2021-03-18 16:28:10 +00:00
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-- written by groverbuger for g3d
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-- february 2021
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-- MIT license
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local shader = require(G3D_PATH .. "/shader")
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local newMatrix = require(G3D_PATH .. "/matrices")
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----------------------------------------------------------------------------------------------------
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-- define the camera singleton
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----------------------------------------------------------------------------------------------------
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local camera = {
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fov = math.pi/2,
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nearClip = 0.01,
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farClip = 1000,
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aspectRatio = love.graphics.getWidth()/love.graphics.getHeight(),
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2021-03-19 04:13:44 +00:00
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position = {0,-10,0},
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2021-03-18 16:28:10 +00:00
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target = {0,0,1},
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down = {0,-1,0},
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viewMatrix = newMatrix(),
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projectionMatrix = newMatrix(),
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}
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-- private variables used only for the first person camera functions
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local fpsController = {
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direction = 0,
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pitch = 0
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}
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-- read-only variables, can't be set by the end user
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function camera.getDirectionPitch()
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return fpsController.direction, fpsController.pitch
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end
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-- convenient function to return the camera's normalized look vector
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function camera:getLookVector()
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local vx = camera.target[1] - camera.position[1]
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local vy = camera.target[2] - camera.position[2]
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local vz = camera.target[3] - camera.position[3]
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local length = math.sqrt(vx^2 + vy^2 + vz^2)
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-- make sure not to divide by 0
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if length > 0 then
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return vx/length, vy/length, vz/length
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end
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return vx,vy,vz
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end
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-- give the camera a point to look from and a point to look towards
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function camera.lookAt(x,y,z, xAt,yAt,zAt)
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camera.position[1] = x
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camera.position[2] = y
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camera.position[3] = z
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camera.target[1] = xAt
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camera.target[2] = yAt
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camera.target[3] = zAt
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-- update the fpsController's direction and pitch based on lookAt
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-- thanks 4v0v!
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local dx,dy,dz = camera:getLookVector()
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fpsController.direction = math.pi/2 - math.atan2(dz, dx)
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fpsController.pitch = -math.atan2(dy, math.sqrt(dx^2 + dz^2))
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-- update the camera in the shader
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camera.updateViewMatrix()
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end
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-- move and rotate the camera, given a point and a direction and a pitch (vertical direction)
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function camera.lookInDirection(x,y,z, directionTowards,pitchTowards)
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camera.position[1] = x or camera.position[1]
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camera.position[2] = y or camera.position[2]
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camera.position[3] = z or camera.position[3]
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fpsController.direction = directionTowards or fpsController.direction
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fpsController.pitch = pitchTowards or fpsController.pitch
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-- convert the direction and pitch into a target point
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-- turn the cos of the pitch into a sign value, either 1, -1, or 0
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local sign = math.cos(fpsController.pitch)
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sign = (sign > 0 and 1) or (sign < 0 and -1) or 0
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-- don't let cosPitch ever hit 0, because weird camera glitches will happen
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local cosPitch = sign*math.max(math.abs(math.cos(fpsController.pitch)), 0.00001)
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camera.target[1] = camera.position[1]+math.sin(fpsController.direction)*cosPitch
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camera.target[2] = camera.position[2]-math.sin(fpsController.pitch)
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camera.target[3] = camera.position[3]+math.cos(fpsController.direction)*cosPitch
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-- update the camera in the shader
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camera.updateViewMatrix()
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end
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-- recreate the camera's view matrix from its current values
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-- and send the matrix to the shader specified, or the default shader
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function camera.updateViewMatrix(shaderGiven)
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camera.viewMatrix:setViewMatrix(camera.position, camera.target, camera.down);
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(shaderGiven or shader):send("viewMatrix", camera.viewMatrix)
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end
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-- recreate the camera's projection matrix from its current values
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-- and send the matrix to the shader specified, or the default shader
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function camera.updateProjectionMatrix(shaderGiven)
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camera.projectionMatrix:setProjectionMatrix(camera.fov, camera.nearClip, camera.farClip, camera.aspectRatio);
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(shaderGiven or shader):send("projectionMatrix", camera.projectionMatrix)
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end
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-- recreate the camera's orthographic projection matrix from its current values
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-- and send the matrix to the shader specified, or the default shader
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function camera.updateOrthographicMatrix(size, shaderGiven)
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camera.projectionMatrix:setOrthographicMatrix(camera.fov, size or 5, camera.nearClip, camera.farClip, camera.aspectRatio);
