コード例 #1
0
ファイル: sqfreetools.py プロジェクト: FireJade/sympy
def dup_sqf_list(f, K, all=False):
    """
    Return square-free decomposition of a polynomial in ``K[x]``.

    Examples
    ========

    >>> from sympy.polys.domains import ZZ
    >>> from sympy.polys.sqfreetools import dup_sqf_list

    >>> f = ZZ.map([2, 16, 50, 76, 56, 16])

    >>> dup_sqf_list(f, ZZ)
    (2, [([1, 1], 2), ([1, 2], 3)])

    >>> dup_sqf_list(f, ZZ, all=True)
    (2, [([1], 1), ([1, 1], 2), ([1, 2], 3)])

    """
    if not K.has_CharacteristicZero:
        return dup_gf_sqf_list(f, K, all=all)

    if K.has_Field or not K.is_Exact:
        coeff = dup_LC(f, K)
        f = dup_monic(f, K)
    else:
        coeff, f = dup_primitive(f, K)

        if K.is_negative(dup_LC(f, K)):
            f = dup_neg(f, K)
            coeff = -coeff

    if dup_degree(f) <= 0:
        return coeff, []

    result, i = [], 1

    h = dup_diff(f, 1, K)
    g, p, q = dup_inner_gcd(f, h, K)

    while True:
        d = dup_diff(p, 1, K)
        h = dup_sub(q, d, K)

        if not h:
            result.append((p, i))
            break

        g, p, q = dup_inner_gcd(p, h, K)

        if all or dup_degree(g) > 0:
            result.append((g, i))

        i += 1

    return coeff, result
コード例 #2
0
ファイル: sqfreetools.py プロジェクト: skolwind/sympy
def dup_sqf_list(f, K, all=False):
    """
    Return square-free decomposition of a polynomial in ``K[x]``.

    Examples
    ========

    >>> from sympy.polys.domains import ZZ
    >>> from sympy.polys.sqfreetools import dup_sqf_list

    >>> f = ZZ.map([2, 16, 50, 76, 56, 16])

    >>> dup_sqf_list(f, ZZ)
    (2, [([1, 1], 2), ([1, 2], 3)])

    >>> dup_sqf_list(f, ZZ, all=True)
    (2, [([1], 1), ([1, 1], 2), ([1, 2], 3)])

    """
    if not K.has_CharacteristicZero:
        return dup_gf_sqf_list(f, K, all=all)

    if K.has_Field or not K.is_Exact:
        coeff = dup_LC(f, K)
        f = dup_monic(f, K)
    else:
        coeff, f = dup_primitive(f, K)

        if K.is_negative(dup_LC(f, K)):
            f = dup_neg(f, K)
            coeff = -coeff

    if dup_degree(f) <= 0:
        return coeff, []

    result, i = [], 1

    h = dup_diff(f, 1, K)
    g, p, q = dup_inner_gcd(f, h, K)

    while True:
        d = dup_diff(p, 1, K)
        h = dup_sub(q, d, K)

        if not h:
            result.append((p, i))
            break

        g, p, q = dup_inner_gcd(p, h, K)

        if all or dup_degree(g) > 0:
            result.append((g, i))

        i += 1

    return coeff, result
コード例 #3
0
ファイル: sqfreetools.py プロジェクト: alhirzel/sympy
def dup_sqf_list(f, K, all=False):
    """
    Return square-free decomposition of a polynomial in ``K[x]``.

    Examples
    ========

    >>> from sympy.polys import ring, ZZ
    >>> R, x = ring("x", ZZ)

    >>> f = 2*x**5 + 16*x**4 + 50*x**3 + 76*x**2 + 56*x + 16

    >>> R.dup_sqf_list(f)
    (2, [(x + 1, 2), (x + 2, 3)])
    >>> R.dup_sqf_list(f, all=True)
    (2, [(1, 1), (x + 1, 2), (x + 2, 3)])

