jkrumbiegel · June 26, 2020 09:32
diff --git a/dancing_cubes.jl b/dancing_cubes.jl
 using AbstractPlotting
 using AbstractPlotting.MakieLayout
 using GLMakie; GLMakie.activate!()
 GLMakie.GLFW.WindowHint(GLMakie.GLFW.FLOATING, 1)
 using LinearAlgebra


 ##

 scene = Scene(center = false, raw = true, resolution = (800, 800))


 azimuth = Node(0.0)
 elevation = Node(0.0)
 targetlimits = Node(FRect3D((-100, -100, -100), (100, 100, 100)))

 limits = lift(identity, targetlimits)

 view = lift(azimuth, elevation, limits) do a, e, lims
    center = lims.origin .+ 0.5 .* widths(lims)
    dist = maximum(widths(lims)) # should be enough to be outside?
    eyepos = center .+ dist .* LinearAlgebra.normalize(Vec3f0(sin(e) * cos(a), sin(e) * sin(a), cos(e)))

    eyeright = LinearAlgebra.cross(Vec(0.0, 0, 1), LinearAlgebra.normalize(eyepos .- center))

    # TODO: fix eyeup so there is no flip at the elevation zero point
    eyeup = LinearAlgebra.cross(eyeright, LinearAlgebra.normalize(eyepos .- center))

    AbstractPlotting.lookat(eyepos, center, -eyeup)
 end

 projection = lift(view) do v
    lims = limits[]
    ox, oy, oz = lims.origin
    wx, wy, wz = lims.widths

    corners = [
        ox          oy          oz        0
        ox          oy          oz + wz   0
        ox          oy + wy     oz        0
        ox          oy + wy     oz + wz   0
        ox + wx     oy          oz        0
        ox + wx     oy          oz + wz   0
        ox + wx     oy + wy     oz        0
        ox + wx     oy + wy     oz + wz   0
    ]

    viewed_corners = (v * corners')'

    boxmin = minimum(viewed_corners, dims = 1)
    boxmax = maximum(viewed_corners, dims = 1)

    dist = boxmax .- boxmin
    minis = boxmin .+ 0.5 .* dist
    maxis = boxmax .- 0.5 .* dist

    boxmin
    boxmax

    AbstractPlotting.orthographicprojection(
        boxmin[1], boxmax[1],
        boxmin[2], boxmax[2],
        boxmin[3] - 10000, boxmax[3] + 10000) # * flipmatrix
 end

 projectionview = lift(projection, view) do p, v
    p * v
 end

 disconnect!(scene.camera)

 on(projectionview) do pv
    camera(scene).view[] = view[]
    camera(scene).projection[] = projection[]
    camera(scene).projectionview[] = pv
 end

 #########################################################

 cubes = map(1:10) do i
    ori = Point3f0(0, 0, 11i)
    ws = Point3f0(10, 10, 10)
    cube = Node(FRect3D(ori, ws))
 end

 for cube in cubes
    mesh!(cube, color = :tomato, shading = false)
    wireframe!(cube, color = :black)
 end

 elevation[] = deg2rad(45)
 azimuth[] = deg2rad(45)



 record(scene, "cubes.gif", 0:1/30:5) do t
    for i in 1:10
        cubes[i][] = FRect3D((0, 3sin(i + 4t), 11i), (10, 10, 10))
    end
 end
	using AbstractPlotting
	using AbstractPlotting.MakieLayout
	using GLMakie; GLMakie.activate!()
	GLMakie.GLFW.WindowHint(GLMakie.GLFW.FLOATING, 1)
	using LinearAlgebra


	##

	scene = Scene(center = false, raw = true, resolution = (800, 800))


	azimuth = Node(0.0)
	elevation = Node(0.0)
	targetlimits = Node(FRect3D((-100, -100, -100), (100, 100, 100)))

	limits = lift(identity, targetlimits)

	view = lift(azimuth, elevation, limits) do a, e, lims
	center = lims.origin .+ 0.5 .* widths(lims)
	dist = maximum(widths(lims)) # should be enough to be outside?
	eyepos = center .+ dist .* LinearAlgebra.normalize(Vec3f0(sin(e) * cos(a), sin(e) * sin(a), cos(e)))

	eyeright = LinearAlgebra.cross(Vec(0.0, 0, 1), LinearAlgebra.normalize(eyepos .- center))

	# TODO: fix eyeup so there is no flip at the elevation zero point
	eyeup = LinearAlgebra.cross(eyeright, LinearAlgebra.normalize(eyepos .- center))

	AbstractPlotting.lookat(eyepos, center, -eyeup)
	end

	projection = lift(view) do v
	lims = limits[]
	ox, oy, oz = lims.origin
	wx, wy, wz = lims.widths

	corners = [
	ox oy oz 0
	ox oy oz + wz 0
	ox oy + wy oz 0
	ox oy + wy oz + wz 0
	ox + wx oy oz 0
	ox + wx oy oz + wz 0
	ox + wx oy + wy oz 0
	ox + wx oy + wy oz + wz 0
	]

	viewed_corners = (v * corners')'

	boxmin = minimum(viewed_corners, dims = 1)
	boxmax = maximum(viewed_corners, dims = 1)

	dist = boxmax .- boxmin
	minis = boxmin .+ 0.5 .* dist
	maxis = boxmax .- 0.5 .* dist

	boxmin
	boxmax

	AbstractPlotting.orthographicprojection(
	boxmin[1], boxmax[1],
	boxmin[2], boxmax[2],
	boxmin[3] - 10000, boxmax[3] + 10000) # * flipmatrix
	end

	projectionview = lift(projection, view) do p, v
	p * v
	end

	disconnect!(scene.camera)

	on(projectionview) do pv
	camera(scene).view[] = view[]
	camera(scene).projection[] = projection[]
	camera(scene).projectionview[] = pv
	end

	#########################################################

	cubes = map(1:10) do i
	ori = Point3f0(0, 0, 11i)
	ws = Point3f0(10, 10, 10)
	cube = Node(FRect3D(ori, ws))
	end

	for cube in cubes
	mesh!(cube, color = :tomato, shading = false)
	wireframe!(cube, color = :black)
	end

	elevation[] = deg2rad(45)
	azimuth[] = deg2rad(45)



	record(scene, "cubes.gif", 0:1/30:5) do t
	for i in 1:10
	cubes[i][] = FRect3D((0, 3sin(i + 4t), 11i), (10, 10, 10))
	end
	end