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author | Hamilton Kibbe <hamilton.kibbe@gmail.com> | 2016-01-21 03:57:44 -0500 |
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committer | Hamilton Kibbe <hamilton.kibbe@gmail.com> | 2016-01-21 03:57:44 -0500 |
commit | 5476da8aa3f4ee424f56f4f2491e7af1c4b7b758 (patch) | |
tree | 427dafda78ee21a1846a2b9c9747dd96afe7e8a3 /gerber/tests/test_primitives.py | |
parent | 7a532514631384dbfc9d7fc2002cbbfe52433c9f (diff) | |
download | gerbonara-5476da8aa3f4ee424f56f4f2491e7af1c4b7b758.tar.gz gerbonara-5476da8aa3f4ee424f56f4f2491e7af1c4b7b758.tar.bz2 gerbonara-5476da8aa3f4ee424f56f4f2491e7af1c4b7b758.zip |
Fix a bunch of rendering bugs.
- 'clear' polarity primitives no longer erase background
- Added aperture macro support for polygons
- Added aperture macro rendring support
- Renderer now creates a new surface for each layer and merges them instead of working
directly on a single surface
- Updated examples accordingly
Diffstat (limited to 'gerber/tests/test_primitives.py')
-rw-r--r-- | gerber/tests/test_primitives.py | 427 |
1 files changed, 254 insertions, 173 deletions
diff --git a/gerber/tests/test_primitives.py b/gerber/tests/test_primitives.py index f8a32da..e6ed1cd 100644 --- a/gerber/tests/test_primitives.py +++ b/gerber/tests/test_primitives.py @@ -9,11 +9,12 @@ from operator import add def test_primitive_smoketest(): p = Primitive() - assert_raises(NotImplementedError, p.bounding_box) + #assert_raises(NotImplementedError, p.bounding_box) p.to_metric() p.to_inch() p.offset(1, 1) + def test_line_angle(): """ Test Line primitive angle calculation """ @@ -24,19 +25,20 @@ def test_line_angle(): ((0, 0), (-1, 0), math.radians(180)), ((0, 0), (-1, -1), math.radians(225)), ((0, 0), (0, -1), math.radians(270)), - ((0, 0), (1, -1), math.radians(315)),] + ((0, 0), (1, -1), math.radians(315)), ] for start, end, expected in cases: l = Line(start, end, 0) line_angle = (l.angle + 2 * math.pi) % (2 * math.pi) assert_almost_equal(line_angle, expected) + def test_line_bounds(): """ Test Line primitive bounding box calculation """ cases = [((0, 0), (1, 1), ((-1, 2), (-1, 2))), ((-1, -1), (1, 1), ((-2, 2), (-2, 2))), ((1, 1), (-1, -1), ((-2, 2), (-2, 2))), - ((-1, 1), (1, -1), ((-2, 2), (-2, 2))),] + ((-1, 1), (1, -1), ((-2, 2), (-2, 2))), ] c = Circle((0, 0), 2) r = Rectangle((0, 0), 2, 2) @@ -49,11 +51,12 @@ def test_line_bounds(): cases = [((0, 0), (1, 1), ((-1.5, 2.5), (-1, 2))), ((-1, -1), (1, 1), ((-2.5, 2.5), (-2, 2))), ((1, 1), (-1, -1), ((-2.5, 2.5), (-2, 2))), - ((-1, 1), (1, -1), ((-2.5, 2.5), (-2, 2))),] + ((-1, 1), (1, -1), ((-2.5, 2.5), (-2, 2))), ] for start, end, expected in cases: l = Line(start, end, r) assert_equal(l.bounding_box, expected) + def test_line_vertices(): c = Circle((0, 0), 2) l = Line((0, 0), (1, 1), c) @@ -61,20 +64,25 @@ def test_line_vertices(): # All 4 compass points, all 4 quadrants and the case where start == end test_cases = [((0, 0), (1, 0), ((-1, -1), (-1, 1), (2, 1), (2, -1))), - ((0, 0), (1, 1), ((-1, -1), (-1, 1), (0, 2), (2, 2), (2, 0), (1,-1))), - ((0, 0), (0, 1), ((-1, -1), (-1, 2), (1, 2), (1, -1))), - ((0, 0), (-1, 1), ((-1, -1), (-2, 0), (-2, 2), (0, 2), (1, 1), (1, -1))), - ((0, 0), (-1, 0), ((-2, -1), (-2, 1), (1, 1), (1, -1))), - ((0, 0), (-1, -1), ((-2, -2), (1, -1), (1, 1), (-1, 1), (-2, 0), (0,-2))), - ((0, 0), (0, -1), ((-1, -2), (-1, 1), (1, 1), (1, -2))), - ((0, 0), (1, -1), ((-1, -1), (0, -2), (2, -2), (2, 0), (1, 1), (-1, 1))), - ((0, 0), (0, 0), ((-1, -1), (-1, 1), (1, 1), (1, -1))),] + ((0, 0), (1, 1), ((-1, -1), (-1, 1), + (0, 2), (2, 2), (2, 0), (1, -1))), + ((0, 0), (0, 1), ((-1, -1), (-1, 2), (1, 2), (1, -1))), + ((0, 0), (-1, 1), ((-1, -1), (-2, 0), + (-2, 2), (0, 2), (1, 1), (1, -1))), + ((0, 0), (-1, 0), ((-2, -1), (-2, 1), (1, 1), (1, -1))), + ((0, 0), (-1, -1), ((-2, -2), (1, -1), + (1, 1), (-1, 1), (-2, 0), (0, -2))), + ((0, 0), (0, -1), ((-1, -2), (-1, 1), (1, 1), (1, -2))), + ((0, 0), (1, -1), ((-1, -1), (0, -2), + (2, -2), (2, 0), (1, 1), (-1, 1))), + ((0, 0), (0, 0), ((-1, -1), (-1, 1), (1, 1), (1, -1))), ] r = Rectangle((0, 0), 2, 2) for start, end, vertices in