コード例 #1
0
ファイル: test_galoistools.py プロジェクト: vperic/sympy
def test_gf_int():
    assert gf_int(0, 5) == 0
    assert gf_int(1, 5) == 1
    assert gf_int(2, 5) == 2
    assert gf_int(3, 5) ==-2
    assert gf_int(4, 5) ==-1
    assert gf_int(5, 5) == 0
コード例 #2
0
ファイル: euclidtools.py プロジェクト: addisonc/sympy
def _collins_crt(r, R, P, p, K):
    """Wrapper of CRT for Collins's resultant algorithm. """
    return gf_int(gf_crt([r, R], [P, p], K), P*p)
コード例 #3
0
ファイル: euclidtools.py プロジェクト: addisonc/sympy
def dmp_zz_modular_resultant(f, g, p, u, K):
    """
    Compute resultant of ``f`` and ``g`` modulo a prime ``p``.

    **Examples**

    >>> from sympy.polys.domains import ZZ
    >>> from sympy.polys.euclidtools import dmp_zz_modular_resultant

    >>> f = ZZ.map([[1], [1, 2]])
    >>> g = ZZ.map([[2, 1], [3]])

    >>> dmp_zz_modular_resultant(f, g, ZZ(5), 1, ZZ)
    [-2, 0, 1]

    """
    if not u:
        return gf_int(dup_prs_resultant(f, g, K)[0] % p, p)

    v = u - 1

    n = dmp_degree(f, u)
    m = dmp_degree(g, u)

    N = dmp_degree_in(f, 1, u)
    M = dmp_degree_in(g, 1, u)

    B = n*M + m*N

    D, a = [K.one], -K.one
    r = dmp_zero(v)

    while dup_degree(D) <= B:
        while True:
            a += K.one

            if a == p:
                raise HomomorphismFailed('no luck')

            F = dmp_eval_in(f, gf_int(a, p), 1, u, K)

            if dmp_degree(F, v) == n:
                G = dmp_eval_in(g, gf_int(a, p), 1, u, K)

                if dmp_degree(G, v) == m:
                    break

        R = dmp_zz_modular_resultant(F, G, p, v, K)
        e = dmp_eval(r, a, v, K)

        if not v:
            R = dup_strip([R])
            e = dup_strip([e])
        else:
            R = [R]
            e = [e]

        d = K.invert(dup_eval(D, a, K), p)
        d = dup_mul_ground(D, d, K)
        d = dmp_raise(d, v, 0, K)

        c = dmp_mul(d, dmp_sub(R, e, v, K), v, K)
        r = dmp_add(r, c, v, K)

        r = dmp_ground_trunc(r, p, v, K)

        D = dup_mul(D, [K.one, -a], K)
        D = dup_trunc(D, p, K)

    return r
コード例 #4
0
ファイル: euclidtools.py プロジェクト: AdrianPotter/sympy
def dmp_zz_modular_resultant(f, g, p, u, K):
    """
    Compute resultant of `f` and `g` modulo a prime `p`.

    Examples
    ========

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

    >>> f = x + y + 2
    >>> g = 2*x*y + x + 3

    >>> R.dmp_zz_modular_resultant(f, g, 5)
    -2*y**2 + 1

    """
    if not u:
        return gf_int(dup_prs_resultant(f, g, K)[0] % p, p)

    v = u - 1

    n = dmp_degree(f, u)
    m = dmp_degree(g, u)

    N = dmp_degree_in(f, 1, u)
    M = dmp_degree_in(g, 1, u)

    B = n*M + m*N

    D, a = [K.one], -K.one
    r = dmp_zero(v)

    while dup_degree(D) <= B:
        while True:
            a += K.one

            if a == p:
                raise HomomorphismFailed('no luck')

            F = dmp_eval_in(f, gf_int(a, p), 1, u, K)

            if dmp_degree(F, v) == n:
                G = dmp_eval_in(g, gf_int(a, p), 1, u, K)

                if dmp_degree(G, v) == m:
                    break

        R = dmp_zz_modular_resultant(F, G, p, v, K)
        e = dmp_eval(r, a, v, K)

        if not v:
            R = dup_strip([R])
            e = dup_strip([e])
        else:
            R = [R]
            e = [e]

        d = K.invert(dup_eval(D, a, K), p)
        d = dup_mul_ground(D, d, K)
        d = dmp_raise(d, v, 0, K)

        c = dmp_mul(d, dmp_sub(R, e, v, K), v, K)
        r = dmp_add(r, c, v, K)

        r = dmp_ground_trunc(r, p, v, K)

