 0, 8)
- prevtime = tick()
- function loop( )
- local delta = tick()-prevtime
- prevtime = tick()
- delta = 1/60
- if running and not paused then
- for x = 1, 8 do
- for _,p in pairs(Points) do
- p:update( delta/8 )
- end
- for i = 1, 8 do
- for _,c in pairs(Constraints) do
- c:solve()
- end
- end
- end
- end
- for _,p in pairs(SavedPoints) do
- p:draw()
- end
- for _,c in pairs(SavedConstraints) do
- c:draw()
- end
- for _,p in pairs(Points) do
- p:draw()
- end
- for _,c in pairs(Constraints) do
- c:draw()
- end
- local tab = nil
- if running then tab = Points else tab = SavedPoints end
- local z = -200
- local poss = Vector2.new(-100, -100)
- for _,p in pairs(tab) do
- local pos, zz = worldToScreen(p.x, p.y, p.z)
- local dist = math.sqrt( (pos.x-mouse.X)^2 + (pos.y-mouse.Y)^2 )
- if not selectedpoint then
- if dist < 24 then
- if zz > z then
- z = zz
- poss = pos
- if click then
- selectedpoint = p
- selecteddist = -zz
- end
- end
- end
- end
- end
- if selectedpoint then
- selectedpoint:setPinned( true )
- selectiongui.BackgroundColor3 = Color3.new( 0.1, 0.6, 0.2 )
- selectiongui.BorderColor3 = Color3.new( 0.03, 0.2, 0.03 )
- local pos, zz = worldToScreen( selectedpoint.x, selectedpoint.y, selectedpoint.z )
- selectiongui.Size = UDim2.new( 0, 16, 0, 16 )
- selectiongui.Position = UDim2.new( 0, pos.x-8, 0, pos.y-8 )
- else
- selectiongui.BorderColor3 = Color3.new(0.1, 0.35, 0.05)
- selectiongui.BackgroundColor3 = Color3.new(0.3, 0.9, 0.1)
- selectiongui.Size = UDim2.new( 0, 24, 0, 24 )
- selectiongui.Position = UDim2.new( 0, poss.x-12, 0, poss.y-12 )
- end
- if button1down and selectedpoint and settings.editmode then
- local pos = camera.CoordinateFrame.p + screenToWorld( mouse.X, mouse.Y ) * selecteddist
- local x, y, z = selectedpoint.x, selectedpoint.y, selectedpoint.z
- local dx, dy, dz = pos.x-x, pos.y-y, pos.z-z
- local d = math.sqrt( dx^2 + dy^2 + dz^2 )
- selectedpoint.x = pos.x
- selectedpoint.y = pos.y
- selectedpoint.z = pos.z
- selectedpoint:setForce( dx, dy, dz )
- end
- if click then
- if running and selectedpoint then
- --local dir = mouse.UnitRay.Direction*1.8
- --selectedpoint:setForce( dir.x, dir.y, dir.z )
- end
- end
- if up and selectedpoint then
- selectedpoint:setPinned( false )
- selectedpoint = nil
- end
- click = false
- up = false
- end
- game:service("RunService").RenderStepped:connect(loop)
- end)
- heli = Instance.new("TextButton", Screen)
- heli.Position = UDim2.new(0, 0, 0, 400)
- heli.Size = UDim2.new(0, 100, 0, 50)
- heli.Text = "Helipack"
- heli.MouseButton1Down:connect(function()
- create = function( tab )
- local obj = Instance.new( tab[1] )
- for i, v in pairs( tab ) do
- if i ~= 1 then
- obj[i] = v
- end
- end
- if obj:IsA("BasePart") then
- obj:breakJoints()
- end
- return obj
- end
- local player = game.Players.LocalPlayer
- repeat wait() until player.Character
- local _sgui = create{ "ScreenGui", Parent = player.PlayerGui, Name = "Controls" }
- local _txt = create{ "TextLabel", Parent = _sgui, Text = "Start/Stop:\t\t\tdouble-tap spacebar\nThrust:\t\t\t\thold spacebar\nTurn character:\trotate camera\nTilt offset:\t\t\tWASD\n\nCaution: may be hard to control for some people\nTip: hold space only when you feel like you need more force upwards",
- BackgroundTransparency = 1, TextColor3 = Color3.new(), Size = UDim2.new(0,0,0,0),
