コード例 #1
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def test_ineq_avoid_wild_symbol_flip():
    p = Wild('p')
    assert Gt(x, p) == Gt(x, p, evaluate=False)
    assert (x < p) == Lt(x, p, evaluate=False)  # issue sympy/sympy#7951
    # Previously failed as 'p > x':
    e = Lt(x, y).subs({y: p})
    assert e == Lt(x, p, evaluate=False)
    # Previously failed as 'p <= x':
    e = Ge(x, p).doit()
    assert e == Ge(x, p, evaluate=False)
コード例 #2
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def test_sympyissue_8444():
    x = Symbol('x', extended_real=True)
    assert (x <= oo) == (x >= -oo) == true

    x = Symbol('x', real=True)
    assert x >= floor(x)
    assert (x < floor(x)) is false
    assert Gt(x, floor(x)) == Gt(x, floor(x), evaluate=False)
    assert Ge(x, floor(x)) == Ge(x, floor(x), evaluate=False)
    assert x <= ceiling(x)
    assert (x > ceiling(x)) is false
    assert Lt(x, ceiling(x)) == Lt(x, ceiling(x), evaluate=False)
    assert Le(x, ceiling(x)) == Le(x, ceiling(x), evaluate=False)
    i = Symbol('i', integer=True)
    assert (i > floor(i)) is false
    assert (i < ceiling(i)) is false
コード例 #3
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def test_infinity():
    # issue sympy/sympy#8449
    p = Symbol('p', nonnegative=True)
    assert Lt(-oo, p)
    assert Ge(-oo, p) is false
    assert Gt(oo, -p)
    assert Le(oo, -p) is false
コード例 #4
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def test_doit():
    p = Symbol('p', positive=True)
    n = Symbol('n', negative=True)
    np = Symbol('np', nonpositive=True)
    nn = Symbol('nn', nonnegative=True)

    assert Gt(p, 0).doit() is true
    assert Gt(p, 1).doit() == Gt(p, 1)
    assert Ge(p, 0).doit() is true
    assert Le(p, 0).doit() is false
    assert Lt(n, 0).doit() is true
    assert Le(np, 0).doit() is true
    assert Gt(nn, 0).doit() == Gt(nn, 0)
    assert Lt(nn, 0).doit() is false

    assert Eq(x, 0).doit() == Eq(x, 0)
コード例 #5
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ファイル: test_python.py プロジェクト: diofant/diofant
def test_python_relational():
    assert python(Eq(x, y)) == 'e = Eq(x, y)'
    assert python(Ge(x, y)) == "x = Symbol('x')\ny = Symbol('y')\ne = x >= y"
    assert python(Le(x, y)) == "x = Symbol('x')\ny = Symbol('y')\ne = x <= y"
    assert python(Gt(x, y)) == "x = Symbol('x')\ny = Symbol('y')\ne = x > y"
    assert python(Lt(x, y)) == "x = Symbol('x')\ny = Symbol('y')\ne = x < y"
    assert python(
        Ne(x / (y + 1),
           y**2)) in ['e = Ne(x/(1 + y), y**2)', 'e = Ne(x/(y + 1), y**2)']
コード例 #6
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def test_evaluate():
    assert str(Eq(x, x, evaluate=False)) == 'Eq(x, x)'
    assert Eq(x, x, evaluate=False).doit() == true
    assert str(Ne(x, x, evaluate=False)) == 'Ne(x, x)'
    assert Ne(x, x, evaluate=False).doit() == false

    assert str(Ge(x, x, evaluate=False)) == 'x >= x'
    assert str(Le(x, x, evaluate=False)) == 'x <= x'
    assert str(Gt(x, x, evaluate=False)) == 'x > x'
    assert str(Lt(x, x, evaluate=False)) == 'x < x'
コード例 #7
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def test_inequalities_symbol_name_same():
    """Using the operator and functional forms should give same results."""
    # We test all combinations from a set
    A = (x, y, Integer(0), Rational(1, 3), pi, oo, -oo)
    for a in A:
        for b in A:
            assert Gt(a, b) == (a > b)
            assert Lt(a, b) == (a < b)
            assert Ge(a, b) == (a >= b)
            assert Le(a, b) == (a <= b)

