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#!/usr/bin/env runghc
module Main where
import Control.DeepSeq
import Control.Exception
import Test.Tasty
import Test.Tasty.HUnit
import Test.HUnit.Tools
import Graphics.OpenSCAD
import Data.Colour (withOpacity)
import Data.List.NonEmpty (fromList)
import Data.Semigroup (Semigroup((<>), sconcat), Monoid(mconcat, mempty, mappend))
assertError err code =
assertRaises "Check error" (ErrorCall err) . evaluate $ deepseq (show code) ()
sw = concat . words
st n e a = testCase n $ (sw $ render a) @?= (sw e)
{- About the test result values.
Running "cabal test" does not verify that the results do the intended
thing in OpenSCAD. Possibly we'll add shell tests for that at some
point, but not yet.
For now, if you change or add strings, please manually copy them into
OpenSCAD and make sure they do what you want the Model data structure
that they are testing does.
-}
tests = testGroup "Tests" [
testGroup "3d-primitives" [
testGroup "Spheres" [
st "1" "sphere(1.0);" $ sphere 1 def,
st "2" "sphere(2.0,$fn=100);" (sphere 2 $ fn 100),
st "3" "sphere(2.0,$fa=5.0);" (sphere 2 $ fa 5),
st "4" "sphere(2.0,$fs=0.1);" (sphere 2 $ fs 0.1)
],
testGroup "Boxes" [
st "box" "cube([1.0,2.0,3.0]);" $ box 1 2 3,
st "cube" "cube([2.0,2.0,2.0]);" $ cube 2
],
testGroup "Cylinders" [
st "1" "cylinder(r=1.0,h=2.0);" $ cylinder 1 2 def,
st "2" "cylinder(r=1.0,h=2.0,$fs=0.6);" (cylinder 1 2 $ fs 0.6),
st "3" "cylinder(r=1.0,h=2.0,$fn=10);" (cylinder 1 2 $ fn 10),
st "4" "cylinder(r=1.0,h=2.0,$fa=30.0);" (cylinder 1 2 $ fa 30)
],
testGroup "Oblique-Cylinders" [
st "1" "cylinder(r1=1.0,h=2.0,r2=2.0);" $ obCylinder 1 2 2 def,
st "2" "cylinder(r1=1.0,h=2.0,r2=2.0,$fs=0.6);"
(obCylinder 1 2 2 $ fs 0.6),
st "3" "cylinder(r1=1.0,h=2.0,r2=2.0,$fn=10);"
(obCylinder 1 2 2 $ fn 10),
st "4" "cylinder(r1=1.0,h=2.0,r2=2.0,$fa=30.0);"
(obCylinder 1 2 2 $ fa 30)
],
testGroup "Misc" [
st "import" "import(\"test.stl\");" (solid $ importFile "test.stl"),
st "polyhedron 1"
"polyhedron(points=[[10.0,10.0,0.0],[10.0,-10.0,0.0],[0.0,0.0,10.0],[-10.0,-10.0,0.0],[-10.0,10.0,0.0]],triangles=[[0,1,2],[1,3,2],[3,4,2],[4,0,2],[1,0,4],[3,1,4]],convexity=1);" $
polyhedron 1 [[(10, 10, 0), (10, -10, 0), (0, 0, 10)],
[(10, -10, 0), (-10, -10, 0), (0, 0, 10)],
[(-10, -10, 0), (-10, 10, 0), (0, 0, 10)],
[(-10, 10, 0), (10, 10, 0), (0, 0, 10)],
[(10, -10, 0), (10, 10, 0), (-10, 10, 0)],
[(-10, -10, 0), (10, -10, 0), (-10, 10, 0)]],
st "polyhedron 2"
