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@@ -0,0 +1,63 @@
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+from src.rules.numerics import match_divide_numerics, divide_numerics, \
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+ add_numerics
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+from src.possibilities import Possibility as P
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+from src.node import ExpressionLeaf as L
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+from tests.rulestestcase import RulesTestCase
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+from tests.test_rules_poly import tree
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+
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+
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+class TestRulesNumerics(RulesTestCase):
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+
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+ def test_match_divide_numerics(self):
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+ # FIXME: Parser does not recognize floats
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+ #i2, i3, i6, f1, f2, f3 = tree('2,3,6,1.0,2.0,3.0')
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+ i2, i3, i6 = tree('2,3,6')
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+ f1, f2, f3 = L(1.0), L(2.0), L(3.0)
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+
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+ root = i6 / i2
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+ possibilities = match_divide_numerics(root)
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+ self.assertEqualPos(possibilities,
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+ [P(root, divide_numerics, (6, 2))])
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+
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+ root = i3 / i2
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+ possibilities = match_divide_numerics(root)
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+ self.assertEqualPos(possibilities, [])
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+
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+ root = f3 / i2
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+ possibilities = match_divide_numerics(root)
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+ self.assertEqualPos(possibilities,
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+ [P(root, divide_numerics, (3.0, 2))])
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+
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+ root = i3 / f2
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+ possibilities = match_divide_numerics(root)
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+ self.assertEqualPos(possibilities,
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+ [P(root, divide_numerics, (3, 2.0))])
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+
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+ root = f3 / f2
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+ possibilities = match_divide_numerics(root)
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+ self.assertEqualPos(possibilities,
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+ [P(root, divide_numerics, (3.0, 2.0))])
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+
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+ root = i3 / f1
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+ possibilities = match_divide_numerics(root)
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+ self.assertEqualPos(possibilities,
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+ [P(root, divide_numerics, (3, 1))])
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+
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+ def test_divide_numerics(self):
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+ # FIXME: Parser does not recognize floats
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+ #i2, i3, i6, f2, f3 = tree('2,3,6,2.0,3.0')
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+ i2, i3, i6 = tree('2,3,6')
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+ f2, f3 = L(2.0), L(3.0)
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+
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+ self.assertEqual(divide_numerics(i6 / i2, (6, 2)), 3)
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+ self.assertEqual(divide_numerics(f3 / i2, (3.0, 2)), 1.5)
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+ self.assertEqual(divide_numerics(i3 / f2, (3, 2.0)), 1.5)
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+ self.assertEqual(divide_numerics(f3 / f2, (3.0, 2.0)), 1.5)
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+
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+ def test_add_numerics(self):
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+ l0, l1 = tree('1,2')
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+ self.assertEqual(add_numerics(l0 + l1, (l0, l1, 1, 2)), 3)
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+
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+ def test_add_numerics(self):
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+ l0, a, l1 = tree('1,a,2')
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+ self.assertEqual(add_numerics(l0 + a + l1, (l0, l1, 1, 2)), L(3) + a)
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Taddeus Kroes