    for b in (y, Integer(0), Rational(1, 3), pi, oo, -oo):
        assert Gt(x, b, evaluate=False) == (x > b)
        assert Lt(x, b, evaluate=False) == (x < b)
        assert Ge(x, b, evaluate=False) == (x >= b)
        assert Le(x, b, evaluate=False) == (x <= b)

    for b in (y, Integer(0), Rational(1, 3), pi, oo, -oo):
        assert Gt(b, x, evaluate=False) == (b > x)
        assert Lt(b, x, evaluate=False) == (b < x)
        assert Ge(b, x, evaluate=False) == (b >= x)
        assert Le(b, x, evaluate=False) == (b <= x)
コード例 #8
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def test_inequalities_symbol_name_same_complex():
    """Using the operator and functional forms should give same results.
    With complex non-real numbers, both should raise errors.
    """
    for a in (x, Integer(0), Rational(1, 3), pi, oo):
        pytest.raises(TypeError, lambda: Gt(a, I))
        pytest.raises(TypeError, lambda: a > I)
        pytest.raises(TypeError, lambda: Lt(a, I))
        pytest.raises(TypeError, lambda: a < I)
        pytest.raises(TypeError, lambda: Ge(a, I))
        pytest.raises(TypeError, lambda: a >= I)
        pytest.raises(TypeError, lambda: Le(a, I))
        pytest.raises(TypeError, lambda: a <= I)
コード例 #9
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def test_reduce_poly_inequalities_complex_relational():
    assert reduce_rational_inequalities([[Eq(x**2, 0)]], x,
                                        relational=True) == Eq(x, 0)
    assert reduce_rational_inequalities([[Le(x**2, 0)]], x,
                                        relational=True) == Eq(x, 0)
    assert reduce_rational_inequalities([[Lt(x**2, 0)]], x,
                                        relational=True) is false
    assert reduce_rational_inequalities([[Ge(x**2, 0)]], x,
                                        relational=True) == And(
                                            Lt(-oo, x), Lt(x, oo))
    assert reduce_rational_inequalities(
        [[Gt(x**2, 0)]], x, relational=True) == \
        And(Or(And(Lt(-oo, x), Lt(x, 0)), And(Lt(0, x), Lt(x, oo))))
    assert reduce_rational_inequalities(
        [[Ne(x**2, 0)]], x, relational=True) == \
        And(Or(And(Lt(-oo, x), Lt(x, 0)), And(Lt(0, x), Lt(x, oo))))

    for one in (Integer(1), Float(1.0)):
        inf = one * oo
        assert reduce_rational_inequalities(
            [[Eq(x**2, one)]], x, relational=True) == \
            Or(Eq(x, -one), Eq(x, one))
        assert reduce_rational_inequalities(
            [[Le(x**2, one)]], x, relational=True) == \
            And(And(Le(-one, x), Le(x, one)))
        assert reduce_rational_inequalities(
            [[Lt(x**2, one)]], x, relational=True) == \
            And(And(Lt(-one, x), Lt(x, one)))
        assert reduce_rational_inequalities(
            [[Ge(x**2, one)]], x, relational=True) == \
            And(Or(And(Le(one, x), Lt(x, inf)), And(Le(x, -one), Lt(-inf, x))))
        assert reduce_rational_inequalities(
            [[Gt(x**2, one)]], x, relational=True) == \
            And(Or(And(Lt(-inf, x), Lt(x, -one)), And(Lt(one, x), Lt(x, inf))))
        assert reduce_rational_inequalities(
            [[Ne(x**2, one)]], x, relational=True) == \
            Or(And(Lt(-inf, x), Lt(x, -one)),
               And(Lt(-one, x), Lt(x, one)),
               And(Lt(one, x), Lt(x, inf)))
コード例 #10
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def test_bool():
    assert Eq(0, 0) is true
    assert Eq(1, 0) is false
    assert Ne(0, 0) is false
    assert Ne(1, 0) is true
    assert Lt(0, 1) is true
    assert Lt(1, 0) is false
    assert Le(0, 1) is true
    assert Le(1, 0) is false
    assert Le(0, 0) is true
    assert Gt(1, 0) is true
    assert Gt(0, 1) is false
    assert Ge(1, 0) is true
    assert Ge(0, 1) is false
    assert Ge(1, 1) is true
    assert Eq(I, 2) is false
    assert Ne(I, 2) is true
    pytest.raises(TypeError, lambda: Gt(I, 2))
    pytest.raises(TypeError, lambda: Ge(I, 2))
    pytest.raises(TypeError, lambda: Lt(I, 2))
    pytest.raises(TypeError, lambda: Le(I, 2))
    a = Float('.000000000000000000001')
    b = Float('.0000000000000000000001')
    assert Eq(pi + a, pi + b) is false
コード例 #11
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def test_wrappers():
    e = x + x**2