- Position = UDim2.new(0.5, -70, 0, 15), TextWrap = true, TextXAlignment = "Left", TextYAlignment = "Top"
- }
- local character = player.Character
- local humanoid = character:WaitForChild("Humanoid")
- local head = character:WaitForChild("Head")
- local torso = character:WaitForChild("Torso")
- local l_arm = character:WaitForChild("Left Arm")
- local r_arm = character:WaitForChild("Right Arm")
- local l_leg = character:WaitForChild("Left Leg")
- local r_leg = character:WaitForChild("Right Leg")
- game:service("ContentProvider"):Preload("rbxassetid://134145308")
- local heli_sound = create{ "Sound", SoundId = "rbxassetid://134145308", Volume = 0.15, Looped = true }
- local mouse = player:GetMouse()
- local camera = workspace.CurrentCamera
- local bodymass = 0
- local heli_axis_weld;
- local heli_rotor_weld;
- local heli_rotorspeed;
- local heli_rotorrot;
- local heli_targetthrottle;
- local heli_throttle;
- local collision_time;
- local bodyforce;
- local bodygyro;
- local tilt = CFrame.new();
- local fake_l_arm;
- local fake_r_arm;
- local fake_l_leg;
- local fake_r_leg;
- local heli_axeltop;
- local heli_axel;
- local heli_top;
- local getMass;
- local updateMass;
- local openPack;
- local closePack;
- local pack_open = false;
- local lastSpaceTick;
- keys = {}
- framekeys = {}
- mouse.KeyDown:connect( function(key)
- keys[ string.byte(key) ] = true
- framekeys[ string.byte(key) ] = true
- end )
- mouse.KeyUp:connect( function(key)
- keys[ string.byte(key) ] = false
- framekeys[ string.byte(key) ] = false
- end )
- lastSpaceTick = 0
- handleInput = function()
- if keys[32] == true then
- heli_targetthrottle = 1.2
- else
- heli_targetthrottle = 0.7
- end
- if not pack_open then
- heli_targetthrottle = 0
- end
- local t = CFrame.new()
- if keys[ string.byte'a' ] then
- t = t * CFrame.Angles( 0, 0, math.rad(10) )
- end
- if keys[ string.byte'd' ] then
- t = t * CFrame.Angles( 0, 0, math.rad(-10) )
- end
- if keys[ string.byte'w' ] then
- t = t * CFrame.Angles( math.rad(-10), 0, 0 )
- end
- if keys[ string.byte's' ] then
- t = t * CFrame.Angles( math.rad(10), 0, 0 )
- end
- tilt = t
- if framekeys[32] == true then
- if tick() - lastSpaceTick < 0.3 then
- lastSpaceTick = 0
- if pack_open then closePack() else openPack() end
- else
- lastSpaceTick = tick()
- end
- end
- end
- openPack = function()
- pack_open = true
- heli_throttle = 0.6
- heli_sound:Stop()
- heli_sound:Play()
- humanoid.PlatformStand = true
- bodygyro.Parent = heli_top
- fake_l_arm.CanCollide = true
- fake_r_arm.CanCollide = true
- fake_l_leg.CanCollide = true
- fake_r_leg.CanCollide = true
- game:service("ControllerService"):ClearAllChildren()
- end
- closePack = function()
- pack_open = false
- humanoid.PlatformStand = false
- bodygyro.Parent = nil
- fake_l_arm.CanCollide = false
- fake_r_arm.CanCollide = false
- fake_l_leg.CanCollide = false
- fake_r_leg.CanCollide = false
- coroutine.resume(coroutine.create(function()
- wait(0.2)
- Instance.new("HumanoidController",game:service("ControllerService"))
- end))
- end
- getMass = function( p )
- local mass = 0
- if p:IsA("BasePart") then
- mass = mass + p:GetMass()
- end
- for _, child in pairs( p:children() ) do
- mass = mass + getMass( child )
- end
- return mass
- end
- updateMass = function()