test_cases: l = Line(start, end, r) assert_equal(set(vertices), set(l.vertices)) + def test_line_conversion(): c = Circle((0, 0), 25.4, units='metric') l = Line((2.54, 25.4), (254.0, 2540.0), c, units='metric') @@ -105,13 +113,12 @@ def test_line_conversion(): assert_equal(l.end, (10.0, 100.0)) assert_equal(l.aperture.diameter, 1.0) - l.to_metric() assert_equal(l.start, (2.54, 25.4)) assert_equal(l.end, (254.0, 2540.0)) assert_equal(l.aperture.diameter, 25.4) - #No effect + # No effect l.to_metric() assert_equal(l.start, (2.54, 25.4)) assert_equal(l.end, (254.0, 2540.0)) @@ -133,56 +140,63 @@ def test_line_conversion(): assert_equal(l.aperture.width, 25.4) assert_equal(l.aperture.height, 254.0) + def test_line_offset(): c = Circle((0, 0), 1) l = Line((0, 0), (1, 1), c) l.offset(1, 0) - assert_equal(l.start,(1., 0.)) + assert_equal(l.start, (1., 0.)) assert_equal(l.end, (2., 1.)) l.offset(0, 1) - assert_equal(l.start,(1., 1.)) + assert_equal(l.start, (1., 1.)) assert_equal(l.end, (2., 2.)) + def test_arc_radius(): """ Test Arc primitive radius calculation """ cases = [((-3, 4), (5, 0), (0, 0), 5), - ((0, 1), (1, 0), (0, 0), 1),] + ((0, 1), (1, 0), (0, 0), 1), ] for start, end, center, radius in cases: a = Arc(start, end, center, 'clockwise', 0) assert_equal(a.radius, radius) + def test_arc_sweep_angle(): """ Test Arc primitive sweep angle calculation """ cases = [((1, 0), (0, 1), (0, 0), 'counterclockwise', math.radians(90)), ((1, 0), (0, 1), (0, 0), 'clockwise', math.radians(270)), ((1, 0), (-1, 0), (0, 0), 'clockwise', math.radians(180)), - ((1, 0), (-1, 0), (0, 0), 'counterclockwise', math.radians(180)),] + ((1, 0), (-1, 0), (0, 0), 'counterclockwise', math.radians(180)), ] for start, end, center, direction, sweep in cases: - c = Circle((0,0), 1) + c = Circle((0, 0), 1) a = Arc(start, end, center, direction, c) assert_equal(a.sweep_angle, sweep) + def test_arc_bounds(): """ Test Arc primitive bounding box calculation """ - cases = [((1, 0), (0, 1), (0, 0), 'clockwise', ((-1.5, 1.5), (-1.5, 1.5))), - ((1, 0), (0, 1), (0, 0), 'counterclockwise', ((-0.5, 1.5), (-0.5, 1.5))), - #TODO: ADD MORE TEST CASES HERE + cases = [((1, 0), (0, 1), (0, 0), 'clockwise', ((-1.5, 1.5), (-1.5, 1.5))), + ((1, 0), (0, 1), (0, 0), 'counterclockwise', + ((-0.5, 1.5), (-0.5, 1.5))), + # TODO: ADD MORE TEST CASES HERE ] for start, end, center, direction, bounds in cases: - c = Circle((0,0), 1) + c = Circle((0, 0), 1) a = Arc(start, end, center, direction, c) assert_equal(a.bounding_box, bounds) + def test_arc_conversion(): c = Circle((0, 0), 25.4, units='metric') - a = Arc((2.54, 25.4), (254.0, 2540.0), (25400.0, 254000.0),'clockwise', c, units='metric') + a = Arc((2.54, 25.4), (254.0, 2540.0), (25400.0, 254000.0), + 'clockwise', c, units='metric') - #No effect + # No effect a.to_metric() assert_equal(a.start, (2.54, 25.4)) assert_equal(a.end, (254.0, 2540.0)) @@ -195,7 +209,7 @@ def test_arc_conversion(): assert_equal(a.center, (1000.0, 10000.0)) assert_equal(a.aperture.diameter, 1.0) - #no effect + # no effect a.to_inch() assert_equal(a.start, (0.1, 1.0)) assert_equal(a.end, (10.0, 100.0)) @@ -203,41 +217,46 @@ def test_arc_conversion(): assert_equal(a.aperture.diameter, 1.0) c = Circle((0, 0), 1.0, units='inch') - a = Arc((0.1, 1.0), (10.0, 100.0), (1000.0, 10000.0),'clockwise', c, units='inch') + a = Arc((0.1, 1.0), (10.0, 100.0), (1000.0, 10000.0), + 'clockwise', c, units='inch') a.to_metric() assert_equal(a.start, (2.54, 25.4)) assert_equal(a.end, (254.0, 2540.0)) assert_equal(a.center, (25400.0, 254000.0)) assert_equal(a.aperture.diameter, 25.4) + def test_arc_offset(): c = Circle((0, 0), 1) a = Arc((0, 0), (1, 1), (2, 2), 'clockwise', c) a.offset(1, 0) - assert_equal(a.start,(1., 0.)) + assert_equal(a.start, (1., 0.)) assert_equal(a.end, (2., 1.)) assert_equal(a.center, (3., 2.)) a.offset(0, 1) - assert_equal(a.start,(1., 1.)) + assert_equal(a.start, (1., 1.)) assert_equal(a.end, (2., 2.)) assert_equal(a.center, (3., 3.)) + def test_circle_radius(): """ Test Circle primitive radius calculation """ c = Circle((1, 1), 2) assert_equal(c.radius, 1) + def test_circle_bounds(): """ Test Circle bounding