    res = Relational(y, e, '==')
    assert Rel(y, x + x**2, '==') == res
    assert Eq(y, x + x**2) == res

    res = Relational(y, e, '<')
    assert Lt(y, x + x**2) == res

    res = Relational(y, e, '<=')
    assert Le(y, x + x**2) == res

    res = Relational(y, e, '>')
    assert Gt(y, x + x**2) == res

    res = Relational(y, e, '>=')
    assert Ge(y, x + x**2) == res

    res = Relational(y, e, '!=')
    assert Ne(y, x + x**2) == res
コード例 #12
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ファイル: test_inequalities.py プロジェクト: goretkin/diofant
def test_reduce_poly_inequalities_real_interval():
    assert reduce_rational_inequalities(
        [[Eq(x**2, 0)]], x, relational=False) == FiniteSet(0)
    assert reduce_rational_inequalities(
        [[Le(x**2, 0)]], x, relational=False) == FiniteSet(0)
    assert reduce_rational_inequalities(
        [[Lt(x**2, 0)]], x, relational=False) == S.EmptySet
    assert reduce_rational_inequalities(
        [[Ge(x**2, 0)]], x, relational=False) == \
        S.Reals if x.is_extended_real else Interval(-oo, oo)
    assert reduce_rational_inequalities(
        [[Gt(x**2, 0)]], x, relational=False) == \
        FiniteSet(0).complement(S.Reals)
    assert reduce_rational_inequalities(
        [[Ne(x**2, 0)]], x, relational=False) == \
        FiniteSet(0).complement(S.Reals)

    assert reduce_rational_inequalities(
        [[Eq(x**2, 1)]], x, relational=False) == FiniteSet(-1, 1)
    assert reduce_rational_inequalities(
        [[Le(x**2, 1)]], x, relational=False) == Interval(-1, 1)
    assert reduce_rational_inequalities(
        [[Lt(x**2, 1)]], x, relational=False) == Interval(-1, 1, True, True)
    assert reduce_rational_inequalities(
        [[Ge(x**2, 1)]], x, relational=False) == \
        Union(Interval(-oo, -1, True), Interval(1, oo, False, True))
    assert reduce_rational_inequalities(
        [[Gt(x**2, 1)]], x, relational=False) == \
        Interval(-1, 1).complement(S.Reals)
    assert reduce_rational_inequalities(
        [[Ne(x**2, 1)]], x, relational=False) == \
        FiniteSet(-1, 1).complement(S.Reals)
    assert reduce_rational_inequalities([[Eq(
        x**2, 1.0)]], x, relational=False) == FiniteSet(-1.0, 1.0).evalf()
    assert reduce_rational_inequalities(
        [[Le(x**2, 1.0)]], x, relational=False) == Interval(-1.0, 1.0)
    assert reduce_rational_inequalities([[Lt(
        x**2, 1.0)]], x, relational=False) == Interval(-1.0, 1.0, True, True)
    assert reduce_rational_inequalities(
        [[Ge(x**2, 1.0)]], x, relational=False) == \
        Union(Interval(-inf, -1.0, True), Interval(1.0, inf, False, True))
    assert reduce_rational_inequalities(
        [[Gt(x**2, 1.0)]], x, relational=False) == \
        Union(Interval(-inf, -1.0, True, True),
        Interval(1.0, inf, True, True))
    assert reduce_rational_inequalities([[Ne(
        x**2, 1.0)]], x, relational=False) == \
        FiniteSet(-1.0, 1.0).complement(S.Reals)

    s = sqrt(2)