- bodymass = getMass( character )
- end
- collision_time = 0
- onCollision = function( hit )
- if collision_time <= 0 then
- local hit_speed = ( torso.Velocity - hit.Velocity ).magnitude
- if hit_speed > 65 and hit.CanCollide == true then
- collision_time = 0.8
- bodygyro.Parent = nil
- end
- end
- end
- torso.Touched:connect( onCollision )
- head.Touched:connect( onCollision )
- for _, child in pairs( character:children() ) do
- if child.Name == "HeliPack" then
- child:Destroy()
- end
- end
- heli_model = create{ "Model", Name = "HeliPack", Parent = character }
- script.Parent = heli_model
- fake_l_arm = create { "Part", Parent = heli_model, FormFactor = "Custom", Size = Vector3.new(1,2,1), CanCollide = true, Transparency = 1, Elasticity = 0.1, Friction = 0.8 }
- fake_r_arm = create { "Part", Parent = heli_model, FormFactor = "Custom", Size = Vector3.new(1,2,1), CanCollide = true, Transparency = 1, Elasticity = 0.1, Friction = 0.8 }
- fake_l_leg = create { "Part", Parent = heli_model, FormFactor = "Custom", Size = Vector3.new(1,2,1), CanCollide = true, Transparency = 1, Elasticity = 0.1, Friction = 0.8 }
- fake_r_leg = create { "Part", Parent = heli_model, FormFactor = "Custom", Size = Vector3.new(1,2,1), CanCollide = true, Transparency = 1, Elasticity = 0.1, Friction = 0.8 }
- create{ "Weld", Part0 = l_arm, Part1 = fake_l_arm, Parent = character }
- create{ "Weld", Part0 = r_arm, Part1 = fake_r_arm, Parent = character }
- create{ "Weld", Part0 = l_leg, Part1 = fake_l_leg, Parent = character }
- create{ "Weld", Part0 = r_leg, Part1 = fake_r_leg, Parent = character }
- fake_l_arm.Touched:connect( onCollision )
- fake_r_arm.Touched:connect( onCollision )
- fake_l_leg.Touched:connect( onCollision )
- fake_r_leg.Touched:connect( onCollision )
- heli_base = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model,
- Size = Vector3.new(1.8, 1.8, 0.2), BrickColor = BrickColor.new(1002)
- }
- heli_motor = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model,
- Size = Vector3.new(1.8, 1.7, 0.6), BrickColor = BrickColor.new(194)
- }
- heli_axel = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model, CanCollide = false,
- Size = Vector3.new(0.2, 3.1, 0.2), BrickColor = BrickColor.new(1002)
- }
- local _hp = create{ "Part", Parent = heli_model, TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", CanCollide = false, Size = Vector3.new(0.4, 0.2, 0.4), BrickColor = BrickColor.new("Black") }
- create{ "CylinderMesh", Parent = _hp}
- create{"Weld", Parent = heli_model, Part0 = heli_motor, Part1 = _hp, C0 = CFrame.new(0, 0.9, 0) }
- heli_axeltop = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model, CanCollide = false,
- Size = Vector3.new(0.4, 0.2, 0.4), BrickColor = BrickColor.new("Black")
- }
- heli_top = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model, CanCollide = false,
- Size = Vector3.new(0.2, 0.2, 0.2), Transparency = 1
- }
- create{ "Weld", Part0 = heli_axel, Part1 = heli_top, C0 = CFrame.new(0,1.5,0), Parent = heli_model }
- create{ "CylinderMesh", Parent = heli_axeltop }
- create{ "CylinderMesh", Parent = heli_axel }
- heli_rotor_weld = create{ "Weld", Parent = heli_model, Part0 = heli_axel, Part1 = heli_axeltop, C0 = CFrame.new(0,1.6,0) }
- clone_rotor = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", CanCollide = false,
