arb/acb_dirichlet/group_init.c

/*
    Copyright (C) 2015 Jonathan Bober
    Copyright (C) 2016 Fredrik Johansson
    Copyright (C) 2016 Pascal Molin

    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_dirichlet.h"

static ulong
primitive_root_p_and_p2(ulong p)
{
    if (p == 40487)
        return 10;

#if FLINT_BITS == 64
    if (p == UWORD(6692367337))
        return 7;

    if (p > UWORD(1000000000000))
    {
        printf("primitive root: p > 10^12 not implemented");
        abort();
    }
#endif

    return n_primitive_root_prime(p);
}

void
acb_dirichlet_group_init(acb_dirichlet_group_t G, ulong q)
{
    slong k;
    ulong e2 = 0;
    n_factor_t fac;

    G->q = q;
    nmod_init(&G->mod, q);

    G->q_odd = q;
    G->q_even = 1;

    while (G->q_odd % 2 == 0)
    {
        G->q_odd /= 2;
        G->q_even *= 2;
        e2++;
    }

    n_factor_init(&fac);
    n_factor(&fac, G->q_odd, 1);

    /* number of components at p=2 */
    G->neven = (e2 >= 3) ? 2 : (e2 == 2) ? 1 : 0;
    G->num = G->neven + fac.num;
    G->primes = flint_malloc(G->num * sizeof(ulong));
    G->exponents = flint_malloc(G->num * sizeof(ulong));
    G->primepowers = flint_malloc(G->num * sizeof(ulong));
    G->generators = flint_malloc(G->num * sizeof(ulong));
    G->phi = flint_malloc(G->num * sizeof(ulong));
    G->PHI = flint_malloc(G->num * sizeof(ulong));
    G->dlog = NULL;

    /* even part */
    G->expo = G->phi_q = 1;
    if (G->neven >= 1)
    {
        G->primes[0] = 2;
        G->exponents[0] = 2;
        G->phi[0] = 2;
        G->primepowers[0] = G->q_even;
        G->generators[0] = G->q_even-1;
        G->expo = 2;
        G->phi_q = 2;
    }
    if (G->neven == 2)
    {
        G->primes[1] = 2;
        G->exponents[1] = e2;
        G->phi[1] = G->q_even / 4;
        G->primepowers[1] = G->q_even;
        G->generators[1] = 5;
        G->expo = G->phi[1];
        G->phi_q = G->q_even / 2;
    }
    /* odd part */
    for (k = G->neven; k < G->num; k++)
    {
        ulong p1, pe1;
        G->primes[k] = fac.p[k - G->neven];
        G->exponents[k] = fac.exp[k - G->neven];
        p1 = G->primes[k] - 1;
        pe1 = n_pow(G->primes[k], G->exponents[k]-1);
        G->phi[k] = p1 * pe1;
        G->primepowers[k] = pe1 * G->primes[k];
        G->generators[k] = primitive_root_p_and_p2(G->primes[k]);
        G->expo *= G->phi[k] / n_gcd(G->expo, p1);
        G->phi_q *= G->phi[k];
    }
    /* generic odd+even */
    for (k = 0; k < G->num; k++)
    {
        ulong pe, qpe, v;
        G->PHI[k] = G->expo / G->phi[k];
        /* lift generators mod q */
        /* u * p^e + v * q/p^e = 1 -> g mod q = 1 + (g-1) * v*(q/p^e) */
        pe = G->primepowers[k];
        qpe = q / pe;
        v = n_invmod(qpe % pe, pe);
        /* no overflow since v * qpe < q */
        G->generators[k] = (1 + (G->generators[k]-1) * v * qpe) % q;
    }
}
update copyright headers to switch from GPL to LGPL 2016-04-26 17:20:05 +02:00			`/*`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`Copyright (C) 2015 Jonathan Bober`
			`Copyright (C) 2016 Fredrik Johansson`
huge refactor - split files, one for each function - use acb_dirichlet prefix everywhere - distinguish pairing / character value + fix bug on exponent 2016-03-22 11:29:21 +01:00			`Copyright (C) 2016 Pascal Molin`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00
update copyright headers to switch from GPL to LGPL 2016-04-26 17:20:05 +02:00			`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/>.`
			`*/`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00
			`#include "acb_dirichlet.h"`

			`static ulong`
			`primitive_root_p_and_p2(ulong p)`
			`{`
			`if (p == 40487)`
			`return 10;`