box calculation """ c = Circle((1, 1), 2) assert_equal(c.bounding_box, ((0, 2), (0, 2))) + def test_circle_conversion(): c = Circle((2.54, 25.4), 254.0, units='metric') - c.to_metric() #shouldn't do antyhing + c.to_metric() # shouldn't do antyhing assert_equal(c.position, (2.54, 25.4)) assert_equal(c.diameter, 254.) @@ -245,13 +264,13 @@ def test_circle_conversion(): assert_equal(c.position, (0.1, 1.)) assert_equal(c.diameter, 10.) - #no effect + # no effect c.to_inch() assert_equal(c.position, (0.1, 1.)) assert_equal(c.diameter, 10.) c = Circle((0.1, 1.0), 10.0, units='inch') - #No effect + # No effect c.to_inch() assert_equal(c.position, (0.1, 1.)) assert_equal(c.diameter, 10.) @@ -260,17 +279,19 @@ def test_circle_conversion(): assert_equal(c.position, (2.54, 25.4)) assert_equal(c.diameter, 254.) - #no effect + # no effect c.to_metric() assert_equal(c.position, (2.54, 25.4)) assert_equal(c.diameter, 254.) + def test_circle_offset(): c = Circle((0, 0), 1) c.offset(1, 0) - assert_equal(c.position,(1., 0.)) + assert_equal(c.position, (1., 0.)) c.offset(0, 1) - assert_equal(c.position,(1., 1.)) + assert_equal(c.position, (1., 1.)) + def test_ellipse_ctor(): """ Test ellipse creation @@ -280,6 +301,7 @@ def test_ellipse_ctor(): assert_equal(e.width, 3) assert_equal(e.height, 2) + def test_ellipse_bounds(): """ Test ellipse bounding box calculation """ @@ -292,10 +314,11 @@ def test_ellipse_bounds(): e = Ellipse((2, 2), 4, 2, rotation=270) assert_equal(e.bounding_box, ((1, 3), (0, 4))) + def test_ellipse_conversion(): e = Ellipse((2.54, 25.4), 254.0, 2540., units='metric') - #No effect + # No effect e.to_metric() assert_equal(e.position, (2.54, 25.4)) assert_equal(e.width, 254.) @@ -306,7 +329,7 @@ def test_ellipse_conversion(): assert_equal(e.width, 10.) assert_equal(e.height, 100.) - #No effect + # No effect e.to_inch() assert_equal(e.position, (0.1, 1.)) assert_equal(e.width, 10.) @@ -314,7 +337,7 @@ def test_ellipse_conversion(): e = Ellipse((0.1, 1.), 10.0, 100., units='inch') - #no effect + # no effect e.to_inch() assert_equal(e.position, (0.1, 1.)) assert_equal(e.width, 10.) @@ -331,40 +354,44 @@ def test_ellipse_conversion(): assert_equal(e.width, 254.) assert_equal(e.height, 2540.) + def test_ellipse_offset(): e = Ellipse((0, 0), 1, 2) e.offset(1, 0) - assert_equal(e.position,(1., 0.)) + assert_equal(e.position, (1., 0.)) e.offset(0, 1) - assert_equal(e.position,(1., 1.)) + assert_equal(e.position, (1., 1.)) + def test_rectangle_ctor(): """ Test rectangle creation """ - test_cases = (((0,0), 1, 1), ((0, 0), 1, 2), ((1,1), 1, 2)) + test_cases = (((0, 0), 1, 1), ((0, 0), 1, 2), ((1, 1), 1, 2)) for pos, width, height in test_cases: r = Rectangle(pos, width, height) assert_equal(r.position, pos) assert_equal(r.width, width) assert_equal(r.height, height) + def test_rectangle_bounds(): """ Test rectangle bounding box calculation """ - r = Rectangle((0,0), 2, 2) + r = Rectangle((0, 0), 2, 2) xbounds, ybounds = r.bounding_box assert_array_almost_equal(xbounds, (-1, 1)) assert_array_almost_equal(ybounds, (-1, 1)) - r = Rectangle((0,0), 2, 2, rotation=45) + r = Rectangle((0, 0), 2, 2, rotation=45) xbounds, ybounds = r.bounding_box assert_array_almost_equal(xbounds, (-math.sqrt(2), math.sqrt(2))) assert_array_almost_equal(ybounds, (-math.sqrt(2), math.sqrt(2))) + def test_rectangle_conversion(): r = Rectangle((2.54, 25.4), 254.0, 2540.0, units='metric') r.to_metric() - assert_equal(r.position, (2.54,25.4)) + assert_equal(r.position, (2.54, 25.4)) assert_equal(r.width, 254.0) assert_equal(r.height, 2540.0) @@ -385,44 +412,48 @@ def test_rectangle_conversion(): assert_equal(r.height, 100.0) r.to_metric() - assert_equal(r.position, (2.54,25.4)) + assert_equal(r.position, (2.54, 25.4)) assert_equal(r.width, 254.0) assert_equal(r.height, 2540.0) r.to_metric() - assert_equal(r.position, (2.54,25.4)) + assert_equal(r.position, (2.54, 25.4)) assert_equal(r.width, 254.0) assert_equal(r.height, 2540.0) + def test_rectangle_offset(): r = Rectangle((0, 0), 1, 2) r.offset(1, 0) - assert_equal(r.position,(1., 0.)) + assert_equal(r.position, (1., 0.)) r.offset(0, 1) - assert_equal(r.position,(1., 