Ejemplos de integrate_primitive en Python

Ejemplo n.º 1

Archivo: test_risch.py Proyecto: Carreau/sympy

def test_integrate_primitive():
    DE = DifferentialExtension(extension={"D": [Poly(1, x), Poly(1 / x, t)], "Tfuncs": [log]})
    assert integrate_primitive(Poly(t, t), Poly(1, t), DE) == (x * log(x), -1, True)
    assert integrate_primitive(Poly(x, t), Poly(t, t), DE) == (0, NonElementaryIntegral(x / log(x), x), False)

    DE = DifferentialExtension(
        extension={"D": [Poly(1, x), Poly(1 / x, t1), Poly(1 / (x + 1), t2)], "Tfuncs": [log, Lambda(i, log(i + 1))]}
    )
    assert integrate_primitive(Poly(t1, t2), Poly(t2, t2), DE) == (
        0,
        NonElementaryIntegral(log(x) / log(1 + x), x),
        False,
    )

    DE = DifferentialExtension(
        extension={"D": [Poly(1, x), Poly(1 / x, t1), Poly(1 / (x * t1), t2)], "Tfuncs": [log, Lambda(i, log(log(i)))]}
    )
    assert integrate_primitive(Poly(t2, t2), Poly(t1, t2), DE) == (
        0,
        NonElementaryIntegral(log(log(x)) / log(x), x),
        False,
    )

    DE = DifferentialExtension(extension={"D": [Poly(1, x), Poly(1 / x, t0)], "Tfuncs": [log]})
    assert integrate_primitive(
        Poly(x ** 2 * t0 ** 3 + (3 * x ** 2 + x) * t0 ** 2 + (3 * x ** 2 + 2 * x) * t0 + x ** 2 + x, t0),
        Poly(x ** 2 * t0 ** 4 + 4 * x ** 2 * t0 ** 3 + 6 * x ** 2 * t0 ** 2 + 4 * x ** 2 * t0 + x ** 2, t0),
        DE,
    ) == (-1 / (log(x) + 1), NonElementaryIntegral(1 / (log(x) + 1), x), False)

Ejemplo n.º 2

def test_integrate_primitive():
    DE = DifferentialExtension(
        extension={"D": [Poly(1, x), Poly(1 / x, t)], "Tfuncs": [log]}
    )
    assert integrate_primitive(Poly(t, t), Poly(1, t), DE) == (x * log(x), -1, True)
    assert integrate_primitive(Poly(x, t), Poly(t, t), DE) == (
        0,
        NonElementaryIntegral(x / log(x), x),
        False,
    )

    DE = DifferentialExtension(
        extension={
            "D": [Poly(1, x), Poly(1 / x, t1), Poly(1 / (x + 1), t2)],
            "Tfuncs": [log, Lambda(i, log(i + 1))],
        }
    )
    assert integrate_primitive(Poly(t1, t2), Poly(t2, t2), DE) == (
        0,
        NonElementaryIntegral(log(x) / log(1 + x), x),
        False,
    )

    DE = DifferentialExtension(
        extension={
            "D": [Poly(1, x), Poly(1 / x, t1), Poly(1 / (x * t1), t2)],
            "Tfuncs": [log, Lambda(i, log(log(i)))],
        }
    )
    assert integrate_primitive(Poly(t2, t2), Poly(t1, t2), DE) == (
        0,
        NonElementaryIntegral(log(log(x)) / log(x), x),
        False,
    )

    DE = DifferentialExtension(
        extension={"D": [Poly(1, x), Poly(1 / x, t0)], "Tfuncs": [log]}
    )
    assert integrate_primitive(
        Poly(
            x ** 2 * t0 ** 3
            + (3 * x ** 2 + x) * t0 ** 2
            + (3 * x ** 2 + 2 * x) * t0
            + x ** 2
            + x,
            t0,
        ),
        Poly(
            x ** 2 * t0 ** 4
            + 4 * x ** 2 * t0 ** 3
            + 6 * x ** 2 * t0 ** 2
            + 4 * x ** 2 * t0
            + x ** 2,
            t0,
        ),
        DE,
    ) == (-1 / (log(x) + 1), NonElementaryIntegral(1 / (log(x) + 1), x), False)

Ejemplo n.º 3

Archivo: test_risch.py Proyecto: Tyf0n/sympy

def test_integrate_primitive():
    DE = DifferentialExtension(extension={'D': [Poly(1, x), Poly(1/x, t)],
        'Tfuncs': [log]})
    assert integrate_primitive(Poly(t, t), Poly(1, t), DE) == (x*log(x), -1, True)
    # (x*log(x) - x, True)
    assert integrate_primitive(Poly(x, t), Poly(t, t), DE) == (0, NonElementaryIntegral(x/log(x), x), False)

    DE = DifferentialExtension(extension={'D': [Poly(1, x), Poly(1/x, t1), Poly(1/(x + 1), t2)],
        'Tfuncs': [log, lambda x: log(x + 1)]})
    assert integrate_primitive(Poly(t1, t2), Poly(t2, t2), DE) == \
        (0, NonElementaryIntegral(log(x)/log(1 + x), x), False)

    DE = DifferentialExtension(extension={'D': [Poly(1, x), Poly(1/x, t1), Poly(1/(x*t1), t2)],
        'Tfuncs': [log, lambda x: log(log(x))]})
    assert integrate_primitive(Poly(t2, t2), Poly(t1, t2), DE) == \
        (0, NonElementaryIntegral(log(log(x))/log(x), x), False)

Ejemplo n.º 4

def test_integrate_primitive():
    DE = DifferentialExtension(extension={'D': [Poly(1, x), Poly(1/x, t)],
        'Tfuncs': [log]})
    assert integrate_primitive(Poly(t, t), Poly(1, t), DE) == (x*log(x), -1, True)
    # (x*log(x) - x, True)
    assert integrate_primitive(Poly(x, t), Poly(t, t), DE) == (0, NonElementaryIntegral(x/log(x), x), False)

    DE = DifferentialExtension(extension={'D': [Poly(1, x), Poly(1/x, t1), Poly(1/(x + 1), t2)],
        'Tfuncs': [log, lambda x: log(x + 1)]})
    assert integrate_primitive(Poly(t1, t2), Poly(t2, t2), DE) == \
        (0, NonElementaryIntegral(log(x)/log(1 + x), x), False)

    DE = DifferentialExtension(extension={'D': [Poly(1, x), Poly(1/x, t1), Poly(1/(x*t1), t2)],
        'Tfuncs': [log, lambda x: log(log(x))]})
    assert integrate_primitive(Poly(t2, t2), Poly(t1, t2), DE) == \
        (0, NonElementaryIntegral(log(log(x))/log(x), x), False)