X-Git-Url: https://git.distorted.org.uk/~mdw/catacomb/blobdiff_plain/ba6e6b64033b1f9de49feccb5c9cd438354481f7..0f00dc4c8eb47e67bc0f148c2dd109f73a451e0a:/f-binpoly.c?ds=sidebyside diff --git a/f-binpoly.c b/f-binpoly.c deleted file mode 100644 index 5f6a5276..00000000 --- a/f-binpoly.c +++ /dev/null @@ -1,184 +0,0 @@ -/* -*-c-*- - * - * $Id$ - * - * Binary fields with polynomial basis representation - * - * (c) 2004 Straylight/Edgeware - */ - -/*----- Licensing notice --------------------------------------------------* - * - * This file is part of Catacomb. - * - * Catacomb is free software; you can redistribute it and/or modify - * it under the terms of the GNU Library General Public License as - * published by the Free Software Foundation; either version 2 of the - * License, or (at your option) any later version. - * - * Catacomb 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 Library General Public License for more details. - * - * You should have received a copy of the GNU Library General Public - * License along with Catacomb; if not, write to the Free - * Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, - * MA 02111-1307, USA. - */ - -/*----- Header files ------------------------------------------------------*/ - -#include - -#include "field.h" -#include "field-guts.h" -#include "mprand.h" - -/*----- Polynomial basis --------------------------------------------------*/ - -/* --- Field operations --- */ - -static void fdestroy(field *ff) { - fctx_binpoly *f = (fctx_binpoly *)ff; - gfreduce_destroy(&f->r); MP_DROP(f->f.q); - DESTROY(f); -} - -static mp *frand(field *f, mp *d, grand *r) { - return (mprand(d, f->nbits, r, 0)); -} - -static int fzerop(field *ff, mp *x) { return (MP_ZEROP(x)); } - -static mp *fadd(field *ff, mp *d, mp *x, mp *y) { return (gf_add(d, x, y)); } - -static mp *fmul(field *ff, mp *d, mp *x, mp *y) { - fctx_binpoly *f = (fctx_binpoly *)ff; d = gf_mul(d, x, y); - return (gfreduce_do(&f->r, d, d)); -} - -static mp *fsqr(field *ff, mp *d, mp *x) { - fctx_binpoly *f = (fctx_binpoly *)ff; d = gf_sqr(d, x); - return (gfreduce_do(&f->r, d, d)); -} - -static mp *finv(field *ff, mp *d, mp *x) { - fctx_binpoly *f = (fctx_binpoly *)ff; - d = gf_modinv(d, x, f->r.p); - return (d); -} - -static mp *freduce(field *ff, mp *d, mp *x) { - fctx_binpoly *f = (fctx_binpoly *)ff; - return (gfreduce_do(&f->r, d, x)); -} - -static mp *fsqrt(field *ff, mp *d, mp *x) { - fctx_binpoly *f = (fctx_binpoly *)ff; - return (gfreduce_sqrt(&f->r, d, x)); -} - -static mp *fquadsolve(field *ff, mp *d, mp *x) { - fctx_binpoly *f = (fctx_binpoly *)ff; - return (gfreduce_quadsolve(&f->r, d, x)); -} - -/* --- Field operations table --- */ - -static const field_ops fops = { - FTY_BINARY, "binpoly", - fdestroy, frand, field_stdsamep, - freduce, field_id, - fzerop, field_id, fadd, fadd, fmul, fsqr, finv, freduce, fsqrt, - fquadsolve, - 0, 0, 0, 0 -}; - -/* --- @field_binpoly@ --- * - * - * Arguments: @mp *p@ = the reduction polynomial - * - * Returns: A pointer to the field. - * - * Use: Creates a field structure for a binary field mod @p@. - */ - -field *field_binpoly(mp *p) -{ - fctx_binpoly *f = CREATE(fctx_binpoly); - f->f.ops = &fops; - f->f.zero = MP_ZERO; - f->f.one = MP_ONE; - f->f.nbits = mp_bits(p) - 1; - f->f.noctets = (f->f.nbits + 7) >> 3; - gfreduce_create(&f->r, p); - f->f.m = f->r.p; - f->f.q = mp_lsl(MP_NEW, MP_ONE, f->f.nbits); - return (&f->f); -} - -/*----- Normal basis ------------------------------------------------------*/ - -/* --- Field operations --- */ - -static void fndestroy(field *ff) { - fctx_binnorm *f = (fctx_binnorm *)ff; gfreduce_destroy(&f->f.r); - gfn_destroy(&f->ntop); gfn_destroy(&f->pton); MP_DROP(f->f.f.q); - DESTROY(f); -} - -static int fnsamep(field *ff, field *gg) { - fctx_binnorm *f = (fctx_binnorm *)ff, *g = (fctx_binnorm *)gg; - return (MP_EQ(f->ntop.r[0], g->ntop.r[0]) && field_stdsamep(ff, gg)); -} - -static mp *fnin(field *ff, mp *d, mp *x) { - fctx_binnorm *f = (fctx_binnorm *)ff; - return (gfn_transform(&f->ntop, d, x)); -} - -static mp *fnout(field *ff, mp *d, mp *x) { - fctx_binnorm *f = (fctx_binnorm *)ff; - return (gfn_transform(&f->pton, d, x)); -} - -/* --- Field operations table --- */ - -static const field_ops fnops = { - FTY_BINARY, "binnorm", - fndestroy, frand, fnsamep, - fnin, fnout, - fzerop, field_id, fadd, fadd, fmul, fsqr, finv, freduce, fsqrt, - fquadsolve, - 0, 0, 0, 0 -}; - -/* --- @field_binnorm@ --- * - * - * Arguments: @mp *p@ = the reduction polynomial - * @mp *beta@ = representation of normal point - * - * Returns: A pointer to the field. - * - * Use: Creates a field structure for a binary field mod @p@ which - * uses a normal basis representation externally. Computations - * are still done on a polynomial-basis representation. - */ - -field *field_binnorm(mp *p, mp *beta) -{ - fctx_binnorm *f = CREATE(fctx_binnorm); - f->f.f.ops = &fnops; - f->f.f.zero = MP_ZERO; - f->f.f.one = MP_ONE; - f->f.f.nbits = mp_bits(p) - 1; - f->f.f.noctets = (f->f.f.nbits + 7) >> 3; - gfreduce_create(&f->f.r, p); - f->f.f.m = f->f.r.p; - f->f.f.q = mp_lsl(MP_NEW, MP_ONE, f->f.f.nbits); - gfn_create(p, beta, &f->ntop, &f->pton); - return (&f->f.f); -} - -/*----- That's all, folks -------------------------------------------------*/