- Size = Vector3.new(1.1, 0.2, 4.5), Transparency = 1
- }
- create { "Decal", Parent = clone_rotor, Texture = "rbxassetid://142889819", Face = "Top" }
- create { "Decal", Parent = clone_rotor, Texture = "rbxassetid://142889819", Face = "Bottom" }
- for angle = 0, 360-120, 120 do
- local part = clone_rotor:clone()
- create{ "BlockMesh", Parent = part, Scale = Vector3.new(1,0,1) }
- create{ "Weld", Part0 = heli_axeltop, Part1 = part, C0 = CFrame.Angles(0, math.rad(angle), 0), C1 = CFrame.new( 0, 0, -2.25 ), Parent = heli_model }
- part.Parent = heli_model
- end
- create{ "Weld", Part0 = torso, Part1 = heli_base, C0 = CFrame.new( 0, 0, 0.6 ), Parent = heli_model }
- create{ "Weld", Part0 = heli_base, Part1 = heli_motor, C0 = CFrame.new( 0, -0.05, 0.4 ), Parent = heli_model }
- heli_axis_weld = create{ "Weld", Part0 = heli_motor, Part1 = heli_axel, C0 = CFrame.new( 0, 2.3, 0 ), Parent = heli_model }
- heli_l_part = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model, CanCollide = false, Size = Vector3.new(0.2, 1, 0.2), BrickColor = BrickColor.new(1002) }
- heli_r_part = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model, CanCollide = false, Size = Vector3.new(0.2, 1, 0.2), BrickColor = BrickColor.new(1002) }
- heli_l_axel = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model, CanCollide = false, Size = Vector3.new(0.2, 0.7, 0.2), BrickColor = BrickColor.new(1002) }
- heli_r_axel = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model, CanCollide = false, Size = Vector3.new(0.2, 0.7, 0.2), BrickColor = BrickColor.new(1002) }
- heli_l_top = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model, CanCollide = false, Size = Vector3.new(0.3, 0.2, 0.3), BrickColor = BrickColor.new("Black") }
- heli_r_top = create{ "Part", TopSurface = 0, BottomSurface = 0, FormFactor = "Custom", Parent = heli_model, CanCollide = false, Size = Vector3.new(0.3, 0.2, 0.3), BrickColor = BrickColor.new("Black") }
- create{"CylinderMesh", Parent = heli_l_top, Scale = Vector3.new(1,0.4,1) }
- create{"CylinderMesh", Parent = heli_r_top, Scale = Vector3.new(1,0.4,1) }
- create{"CylinderMesh", Parent = heli_l_part }
- create{"CylinderMesh", Parent = heli_r_part }
- create{"CylinderMesh", Parent = heli_l_axel, Scale = Vector3.new(0.8,1,0.8) }
- create{"CylinderMesh", Parent = heli_r_axel, Scale = Vector3.new(0.8,1,0.8) }
- create{ "Weld", Part0 = heli_motor, Part1 = heli_l_part, C0 = CFrame.new( -0.9, 0.65, 0 ) * CFrame.Angles(0,math.pi/2,0) * CFrame.Angles(-math.pi/2,0,0), C1 = CFrame.new(0, -0.5, 0), Parent = heli_model }
- create{ "Weld", Part0 = heli_motor, Part1 = heli_r_part, C0 = CFrame.new( 0.9, 0.65, 0 ) * CFrame.Angles(0,-math.pi/2,0) * CFrame.Angles(-math.pi/2,0,0), C1 = CFrame.new(0, -0.5, 0), Parent = heli_model }
- create{ "Weld", Part0 = heli_l_part, Part1 = heli_l_axel, C0 = CFrame.new( 0, 0.38, 0 ) * CFrame.Angles(0, 0, 1.4), C1 = CFrame.new(0, -0.3, 0), Parent = heli_model }
- create{ "Weld", Part0 = heli_r_part, Part1 = heli_r_axel, C0 = CFrame.new( 0, 0.38, 0 ) * CFrame.Angles(0, 0, -1.4), C1 = CFrame.new(0, -0.3, 0), Parent = heli_model }
- heli_l_weld = create{ "Weld", Part0 = heli_l_axel, Part1 = heli_l_top, C0 = CFrame.new( 0, 0.4, 0 ), Parent = heli_model }