"polyhedron(points=[[10.0,10.0,0.0],[10.0,-10.0,0.0],[0.0,0.0,10.0],[-10.0,-10.0,0.0],[-10.0,10.0,0.0]],faces=[[0,1,2],[1,3,2],[3,4,2],[4,0,2],[4,3,1,0]],convexity=1);" $
polyhedron 1 [[(10, 10, 0), (10, -10, 0), (0, 0, 10)],
[(10, -10, 0), (-10, -10, 0), (0, 0, 10)],
[(-10, -10, 0), (-10, 10, 0), (0, 0, 10)],
[(-10, 10, 0), (10, 10, 0), (0, 0, 10)],
[(-10, 10, 0), (-10, -10, 0), (10, -10, 0), (10, 10, 0)]],
st "unsafePolyhedron"
"polyhedron(points=[[10.0,10.0,0.0],[10.0,-10.0,0.0],[-10.0,-10.0,0.0],[-10.0,10.0,0.0],[0.0,0.0,10.0]],faces=[[0,1,4],[1,2,4],[2,3,4],[3,0,4],[1,0,3],[2,1,3]],convexity=1);"
(unsafePolyhedron 1 [(10.0,10.0,0.0),(10.0,-10.0,0.0),(-10.0,-10.0,0.0),
(-10.0,10.0,0.0),(0.0,0.0,10)]
$ Faces [[0,1,4],[1,2,4],[2,3,4],[3,0,4],[1,0,3],
[2,1,3]])
],
testGroup "Linear-Extrusion" [
st "1"
"linear_extrude(height=10.0,twist=0.0,scale=[1.0,1.0],slices=10,convexity=10)circle(1.0);"
(linearExtrude 10 0 (1, 1) 10 10 def $ circle 1 def),
st "2"
"linear_extrude(height=10.0,twist=100.0,scale=[1.0,1.0],slices=10,convexity=10)translate([2.0,0.0])circle(1.0);"
(linearExtrude 10 100 (1, 1) 10 10 def $ translate (2, 0)
$ circle 1 def),
st "3"
"linear_extrude(height=10.0,twist=500.0,scale=[1.0,1.0],slices=10,convexity=10)translate([2.0,0.0])circle(1.0);"
(linearExtrude 10 500 (1, 1) 10 10 def $ translate (2, 0)
$ circle 1 def),
st "4"
"linear_extrude(height=10.0,twist=360.0,scale=[1.0,1.0],slices=100,convexity=10)translate([2.0,0.0])circle(1.0);"
(linearExtrude 10 360 (1, 1) 100 10 def $ translate (2, 0)
$ circle 1 def),
st "5"
"linear_extrude(height=10.0,twist=360.0,scale=[1.0,1.0],slices=100,convexity=10,$fn=100)translate([2.0,0.0])circle(1.0);"
(linearExtrude 10 360 (1, 1) 100 10 (fn 100) $ translate (2, 0)
$ circle 1 def),
st "6"
"linear_extrude(height=10.0,twist=0.0,scale=[3.0,3.0],slices=100,convexity=10)translate([2.0,0.0])circle(1.0);"
(linearExtrude 10 0 (3, 3) 100 10 def $ translate (2, 0) $ circle 1 def),
st "7"
"linear_extrude(height=10.0,twist=0.0,scale=[1.0,5.0],slices=100,convexity=10,$fn=100)translate([2.0,0.0])circle(1.0);"
(linearExtrude 10 0 (1, 5) 100 10 (fn 100) $ translate (2, 0)
$ circle 1 def)
],
testGroup "Rotated-Extrusion" [
st "1" "rotate_extrude(convexity=10)translate([2.0,0.0])circle(1.0);"
(rotateExtrude 10 def $ translate (2, 0) $ circle 1 def),
st "2"
"rotate_extrude(convexity=10,$fn=100)translate([2.0,0.0])circle(1.0,$fn=100);"
(rotateExtrude 10 (fn 100) $ translate (2, 0) $ circle 1 $ fn 100)
],
testGroup "Surface" [
