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import Linear.V3
import Control.Lens
import Data.List
import GenSCAD
shelf_thickness = 0.5
shelf_width = 8
shelf_length = 36 * 2
shelf_dim = V3 shelf_length shelf_width shelf_thickness
shelf_heights = [12, 10, 8, 8, 8, 8, 8]
-- working algorithm doing the same as `scanl (+) 0 shelf_heights`
--acc [] = [0]
--acc xs = acc(init xs) ++ [sum xs]
shelf_height = (sum shelf_heights) + (shelf_dim ^. _z * (fromIntegral (length shelf_heights) + 1))
side_dim = V3 0.5 shelf_width shelf_height
--shelf_y_poss = scanl (+) 0 shelf_heights
shelf_y_poss = scanl (+) 0 [h+shelf_thickness| h <- shelf_heights]
shelves_pos = [V3 (side_dim ^. _x) 0 y | y <- shelf_y_poss]
shelves = [(p, shelf_dim) | p <- shelves_pos]
--sides = [(V3 0 0 0, side_dim), (V3 (side_dim ^. _x + shelf_length) 0 0, side_dim)]
sides_pos = [V3 0 0 0, V3 (side_dim ^. _x + shelf_length) 0 0]
sides = [(p, side_dim) | p <- sides_pos]
--V3_to_string v = drop 3 (show v)
_V32l v3 = [v3 ^. _x, v3 ^. _y, v3 ^. _z]
_V32s v3 = intercalate ", " (map show (_V32l v3))
--scad_place (p,d) = "translate([ " ++ _V32s(p) ++ " ]) { cube([ " ++ _V32s(d) ++ " ]);}"
--genscad objs = concat $ map (++ "\n") $ map scad_place objs
scadshelf = genscad $ shelves ++ sides
--gen_shelf :: [Fractional] -> Fractional -> Fractional -> [Char]
--gen_shelf shelf_heights depth length =
main = do putStrLn scadshelf
--main = map (putStrLn) ["one", "two"]
--genshelf = genscad $ shelves ++ sides
--main = map print $ gen_scad $ shelves ++ sides
--scad_place_sides = map (scad_place_board) [[[V3 0 0 0], side_dim], [[V3 side_dim ^. _x, 0, 0], side_dim]]
--scad_place_shelf vpos = scad_place_board show([0, vpos, 0]) show(shelfd)
--genscad shelves ++ sides
--gen_openscad = map (scad_place_piece
--accu [x] = x
--accu xs = sum(xs) ++ accu(tail xs)
-- OUTPUT: [0,5,8,10]
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