- heli_r_weld = create{ "Weld", Part0 = heli_r_axel, Part1 = heli_r_top, C0 = CFrame.new( 0, 0.4, 0 ), Parent = heli_model }
- for angle = 0, 360-90, 90 do
- local part = clone_rotor:clone()
- part.Size = Vector3.new(0.6,0.2,1.6)
- create{ "BlockMesh", Parent = part, Scale = Vector3.new(1,0,1) }
- create{ "Weld", Part0 = heli_l_top, Part1 = part, C0 = CFrame.Angles(0, math.rad(angle), 0), C1 = CFrame.new( 0, 0, -0.8 ), Parent = heli_model }
- part.Parent = heli_model
- local part2 = clone_rotor:clone()
- part2.Size = Vector3.new(0.6,0.2,1.6)
- create{ "BlockMesh", Parent = part2, Scale = Vector3.new(1,0,1) }
- create{ "Weld", Part0 = heli_r_top, Part1 = part2, C0 = CFrame.Angles(0, math.rad(angle), 0), C1 = CFrame.new( 0, 0, -0.8 ), Parent = heli_model }
- part2.Parent = heli_model
- end
- heli_sound.Parent = heli_axeltop
- bodyforce = create{ "BodyForce", force = Vector3.new(), Parent = heli_top }
- bodygyro = create{ "BodyGyro", maxTorque = Vector3.new( 3000, 3000, 3000 ), P = 65, D = 7 }
- heli_rotorspeed = 0
- heli_rotorrot = 0
- heli_throttle = 0
- heli_targetthrottle = 0
- heli_sound:Play()
- updateMass()
- closePack()
- character.DescendantAdded:connect( updateMass )
- character.DescendantRemoving:connect( updateMass )
- local prevTime = tick()
- local a = 0
- loop = function()
- local currTime = tick()
- local delta = currTime - prevTime
- prevTime = currTime
- handleInput()
- if collision_time > 0 then
- collision_time = collision_time - delta
- else
- if pack_open and bodygyro.Parent ~= heli_top then
- bodygyro.Parent = heli_top
- end
- end
- heli_throttle = heli_throttle + (heli_targetthrottle - heli_throttle)*(0.06*delta*60.0)
- heli_rotorspeed = heli_throttle*3200
- heli_sound.Pitch = 1.9 + ( heli_throttle - 1 )*1
- if heli_throttle > 0.002 then
- if heli_sound.IsPaused then
- heli_sound:Play()
- end
- heli_sound.Volume = 0.28*(heli_throttle-0.002)
- else
- if heli_sound.IsPlaying then
- heli_sound:Pause()
- end
- end
- heli_rotorrot = heli_rotorrot + heli_rotorspeed*delta
- if heli_rotorrot > 180 then heli_rotorrot = heli_rotorrot - 360 elseif heli_rotorrot < -180 then heli_rotorrot = heli_rotorrot + 360 end
- heli_rotor_weld.C0 = CFrame.new(0, 1.6, 0) * CFrame.Angles( 0, math.rad(-heli_rotorrot), 0 )
- heli_l_weld.C1 = CFrame.Angles( 0, math.rad(heli_rotorrot), 0 )
- heli_r_weld.C1 = CFrame.Angles( 0, math.rad(heli_rotorrot), 0 )
- local cf = camera.CoordinateFrame * CFrame.Angles( math.rad(15), 0, 0 ) * tilt
- bodygyro.cframe = cf
- local up = ( torso.CFrame * CFrame.Angles( math.pi/2, 0, 0 )).lookVector
- local acc = Vector3.new(1,1,1)*196.2*heli_throttle
- bodyforce.force = up * acc * bodymass
- local hit, hitpos = workspace:FindPartOnRay( Ray.new( torso.CFrame.p, -up*3.1 ), character )
- if hit and pack_open and up.y > 0.88 and bodygyro.Parent == heli_top then
- if hit.CanCollide then
- closePack()
- end
- end
- for i, _ in pairs( framekeys ) do
- framekeys[i] = false
- end
- end
- oc = oc or function(f) return f end
- game:service("RunService").RenderStepped:connect( oc(loop) )
- end)
- shape = Instance.new("TextButton", Screen)
- shape.Position = UDim2.new(0, 0, 0, 450)
- shape.Size = UDim2.new(0, 100, 0, 50)
- shape.Text = "Gui shapes"
- shape.MouseButton1Down:connect(function()
- wait()
- local player;
- local mouse;
- local worldcamera;
- local camera;
