OpenXM_contrib2/asir2000/builtin/poly.c - diff

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Diff for /OpenXM_contrib2/asir2000/builtin/poly.c between version 1.2 and 1.6

version 1.2, 1999/12/27 04:16:30

version 1.6, 2001/03/13 01:10:24

Line 1

/* $OpenXM: OpenXM_contrib2/asir2000/builtin/poly.c,v 1.1.1.1 1999/12/03 07:39:07 noro Exp $ */

* FUJITSU LABORATORIES LIMITED ("FLL") hereby grants you a limited,

* non-exclusive and royalty-free license to use, copy, modify and

* redistribute, solely for non-commercial and non-profit purposes, the

* computer program, "Risa/Asir" ("SOFTWARE"), subject to the terms and

* conditions of this Agreement. For the avoidance of doubt, you acquire

* only a limited right to use the SOFTWARE hereunder, and FLL or any

* third party developer retains all rights, including but not limited to

* copyrights, in and to the SOFTWARE.

* (1) FLL does not grant you a license in any way for commercial

* purposes. You may use the SOFTWARE only for non-commercial and

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* business use.

* (2) The SOFTWARE is protected by the Copyright Law of Japan and

* international copyright treaties. If you make copies of the SOFTWARE,

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* to all such copies of the SOFTWARE the above copyright notice.

* (3) An explicit reference to this SOFTWARE and its copyright owner

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* for such modification or the source code of the modified part of the

* SOFTWARE.

* THE SOFTWARE IS PROVIDED AS IS WITHOUT ANY WARRANTY OF ANY KIND. FLL

* MAKES ABSOLUTELY NO WARRANTIES, EXPRESSED, IMPLIED OR STATUTORY, AND

* EXPRESSLY DISCLAIMS ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS

* FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF THIRD PARTIES'

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* $OpenXM: OpenXM_contrib2/asir2000/builtin/poly.c,v 1.5 2000/08/22 05:03:59 noro Exp $

#include "ca.h"

#include "parse.h"

#include "base.h"

Line 15 void Pp_mag(),Pmaxblen();

Line 63 void Pp_mag(),Pmaxblen();

void Pmergelist(), Pch_mv(), Pre_mv(), Pdeglist();

void Pptomp(),Pmptop();

void Pptolmp(),Plmptop();

void Psfptop();

void Pptogf2n(),Pgf2ntop(),Pgf2ntovect();

void Pptogfpn(),Pgfpntop();

void Pfind_root_gf2n();

Line 50 void Prinvtest_gf2n();

Line 99 void Prinvtest_gf2n();

void Pis_irred_gf2();

void Pis_irred_ddd_gf2();

void Pget_next_fft_prime();

void Puadj_coef();

void simp_ff(Obj,Obj *);

void ranp(int,UP *);

void field_order_ff(N *);

Line 62 extern int lm_lazy;

Line 111 extern int lm_lazy;

int current_ff;

struct ftab poly_tab[] = {

{"uadj_coef",Puadj_coef,3},

{"ranp",Pranp,2},

{"p_mag",Pp_mag,1},

{"maxblen",Pmaxblen,1},

Line 94 struct ftab poly_tab[] = {

Line 144 struct ftab poly_tab[] = {

{"ptolmp",Pptolmp,1},

{"lmptop",Plmptop,1},

{"sfptop",Psfptop,1},

{"ptogf2n",Pptogf2n,1},

{"gf2ntop",Pgf2ntop,-2},

{"gf2ntovect",Pgf2ntovect,1},

Line 125 struct ftab poly_tab[] = {

Line 177 struct ftab poly_tab[] = {

{"utrunc",Putrunc,2},

{"udecomp",Pudecomp,2},

{"ureverse",Pureverse,1},

{"ureverse",Pureverse,-2},

{"urembymul",Purembymul,2},

{"urembymul_precomp",Purembymul_precomp,3},

Line 162 struct ftab poly_tab[] = {

Line 214 struct ftab poly_tab[] = {

};

extern V up_var;

uadj_coef(F,M,M2)

if ( F is a non-negative integer )

return F > M2 ? F-M : M2;

else

F = CN*V^N+...+C0

return uadj_coef(CN,M,M2)*V^N+...+uadj_coef(C0,M,M2);

void Puadj_coef(arg,rp)

NODE arg;

P *rp;

{

UP f,r;

N m,m2;

ptoup((P)ARG0(arg),&f);

m = NM((Q)ARG1(arg));

m2 = NM((Q)ARG2(arg));

adj_coefup(f,m,m2,&r);

uptop(r,rp);

}

get_next_fft_prime(StartIndex,Bits)

tries to find smallest Index >= StartIndex s.t.