1.)) + assert_equal(r.position, (1., 1.)) + def test_diamond_ctor(): """ Test diamond creation """ - test_cases = (((0,0), 1, 1), ((0, 0), 1, 2), ((1,1), 1, 2)) + test_cases = (((0, 0), 1, 1), ((0, 0), 1, 2), ((1, 1), 1, 2)) for pos, width, height in test_cases: d = Diamond(pos, width, height) assert_equal(d.position, pos) assert_equal(d.width, width) assert_equal(d.height, height) + def test_diamond_bounds(): """ Test diamond bounding box calculation """ - d = Diamond((0,0), 2, 2) + d = Diamond((0, 0), 2, 2) xbounds, ybounds = d.bounding_box assert_array_almost_equal(xbounds, (-1, 1)) assert_array_almost_equal(ybounds, (-1, 1)) - d = Diamond((0,0), math.sqrt(2), math.sqrt(2), rotation=45) + d = Diamond((0, 0), math.sqrt(2), math.sqrt(2), rotation=45) xbounds, ybounds = d.bounding_box assert_array_almost_equal(xbounds, (-1, 1)) assert_array_almost_equal(ybounds, (-1, 1)) + def test_diamond_conversion(): d = Diamond((2.54, 25.4), 254.0, 2540.0, units='metric') @@ -458,19 +489,21 @@ def test_diamond_conversion(): assert_equal(d.width, 254.0) assert_equal(d.height, 2540.0) + def test_diamond_offset(): d = Diamond((0, 0), 1, 2) d.offset(1, 0) - assert_equal(d.position,(1., 0.)) + assert_equal(d.position, (1., 0.)) d.offset(0, 1) - assert_equal(d.position,(1., 1.)) + assert_equal(d.position, (1., 1.)) + def test_chamfer_rectangle_ctor(): """ Test chamfer rectangle creation """ - test_cases = (((0,0), 1, 1, 0.2, (True, True, False, False)), + test_cases = (((0, 0), 1, 1, 0.2, (True, True, False, False)), ((0, 0), 1, 2, 0.3, (True, True, True, True)), - ((1,1), 1, 2, 0.4, (False, False, False, False))) + ((1, 1), 1, 2, 0.4, (False, False, False, False))) for pos, width, height, chamfer, corners in test_cases: r = ChamferRectangle(pos, width, height, chamfer, corners) assert_equal(r.position, pos) @@ -479,23 +512,27 @@ def test_chamfer_rectangle_ctor(): assert_equal(r.chamfer, chamfer) assert_array_almost_equal(r.corners, corners) + def test_chamfer_rectangle_bounds(): """ Test chamfer rectangle bounding box calculation """ - r = ChamferRectangle((0,0), 2, 2, 0.2, (True, True, False, False)) + r = ChamferRectangle((0, 0), 2, 2, 0.2, (True, True, False, False)) xbounds, ybounds = r.bounding_box assert_array_almost_equal(xbounds, (-1, 1)) assert_array_almost_equal(ybounds, (-1, 1)) - r = ChamferRectangle((0,0), 2, 2, 0.2, (True, True, False, False), rotation=45) + r = ChamferRectangle( + (0, 0), 2, 2, 0.2, (True, True, False, False), rotation=45) xbounds, ybounds = r.bounding_box assert_array_almost_equal(xbounds, (-math.sqrt(2), math.sqrt(2))) assert_array_almost_equal(ybounds, (-math.sqrt(2), math.sqrt(2))) + def test_chamfer_rectangle_conversion(): - r = ChamferRectangle((2.54, 25.4), 254.0, 2540.0, 0.254, (True, True, False, False), units='metric') + r = ChamferRectangle((2.54, 25.4), 254.0, 2540.0, 0.254, + (True, True, False, False), units='metric') r.to_metric() - assert_equal(r.position, (2.54,25.4)) + assert_equal(r.position, (2.54, 25.4)) assert_equal(r.width, 254.0) assert_equal(r.height, 2540.0) assert_equal(r.chamfer, 0.254) @@ -512,7 +549,8 @@ def test_chamfer_rectangle_conversion(): assert_equal(r.height, 100.0) assert_equal(r.chamfer, 0.01) - r = ChamferRectangle((0.1, 1.0), 10.0, 100.0, 0.01, (True, True, False, False), units='inch') + r = ChamferRectangle((0.1, 1.0), 10.0, 100.0, 0.01, + (True, True, False, False), units='inch') r.to_inch() assert_equal(r.position, (0.1, 1.0)) assert_equal(r.width, 10.0) @@ -520,30 +558,32 @@ def test_chamfer_rectangle_conversion(): assert_equal(r.chamfer, 0.01) r.to_metric() - assert_equal(r.position, (2.54,25.4)) + assert_equal(r.position, (2.54, 25.4)) assert_equal(r.width, 254.0) assert_equal(r.height, 2540.0) assert_equal(r.chamfer, 0.254) r.to_metric() - assert_equal(r.position, (2.54,25.4)) + assert_equal(r.position, (2.54, 25.4)) assert_equal(r.width, 254.0) assert_equal(r.height, 2540.0) assert_equal(r.chamfer, 0.254) + def test_chamfer_rectangle_offset(): r = ChamferRectangle((0, 0), 1, 2, 0.01, (True, True, False, False)) r.offset(1, 0) - assert_equal(r.position,(1., 0.)) + assert_equal(r.position, (1., 0.)) r.offset(0, 