        D = dup_mul(D, [K.one, -a], K)
        D = dup_trunc(D, p, K)

    return r
コード例 #5
0
def _collins_crt(r, R, P, p, K):
    """Wrapper of CRT for Collins's resultant algorithm. """
    return gf_int(gf_crt([r, R], [P, p], K), P*p)
コード例 #6
0
def dmp_zz_modular_resultant(f, g, p, u, K):
    """
    Compute resultant of `f` and `g` modulo a prime `p`.

    Examples
    ========

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

    >>> f = x + y + 2
    >>> g = 2*x*y + x + 3

    >>> R.dmp_zz_modular_resultant(f, g, 5)
    -2*y**2 + 1

    """
    if not u:
        return gf_int(dup_prs_resultant(f, g, K)[0] % p, p)

    v = u - 1

    n = dmp_degree(f, u)
    m = dmp_degree(g, u)

    N = dmp_degree_in(f, 1, u)
    M = dmp_degree_in(g, 1, u)

    B = n*M + m*N

    D, a = [K.one], -K.one
    r = dmp_zero(v)

    while dup_degree(D) <= B:
        while True:
            a += K.one

            if a == p:
                raise HomomorphismFailed('no luck')

            F = dmp_eval_in(f, gf_int(a, p), 1, u, K)

            if dmp_degree(F, v) == n:
                G = dmp_eval_in(g, gf_int(a, p), 1, u, K)

                if dmp_degree(G, v) == m:
                    break

        R = dmp_zz_modular_resultant(F, G, p, v, K)
        e = dmp_eval(r, a, v, K)

        if not v:
            R = dup_strip([R])
            e = dup_strip([e])
        else:
            R = [R]
            e = [e]

        d = K.invert(dup_eval(D, a, K), p)
        d = dup_mul_ground(D, d, K)
        d = dmp_raise(d, v, 0, K)

        c = dmp_mul(d, dmp_sub(R, e, v, K), v, K)
        r = dmp_add(r, c, v, K)

        r = dmp_ground_trunc(r, p, v, K)

        D = dup_mul(D, [K.one, -a], K)
        D = dup_trunc(D, p, K)

    return r
コード例 #7
0
def dmp_zz_modular_resultant(f, g, p, u, K):
    """
    Compute resultant of `f` and `g` modulo a prime `p`.

    Examples
    ========

    >>> from sympy.polys.domains import ZZ
    >>> from sympy.polys.euclidtools import dmp_zz_modular_resultant

    >>> f = ZZ.map([[1], [1, 2]])
    >>> g = ZZ.map([[2, 1], [3]])

    >>> dmp_zz_modular_resultant(f, g, ZZ(5), 1, ZZ)
    [-2, 0, 1]

    """
    if not u:
        return gf_int(dup_prs_resultant(f, g, K)[0] % p, p)

    v = u - 1

    n = dmp_degree(f, u)
    m = dmp_degree(g, u)

    N = dmp_degree_in(f, 1, u)
    M = dmp_degree_in(g, 1, u)

    B = n * M + m * N

    D, a = [K.one], -K.one
    r = dmp_zero(v)

    while dup_degree(D) <= B:
        while True:
            a += K.one

            if a == p:
                raise HomomorphismFailed('no luck')

            F = dmp_eval_in(f, gf_int(a, p), 1, u, K)

            if dmp_degree(F, v) == n:
                G = dmp_eval_in(g, gf_int(a, p), 1, u, K)

                if dmp_degree(G, v) == m:
                    break

        R = dmp_zz_modular_resultant(F, G, p, v, K)
        e = dmp_eval(r, a, v, K)

        if not v:
            R = dup_strip([R])
            e = dup_strip([e])
        else:
            R = [R]
            e = [e]

        d = K.invert(dup_eval(D, a, K), p)
        d = dup_mul_ground(D, d, K)
        d = dmp_raise(d, v, 0, K)

        c = dmp_mul(d, dmp_sub(R, e, v, K), v, K)
        r = dmp_add(r, c, v, K)

        r = dmp_ground_trunc(r, p, v, K)

        D = dup_mul(D, [K.one, -a], K)
        D = dup_trunc(D, p, K)

    return r