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(shaderGiven or shader):send("projectionMatrix", camera.projectionMatrix)
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end
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-- simple first person camera movement with WASD
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-- put this local function in your love.update to use, passing in dt
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2021-03-19 04:13:44 +00:00
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function camera.firstPersonMovement(dt)
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2021-03-18 16:28:10 +00:00
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-- collect inputs
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local moveX,moveY = 0,0
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local cameraMoved = false
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2021-03-19 04:13:44 +00:00
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local speed = 9
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2021-03-18 16:28:10 +00:00
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if love.keyboard.isDown("w") then moveY = moveY - 1 end
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if love.keyboard.isDown("a") then moveX = moveX - 1 end
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if love.keyboard.isDown("s") then moveY = moveY + 1 end
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if love.keyboard.isDown("d") then moveX = moveX + 1 end
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if love.keyboard.isDown("space") then
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camera.position[2] = camera.position[2] - speed*dt
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cameraMoved = true
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end
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if love.keyboard.isDown("lshift") then
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camera.position[2] = camera.position[2] + speed*dt
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cameraMoved = true
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2021-03-19 04:13:44 +00:00
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end
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2021-03-18 16:28:10 +00:00
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-- do some trigonometry on the inputs to make movement relative to camera's direction
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-- also to make the player not move faster in diagonal directions
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if moveX ~= 0 or moveY ~= 0 then
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local angle = math.atan2(moveY,moveX)
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local directionX,directionZ = math.cos(fpsController.direction + angle)*speed*dt, math.sin(fpsController.direction + angle + math.pi)*speed*dt
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camera.position[1] = camera.position[1] + directionX
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camera.position[3] = camera.position[3] + directionZ
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cameraMoved = true
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end
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-- update the camera's in the shader
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-- only if the camera moved, for a slight performance benefit
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if cameraMoved then
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camera.lookInDirection()
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end
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end
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-- use this in your love.mousemoved function, passing in the movements
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function camera.firstPersonLook(dx,dy)
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-- capture the mouse
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love.mouse.setRelativeMode(true)
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local sensitivity = 1/300
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fpsController.direction = fpsController.direction + dx*sensitivity
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fpsController.pitch = math.max(math.min(fpsController.pitch - dy*sensitivity, math.pi*0.5), math.pi*-0.5)
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camera.lookInDirection(camera.position[1],camera.position[2],camera.position[3], fpsController.direction,fpsController.pitch)
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end
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2021-03-19 04:13:44 +00:00
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-- CUSTOM FUNCTIONS MODIFIED FROM ORIGINAL G3D
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-- strategy game rts view
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-- movement: w,a,s,d,
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-- rotate: q,e
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-- move by screen: 20 px: sides, forward, backwards
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-- mouse scroll: zoom
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function camera.strategyViewMovement(dt,speed,is_scrolling)
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-- collect inputs
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local moveX,moveY = 0,0
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local cameraUpdate = false
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if is_scrolling then cameraUpdate = true end
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local speed = speed
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-- operate inputs
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if love.keyboard.isDown("w") then moveY = moveY - 1 end
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if love.keyboard.isDown("a") then moveX = moveX - 1 end
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if love.keyboard.isDown("s") then moveY = moveY + 1 end
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if love.keyboard.isDown("d") then moveX = moveX + 1 end
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if love.keyboard.isDown("e") then
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camera.pitch = camera.pitch + 1/20
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cameraUpdate = true
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end
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if love.keyboard.isDown("q") then
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camera.pitch = camera.pitch - 1/20
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cameraUpdate = true
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end
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-- do some trigonometry on the inputs to make movement relative to camera's direction
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-- also to make the player not move faster in diagonal directions
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if moveX ~= 0 or moveY ~= 0 then
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local angle = math.atan2(moveY,moveX)
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local directionX,directionZ = math.cos(fpsController.direction + angle)*speed*dt, math.sin(fpsController.direction + angle + math.pi)*speed*dt
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camera.pivot[1] = camera.pivot[1] + directionX
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camera.pivot[3] = camera.pivot[3] + directionZ
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cameraUpdate = true
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end
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camera.position[1] = camera.pivot[1] + math.cos(camera.pitch)*camera.zoom
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camera.position[2] = camera.pivot[2] - math.sin(-30)*camera.zoom
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camera.position[3] = camera.pivot[3] + math.sin(camera.pitch)*camera.zoom
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-- update the camera's in the shader
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-- only if the camera moved or rotated, for a slight performance benefit
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if cameraUpdate then
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camera.lookAt(camera.position[1],camera.position[2],camera.position[3],camera.pivot[1],camera.pivot[2],camera.pivot[3])
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end
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end
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2021-03-18 16:28:10 +00:00
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return camera
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