1) - assert_equal(r.position,(1., 1.)) + assert_equal(r.position, (1., 1.)) + def test_round_rectangle_ctor(): """ Test round rectangle creation """ - test_cases = (((0,0), 1, 1, 0.2, (True, True, False, False)), + test_cases = (((0, 0), 1, 1, 0.2, (True, True, False, False)), ((0, 0), 1, 2, 0.3, (True, True, True, True)), - ((1,1), 1, 2, 0.4, (False, False, False, False))) + ((1, 1), 1, 2, 0.4, (False, False, False, False))) for pos, width, height, radius, corners in test_cases: r = RoundRectangle(pos, width, height, radius, corners) assert_equal(r.position, pos) @@ -552,23 +592,27 @@ def test_round_rectangle_ctor(): assert_equal(r.radius, radius) assert_array_almost_equal(r.corners, corners) + def test_round_rectangle_bounds(): """ Test round rectangle bounding box calculation """ - r = RoundRectangle((0,0), 2, 2, 0.2, (True, True, False, False)) + r = RoundRectangle((0, 0), 2, 2, 0.2, (True, True, False, False)) xbounds, ybounds = r.bounding_box assert_array_almost_equal(xbounds, (-1, 1)) assert_array_almost_equal(ybounds, (-1, 1)) - r = RoundRectangle((0,0), 2, 2, 0.2, (True, True, False, False), rotation=45) + r = RoundRectangle((0, 0), 2, 2, 0.2, + (True, True, False, False), rotation=45) xbounds, ybounds = r.bounding_box assert_array_almost_equal(xbounds, (-math.sqrt(2), math.sqrt(2))) assert_array_almost_equal(ybounds, (-math.sqrt(2), math.sqrt(2))) + def test_round_rectangle_conversion(): - r = RoundRectangle((2.54, 25.4), 254.0, 2540.0, 0.254, (True, True, False, False), units='metric') + r = RoundRectangle((2.54, 25.4), 254.0, 2540.0, 0.254, + (True, True, False, False), units='metric') r.to_metric() - assert_equal(r.position, (2.54,25.4)) + assert_equal(r.position, (2.54, 25.4)) assert_equal(r.width, 254.0) assert_equal(r.height, 2540.0) assert_equal(r.radius, 0.254) @@ -585,7 +629,8 @@ def test_round_rectangle_conversion(): assert_equal(r.height, 100.0) assert_equal(r.radius, 0.01) - r = RoundRectangle((0.1, 1.0), 10.0, 100.0, 0.01, (True, True, False, False), units='inch') + r = RoundRectangle((0.1, 1.0), 10.0, 100.0, 0.01, + (True, True, False, False), units='inch') r.to_inch() assert_equal(r.position, (0.1, 1.0)) @@ -594,70 +639,76 @@ def test_round_rectangle_conversion(): assert_equal(r.radius, 0.01) r.to_metric() - assert_equal(r.position, (2.54,25.4)) + assert_equal(r.position, (2.54, 25.4)) assert_equal(r.width, 254.0) assert_equal(r.height, 2540.0) assert_equal(r.radius, 0.254) r.to_metric() - assert_equal(r.position, (2.54,25.4)) + assert_equal(r.position, (2.54, 25.4)) assert_equal(r.width, 254.0) assert_equal(r.height, 2540.0) assert_equal(r.radius, 0.254) + def test_round_rectangle_offset(): r = RoundRectangle((0, 0), 1, 2, 0.01, (True, True, False, False)) r.offset(1, 0) - assert_equal(r.position,(1., 0.)) + assert_equal(r.position, (1., 0.)) r.offset(0, 1) - assert_equal(r.position,(1., 1.)) + assert_equal(r.position, (1., 1.)) + def test_obround_ctor(): """ Test obround creation """ - test_cases = (((0,0), 1, 1), + test_cases = (((0, 0), 1, 1), ((0, 0), 1, 2), - ((1,1), 1, 2)) + ((1, 1), 1, 2)) for pos, width, height in test_cases: o = Obround(pos, width, height) assert_equal(o.position, pos) assert_equal(o.width, width) assert_equal(o.height, height) + def test_obround_bounds(): """ Test obround bounding box calculation """ - o = Obround((2,2),2,4) + o = Obround((2, 2), 2, 4) xbounds, ybounds = o.bounding_box assert_array_almost_equal(xbounds, (1, 3)) assert_array_almost_equal(ybounds, (0, 4)) - o = Obround((2,2),4,2) + o = Obround((2, 2), 4, 2) xbounds, ybounds = o.bounding_box assert_array_almost_equal(xbounds, (0, 4)) assert_array_almost_equal(ybounds, (1, 3)) + def test_obround_orientation(): o = Obround((0, 0), 2, 1) assert_equal(o.orientation, 'horizontal') o = Obround((0, 0), 1, 2) assert_equal(o.orientation, 'vertical') + def test_obround_subshapes(): - o = Obround((0,0), 1, 4) + o = Obround((0, 0), 1, 4) ss = o.subshapes assert_array_almost_equal(ss['rectangle'].position, (0, 0)) assert_array_almost_equal(ss['circle1'].position, (0, 1.5)) assert_array_almost_equal(ss['circle2'].position, (0, -1.5)) - o = Obround((0,0), 4, 1) + o = Obround((0, 0), 4, 