# How to create a spherical angular gradient around y-axis using Lua in Filter Forge?

I am working on a Spherical Map Script that generates a linear gradient along the y-axis and an angular gradient around the y-axis in the green and red channels, respectively. I have been unable to find any documentation suited to this online, but have experimented using examples in Javascript and C#. The linear gradient has worked out fine, but the angular gradient (one describing a 360 degree arc around the y-axis) continues to elude me.

My working script is as follows.

``````-- 3d sphere
-- produces rgb gradudient mapped to a 3d sphere, but not correctly.
-- this is basically missing an angle gradient around the y-axis...
function prepare()
-- tilt & rotation precalc
-- toCir = 360/math.p -- may or may not work for circumference...

cosa = math.cos(angle)
sina = math.sin(angle)

cosa2 = math.cos(tilt)
sina2 = math.sin(tilt)
end;

function get_sample(x, y)
local r, g, b, a = get_sample_map(x, y, SOURCE)
--  local r = x
--  local g = y
--  local b = (x + y) / 2
--  local a = 1
-- spherical mapping formulae (polar to cartesian, apparently)
--  local x = x * math.pi -- * aspect
--  local y = y * math.pi
--  local nx = math.cos(x) * math.sin(y)
--  local ny = math.sin(x) * math.sin(y)
--  local nz = math.cos(y)
-- cartesian to polar (reference)
--  example 1
--  r = math.sqrt(((x * x) + (y * y) + (z * z)))
--  long = math.acos(x / math.sqrt((x * x) + (y * y))) * (y < 0 ? -1 : 1)
--  lat = math.acos(z / radius) * (z < 0 ? -1 : 1)
--  example 2
--      r = math.sqrt((x * x) + (y * y) + (z * z))
--      long = math.acos(x / math.sqrt((x * x) + (y * y))) * (y < 0 ? -1 : 1)
--  lat = math.acos(z / r)
-- equations cannot accept boolean comparison
-- boolean syntax may not be valid in lua

-- image generation
-- shift origin to center and set radius limits
local px = (x*2.0) - 1.0
local py = (y*2.0) - 1.0
local len = math.sqrt((px*px)+(py*py))
if len > 1.0 then return 0,0,0,0 end

local z = -math.sqrt(1.0 - ((px*px)+(py*py)))

-- cartesian to polar
-- r = math.sqrt((x * x) + (y * y) + (z * z))
-- lat = math.acos(z / r)
-- long = math.acos(x / math.sqrt((x * x) + (y * y))) * (y < 0) ? -1 : 1)

-- apply rotaqtion and tilt (order is important)
local tz = (cosa2 * z) - (sina2 * py)
local ty = (sina2 * z) + (cosa2 * py) -- gradient along y-axis is correct
z = tz
py = ty

local tx = (cosa * px) - (sina * z) -- gradient needs to go around y-axis
local tz = (sina * px) + (cosa * z)
px = tx
z = tz

-- r = math.sqrt((x * x) + (y * y) + (z * z))
-- lat = math.acos(z / r) -- invalid z for this; what is correct source?
-- long = math.acos(x / math.sqrt((x * x) + (y * y))) -- map -1 : 1 needed
-- long = (sina * px) + (cosa * z) -- ok;  2 full rotations

-- return r, g, b, a
-- return px,py,z,a
return px/2+.5,py/2+.5,z/2+.5,a
-- return px/2+.5,px/2+.5,px/2+.5,a
-- return long,long,long,a
-- return px/2+.5,py/2+.5,long,a
end;
``````