/* Copyright (C) 2010 Sebastian Pancratz This file is part of FLINT. FLINT 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 . */ #include #include #include "flint.h" #include "fmpz.h" #include "fmpz_vec.h" #include "fmpz_poly.h" void _fmpz_poly_pow_binexp(fmpz * res, const fmpz * poly, slong len, ulong e) { ulong bit = ~((~UWORD(0)) >> 1); slong rlen; slong alloc = (slong) e * (len - 1) + 1; fmpz *v = _fmpz_vec_init(alloc); fmpz *R, *S, *T; /* Set bits to the bitmask with a 1 one place lower than the msb of e */ while ((bit & e) == UWORD(0)) bit >>= 1; bit >>= 1; /* Trial run without any polynomial arithmetic to determine the parity of the number of swaps; then set R and S accordingly */ { unsigned int swaps = 0U; ulong bit2 = bit; if ((bit2 & e)) swaps = ~swaps; while (bit2 >>= 1) if ((bit2 & e) == UWORD(0)) swaps = ~swaps; if (swaps == 0U) { R = res; S = v; } else { R = v; S = res; } } /* We unroll the first step of the loop, referring to {poly, len} */ _fmpz_poly_sqr(R, poly, len); rlen = 2 * len - 1; if ((bit & e)) { _fmpz_poly_mul(S, R, rlen, poly, len); rlen += len - 1; T = R; R = S; S = T; } while ((bit >>= 1)) { if ((bit & e)) { _fmpz_poly_sqr(S, R, rlen); rlen += rlen - 1; _fmpz_poly_mul(R, S, rlen, poly, len); rlen += len - 1; } else { _fmpz_poly_sqr(S, R, rlen); rlen += rlen - 1; T = R; R = S; S = T; } } _fmpz_vec_clear(v, alloc); } void fmpz_poly_pow_binexp(fmpz_poly_t res, const fmpz_poly_t poly, ulong e) { const slong len = poly->length; slong rlen; if ((len < 2) | (e < UWORD(3))) { if (e == UWORD(0)) fmpz_poly_set_ui(res, 1); else if (len == 0) fmpz_poly_zero(res); else if (len == 1) { fmpz_poly_fit_length(res, 1); fmpz_pow_ui(res->coeffs, poly->coeffs, e); _fmpz_poly_set_length(res, 1); } else if (e == UWORD(1)) fmpz_poly_set(res, poly); else /* e == UWORD(2) */ fmpz_poly_sqr(res, poly); return; } rlen = (slong) e * (len - 1) + 1; if (res != poly) { fmpz_poly_fit_length(res, rlen); _fmpz_poly_pow_binexp(res->coeffs, poly->coeffs, len, e); _fmpz_poly_set_length(res, rlen); } else { fmpz_poly_t t; fmpz_poly_init2(t, rlen); _fmpz_poly_pow_binexp(t->coeffs, poly->coeffs, len, e); _fmpz_poly_set_length(t, rlen); fmpz_poly_swap(res, t); fmpz_poly_clear(t); } }