1) ss = o.subshapes assert_array_almost_equal(ss['rectangle'].position, (0, 0)) assert_array_almost_equal(ss['circle1'].position, (1.5, 0)) assert_array_almost_equal(ss['circle2'].position, (-1.5, 0)) + def test_obround_conversion(): - o = Obround((2.54,25.4), 254.0, 2540.0, units='metric') + o = Obround((2.54, 25.4), 254.0, 2540.0, units='metric') - #No effect + # No effect o.to_metric() assert_equal(o.position, (2.54, 25.4)) assert_equal(o.width, 254.0) @@ -668,15 +719,15 @@ def test_obround_conversion(): assert_equal(o.width, 10.0) assert_equal(o.height, 100.0) - #No effect + # No effect o.to_inch() assert_equal(o.position, (0.1, 1.0)) assert_equal(o.width, 10.0) assert_equal(o.height, 100.0) - o= Obround((0.1, 1.0), 10.0, 100.0, units='inch') + o = Obround((0.1, 1.0), 10.0, 100.0, units='inch') - #No effect + # No effect o.to_inch() assert_equal(o.position, (0.1, 1.0)) assert_equal(o.width, 10.0) @@ -687,98 +738,107 @@ def test_obround_conversion(): assert_equal(o.width, 254.0) assert_equal(o.height, 2540.0) - #No effect + # No effect o.to_metric() assert_equal(o.position, (2.54, 25.4)) assert_equal(o.width, 254.0) assert_equal(o.height, 2540.0) + def test_obround_offset(): o = Obround((0, 0), 1, 2) o.offset(1, 0) - assert_equal(o.position,(1., 0.)) + assert_equal(o.position, (1., 0.)) o.offset(0, 1) - assert_equal(o.position,(1., 1.)) + assert_equal(o.position, (1., 1.)) + def test_polygon_ctor(): """ Test polygon creation """ - test_cases = (((0,0), 3, 5), + test_cases = (((0, 0), 3, 5), ((0, 0), 5, 6), - ((1,1), 7, 7)) + ((1, 1), 7, 7)) for pos, sides, radius in test_cases: p = Polygon(pos, sides, radius) assert_equal(p.position, pos) assert_equal(p.sides, sides) assert_equal(p.radius, radius) + def test_polygon_bounds(): """ Test polygon bounding box calculation """ - p = Polygon((2,2), 3, 2) + p = Polygon((2, 2), 3, 2) xbounds, ybounds = p.bounding_box assert_array_almost_equal(xbounds, (0, 4)) assert_array_almost_equal(ybounds, (0, 4)) - p = Polygon((2,2),3, 4) + p = Polygon((2, 2), 3, 4) xbounds, ybounds = p.bounding_box assert_array_almost_equal(xbounds, (-2, 6)) assert_array_almost_equal(ybounds, (-2, 6)) + def test_polygon_conversion(): p = Polygon((2.54, 25.4), 3, 254.0, units='metric') - - #No effect + + # No effect p.to_metric() assert_equal(p.position, (2.54, 25.4)) assert_equal(p.radius, 254.0) - + p.to_inch() assert_equal(p.position, (0.1, 1.0)) assert_equal(p.radius, 10.0) - - #No effect + + # No effect p.to_inch() assert_equal(p.position, (0.1, 1.0)) assert_equal(p.radius, 10.0) p = Polygon((0.1, 1.0), 3, 10.0, units='inch') - - #No effect + + # No effect p.to_inch() assert_equal(p.position, (0.1, 1.0)) assert_equal(p.radius, 10.0) - + p.to_metric() assert_equal(p.position, (2.54, 25.4)) assert_equal(p.radius, 254.0) - - #No effect + + # No effect p.to_metric() assert_equal(p.position, (2.54, 25.4)) assert_equal(p.radius, 254.0) + def test_polygon_offset(): p = Polygon((0, 0), 5, 10) p.offset(1, 0) - assert_equal(p.position,(1., 0.)) + assert_equal(p.position, (1., 0.)) p.offset(0, 1) - assert_equal(p.position,(1., 1.)) + assert_equal(p.position, (1., 1.)) + def test_region_ctor(): """ Test Region creation """ - apt = Circle((0,0), 0) - lines = (Line((0,0), (1,0), apt), Line((1,0), (1,1), apt), Line((1,1), (0,1), apt), Line((0,1), (0,0), apt)) - points = ((0, 0), (1,0), (1,1), (0,1)) + apt = Circle((0, 0), 0) + lines = (Line((0, 0), (1, 0), apt), Line((1, 0), (1, 1), apt), + Line((1, 1), (0, 1), apt), Line((0, 1), (0, 0), apt)) + points = ((0, 0), (1, 0), (1, 1), (0, 1)) r = Region(lines) for i, p in enumerate(lines): assert_equal(r.primitives[i], p) + def test_region_bounds(): """ Test region bounding box calculation """ - apt = Circle((0,0), 0) - lines = (Line((0,0), (1,0), apt), Line((1,0), (1,1), apt), Line((1,1), (0,1), apt), Line((0,1), (0,0), apt)) + apt = Circle((0, 0), 0) + lines = (Line((0, 0), (1, 0), apt), Line((1, 0), (1, 1), apt), + Line((1, 1), (0, 1), apt), Line((0, 1), (0, 0), apt)) r = Region(lines) xbounds, ybounds = r.bounding_box assert_array_almost_equal(xbounds, (0, 1)) @@ -786,68 +846,76 @@ def test_region_bounds(): def