- local world;
- local screen;
- local sg;
- --[[
- thanks for stealing this
- obtw xsoul made dis
- --]]
- player = game.Players.LocalPlayer
- mouse = player:GetMouse()
- worldcamera = workspace.CurrentCamera
- sg = Instance.new("ScreenGui", game.Players.LocalPlayer:WaitForChild("PlayerGui"))
- screen = Instance.new("Frame", sg)
- screen.BackgroundColor3 = Color3.new(1,1,1)
- screen.Size = UDim2.new(1,0,1,20)
- screen.BorderSizePixel = 0
- create = function( tab )
- local obj = Instance.new( tab[1] )
- for i, v in pairs( tab ) do
- if i ~= 1 then
- obj[i] = v
- end
- end
- return obj
- end
- local _hopper = create{"HopperBin", Parent = player.Backpack, Name = "HIDE MOUSE"}
- _hopper.Selected:connect(function(moose)
- moose.Icon = "rbxassetid://18662154"
- _hopper:Destroy()
- end)
- local controllerservice;
- repeat wait() controllerservice = game:service("ControllerService") until controllerservice
- controllerservice:ClearAllChildren()
- Display = {}
- Display.resolution = screen.AbsoluteSize
- Display.center = screen.AbsoluteSize/2
- Display.update = function( self )
- local s = screen.AbsoluteSize
- self.resolution = s
- self.center = s/2
- self.x = s.x
- self.y = s.y
- end
- Camera = {}
- Camera.create = function( fov, near_clip, far_clip )
- local self = setmetatable( {}, { __index = Camera } )
- self.field_of_view = fov
- self.near_clip = near_clip
- self.far_clip = far_clip
- self.fovMult = 1 / math.tan(math.rad(fov)/2)
- self.cframe = CFrame.new()
- return self
- end
- Camera.toScreenSpace = function( self, pos )
- local dif = self.cframe:pointToObjectSpace(pos)
- return
- Display.x/2 + ( dif.x/-dif.z * self.fovMult * Display.y/Display.x ) * Display.x / 2,
- Display.y/2 + ( dif.y/-dif.z * self.fovMult ) * Display.y / 2,
- -dif.z
- end
- Camera.setFov = function( self, fov )
- self.field_of_view = fov
- end
- Camera.applyRotation = function( self, rotation )
- local pos = self.cframe.p
- local rot = CFrame.Angles( 0, rotation.y, 0 )
- rot = rot * CFrame.Angles( rotation.x, 0, 0 )
- self.cframe = CFrame.new(pos) * rot
- end
- Camera.rotate = function( self, pitch, yaw, roll )
- self.cframe = self.cframe * CFrame.Angles( math.rad( pitch ), math.rad( yaw ), math.rad( roll ) )
- end
- Camera.moveX = function( self, amnt )
- self.cframe = self.cframe * CFrame.new( amnt, 0, 0 )
- end
- Camera.moveY = function( self, amnt )
- self.cframe = self.cframe * CFrame.new( 0, amnt, 0 )
- end
- Camera.moveZ = function( self, amnt )
- self.cframe = self.cframe * CFrame.new( 0, 0, amnt )
- end
- Point = {}
- Point.mt = { __index = Point }
- Point.new = function( pos )
- local self = setmetatable( {}, Point.mt )
- self.position = pos
- return self
- end
- Connector = {}
- Connector.mt = { __index = Connector }
- Connector.new = function( point1, point2 )
- local self = setmetatable( {}, Connector.mt )
- self.point1 = point1
- self.point2 = point2
- self.gui = create{ "Frame", Parent = screen, BorderSizePixel = 1, BackgroundColor3 = Color3.new(), Position = UDim2.new(1, 50, 1, 50) }
- return self
- end
- Connector.render = function( self, cframe )
- local x1, y1, z1 = camera:toScreenSpace( cframe:pointToWorldSpace(self.point1.position) )
- local x2, y2, z2 = camera:toScreenSpace( cframe:pointToWorldSpace(self.point2.position) )
- local z = math.min(z1, z2)
