def test_Line_length(self): a = xyz.Line(xyz.XY(0, 0), xyz.XY(1, 1)) self.assertEqual(a.length, Decimal('1.414')) a = xyz.Line(xyz.XY(1, -3), xyz.XY(-5, -7)) self.assertEqual(a.length, Decimal('7.211')) self.assertEqual(list(a.points), [xyz.XY(1, -3), xyz.XY(-5, -7)])
def test_XY_directions(self): a = xyz.XY(0, 0) left = xyz.XY(-1, 0) right = xyz.XY(1, 0) nearer = xyz.XY(0, -1) farther = xyz.XY(0, 1) self.assertTrue(a.rightof(left)) self.assertFalse(a.leftof(left)) self.assertFalse(a.nearer(left)) self.assertFalse(a.farther(left)) self.assertTrue(a.leftof(right)) self.assertFalse(a.rightof(right)) self.assertFalse(a.nearer(right)) self.assertFalse(a.farther(right)) self.assertFalse(a.leftof(nearer)) self.assertTrue(a.farther(nearer)) self.assertFalse(a.rightof(nearer)) self.assertFalse(a.nearer(nearer)) self.assertFalse(a.leftof(farther)) self.assertFalse(a.farther(farther)) self.assertFalse(a.rightof(farther)) self.assertTrue(a.nearer(farther)) self.assertTrue(a.xlinear(nearer)) self.assertTrue(a.xlinear(farther)) self.assertFalse(a.xlinear(left)) self.assertFalse(a.xlinear(right)) self.assertFalse(a.ylinear(nearer)) self.assertFalse(a.ylinear(farther)) self.assertTrue(a.ylinear(left)) self.assertTrue(a.ylinear(right)) b = xyz.XY(3, 4) self.assertEqual(a.distance(b), Decimal('5.00000')) self.assertEqual(a.slope(b), Decimal(4.0) / Decimal(3.0)) self.assertEqual(b.slope(a), Decimal(4.0) / Decimal(3.0)) for p in (a, left, right, nearer, farther): with self.assertRaises(ValueError): x = p.quadrant self.assertEqual(xyz.XY(1, 1).quadrant, 1) self.assertEqual(xyz.XY(-1, 1).quadrant, 2) self.assertEqual(xyz.XY(-1, -1).quadrant, 3) self.assertEqual(xyz.XY(1, -1).quadrant, 4) with self.assertRaises(RuntimeError): a.yzquadrant with self.assertRaises(RuntimeError): a.xzquadrant
def test_RightTriangle_angles(self): a = xyz.XY(0,0) b = xyz.XY(3,0) c = xyz.XY(3,3) for abc in ((a,b,c), (a,c,b), (b,a,c), (b,c,a), (c,a,b), (c,b,a)): t = shapes.RightTriangle(abc[0], abc[1], abc[2]) self.assertTrue(t.a in [xyz.Line(xyz.XY(0,0), xyz.XY(3,0)), xyz.Line(xyz.XY(3,0), xyz.XY(3,3))]) self.assertEqual(t.b, xyz.Line(xyz.XY(0,0), xyz.XY(3,3))) self.assertTrue(t.c in [xyz.Line(xyz.XY(0,0), xyz.XY(3,0)), xyz.Line(xyz.XY(3,0), xyz.XY(3,3))]) self.assertTrue(t.b.length >= t.a.length) self.assertTrue(t.b.length >= t.c.length) self.assertTrue(t.a.length >= t.c.length) self.assertEqual(t.a.length, 3) self.assertEqual(t.b.length, Decimal('4.243')) self.assertEqual(t.c.length, 3) self.assertEqual(t.BAC, 45) self.assertEqual(t.ABC, 90) self.assertEqual(t.ACB, 45) self.assertEqual(t.Bmid, xyz.XY(1.5, 1.5)) a = xyz.XY(0,0) b = xyz.XY(3,0) c = xyz.XY(3,4) AB = xyz.Line(a,b) AC = xyz.Line(a,c) BC = xyz.Line(b,c) for abc in ((a,b,c), (a,c,b), (b,a,c), (b,c,a), (c,a,b), (c,b,a)): t = shapes.RightTriangle(abc[0], abc[1], abc[2]) self.assertTrue(t.a in [BC, BC.reverse]) self.assertEqual(t.b, AC) self.assertTrue(t.c in [AB, AB.reverse]) self.assertTrue(t.b.length >= t.a.length) self.assertTrue(t.b.length >= t.c.length) self.assertTrue(t.a.length >= t.c.length) self.assertEqual(t.a.length, 4) self.assertEqual(t.b.length, 5) self.assertEqual(t.c.length, 3) self.assertEqual(t.BAC, Decimal('36.87')) self.assertEqual(t.ABC, 90) self.assertEqual(t.ACB, Decimal('53.13000')) self.assertEqual(t.Bmid, xyz.XY(1.5, 2))
def test_XYZ_identity(self): a = xyz.XY(0, 0) b = xyz.XYZ(0, 0, 0) self.assertEqual(a, b) c = xyz.XYZ(1, 1, 1) self.assertEqual(c.yzquadrant, 1) self.assertEqual(c.xzquadrant, 1) d = xyz.XYZ(-1, -1, -1) self.assertEqual(c.distance(d), Decimal('3.46410', quant="10000.000"))