test_region_offset(): - apt = Circle((0,0), 0) - lines = (Line((0,0), (1,0), apt), Line((1,0), (1,1), apt), Line((1,1), (0,1), apt), Line((0,1), (0,0), apt)) + apt = Circle((0, 0), 0) + lines = (Line((0, 0), (1, 0), apt), Line((1, 0), (1, 1), apt), + Line((1, 1), (0, 1), apt), Line((0, 1), (0, 0), apt)) r = Region(lines) xlim, ylim = r.bounding_box r.offset(0, 1) - assert_array_almost_equal((xlim, tuple([y+1 for y in ylim])), r.bounding_box) + new_xlim, new_ylim = r.bounding_box + assert_array_almost_equal(new_xlim, xlim) + assert_array_almost_equal(new_ylim, tuple([y + 1 for y in ylim])) + def test_round_butterfly_ctor(): """ Test round butterfly creation """ - test_cases = (((0,0), 3), ((0, 0), 5), ((1,1), 7)) + test_cases = (((0, 0), 3), ((0, 0), 5), ((1, 1), 7)) for pos, diameter in test_cases: b = RoundButterfly(pos, diameter) assert_equal(b.position, pos) assert_equal(b.diameter, diameter) - assert_equal(b.radius, diameter/2.) + assert_equal(b.radius, diameter / 2.) + def test_round_butterfly_ctor_validation(): """ Test RoundButterfly argument validation """ assert_raises(TypeError, RoundButterfly, 3, 5) - assert_raises(TypeError, RoundButterfly, (3,4,5), 5) + assert_raises(TypeError, RoundButterfly, (3, 4, 5), 5) + def test_round_butterfly_conversion(): b = RoundButterfly((2.54, 25.4), 254.0, units='metric') - - #No Effect + + # No Effect b.to_metric() assert_equal(b.position, (2.54, 25.4)) assert_equal(b.diameter, (254.0)) - + b.to_inch() assert_equal(b.position, (0.1, 1.0)) assert_equal(b.diameter, 10.0) - - #No effect + + # No effect b.to_inch() assert_equal(b.position, (0.1, 1.0)) assert_equal(b.diameter, 10.0) b = RoundButterfly((0.1, 1.0), 10.0, units='inch') - - #No effect + + # No effect b.to_inch() assert_equal(b.position, (0.1, 1.0)) assert_equal(b.diameter, 10.0) - + b.to_metric() assert_equal(b.position, (2.54, 25.4)) assert_equal(b.diameter, (254.0)) - - #No Effect + + # No Effect b.to_metric() assert_equal(b.position, (2.54, 25.4)) assert_equal(b.diameter, (254.0)) + def test_round_butterfly_offset(): b = RoundButterfly((0, 0), 1) b.offset(1, 0) - assert_equal(b.position,(1., 0.)) + assert_equal(b.position, (1., 0.)) b.offset(0, 1) - assert_equal(b.position,(1., 1.)) + assert_equal(b.position, (1., 1.)) + def test_round_butterfly_bounds(): """ Test RoundButterfly bounding box calculation @@ -857,20 +925,23 @@ def test_round_butterfly_bounds(): assert_array_almost_equal(xbounds, (-1, 1)) assert_array_almost_equal(ybounds, (-1, 1)) + def test_square_butterfly_ctor(): """ Test SquareButterfly creation """ - test_cases = (((0,0), 3), ((0, 0), 5), ((1,1), 7)) + test_cases = (((0, 0), 3), ((0, 0), 5), ((1, 1), 7)) for pos, side in test_cases: b = SquareButterfly(pos, side) assert_equal(b.position, pos) assert_equal(b.side, side) + def test_square_butterfly_ctor_validation(): """ Test SquareButterfly argument validation """ assert_raises(TypeError, SquareButterfly, 3, 5) - assert_raises(TypeError, SquareButterfly, (3,4,5), 5) + assert_raises(TypeError, SquareButterfly, (3, 4, 5), 5) + def test_square_butterfly_bounds(): """ Test SquareButterfly bounding box calculation @@ -880,51 +951,54 @@ def test_square_butterfly_bounds(): assert_array_almost_equal(xbounds, (-1, 1)) assert_array_almost_equal(ybounds, (-1, 1)) + def test_squarebutterfly_conversion(): b = SquareButterfly((2.54, 25.4), 254.0, units='metric') - - #No effect + + # No effect b.to_metric() assert_equal(b.position, (2.54, 25.4)) assert_equal(b.side, (254.0)) - + b.to_inch() assert_equal(b.position, (0.1, 1.0)) assert_equal(b.side, 10.0) - - #No effect + + # No effect b.to_inch() assert_equal(b.position, (0.1, 1.0)) assert_equal(b.side, 10.0) b = SquareButterfly((0.1, 1.0), 10.0, units='inch') - - #No effect + + # No effect b.to_inch() assert_equal(b.position, (0.1, 1.0)) assert_equal(b.side, 10.0) - + b.to_metric() assert_equal(b.position, (2.54, 25.4)) assert_equal(b.side, (254.0)) - - #No effect + + # No effect b.to_metric() assert_equal(b.position, (2.54, 25.4)) assert_equal(b.side, (254.0)) + def test_square_butterfly_offset(): b = SquareButterfly((0, 0), 1) b.offset(1, 0) - assert_equal(b.position,(1., 