- local zz = math.max(z1, z2)
- if z > 0 and (x1 > 0 or x2 > 0) and (x1 < Display.x or x2 < Display.x) and (y1 > 0 or y2 > 0) and (y1 < Display.y or y2 < Display.y) and zz/65 < 1 then
- if self.gui.Parent ~= screen then
- self.gui.Parent = screen
- self.gui.Visible = true
- end
- local x, y = (x1+x2)/2, (y1+y2)/2
- local dist = math.sqrt( (x2-x1)^2 + (y2-y1)^2 )
- local h = 1
- local alpha = zz/65
- local alpha2 = zz/55
- if alpha2 > 1 then alpha2 = 1 end
- self.gui.BorderColor3 = Color3.new(alpha2, alpha2, alpha2)
- self.gui.BackgroundColor3 = Color3.new(alpha, alpha, alpha)
- self.gui.Position = UDim2.new(0, x-dist/2, 0, y-h/2)
- self.gui.Size = UDim2.new(0, dist, 0, h)
- self.gui.Rotation = math.deg( math.atan2( y2-y1, x2-x1 ) )
- else
- if self.gui.Parent ~= nil then
- self.gui.Parent = nil
- self.gui.Visible = false
- end
- end
- end
- Shape = {}
- Shape.mt = { __index = Shape }
- Shape.new = function( cframe )
- local self = setmetatable( {}, Shape.mt )
- self.points = {}
- self.connectors = {}
- self.cframe = cframe
- return self
- end
- Shape.render = function( self )
- self.cframe = self.cframe * CFrame.Angles(0.001211, 0.002654, -0.00125)
- for _, connector in pairs( self.connectors ) do
- connector:render(self.cframe)
- end
- end
- Shape.cuboid = function(cframe, width, height, depth)
- local self = Shape.new(cframe)
- local function p(x,y,z)
- local point = Point.new( Vector3.new(x*width/2,y*height/2,z*depth/2) )
- table.insert(self.points, point)
- return point
- end
- local function c(p1, p2)
- local connector = Connector.new(p1,p2)
- table.insert(self.connectors, connector)
- return connector
- end
- local top_left_back = p(-1,1,1)
- local top_right_back = p(1,1,1)
- local bottom_left_back = p(-1,-1,1)
- local bottom_right_back = p(1,-1,1)
- local top_left_front = p(-1,1,-1)
- local top_right_front = p(1,1,-1)
- local bottom_left_front = p(-1,-1,-1)
- local bottom_right_front = p(1,-1,-1)
- c( top_left_back, top_right_back ) --back side
- c( top_left_back, bottom_left_back )
- c( bottom_right_back, top_right_back )
- c( bottom_right_back, bottom_left_back )
- c( top_left_front, top_right_front ) --front side
- c( top_left_front, bottom_left_front )
- c( bottom_right_front, top_right_front )
- c( bottom_right_front, bottom_left_front )
- c( top_left_front, top_left_back ) --edges
- c( top_right_front, top_right_back )
- c( bottom_left_front, bottom_left_back )
- c( bottom_right_front, bottom_right_back )
- return self
- end
- Shape.pyramid = function(cframe, size)
- local self = Shape.new(cframe)
- local function p(x,y,z)
- local point = Point.new( Vector3.new(x*size/2,y*size/2,z*size/2) )
- table.insert(self.points, point)
- return point
- end
- local function c(p1, p2)
- local connector = Connector.new(p1,p2)
- table.insert(self.connectors, connector)
- return connector
- end
- local top = p(0,1,0)
- local left_back = p(-1,-1,-1)
- local right_back = p(1,-1,-1)
- local left_front = p(-1,-1,1)
- local right_front = p(1,-1,1)
- c(left_back, right_back)
- c(left_back, left_front)
- c(right_front, right_back)
- c(right_front, left_front)
- c(top, left_back)
- c(top, right_back)
- c(top, left_front)
- c(top, right_front)
- return self
- end
- Input = {}
- Input.keys = {}
- Input.isKeyDown = function(key)