    assert reduce_rational_inequalities([[Lt(
        x**2 - 1, 0), Gt(x**2 - 1, 0)]], x, relational=False) == S.EmptySet
    assert reduce_rational_inequalities([[Le(x**2 - 1, 0), Ge(
        x**2 - 1, 0)]], x, relational=False) == FiniteSet(-1, 1)
    assert reduce_rational_inequalities(
        [[Le(x**2 - 2, 0), Ge(x**2 - 1, 0)]], x, relational=False
    ) == Union(Interval(-s, -1, False, False), Interval(1, s, False, False))
    assert reduce_rational_inequalities(
        [[Le(x**2 - 2, 0), Gt(x**2 - 1, 0)]], x, relational=False
    ) == Union(Interval(-s, -1, False, True), Interval(1, s, True, False))
    assert reduce_rational_inequalities(
        [[Lt(x**2 - 2, 0), Ge(x**2 - 1, 0)]], x, relational=False
    ) == Union(Interval(-s, -1, True, False), Interval(1, s, False, True))
    assert reduce_rational_inequalities(
        [[Lt(x**2 - 2, 0), Gt(x**2 - 1, 0)]], x, relational=False
    ) == Union(Interval(-s, -1, True, True), Interval(1, s, True, True))
    assert reduce_rational_inequalities(
        [[Lt(x**2 - 2, 0), Ne(x**2 - 1, 0)]], x, relational=False
    ) == Union(Interval(-s, -1, True, True), Interval(-1, 1, True, True),
        Interval(1, s, True, True))

    # issue sympy/sympy#10237
    assert reduce_rational_inequalities(
        [[x < oo, x >= 0, -oo < x]], x, relational=False) == Interval(0, oo, False, True)

    assert reduce_rational_inequalities([[Eq((x + 1)/(x**2 - 1),
                                             0)]], x) is S.false
コード例 #13
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ファイル: test_mathematica.py プロジェクト: diofant/diofant
def test_Relational():
    assert mathematica_code(Eq(x, y)) == 'x == y'
    assert mathematica_code(Ne(x, y / (1 + y**2))) == 'x != (y/(y^2 + 1))'
    assert mathematica_code(Le(0, x**2)) == '0 <= x^2'
    assert mathematica_code(Gt(pi, 3, evaluate=False)) == 'Pi > 3'
コード例 #14
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def test_sympyissue_8449():
    p = Symbol('p', nonnegative=True)
    assert Lt(-oo, p)
    assert Ge(-oo, p) is false
    assert Gt(oo, -p)
    assert Le(oo, -p) is false
コード例 #15
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def test_sympyissue_10258():
    p = Piecewise((1, x < 0), (0, True))
    assert (p > 0) == Gt(p, 0, evaluate=False)
コード例 #16
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def test_new_relational():
    assert Eq(x, 0) == Relational(x, 0)  # None ==> Equality
    assert Eq(x, 0) == Relational(x, 0, '==')
    assert Eq(x, 0) == Relational(x, 0, 'eq')
    assert Eq(x, 0) == Equality(x, 0)
    assert Eq(x, -1) == Relational(x, -1)  # None ==> Equality
    assert Eq(x, -1) == Relational(x, -1, '==')
    assert Eq(x, -1) == Relational(x, -1, 'eq')
    assert Eq(x, -1) == Equality(x, -1)
    assert Eq(x, 0) != Relational(x, 1)  # None ==> Equality
    assert Eq(x, 0) != Relational(x, 1, '==')
    assert Eq(x, 0) != Relational(x, 1, 'eq')
    assert Eq(x, 0) != Equality(x, 1)
    assert Eq(x, -1) != Relational(x, 1)  # None ==> Equality
    assert Eq(x, -1) != Relational(x, 1, '==')
    assert Eq(x, -1) != Relational(x, 1, 'eq')
    assert Eq(x, -1) != Equality(x, 1)

    assert Ne(x, 0) == Relational(x, 0, '!=')
    assert Ne(x, 0) == Relational(x, 0, '<>')
    assert Ne(x, 0) == Relational(x, 0, 'ne')
    assert Ne(x, 0) == Unequality(x, 0)
    assert Ne(x, 0) != Relational(x, 1, '!=')
    assert Ne(x, 0) != Relational(x, 1, '<>')
    assert Ne(x, 0) != Relational(x, 1, 'ne')
    assert Ne(x, 0) != Unequality(x, 1)