0.)) + assert_equal(b.position, (1., 0.)) b.offset(0, 1) - assert_equal(b.position,(1., 1.)) + assert_equal(b.position, (1., 1.)) + def test_donut_ctor(): """ Test Donut primitive creation """ - test_cases = (((0,0), 'round', 3, 5), ((0, 0), 'square', 5, 7), - ((1,1), 'hexagon', 7, 9), ((2, 2), 'octagon', 9, 11)) + test_cases = (((0, 0), 'round', 3, 5), ((0, 0), 'square', 5, 7), + ((1, 1), 'hexagon', 7, 9), ((2, 2), 'octagon', 9, 11)) for pos, shape, in_d, out_d in test_cases: d = Donut(pos, shape, in_d, out_d) assert_equal(d.position, pos) @@ -932,65 +1006,68 @@ def test_donut_ctor(): assert_equal(d.inner_diameter, in_d) assert_equal(d.outer_diameter, out_d) + def test_donut_ctor_validation(): assert_raises(TypeError, Donut, 3, 'round', 5, 7) assert_raises(TypeError, Donut, (3, 4, 5), 'round', 5, 7) assert_raises(ValueError, Donut, (0, 0), 'triangle', 3, 5) assert_raises(ValueError, Donut, (0, 0), 'round', 5, 3) + def test_donut_bounds(): d = Donut((0, 0), 'round', 0.0, 2.0) - assert_equal(d.lower_left, (-1.0, -1.0)) - assert_equal(d.upper_right, (1.0, 1.0)) xbounds, ybounds = d.bounding_box assert_equal(xbounds, (-1., 1.)) assert_equal(ybounds, (-1., 1.)) + def test_donut_conversion(): d = Donut((2.54, 25.4), 'round', 254.0, 2540.0, units='metric') - - #No effect + + # No effect d.to_metric() assert_equal(d.position, (2.54, 25.4)) assert_equal(d.inner_diameter, 254.0) assert_equal(d.outer_diameter, 2540.0) - + d.to_inch() assert_equal(d.position, (0.1, 1.0)) assert_equal(d.inner_diameter, 10.0) assert_equal(d.outer_diameter, 100.0) - - #No effect + + # No effect d.to_inch() assert_equal(d.position, (0.1, 1.0)) assert_equal(d.inner_diameter, 10.0) assert_equal(d.outer_diameter, 100.0) d = Donut((0.1, 1.0), 'round', 10.0, 100.0, units='inch') - - #No effect + + # No effect d.to_inch() assert_equal(d.position, (0.1, 1.0)) assert_equal(d.inner_diameter, 10.0) assert_equal(d.outer_diameter, 100.0) - + d.to_metric() assert_equal(d.position, (2.54, 25.4)) assert_equal(d.inner_diameter, 254.0) assert_equal(d.outer_diameter, 2540.0) - - #No effect + + # No effect d.to_metric() assert_equal(d.position, (2.54, 25.4)) assert_equal(d.inner_diameter, 254.0) assert_equal(d.outer_diameter, 2540.0) + def test_donut_offset(): d = Donut((0, 0), 'round', 1, 10) d.offset(1, 0) - assert_equal(d.position,(1., 0.)) + assert_equal(d.position, (1., 0.)) d.offset(0, 1) - assert_equal(d.position,(1., 1.)) + assert_equal(d.position, (1., 1.)) + def test_drill_ctor(): """ Test drill primitive creation @@ -1000,13 +1077,15 @@ def test_drill_ctor(): d = Drill(position, diameter) assert_equal(d.position, position) assert_equal(d.diameter, diameter) - assert_equal(d.radius, diameter/2.) + assert_equal(d.radius, diameter / 2.) + def test_drill_ctor_validation(): """ Test drill argument validation """ assert_raises(TypeError, Drill, 3, 5) - assert_raises(TypeError, Drill, (3,4,5), 5) + assert_raises(TypeError, Drill, (3, 4, 5), 5) + def test_drill_bounds(): d = Drill((0, 0), 2) @@ -1018,46 +1097,48 @@ def test_drill_bounds(): assert_array_almost_equal(xbounds, (0, 2)) assert_array_almost_equal(ybounds, (1, 3)) + def test_drill_conversion(): d = Drill((2.54, 25.4), 254., units='metric') - - #No effect + + # No effect d.to_metric() assert_equal(d.position, (2.54, 25.4)) assert_equal(d.diameter, 254.0) - + d.to_inch() assert_equal(d.position, (0.1, 1.0)) assert_equal(d.diameter, 10.0) - - #No effect + + # No effect d.to_inch() assert_equal(d.position, (0.1, 1.0)) assert_equal(d.diameter, 10.0) - d = Drill((0.1, 1.0), 10., units='inch') - - #No effect + + # No effect d.to_inch() assert_equal(d.position, (0.1, 1.0)) assert_equal(d.diameter, 10.0) - + d.to_metric() assert_equal(d.position, (2.54, 25.4)) assert_equal(d.diameter, 254.0) - - #No effect + + # No effect d.to_metric() assert_equal(d.position, (2.54, 25.4)) assert_equal(d.diameter, 254.0) + def test_drill_offset(): d = Drill((0, 0), 1.) d.offset(1, 0) - assert_equal(d.position,(1., 0.)) + assert_equal(d.position, (1., 0.)) d.offset(0, 1) - assert_equal(d.position,(1., 1.)) + assert_equal(d.position, (1., 1.)) + def test_drill_equality(): d = Drill((2.54, 25.4), 254.) |