- return Input.keys[string.byte(key)] or false
- end
- mouse.KeyDown:connect(function(k)
- Input.keys[string.byte(k)] = true
- end)
- mouse.KeyUp:connect(function(k)
- Input.keys[string.byte(k)] = false
- end)
- local rotashun = Vector3.new()
- camera = Camera.create( 80 )
- camera.cframe = CFrame.new(Vector3.new(0,0,22), Vector3.new(0,0,0))
- world = {}
- world.shapes = {}
- world.render = function(self)
- for _, shape in pairs(self.shapes) do
- shape:render()
- end
- end
- local function _r(a)
- return (math.random()-0.5)*2*a
- end
- for i = 1, 9 do
- table.insert(world.shapes, Shape.cuboid( CFrame.new(_r(14), _r(14), _r(14)) * CFrame.Angles(_r(math.pi), _r(math.pi), _r(math.pi)), _r(1.5)+1.8, _r(1.5)+1.8,_r(1.5)+1.8 ))
- end
- for i = 1, 9 do
- table.insert(world.shapes, Shape.pyramid( CFrame.new(_r(14), _r(14), _r(14)) * CFrame.Angles(_r(math.pi), _r(math.pi), _r(math.pi)), _r(1.5)+1.8 ))
- end
- for i = 1, 9 do
- table.insert(world.shapes, Shape.cuboid( CFrame.new(_r(70), _r(70), _r(70)) * CFrame.Angles(_r(math.pi), _r(math.pi), _r(math.pi)), _r(1.5)+1.8, _r(1.5)+1.8,_r(1.5)+1.8 ))
- end
- for i = 1, 9 do
- table.insert(world.shapes, Shape.pyramid( CFrame.new(_r(70), _r(70), _r(70)) * CFrame.Angles(_r(math.pi), _r(math.pi), _r(math.pi)), _r(1.5)+1.8 ))
- end
- local prevTime = tick()
- render = function()
- world:render()
- end
- local roro = rotashun
- loop = function()
- local currentTime = tick()
- local delta = currentTime - prevTime
- prevTime = currentTime
- Display:update()
- local mousedelta = mouseupdate()
- rotashun = rotashun + Vector3.new( mousedelta.y*0.15, -mousedelta.x*0.15, 0 )
- if rotashun.x > 87 then rotashun = Vector3.new(87, rotashun.y, rotashun.z) end
- if rotashun.x < -87 then rotashun = Vector3.new(-87, rotashun.y, rotashun.z) end
- if rotashun.y > 180 then rotashun = Vector3.new(rotashun.x, rotashun.y-360, rotashun.z) end
- if rotashun.y < -180 then rotashun = Vector3.new(rotashun.x, rotashun.y+360, rotashun.z) end
- local diff = (rotashun - roro)
- if math.abs(diff.y) > 180 then
- diff = Vector3.new(diff.x, diff.y-(diff.y/math.abs(diff.y))*360, diff.z)
- end
- roro = (roro + diff*0.35)
- roro = Vector3.new(roro.x, roro.y%360, roro.z)
- camera:applyRotation( roro/(180/math.pi) )
- if Input.isKeyDown'w' then
- camera:moveZ( -0.2 )
- end
- if Input.isKeyDown's' then
- camera:moveZ( 0.2 )
- end
- if Input.isKeyDown'a' then
- camera:moveX( -0.2 )
- end
- if Input.isKeyDown'd' then
- camera:moveX( 0.2 )
- end
- render()
- end
- mousePos = Vector2.new(mouse.X, mouse.Y)
- lastMousePos = mousePos
- local ticks = -1
- mouseupdate = function()
- lastMousePos = mousePos
- mousePos = Vector2.new(mouse.X, mouse.Y)
- local mouseDelta = mousePos - lastMousePos
- if (mousePos-Display.center).magnitude > 225 then
- player.CameraMode = Enum.CameraMode.LockFirstPerson
- worldcamera.CameraType = "Custom"
- worldcamera.CameraSubject = humanoid
- ticks = 2
- end
- if ticks > 0 then
- ticks = ticks - 1
- end
- if ticks == 0 then
- ticks = -1
- player.CameraMode = Enum.CameraMode.Classic
- worldcamera.CameraType = "Scriptable"
- end
- if mouseDelta.magnitude > 200 then
- mouseDelta = Vector2.new()
- end
- return mouseDelta
- end
- game:service("RunService").RenderStepped:connect(loop)
- end)
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