/*============================================================================= This file is part of FLINT. FLINT is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. FLINT is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with FLINT; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA =============================================================================*/ /****************************************************************************** Copyright (C) 2012 Sebastian Pancratz ******************************************************************************/ #include "fmpz_mod_poly.h" #include "qadic.h" extern slong _padic_exp_bound(slong v, slong N, const fmpz_t p); void _qadic_exp_rectangular(fmpz *rop, const fmpz *op, slong v, slong len, const fmpz *a, const slong *j, slong lena, const fmpz_t p, slong N, const fmpz_t pN) { const slong d = j[lena - 1]; const slong n = _padic_exp_bound(v, N, p); if (n < 4) { if (n == 1) /* y := 1 */ { fmpz_one(rop); _fmpz_vec_zero(rop + 1, d - 1); } else if (n == 2) /* y := 1 + x */ { fmpz_t f; fmpz_init(f); fmpz_pow_ui(f, p, v); _fmpz_vec_scalar_mul_fmpz(rop, op, len, f); _fmpz_vec_zero(rop + len, d - len); fmpz_add_ui(rop, rop, 1); _fmpz_vec_scalar_mod_fmpz(rop, rop, len, pN); fmpz_clear(f); } else /* y := 1 + x + x^2/2 */ { slong i; fmpz *x = _fmpz_vec_init(len + 1); fmpz_pow_ui(x + len, p, v); _fmpz_vec_scalar_mul_fmpz(x, op, len, x + len); _fmpz_poly_sqr(rop, x, len); if (*p != WORD(2)) { for (i = 0; i < 2 * len - 1; i++) if (fmpz_is_odd(rop + i)) fmpz_add(rop + i, rop + i, pN); } _fmpz_vec_scalar_fdiv_q_2exp(rop, rop, 2 * len - 1, 1); _fmpz_mod_poly_reduce(rop, 2 * len - 1, a, j, lena, pN); _fmpz_vec_zero(rop + (2 * len - 1), d - (2 * len - 1)); _fmpz_mod_poly_add(rop, rop, d, x, len, pN); fmpz_add_ui(rop, rop, 1); if (fmpz_equal(rop, pN)) fmpz_zero(rop); _fmpz_vec_clear(x, len + 1); } } else /* n >= 4 */ { const slong k = fmpz_fits_si(p) ? (n - 1 - 1) / (fmpz_get_si(p) - 1) : 0; const slong b = n_sqrt(n); slong i; fmpz_t c, f, pNk; fmpz *s, *t, *x; fmpz_init(c); fmpz_init(f); fmpz_init(pNk); s = _fmpz_vec_init(2 * d - 1); t = _fmpz_vec_init(2 * d - 1); x = _fmpz_vec_init(d * (b + 1) + d - 1); fmpz_pow_ui(f, p, v); fmpz_pow_ui(pNk, p, N + k); /* Compute powers x^i of the argument */ fmpz_one(x); _fmpz_vec_scalar_mul_fmpz(x + d, op, len, f); _fmpz_vec_zero(x + d + len, d - len); for (i = 2; i <= b; i++) { _fmpz_mod_poly_mul(x + i * d, x + (i - 1) * d, d, x + d, d, pNk); _fmpz_mod_poly_reduce(x + i * d, 2 * d - 1, a, j, lena, pNk); } _fmpz_vec_zero(rop, d); fmpz_one(f); for (i = (n + b - 1) / b - 1; i >= 0; i--) { slong lo = i * b; slong hi = FLINT_MIN(n - 1, lo + b - 1); _fmpz_vec_zero(s, d); fmpz_one(c); for ( ; hi >= lo; hi--) { _fmpz_vec_scalar_addmul_fmpz(s, x + (hi - lo) * d, d, c); if (hi != 0) fmpz_mul_ui(c, c, hi); } _fmpz_poly_mul(t, x + b * d, d, rop, d); _fmpz_mod_poly_reduce(t, 2 * d - 1, a, j, lena, pNk); _fmpz_vec_scalar_mul_fmpz(rop, s, d, f); _fmpz_vec_add(rop, rop, t, d); _fmpz_vec_scalar_mod_fmpz(rop, rop, d, pNk); fmpz_mul(f, f, c); } /* Note exp(x) is a unit so val(sum) == val(f). */ i = fmpz_remove(f, f, p); if (i) { fmpz_pow_ui(c, p, i); _fmpz_vec_scalar_divexact_fmpz(rop, rop, d, c); } _padic_inv(f, f, p, N); _fmpz_vec_scalar_mul_fmpz(rop, rop, d, f); _fmpz_vec_scalar_mod_fmpz(rop, rop, d, pN); _fmpz_vec_clear(s, 2 * d - 1); _fmpz_vec_clear(t, 2 * d - 1); _fmpz_vec_clear(x, d * (b + 1) + d - 1); fmpz_clear(c); fmpz_clear(f); fmpz_clear(pNk); } } int qadic_exp_rectangular(qadic_t rop, const qadic_t op, const qadic_ctx_t ctx) { const slong N = qadic_prec(rop); const slong v = op->val; const fmpz *p = (&ctx->pctx)->p; if (padic_poly_is_zero(op)) { padic_poly_one(rop); return 1; } if ((*p == WORD(2) && v <= 1) || (v <= 0)) { return 0; } else { if (v < N) { const slong d = qadic_ctx_degree(ctx); fmpz *t; fmpz_t pN; int alloc; alloc = _padic_ctx_pow_ui(pN, N, &ctx->pctx); if (rop == op) { t = _fmpz_vec_init(2 * d - 1); } else { padic_poly_fit_length(rop, 2 * d - 1); t = rop->coeffs; } _qadic_exp_rectangular(t, op->coeffs, v, op->length, ctx->a, ctx->j, ctx->len, p, N, pN); rop->val = 0; if (rop == op) { _fmpz_vec_clear(rop->coeffs, rop->alloc); rop->coeffs = t; rop->alloc = 2 * d - 1; rop->length = d; } _padic_poly_set_length(rop, d); _padic_poly_normalise(rop); if (alloc) fmpz_clear(pN); } else { padic_poly_one(rop); } return 1; } }