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- import unittest
- from src.rules.poly import match_combine_polynomes, combine_polynomes, \
- combine_numerics
- from src.possibilities import Possibility as P
- from src.parser import Parser
- from tests.parser import ParserWrapper
- def tree(exp, **kwargs):
- return ParserWrapper(Parser, **kwargs).run([exp])
- class TestRulesPoly(unittest.TestCase):
- def assertEqualPos(self, possibilities, expected):
- self.assertEqual(len(possibilities), len(expected))
- for p, e in zip(possibilities, expected):
- self.assertEqual(p.root, e.root)
- for pair in zip(p.args, e.args):
- self.assertEqual(*pair)
- self.assertEqual(p, e)
- def test_numbers(self):
- return
- # TODO: Move to combine numeric test
- l1, l2 = root = tree('1+2')
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_numerics, ((l1, (l1, l1, l1)),
- (l2, (l1, l2, l1))))])
- def test_identifiers_basic(self):
- a1, a2 = root = tree('a+a')
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_polynomes, (a1, a2, 1, 1, 'a', 1))])
- def test_identifiers_normal(self):
- a1, a2 = root = tree('a+2a')
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_polynomes, (a1, a2, 1, 2, 'a', 1))])
- def test_identifiers_reverse(self):
- return
- # TODO: Move to normalisation test
- a1, a2 = root = tree('a+a*2')
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_polynomes, (a1, a2, 1, 2, a1, 1))])
- def test_identifiers_exponent(self):
- a1, a2 = root = tree('a2+a2')
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_polynomes, (a1, a2, 1, 1, 'a', 2))])
- def test_identifiers_coeff_exponent_left(self):
- a1, a2 = root = tree('2a3+a3')
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_polynomes, (a1, a2, 2, 1, 'a', 3))])
- def test_identifiers_coeff_exponent_both(self):
- a1, a2 = root = tree('2a3+2a3')
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_polynomes, (a1, a2, 2, 2, 'a', 3))])
- def test_basic_subexpressions(self):
- a_b, c, d = tree('a+b,c,d')
- left, right = root = tree('(a+b)^d + (a+b)^d')
- self.assertEqual(left, right)
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_polynomes, (left, right, 1, 1, a_b, d))])
- left, right = root = tree('5(a+b)^d + 7(a+b)^d')
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_polynomes, (left, right, 5, 7, a_b, d))])
- # TODO: Move to other strategy
- #left, right = root = tree('c(a+b)^d + c(a+b)^d')
- #self.assertEqual(left, right)
- #possibilities = match_combine_polynomes(root)
- #self.assertEqualPos(possibilities,
- # [P(root, combine_polynomes, (left, right, c, c, a_b, d))])
- def test_match_combine_polynomes_numeric_combinations(self):
- return
- root = tree('0+1+2')
- # TODO: this test fails with this code: l0, l1, l2 = tree('0,1,2')
- l0, l1, l2 = root[0][0], root[0][1], root[1]
- possibilities = match_combine_polynomes(root)
- self.assertEqualPos(possibilities,
- [P(root, combine_polynomes, ((l0, (l1, l0, l1)),
- (l1, (l1, l1, l1)))),
- P(root, combine_polynomes, ((l0, (l1, l0, l1)),
- (l2, (l1, l2, l1)))),
- P(root, combine_polynomes, ((l1, (l1, l1, l1)),
- (l2, (l1, l2, l1))))])
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