    """
    if K.is_FiniteField:
        return dup_gf_sqf_list(f, K, all=all)

    if K.has_Field:
        coeff = dup_LC(f, K)
        f = dup_monic(f, K)
    else:
        coeff, f = dup_primitive(f, K)

        if K.is_negative(dup_LC(f, K)):
            f = dup_neg(f, K)
            coeff = -coeff

    if dup_degree(f) <= 0:
        return coeff, []

    result, i = [], 1

    h = dup_diff(f, 1, K)
    g, p, q = dup_inner_gcd(f, h, K)

    while True:
        d = dup_diff(p, 1, K)
        h = dup_sub(q, d, K)

        if not h:
            result.append((p, i))
            break

        g, p, q = dup_inner_gcd(p, h, K)

        if all or dup_degree(g) > 0:
            result.append((g, i))

        i += 1

    return coeff, result
コード例 #4
0
def dup_sqf_list(f, K, all=False):
    """
    Return square-free decomposition of a polynomial in ``K[x]``.

    Examples
    ========

    >>> from sympy.polys import ring, ZZ
    >>> R, x = ring("x", ZZ)

    >>> f = 2*x**5 + 16*x**4 + 50*x**3 + 76*x**2 + 56*x + 16

    >>> R.dup_sqf_list(f)
    (2, [(x + 1, 2), (x + 2, 3)])
    >>> R.dup_sqf_list(f, all=True)
    (2, [(1, 1), (x + 1, 2), (x + 2, 3)])

    """
    if K.is_FiniteField:
        return dup_gf_sqf_list(f, K, all=all)

    if K.is_Field:
        coeff = dup_LC(f, K)
        f = dup_monic(f, K)
    else:
        coeff, f = dup_primitive(f, K)

        if K.is_negative(dup_LC(f, K)):
            f = dup_neg(f, K)
            coeff = -coeff

    if dup_degree(f) <= 0:
        return coeff, []

    result, i = [], 1

    h = dup_diff(f, 1, K)
    g, p, q = dup_inner_gcd(f, h, K)

    while True:
        d = dup_diff(p, 1, K)
        h = dup_sub(q, d, K)

        if not h:
            result.append((p, i))
            break

        g, p, q = dup_inner_gcd(p, h, K)

        if all or dup_degree(g) > 0:
            result.append((g, i))

        i += 1

    return coeff, result
コード例 #5
0
ファイル: factortools.py プロジェクト: tuhina/sympy
def dup_ext_factor(f, K):
    """Factor univariate polynomials over algebraic number fields. """
    n, lc = dup_degree(f), dup_LC(f, K)

    f = dup_monic(f, K)

    if n <= 0:
        return lc, []
    if n == 1:
        return lc, [(f, 1)]

    f, F = dup_sqf_part(f, K), f
    s, g, r = dup_sqf_norm(f, K)

    factors = dup_factor_list_include(r, K.dom)

    if len(factors) == 1:
        return lc, [(f, n // dup_degree(f))]

    H = s * K.unit

    for i, (factor, _) in enumerate(factors):
        h = dup_convert(factor, K.dom, K)
        h, _, g = dup_inner_gcd(h, g, K)
        h = dup_shift(h, H, K)
        factors[i] = h

    factors = dup_trial_division(F, factors, K)

    return lc, factors
コード例 #6
0
def dup_ext_factor(f, K):
    """Factor univariate polynomials over algebraic number fields. """
    n, lc = dup_degree(f), dup_LC(f, K)

    f = dup_monic(f, K)

    if n <= 0:
        return lc, []
    if n == 1:
        return lc, [(f, 1)]

    f, F = dup_sqf_part(f, K), f
    s, g, r = dup_sqf_norm(f, K)

    factors = dup_factor_list_include(r, K.dom)

    if len(factors) == 1:
        return lc, [(f, n//dup_degree(f))]

    H = s*K.unit

    for i, (factor, _) in enumerate(factors):
        h = dup_convert(factor, K.dom, K)
        h, _, g = dup_inner_gcd(h, g, K)
        h = dup_shift(h, H, K)
        factors[i] = h

    factors = dup_trial_division(F, factors, K)

    return lc, factors