			`#if FLINT_BITS == 64`
			`if (p == UWORD(6692367337))`
			`return 7;`

			`if (p > UWORD(1000000000000))`
			`{`
			`printf("primitive root: p > 10^12 not implemented");`
			`abort();`
			`}`
			`#endif`

			`return n_primitive_root_prime(p);`
			`}`

			`void`
			`acb_dirichlet_group_init(acb_dirichlet_group_t G, ulong q)`
			`{`
			`slong k;`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`ulong e2 = 0;`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`n_factor_t fac;`

			`G->q = q;`
fix bug on char_next + add log precomputations 2016-03-23 12:53:08 +01:00			`nmod_init(&G->mod, q);`

initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`G->q_odd = q;`
			`G->q_even = 1;`

			`while (G->q_odd % 2 == 0)`
			`{`
			`G->q_odd /= 2;`
			`G->q_even *= 2;`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`e2++;`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`}`

			`n_factor_init(&fac);`
			`n_factor(&fac, G->q_odd, 1);`

[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`/* number of components at p=2 */`
			`G->neven = (e2 >= 3) ? 2 : (e2 == 2) ? 1 : 0;`
			`G->num = G->neven + fac.num;`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`G->primes = flint_malloc(G->num * sizeof(ulong));`
			`G->exponents = flint_malloc(G->num * sizeof(ulong));`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`G->primepowers = flint_malloc(G->num * sizeof(ulong));`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`G->generators = flint_malloc(G->num * sizeof(ulong));`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`G->phi = flint_malloc(G->num * sizeof(ulong));`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`G->PHI = flint_malloc(G->num * sizeof(ulong));`
fix bug on char_next + add log precomputations 2016-03-23 12:53:08 +01:00			`G->dlog = NULL;`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`/* even part */`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`G->expo = G->phi_q = 1;`
			`if (G->neven >= 1)`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`{`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`G->primes[0] = 2;`
			`G->exponents[0] = 2;`
			`G->phi[0] = 2;`
			`G->primepowers[0] = G->q_even;`
			`G->generators[0] = G->q_even-1;`
			`G->expo = 2;`
			`G->phi_q = 2;`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`}`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`if (G->neven == 2)`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`{`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`G->primes[1] = 2;`
fix generators and test conrey elements 2016-02-29 00:13:58 +01:00			`G->exponents[1] = e2;`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`G->phi[1] = G->q_even / 4;`
			`G->primepowers[1] = G->q_even;`
			`G->generators[1] = 5;`
			`G->expo = G->phi[1];`
			`G->phi_q = G->q_even / 2;`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`}`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`/* odd part */`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`for (k = G->neven; k < G->num; k++)`
			`{`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`ulong p1, pe1;`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`G->primes[k] = fac.p[k - G->neven];`
			`G->exponents[k] = fac.exp[k - G->neven];`
			`p1 = G->primes[k] - 1;`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`pe1 = n_pow(G->primes[k], G->exponents[k]-1);`
			`G->phi[k] = p1 * pe1;`
			`G->primepowers[k] = pe1 * G->primes[k];`
			`G->generators[k] = primitive_root_p_and_p2(G->primes[k]);`
			`G->expo *= G->phi[k] / n_gcd(G->expo, p1);`
			`G->phi_q *= G->phi[k];`
initial code for Dirichlet characters (wip) 2016-02-21 23:23:51 +01:00			`}`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`/* generic odd+even */`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`for (k = 0; k < G->num; k++)`
			`{`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`ulong pe, qpe, v;`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`G->PHI[k] = G->expo / G->phi[k];`
add next_primitive, first test on conrey elts 2016-02-26 16:49:26 +01:00			`/* lift generators mod q */`
			`/* u * p^e + v * q/p^e = 1 -> g mod q = 1 + (g-1) * v(q/p^e) /`
			`pe = G->primepowers[k];`
			`qpe = q / pe;`
			`v = n_invmod(qpe % pe, pe);`
			`/* no overflow since v * qpe < q */`
			`G->generators[k] = (1 + (G->generators[k]-1) * v * qpe) % q;`
[dirichlet] add conrey type to handle logs + char type - try to handle even and odd components the same way in the dirichlet group - switch from phi_q_odd to smaller expo = exponent of the group all character orders divide this number, and a character of that order exists - use conrey logarithm to reuse log and to loop efficiently over the group (see the diff on l.c, only 1 log in computed instead of 2 * q) - NOT TESTED, for the moment it just compiles, I know some errors (e.g. the FIXME in group_init.c : the generators have to be lifted mod q) this commit is just a proof of concept. 2016-02-24 11:06:49 +01:00			`}`
			`}`