st "Normal" "surface(file=\"test.dat\",convexity=5);" $
surface "test.dat" False 5,
st "Inverted" "surface(file=\"test.dat\",invert=true,convexity=5);" $
surface "test.dat" True 5 -- Requires 2014.QX
]
],
testGroup "2d-primitives" [
testGroup "Squares" [
st "rectangle" "square([2.0,3.0]);" $ rectangle 2 3,
st "square" "square([2.0,2.0]);" $ square 2
],
testGroup "Circles" [
st "1" "circle(1.0);" $ circle 1 def,
st "2" "circle(2.0,$fn=100);" (circle 2 $ fn 100),
st "3" "circle(2.0,$fa=5.0);" (circle 2 $ fa 5),
st "4" "circle(2.0,$fs=0.1);" (circle 2 $ fs 0.1)
],
testGroup "Misc" [
st "import" "import(\"test.dxf\");" (solid $ importFile "test.dxf"),
st "polygon"
"polygon(points=[[0.0,0.0],[100.0,0.0],[0.0,100.0],[10.0,10.0],[80.0,10.0],[10.0,80.0]],paths=[[0,1,2],[3,4,5]],convexity=10);" $
polygon 10 [[(0,0),(100,0),(0,100)],[(10,10),(80,10),(10,80)]],
st "unsafePolygon"
"polygon(points=[[0.0,0.0],[100.0,0.0],[0.0,100.0],[10.0,10.0],[80.0,10.0],[10.0,80.0]], paths=[[0,1,2],[3,4,5]],convexity=1);"
(unsafePolygon 1 [(0,0),(100,0),(0,100),(10,10),(80,10),(10,80)]
[[0,1,2],[3,4,5]]),
st "projection"
"projection(cut=false)scale([10.0,10.0,10.0])difference(){translate([0.0,0.0,1.0])cube([1.0,1.0,1.0]);translate([0.25,0.25,0.0])cube([0.5,0.5,3.0]);}"
(projection False . scale (10, 10, 10) . difference (up 1 (cube 1))
$ translate (0.25, 0.25, 0) (box 0.5 0.5 3))
]
],
testGroup "Transformations" [
testGroup "Size changes" [
st "scale 1" "scale([0.5,1.0,2.0])cube([1.0,1.0,1.0]);"
(scale (0.5, 1, 2) $ cube 1),
st "scale 2" "scale([0.5,2.0])square([1.0,1.0]);"
(scale (0.5, 2) $ rectangle 1 1),
st "resize 1" "resize([10.0,20.0])square([2.0,2.0]);"
(resize (10, 20) $ square 2),
st "resize 2" "resize([10.0,20.0,30.0])cube([2.0,2.0,2.0]);"
(resize (10, 20, 30) $ cube 2)
],
testGroup "Rotations" [
st "1" "rotate([180.0,0.0,0.0])cube([2.0,2.0,2.0]);"
(rotate (180, 0, 0) $ cube 2),
st "2" "rotate([0.0,180.0,0.0])cube([2.0,2.0,2.0]);"
(rotate (0, 180, 0) $ cube 2),
st "3" "rotate([0.0,180.0,180.0])cube([2.0,2.0,2.0]);"
(rotate (0, 180, 180) $ cube 2),
st "4" "rotate([180.0,0.0])square([2.0,1.0]);"
(rotate (180, 0) $ rectangle 2 1),
st "5" "rotate([0.0,180.0])square([2.0,1.0]);"
(rotate (0, 180) $ rectangle 2 1)
],
testGroup "Mirrors" [
st "1" "mirror([1.0,0.0,0.0])cube([2.0,2.0,2.0]);"
(mirror (1, 0, 0) $ cube 2),
st "2" "mirror([0.0,1.0,0.0])cube([2.0,2.0,2.0]);"
(mirror (0, 1, 0) $ cube 2),
st "3" "rotate([0.0,1.0,1.0])cube([2.0,2.0,2.0]);"
(rotate (0, 1, 1) $ cube 2),
