/*
    Copyright (C) 2012, 2013 Fredrik Johansson

    This file is part of Arb.

    Arb is free software: you can redistribute it and/or modify it under
    the terms of the GNU Lesser General Public License (LGPL) as published
    by the Free Software Foundation; either version 2.1 of the License, or
    (at your option) any later version.  See <http://www.gnu.org/licenses/>.
*/

#include "acb_poly.h"

void 
_acb_poly_div_series(acb_ptr Q, acb_srcptr A, slong Alen,
    acb_srcptr B, slong Blen, slong n, slong prec)
{
    Alen = FLINT_MIN(Alen, n);
    Blen = FLINT_MIN(Blen, n);

    if (Blen == 1)
    {
        _acb_vec_scalar_div(Q, A, Alen, B, prec);
        _acb_vec_zero(Q + Alen, n - Alen);
    }
    else if (n == 2)
    {
        if (Alen == 1)
        {
            acb_div(Q, A, B, prec);
            acb_div(Q + 1, Q, B, prec);
            acb_mul(Q + 1, Q + 1, B + 1, prec);
            acb_neg(Q + 1, Q + 1);
        }
        else
        {
            acb_div(Q, A, B, prec);
            acb_mul(Q + 1, Q, B + 1, prec);
            acb_sub(Q + 1, A + 1, Q + 1, prec);
            acb_div(Q + 1, Q + 1, B, prec);
        }
    }
    else if (Blen == 2 || n <= 10)
    {
        /* The basecase algorithm is faster for much larger Blen and n than
           this, but unfortunately has worse numerical stability. */
        slong i;
        acb_t q;

        acb_init(q);

        acb_inv(q, B, prec);
        acb_div(Q, A, B, prec);

        for (i = 1; i < n; i++)
        {
            acb_dot(Q + i, (i < Alen) ? A + i : NULL, 1,
                B + 1, 1, Q + i - 1, -1, FLINT_MIN(i, Blen - 1), prec);
            if (!acb_is_one(q))
                acb_mul(Q + i, Q + i, q, prec);
        }

        acb_clear(q);
    }
    else
    {
        acb_ptr Binv;
        Binv = _acb_vec_init(n);
        _acb_poly_inv_series(Binv, B, Blen, n, prec);
        _acb_poly_mullow(Q, Binv, n, A, Alen, n, prec);
        _acb_vec_clear(Binv, n);
    }
}

void
acb_poly_div_series(acb_poly_t Q, const acb_poly_t A, const acb_poly_t B, slong n, slong prec)
{
    if (n == 0)
    {
        acb_poly_zero(Q);
        return;
    }

    if (B->length == 0)
    {
        acb_poly_fit_length(Q, n);
        _acb_vec_indeterminate(Q->coeffs, n);
        _acb_poly_set_length(Q, n);
        return;
    }

    if (A->length == 0)
    {
        acb_poly_zero(Q);
        return;
    }

    if (Q == A || Q == B)
    {
        acb_poly_t t;
        acb_poly_init(t);
        acb_poly_div_series(t, A, B, n, prec);
        acb_poly_swap(Q, t);
        acb_poly_clear(t);
        return;
    }

    acb_poly_fit_length(Q, n);
    _acb_poly_div_series(Q->coeffs, A->coeffs, A->length, B->coeffs, B->length, n, prec);
    _acb_poly_set_length(Q, n);
    _acb_poly_normalise(Q);
}