2^(Bits-1)|FFTprime[Index]-1

Line 590 Q *rp;

Line 666 Q *rp;

STOQ(ret,*rp);

}

extern int current_gfs_ext;

extern int current_gfs_q;

extern int current_gfs_q1;

extern int *current_gfs_plus1;

extern int *current_gfs_ntoi;

extern int *current_gfs_iton;

void Psetmod_ff(arg,rp)

NODE arg;

Obj *rp;

Line 599 Obj *rp;

Line 682 Obj *rp;

N n;

UP up;

UP2 up2;

Q q;

Q q,r;

P p;

NODE n0,n1;

LIST list;

Line 611 Obj *rp;

Line 694 Obj *rp;

error("setmod_ff : invalid argument");

switch ( OID(mod) ) {

case O_N:

current_ff = FF_GFP;

if ( SGN((Q)mod) < 0 ) {

setmod_lm(NM((Q)mod)); break;

/* small finite field; primitive root representation */

current_ff = FF_GFS;

setmod_sf(BD(NM((Q)mod))[0],1);

} else {

current_ff = FF_GFP;

setmod_lm(NM((Q)mod));

}

break;

case O_P:

current_ff = FF_GF2N;

setmod_gf2n((P)mod); break;

Line 620 Obj *rp;

Line 710 Obj *rp;

error("setmod_ff : invalid argument");

}

} else if ( ac == 2 ) {

current_ff = FF_GFPN;

defpoly = (Obj)ARG0(arg);

mod = (Obj)ARG1(arg);

if ( !mod || !defpoly )

if ( SGN((Q)mod) < 0 ) {

error("setmod_ff : invalid argument");

error("setmod_ff : not implemented yet");

setmod_lm(NM((Q)mod));

} else {

setmod_gfpn((P)defpoly);

current_ff = FF_GFPN;

defpoly = (Obj)ARG0(arg);

if ( !mod || !defpoly )

error("setmod_ff : invalid argument");

setmod_lm(NM((Q)mod));

setmod_gfpn((P)defpoly);

}

switch ( current_ff ) {

case FF_GFP:

Line 639 Obj *rp;

Line 733 Obj *rp;

MKNODE(n1,q,0); MKNODE(n0,p,n1);

MKLIST(list,n0);

*rp = (Obj)list; break;

case FF_GFS:

STOQ(current_gfs_q,q);

STOQ(current_gfs_iton[1],r);

n0 = mknode(3,ONE,q,r);

MKLIST(list,n0);

*rp = (Obj)list; break;

default:

*rp = 0; break;

}

Line 760 Obj *rp;

Line 860 Obj *rp;

DCP dc,dcr0,dcr;

GF2N rg,sg;

GFPN rpn,spn;

GFS rs;

P t;

Obj obj;

Line 777 Obj *rp;

Line 878 Obj *rp;

case FF_GFPN:

ntogfpn((Obj)p,&rpn); simpgfpn((GFPN)rpn,&spn); *rp = (Obj)spn;

break;

case FF_GFS:

if ( current_gfs_ext > 1 ) {

error("simp_ff : not implemented yet");

} else {

ptomp(current_gfs_q,(P)p,&t); mqtogfs(t,&rs);

*rp = (Obj)rs;

}

break;

default:

*rp = (Obj)p;

break;

Line 990 P *rp;

Line 1099 P *rp;

lmptop((P)ARG0(arg),rp);

}

void Psfptop(arg,rp)

NODE arg;

P *rp;

{

sfptop((P)ARG0(arg),rp);

}

void Pptogf2n(arg,rp)

NODE arg;

GF2N *rp;

Line 1040 P *rp;

Line 1156 P *rp;

UP p,r;

ptoup((P)ARG0(arg),&p);

reverseup(p,p->d,&r);

if ( argc(arg) == 1 )

reverseup(p,p->d,&r);

else

reverseup(p,QTOS((Q)ARG1(arg)),&r);

uptop(r,rp);

}

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