st "4" "mirror([1.0,0.0])square([2.0,1.0]);"
(mirror (1, 0) $ rectangle 2 1),
st "2" "mirror([0.0,1.0])square([2.0,1.0]);"
(mirror (0, 1) $ rectangle 2 1)
],
st "multmatrix"
"multmatrix([[1.0,0.0,0.0,10.0],[0.0,1.0,0.0,20.0],[0.0,0.0,1.0,30.0],[0.0,0.0,0.0,1.0]])cylinder(r=2.0,h=3.0);"
(multMatrix ( (1, 0, 0, 10),
(0, 1, 0, 20),
(0, 0, 1, 30),
(0, 0, 0, 1) ) $ cylinder 2 3 def),
testGroup "Colors" [
st "color 1" "color([1.0,0.0,0.0])cube([1.0,1.0,1.0]);" (color red $ cube 1),
st "color 2" "color([1.0,0.0,0.0])square([1.0,1.0]);"
(color red $ square 1),
st "transparent 1" "color([1.0,0.0,0.0,0.7])cube([1.0,1.0,1.0]);"
(transparent (red `withOpacity` 0.7) $ cube 1),
st "transparent 2" "color([1.0,0.0,0.0,0.7])square([1.0,1.0]);"
(transparent (red `withOpacity` 0.7) $ square 1)
]
],
testGroup "Facets" [
st "facet 1" "assign($fn=100){sphere(2.0,$fn=100);}"
(var (fn 100) [sphere 2 $ fn 100]),
st "facet 2" "assign($fa=5.0){sphere(2.0,$fa=5.0);}"
(var (fa 5) [sphere 2 $ fa 5]),
st "facet 3" "assign($fs=0.1){sphere(2.0,$fs=0.1);}"
(var (fs 0.1) [sphere 2 $ fs 0.1])
],
testGroup "Errors" [
testCase "Polygon Pointcount"
. assertError "Polygon has fewer than 3 points." $
polygon 1 [[(0, 0), (0, 1)]],
testCase "Polygon Linearity"
. assertError "Points in polygon are collinear." $
polygon 1 [[(0, 0), (0, 1), (0, 2)]],
testCase "Polyhedron Linearity"
. assertError "Some face has collinear points." $
polyhedron 1 [[(0, 0, 0), (1, 0, 0), (2, 0, 0)]],
testCase "Polyhedron Planarity" . assertError "Some face isn't coplanar." $
polyhedron 1 [[(10, 10, 0), (10, -10, 0), (0, 10, 10)],
[(10, -10, 0), (-10, -10, 0), (0, 0, 10)],
[(-10, -10, 0), (-10, 10, 0), (0, 0, 10)],
[(-10, 10, 0), (10, 10, 0), (0, 0, 10)],
[(-10, 10, 0), (-10, -10, 0), (10, -10, 0), (0, 0, -10)]],
testCase "Polyhedron Edges" . assertError "Some edges are not in two faces." $
polyhedron 1 [[(10, 10, 0), (10, -10, 0), (0, 0, 10)],
[(10, -10, 0), (-10, -10, 0), (0, 0, 10)],
[(-10, -10, 0), (-10, 10, 0), (0, 0, 10)],
[(-10, 10, 0), (10, 10, 0), (0, 0, 10)],
[(10, -10, 0), (10, 10, 0), (-10, 10, 0)],
[(-10, -10, 0), (10, -10, 0), (-10, 20, 0)]],
testCase "Polyhedron Faces"
. assertError "Some faces have different orientation." $
polyhedron 1 [[(10, 10, 0), (10, -10, 0), (0, 0, 10)],
[(10, -10, 0), (-10, -10, 0), (0, 0, 10)],
[(-10, -10, 0), (-10, 10, 0), (0, 0, 10)],
[(-10, 10, 0), (10, 10, 0), (0, 0, 10)],
[(10, -10, 0), (10, 10, 0), (-10, 10, 0)],
[(10, -10, 0), (-10, -10, 0), (-10, 10, 0)]],
