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- from tests.rulestestcase import RulesTestCase as TestCase, rewrite
- class TestLeidenOefenopgave(TestCase):
- def test_1_1(self):
- for chain in [['-5(x2 - 3x + 6)', '-5(x ^ 2 - 3x) - 5 * 6',
- '-5 * x ^ 2 - 5 * -3x - 5 * 6',
- '-5 * x ^ 2 - -15x - 5 * 6',
- '-5 * x ^ 2 + 15x - 5 * 6',
- '-5 * x ^ 2 + 15x - 30',
- ],
- ]:
- self.assertRewrite(chain)
- return
- for exp, solution in [
- ('-5(x2 - 3x + 6)', '-30 + 15 * x - 5 * x ^ 2'),
- ('(x+1)^2', 'x ^ 2 + 2 * x + 1'),
- ('(x-1)^2', 'x ^ 2 - 2 * x + 1'),
- ('(2x+x)*x', '3 * x ^ 2'),
- ('-2(6x-4)^2*x', '-72 * x^3 + 96 * x ^ 2 + 32 * x'),
- ('(4x + 5) * -(5 - 4x)', '16x^2 - 25'),
- ]:
- self.assertEqual(str(rewrite(exp)), solution)
- def test_1_2(self):
- for chain in [['(x+1)^3', '(x + 1)(x + 1) ^ 2',
- '(x + 1)(x + 1)(x + 1)',
- '(xx + x * 1 + 1x + 1 * 1)(x + 1)',
- '(x ^ (1 + 1) + x * 1 + 1x + 1 * 1)(x + 1)',
- '(x ^ 2 + x * 1 + 1x + 1 * 1)(x + 1)',
- '(x ^ 2 + (1 + 1)x + 1 * 1)(x + 1)',
- '(x ^ 2 + 2x + 1 * 1)(x + 1)',
- '(x ^ 2 + 2x + 1)(x + 1)',
- '(x ^ 2 + 2x)x + (x ^ 2 + 2x) * 1 + 1x + 1 * 1',
- 'x * x ^ 2 + x * 2x + (x ^ 2 + 2x) * 1 + 1x + 1 * 1',
- 'x ^ (1 + 2) + x * 2x + (x ^ 2 + 2x) * 1 + 1x + 1 * 1',
- 'x ^ 3 + x * 2x + (x ^ 2 + 2x) * 1 + 1x + 1 * 1',
- 'x ^ 3 + x ^ (1 + 1) * 2 + (x ^ 2 + 2x) * 1 + 1x + 1 * 1',
- 'x ^ 3 + x ^ 2 * 2 + (x ^ 2 + 2x) * 1 + 1x + 1 * 1',
- 'x ^ 3 + x ^ 2 * 2 + 1 * x ^ 2 + 1 * 2x + 1x + 1 * 1',
- 'x ^ 3 + (2 + 1) * x ^ 2 + 1 * 2x + 1x + 1 * 1',
- 'x ^ 3 + 3 * x ^ 2 + 1 * 2x + 1x + 1 * 1',
- 'x ^ 3 + 3 * x ^ 2 + 2x + 1x + 1 * 1',
- 'x ^ 3 + 3 * x ^ 2 + (2 + 1)x + 1 * 1',
- 'x ^ 3 + 3 * x ^ 2 + 3x + 1 * 1',
- 'x ^ 3 + 3 * x ^ 2 + 3x + 1',
- ]
- ]:
- self.assertRewrite(chain)
- def test_1_3(self):
- # (x+1)^2 -> x^2 + 2x + 1
- for chain in [['(x+1)^2', '(x + 1)(x + 1)',
- 'xx + x * 1 + 1x + 1 * 1',
- 'x ^ (1 + 1) + x * 1 + 1x + 1 * 1',
- 'x ^ 2 + x * 1 + 1x + 1 * 1',
- 'x ^ 2 + (1 + 1)x + 1 * 1',
- 'x ^ 2 + 2x + 1 * 1',
- 'x ^ 2 + 2x + 1'],
- ]:
- self.assertRewrite(chain)
- def test_1_4(self):
- # (x-1)^2 -> x^2 - 2x + 1
- for chain in [['(x-1)^2', '(x - 1)(x - 1)',
- 'xx + x * -1 - 1x - 1 * -1',
- 'x ^ (1 + 1) + x * -1 - 1x - 1 * -1',
- 'x ^ 2 + x * -1 - 1x - 1 * -1',
- 'x ^ 2 + (-1 - 1)x - 1 * -1',
- 'x ^ 2 - 2x - 1 * -1',
- 'x ^ 2 - 2x + 1',
- ]]:
- self.assertRewrite(chain)
- def test_1_4_1(self):
- self.assertRewrite(['x * -1 + 1x', '(-1 + 1)x', '0x',]) # FIXME: '0'])
- def test_1_4_2(self):
- self.assertRewrite(['x * -1 - 1x', '(-1 + -1)x', '-2x'])
- def test_1_4_3(self):
- self.assertRewrite(['x * -1 + x * -1', '(-1 + -1)x', '-2x'])
- def test_2(self):
- pass
- def test_3(self):
- pass
- def test_4(self):
- for exp, solution in [
- ('2/15 + 1/4', '8 / 60 + 15 / 60'),
- ('8/60 + 15/60', '(8 + 15) / 60'),
- ('(8 + 15) / 60', '23 / 60'),
- ('2/7 - 4/11', '22 / 77 - 28 / 77'),
- ('22/77 - 28/77', '(22 - 28) / 77'),
- ('(22 - 28)/77', '-6 / 77'),
- # FIXME: ('(7/3) * (3/5)', '7 / 5'),
- # FIXME: ('(3/4) / (5/6)', '9 / 10'),
- # FIXME: ('1/4 * 1/x', '1 / (4x)'),
- # FIXME: ('(3/x^2) / (x/7)', '21 / x^3'),
- # FIXME: ('1/x + 2/(x+1)', '(3x + 1) / (x * (x + 1))'),
- ]:
- self.assertEqual(str(rewrite(exp)), solution)
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