from sympy.core.singleton import S from sympy.strategies.rl import ( rm_id, glom, flatten, unpack, sort, distribute, subs, rebuild) from sympy.core.basic import Basic from sympy.core.add import Add from sympy.core.mul import Mul from sympy.core.symbol import symbols from sympy.abc import x def test_rm_id(): rmzeros = rm_id(lambda x: x == 0) assert rmzeros(Basic(S(0), S(1))) == Basic(S(1)) assert rmzeros(Basic(S(0), S(0))) == Basic(S(0)) assert rmzeros(Basic(S(2), S(1))) == Basic(S(2), S(1)) def test_glom(): def key(x): return x.as_coeff_Mul()[1] def count(x): return x.as_coeff_Mul()[0] def newargs(cnt, arg): return cnt * arg rl = glom(key, count, newargs) result = rl(Add(x, -x, 3 * x, 2, 3, evaluate=False)) expected = Add(3 * x, 5) assert set(result.args) == set(expected.args) def test_flatten(): assert flatten(Basic(S(1), S(2), Basic(S(3), S(4)))) == \ Basic(S(1), S(2), S(3), S(4)) def test_unpack(): assert unpack(Basic(S(2))) == 2 assert unpack(Basic(S(2), S(3))) == Basic(S(2), S(3)) def test_sort(): assert sort(str)(Basic(S(3), S(1), S(2))) == Basic(S(1), S(2), S(3)) def test_distribute(): class T1(Basic): pass class T2(Basic): pass distribute_t12 = distribute(T1, T2) assert distribute_t12(T1(S(1), S(2), T2(S(3), S(4)), S(5))) == \ T2(T1(S(1), S(2), S(3), S(5)), T1(S(1), S(2), S(4), S(5))) assert distribute_t12(T1(S(1), S(2), S(3))) == T1(S(1), S(2), S(3)) def test_distribute_add_mul(): x, y = symbols('x, y') expr = Mul(2, Add(x, y), evaluate=False) expected = Add(Mul(2, x), Mul(2, y)) distribute_mul = distribute(Mul, Add) assert distribute_mul(expr) == expected def test_subs(): rl = subs(1, 2) assert rl(1) == 2 assert rl(3) == 3 def test_rebuild(): expr = Basic.__new__(Add, S(1), S(2)) assert rebuild(expr) == 3