| from .context import assert_equal, _Add, _Mul, _Pow | |
| import pytest | |
| from sympy import binomial, Symbol | |
| x = Symbol('x', real=True) | |
| y = Symbol('y', real=True) | |
| theta = Symbol('theta', real=True) | |
| gamma = Symbol('gamma', real=True) | |
| def test_binomial_numeric(): | |
| assert_equal("\\binom{16}{2}", binomial(16, 2)) | |
| def test_binomial_symbols(): | |
| assert_equal("\\binom{x}{y}", binomial(x, y)) | |
| def test_binomial_greek_symbols(): | |
| assert_equal("\\binom{\\theta}{\\gamma}", binomial(theta, gamma)) | |
| def test_binomial_expr(): | |
| assert_equal("\\binom{16+2}{\\frac{4}{2}}", binomial(_Add(16, 2), _Mul(4, _Pow(2, -1)), evaluate=False)) | |
| def test_choose_numeric(): | |
| assert_equal("\\choose{16}{2}", binomial(16, 2)) | |
| def test_choose_symbols(): | |
| assert_equal("\\choose{x}{y}", binomial(x, y)) | |
| def test_choose_greek_symbols(): | |
| assert_equal("\\choose{\\theta}{\\gamma}", binomial(theta, gamma)) | |