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test_rules_goniometry.py

test_rules_goniometry.py 2.5 KB
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  1. # vim: set fileencoding=utf-8 :
    2. 

  2. from src.rules.goniometry import match_add_quadrants, add_quadrants, \
    3. 

  3.         match_negated_parameter, negated_sinus_parameter, is_pi_frac, \
    4. 

  4.         negated_cosinus_parameter, match_standard_radian, standard_radian
    5. 

  5. from src.node import PI, OP_SIN, OP_COS, OP_TAN, sin, cos, tan
    6. 

  6. from src.possibilities import Possibility as P
    7. 

  7. from tests.rulestestcase import RulesTestCase, tree
    8. 

  8. from src.rules import goniometry
    9. 

  9. import doctest
    10. 

  10. 

  11. 

  12. class TestRulesGoniometry(RulesTestCase):
    13. 

  13. 

  14.     def test_doctest(self):
    15. 

  15.         self.assertEqual(doctest.testmod(m=goniometry)[0], 0)
    16. 

  16. 

  17.     def test_match_add_quadrants(self):
    18. 

  18.         root = tree('sin(t) ^ 2 + cos(t) ^ 2')
    19. 

  19.         possibilities = match_add_quadrants(root)
    20. 

  20.         self.assertEqualPos(possibilities, [P(root, add_quadrants, ())])
    21. 

  21. 

  22.     def test_add_quadrants(self):
    23. 

  23.         self.assertEqual(add_quadrants(None, ()), 1)
    24. 

  24. 

  25.     def test_match_negated_parameter(self):
    26. 

  26.         s, c = tree('sin -t, cos -t')
    27. 

  27.         t = s[0]
    28. 

  28. 

  29.         self.assertEqualPos(match_negated_parameter(s), \
    30. 

  30.                 [P(s, negated_sinus_parameter, (t,))])
    31. 

  31. 

  32.         self.assertEqualPos(match_negated_parameter(c), \
    33. 

  33.                 [P(c, negated_cosinus_parameter, (t,))])
    34. 

  34. 

  35.     def test_negated_sinus_parameter(self):
    36. 

  36.         s = tree('sin -t')
    37. 

  37.         t = s[0]
    38. 

  38.         self.assertEqual(negated_sinus_parameter(s, (t,)), -sin(+t))
    39. 

  39. 

  40.     def test_negated_cosinus_parameter(self):
    41. 

  41.         c = tree('cos -t')
    42. 

  42.         t = c[0]
    43. 

  43.         self.assertEqual(negated_cosinus_parameter(c, (t,)), cos(+t))
    44. 

  44. 

  45.     def test_is_pi_frac(self):
    46. 

  46.         l1, pi = tree('1,' + PI)
    47. 

  47. 

  48.         self.assertTrue(is_pi_frac(l1 / 2 * pi, 2))
    49. 

  49.         self.assertFalse(is_pi_frac(l1 / 2 * pi, 3))
    50. 

  50.         self.assertFalse(is_pi_frac(l1 * pi, 3))
    51. 

  51. 

  52.     def test_match_standard_radian(self):
    53. 

  53.         s, c, t = tree('sin(1 / 6 * pi), cos(1 / 2 * pi), tan(0)')
    54. 

  54. 

  55.         self.assertEqualPos(match_standard_radian(s), \
    56. 

  56.                 [P(s, standard_radian, (OP_SIN, 1))])
    57. 

  57. 

  58.         self.assertEqualPos(match_standard_radian(c), \
    59. 

  59.                 [P(c, standard_radian, (OP_COS, 4))])
    60. 

  60. 

  61.         self.assertEqualPos(match_standard_radian(t), \
    62. 

  62.                 [P(t, standard_radian, (OP_TAN, 0))])
    63. 

  63. 

  64.     def test_standard_radian(self):
    65. 

  65.         l0, l1, sq3, pi6, pi4, pi2 = tree('0,1,sqrt(3),1/6*pi,1/4*pi,1/2*pi')
    66. 

  66. 

  67.         self.assertEqual(standard_radian(sin(pi6), (OP_SIN, 1)), l1 / 2)
    68. 

  68.         self.assertEqual(standard_radian(sin(pi2), (OP_SIN, 4)), 1)
    69. 

  69.         self.assertEqual(standard_radian(cos(l0), (OP_COS, 0)), 1)
    70. 

  70.         self.assertEqual(standard_radian(tan(pi4), (OP_TAN, 3)), sq3)
    71.