testCase "Polyhedron Orientation"
. assertError "Face orientations are counterclockwise." $
polyhedron 1 [[(10, -10, 0), (10, 10, 0), (0, 0, 10)],
[(-10, -10, 0), (10, -10, 0), (0, 0, 10)],
[(-10, 10, 0), (-10, -10, 0), (0, 0, 10)],
[(10, 10, 0), (-10, 10, 0), (0, 0, 10)],
[(10, 10, 0), (10, -10, 0), (-10, 10, 0)],
[(10, -10, 0), (-10, -10, 0), (-10, 10, 0)]]
],
testGroup "Combinations" [
st "union" "union(){cube([1.0,1.0,1.0]);sphere(1.1,$fs=0.1);}"
(union [cube 1, sphere 1.1 $ fs 0.1]),
st "difference" "difference(){cube([1.0,1.0,1.0]);sphere(1.1,$fs=0.1);}"
(difference (cube 1) . sphere 1.1 $ fs 0.1),
st "intersection" "intersection(){cube([1.0,1.0,1.0]);sphere(1.1,$fs=0.1);}"
(intersection [cube 1, sphere 1.1 $ fs 0.1]),
st "minkowski"
"minkowski(){cube([10.0,10.0,10.0]);cylinder(r=2.0,h=1.1,$fn=50);}"
(minkowski [cube 10, cylinder 2 1.1 $ fn 50]),
st "hull" "hull(){translate([15.0,10.0])circle(10.0);circle(10.0);}"
(hull [circle 10 def # translate (15, 10), circle 10 def])
],
testGroup "Haskell" [
st "# 3d" "translate([-3.0,-3.0,-3.0])color([1.0,0.0,0.0])cube([3.0,3.0,3.0]);"
(cube 3 # color red # translate (-3, -3, -3)),
st "# 2d"
"translate([3.0,3.0])color([1.0,0.6470588235294119,0.0])square([2.0,2.0]);"
(square 2 # color orange # translate (3, 3)),
st "Monoid 1 3d" "union(){cube([1.0,1.0,1.0]);sphere(1.1,$fs=0.1);}"
(cube 1 <> sphere 1.1 (fs 0.1)),
st "Monoid 1 2d" "union(){square([1.0,1.0]);circle(1.1,$fs=0.1);}"
(square 1 <> circle 1.1 (fs 0.1)),
st "Monoid 2 3d" "union(){cube([1.0,1.0,1.0]);sphere(1.1,$fs=0.1);}"
(mconcat [cube 1, sphere 1.1 $ fs 0.1]),
st "Monoid 2 2d" "union(){square([1.0,1.0]);circle(1.1,$fs=0.1);}"
(mconcat [square 1, circle 1.1 $ fs 0.1]),
st "Monoid 3 3d" "sphere(1.1,$fs=0.1);" (mconcat [sphere 1.1 $ fs 0.1]),
st "Monoid 3 2d" "square([1.0,1.0]);" (mconcat [square 1]),
st "Semigroup 1 3d" "cube([0.0,0.0,0.0]);" (solid mempty),
-- should we export a "shape" function?
st "Semigroup 1 2d" "cube([0.0,0.0,0.0]);" (mempty :: Model2d),
st "Semigroup 2 3d" "union(){cube([1.0,1.0,1.0]);sphere(1.1,$fs=0.1);}"
(mappend (cube 1) $ sphere 1.1 (fs 0.1)),
st "Semigroup 2 2d" "union(){square([1.0,1.0]);circle(1.1,$fs=0.1);}"
(mappend (square 1) $ circle 1.1 (fs 0.1)),
st "Semigroup 3 3d" "union(){cube([1.0,1.0,1.0]);sphere(1.1,$fs=0.1);}"
(sconcat $ fromList [cube 1, sphere 1.1 $ fs 0.1]),
st "Semigroup 3 2d" "union(){square([1.0,1.0]);circle(1.1,$fs=0.1);}"
(sconcat $ fromList [square 1, circle 1.1 $ fs 0.1])
]
]
main = defaultMain tests
|