def test_Line_xyBLAH(self): a = xyz.Line(xyz.XY(0, 0), xyz.XY(4, 5)) self.assertEqual(a.xyb, 0) self.assertEqual(a.xym, 1.25) self.assertEqual(a.xybisector.xyb, Decimal("4.1")) self.assertEqual(a.xybisector.xym, Decimal("-0.8")) self.assertEqual(a.xyYAtX(-4), -5) self.assertEqual(a.xyYAtX(0), 0) self.assertEqual(a.xyYAtX(2), 2.5) self.assertEqual(a.xyYAtX(4), 5) self.assertEqual(a.xyYAtX(8), 10) self.assertEqual(a.xyXAtY(-5), -4) self.assertEqual(a.xyXAtY(0), 0) self.assertEqual(a.xyXAtY(2.5), 2) self.assertEqual(a.xyXAtY(5), 4) self.assertEqual(a.xyXAtY(10), 8) self.assertEqual(a.atX(4), xyz.XY(4, 5))
def test_Line(self): a = xyz.XY(0,0) b = xyz.XY(0.5, 0.86603) l = xyz.Line(a, b) self.assertEqual(l.xy_min.x, Decimal('0')) self.assertEqual(l.xy_min.y, Decimal('0')) self.assertEqual(l.xy_max.x, Decimal('0.5')) self.assertEqual(l.xy_max.y, Decimal('0.866')) self.assertEqual(l.xym, Decimal('1.732')) self.assertEqual(l.xyb, Decimal('0')) l = xyz.Line(b, a) self.assertEqual(l.xym, Decimal('1.732')) self.assertEqual(l.xyb, Decimal('0')) a = xyz.XY(0,0) b = xyz.XY(0.5, -0.86603) l = xyz.Line(a, b) self.assertEqual(l.xym, Decimal('-1.732')) self.assertEqual(l.xyb, Decimal('0')) l = xyz.Line(b, a) self.assertEqual(l.xym, Decimal('-1.732')) self.assertEqual(l.xyb, Decimal('0')) a = xyz.XY(1,0) b = xyz.XY(1.5, 0.86603) l = xyz.Line(a, b) self.assertEqual(l.xym, Decimal('1.732')) self.assertEqual(l.xyb, Decimal('-1.732')) a = xyz.XY(3,0) b = xyz.XY(4,5) l = xyz.Line(a, b) self.assertEqual(l.xym, Decimal('5')) self.assertEqual(l.xyb, Decimal('-15'))
def test_Triangle_subsets(self): a = xyz.XY(0,0) b = xyz.XY(1,0) c = xyz.XY(0.5, math.sqrt(Decimal("0.75"))) for abc in ((a,b,c), (a,c,b), (b,a,c), (b,c,a), (c,a,b), (c,b,a)): t = shapes.Triangle(abc[0], abc[1], abc[2]) self.assertEqual(t.A, a) self.assertEqual(t.B, b) self.assertEqual(t.C, c) self.assertFalse(isinstance(t, shapes.RightTriangle)) self.assertTrue(t.b.length >= t.a.length) self.assertTrue(t.b.length >= t.c.length) self.assertTrue(t.a.length >= t.c.length) l = t.a.length + t.c.length l = t.a.length / l l = t.b.length * l self.assertEqual(t.a, xyz.Line(a, c)) self.assertEqual(t.b, xyz.Line(b, c)) self.assertEqual(t.c, xyz.Line(a, b)) self.assertEqual(t.a.length, 1) self.assertEqual(t.b.length, 1) self.assertEqual(t.c.length, 1) mids = [xyz.XY(Decimal("0.25000"), Decimal("0.43301")), xyz.XY(0.5, 0), xyz.XY(Decimal("0.75000"), Decimal("0.43301"))] self.assertTrue(t.Bmid in mids) self.assertTrue(t.ABC > Decimal('59.001') and \ t.ABC < Decimal('60.001')) self.assertTrue(t.BAC > Decimal('59.001') and \ t.ABC < Decimal('60.001')) self.assertTrue(t.ACB > Decimal('59.001') and \ t.ABC < Decimal('60.001')) a = xyz.XY(0,0) b = xyz.XY(3,0) c = xyz.XY(4,5) for abc in ((a,b,c), (a,c,b), (b,a,c), (b,c,a), (c,a,b), (c,b,a)): t = shapes.Triangle(abc[0], abc[1], abc[2]) self.assertFalse(isinstance(t, shapes.RightTriangle)) self.assertTrue(t.b.length >= t.a.length) self.assertTrue(t.b.length >= t.c.length) self.assertTrue(t.a.length >= t.c.length) self.assertEqual(t.Bmid, xyz.XY(1.170, 1.464)) l = t.a.length + t.c.length l = t.a.length / l l = t.b.length * l self.assertEqual(t.a, xyz.Line(xyz.XY(3,0), xyz.XY(4,5))) self.assertEqual(t.b, xyz.Line(xyz.XY(0,0), xyz.XY(4,5))) self.assertEqual(t.c, xyz.Line(xyz.XY(0,0), xyz.XY(3,0))) self.assertEqual(t.a.length, Decimal('5.099')) self.assertEqual(t.b.length, Decimal('6.403')) self.assertEqual(t.c.length, 3) self.assertEqual(t.thetaA, Decimal('51.340')) self.assertEqual(t.thetaC, Decimal('-27.350')) self.assertEqual(t.ABC, Decimal('101.31')) self.assertEqual(t.BAC, Decimal('51.340')) self.assertEqual(t.ACB, Decimal('27.35'))
def test_Line_distance(self): a = xyz.Line(xyz.XY(0, 0), xyz.XY(4, 5)) A = xyz.XY(0, 4) self.assertEqual(a.distance(A), Decimal('4.0615'))