    assert Ge(x, 0) == Relational(x, 0, '>=')
    assert Ge(x, 0) == Relational(x, 0, 'ge')
    assert Ge(x, 0) == GreaterThan(x, 0)
    assert Ge(x, 1) != Relational(x, 0, '>=')
    assert Ge(x, 1) != Relational(x, 0, 'ge')
    assert Ge(x, 1) != GreaterThan(x, 0)
    assert (x >= 1) == Relational(x, 1, '>=')
    assert (x >= 1) == Relational(x, 1, 'ge')
    assert (x >= 1) == GreaterThan(x, 1)
    assert (x >= 0) != Relational(x, 1, '>=')
    assert (x >= 0) != Relational(x, 1, 'ge')
    assert (x >= 0) != GreaterThan(x, 1)

    assert Le(x, 0) == Relational(x, 0, '<=')
    assert Le(x, 0) == Relational(x, 0, 'le')
    assert Le(x, 0) == LessThan(x, 0)
    assert Le(x, 1) != Relational(x, 0, '<=')
    assert Le(x, 1) != Relational(x, 0, 'le')
    assert Le(x, 1) != LessThan(x, 0)
    assert (x <= 1) == Relational(x, 1, '<=')
    assert (x <= 1) == Relational(x, 1, 'le')
    assert (x <= 1) == LessThan(x, 1)
    assert (x <= 0) != Relational(x, 1, '<=')
    assert (x <= 0) != Relational(x, 1, 'le')
    assert (x <= 0) != LessThan(x, 1)

    assert Gt(x, 0) == Relational(x, 0, '>')
    assert Gt(x, 0) == Relational(x, 0, 'gt')
    assert Gt(x, 0) == StrictGreaterThan(x, 0)
    assert Gt(x, 1) != Relational(x, 0, '>')
    assert Gt(x, 1) != Relational(x, 0, 'gt')
    assert Gt(x, 1) != StrictGreaterThan(x, 0)
    assert (x > 1) == Relational(x, 1, '>')
    assert (x > 1) == Relational(x, 1, 'gt')
    assert (x > 1) == StrictGreaterThan(x, 1)
    assert (x > 0) != Relational(x, 1, '>')
    assert (x > 0) != Relational(x, 1, 'gt')
    assert (x > 0) != StrictGreaterThan(x, 1)

    assert Lt(x, 0) == Relational(x, 0, '<')
    assert Lt(x, 0) == Relational(x, 0, 'lt')
    assert Lt(x, 0) == StrictLessThan(x, 0)
    assert Lt(x, 1) != Relational(x, 0, '<')
    assert Lt(x, 1) != Relational(x, 0, 'lt')
    assert Lt(x, 1) != StrictLessThan(x, 0)
    assert (x < 1) == Relational(x, 1, '<')
    assert (x < 1) == Relational(x, 1, 'lt')
    assert (x < 1) == StrictLessThan(x, 1)
    assert (x < 0) != Relational(x, 1, '<')
    assert (x < 0) != Relational(x, 1, 'lt')
    assert (x < 0) != StrictLessThan(x, 1)

    # finally, some fuzz testing
    for i in range(100):
        while 1:
            strtype, length = (chr, 65535) if random.randint(0, 1) else (chr,
                                                                         255)
            relation_type = strtype(random.randint(0, length))
            if random.randint(0, 1):
                relation_type += strtype(random.randint(0, length))
            if relation_type not in ('==', 'eq', '!=', '<>', 'ne', '>=', 'ge',
                                     '<=', 'le', '>', 'gt', '<', 'lt', ':='):
                break

        pytest.raises(ValueError, lambda: Relational(x, 1, relation_type))

    assert all(Relational(x, 0, op).rel_op == '==' for op in ('eq', '=='))
    assert all(
        Relational(x, 0, op).rel_op == '!=' for op in ('ne', '<>', '!='))
    assert all(Relational(x, 0, op).rel_op == '>' for op in ('gt', '>'))
    assert all(Relational(x, 0, op).rel_op == '<' for op in ('lt', '<'))
    assert all(Relational(x, 0, op).rel_op == '>=' for op in ('ge', '>='))
    assert all(Relational(x, 0, op).rel_op == '<=' for op in ('le', '<='))
コード例 #17
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def test_rich_cmp():
    assert (x < y) == Lt(x, y)
    assert (x <= y) == Le(x, y)
    assert (x > y) == Gt(x, y)
    assert (x >= y) == Ge(x, y)