flint-sys 0.9.0

/*
    Copyright (C) 2016 Arb authors

    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 3 of the License, or
    (at your option) any later version.  See <https://www.gnu.org/licenses/>.
*/

#include "test_helpers.h"
#include "fmpq_mat.h"
#include "arb_mat.h"

/* Defined in t-cho.c, t-inv_cho_precomp.c, t-inv_ldl_precomp.c, t-ldl.c,
   t-solve_cho_precomp.c, t-solve_ldl_precomp.c, t-spd_inv.c, t-spd_solve.c */
#ifndef _fmpq_mat_randtest_positive_semidefinite
#define _fmpq_mat_randtest_positive_semidefinite _fmpq_mat_randtest_positive_semidefinite
void
_fmpq_mat_randtest_positive_semidefinite(fmpq_mat_t mat, flint_rand_t state, flint_bitcnt_t bits)
{
    slong n;
    fmpq_mat_t R, RT;
    if (!fmpq_mat_is_square(mat)) flint_abort(); /* assert */
    n = fmpq_mat_nrows(mat);
    fmpq_mat_init(R, n, n);
    fmpq_mat_init(RT, n, n);
    fmpq_mat_randtest(R, state, bits);
    fmpq_mat_transpose(RT, R);
    fmpq_mat_mul(mat, R, RT);
    fmpq_mat_clear(R);
    fmpq_mat_clear(RT);
}
#endif

/* Defined in t-inv_cho_precomp.c and t-inv_ldl_precomp.c */
#define _spd_inv _spd_inv_ldl
static int
_spd_inv(arb_mat_t X, const arb_mat_t A, slong prec)
{
    slong n;
    arb_mat_t L;
    int result;

    n = arb_mat_nrows(A);
    arb_mat_init(L, n, n);
    arb_mat_set(L, A);

    if (_arb_mat_ldl_inplace(L, prec))
    {
        arb_mat_inv_ldl_precomp(X, L, prec);
        result = 1;
    }
    else
    {
        result = 0;
    }

    arb_mat_clear(L);
    return result;
}

TEST_FUNCTION_START(arb_mat_inv_ldl_precomp, state)
{
    slong iter;

    for (iter = 0; iter < 10000 * 0.1 * flint_test_multiplier(); iter++)
    {
        fmpq_mat_t Q, Qinv;
        arb_mat_t A, Ainv;
        slong n, qbits, prec;
        int q_invertible, r_invertible, r_invertible2;

        n = n_randint(state, 8);
        qbits = 1 + n_randint(state, 30);
        prec = 2 + n_randint(state, 200);

        fmpq_mat_init(Q, n, n);
        fmpq_mat_init(Qinv, n, n);

        arb_mat_init(A, n, n);
        arb_mat_init(Ainv, n, n);

        _fmpq_mat_randtest_positive_semidefinite(Q, state, qbits);
        q_invertible = fmpq_mat_inv(Qinv, Q);

        if (!q_invertible)
        {
            arb_mat_set_fmpq_mat(A, Q, prec);
            r_invertible = _spd_inv(Ainv, A, prec);
            if (r_invertible)
            {
                flint_printf("FAIL: matrix is singular over Q but not over R\n");
                flint_printf("n = %wd, prec = %wd\n", n, prec);
                flint_printf("\n");

                flint_printf("Q = \n"); fmpq_mat_print(Q); flint_printf("\n\n");
                flint_printf("A = \n"); arb_mat_printd(A, 15); flint_printf("\n\n");
                flint_printf("Ainv = \n"); arb_mat_printd(Ainv, 15); flint_printf("\n\n");
                flint_abort();
            }
        }
        else
        {
            /* now this must converge */
            while (1)
            {
                arb_mat_set_fmpq_mat(A, Q, prec);
                r_invertible = _spd_inv(Ainv, A, prec);

                if (r_invertible)
                {
                    break;
                }
                else
                {
                    if (prec > 10000)
                    {
                        flint_printf("FAIL: failed to converge at 10000 bits\n");
                        flint_printf("Q = \n"); fmpq_mat_print(Q); flint_printf("\n\n");
                        flint_printf("A = \n"); arb_mat_printd(A, 15); flint_printf("\n\n");
                        flint_abort();
                    }
                    prec *= 2;
                }
            }

            if (!arb_mat_contains_fmpq_mat(Ainv, Qinv))
            {
                flint_printf("FAIL (containment, iter = %wd)\n", iter);
                flint_printf("n = %wd, prec = %wd\n", n, prec);
                flint_printf("\n");

                flint_printf("Q = \n"); fmpq_mat_print(Q); flint_printf("\n\n");
                flint_printf("Qinv = \n"); fmpq_mat_print(Qinv); flint_printf("\n\n");

                flint_printf("A = \n"); arb_mat_printd(A, 15); flint_printf("\n\n");
                flint_printf("Ainv = \n"); arb_mat_printd(Ainv, 15); flint_printf("\n\n");

                flint_abort();
            }

            /* test aliasing */
            r_invertible2 = _spd_inv(A, A, prec);
            if (!arb_mat_equal(A, Ainv) || r_invertible != r_invertible2)
            {
                flint_printf("FAIL (aliasing)\n");
                flint_printf("A = \n"); arb_mat_printd(A, 15); flint_printf("\n\n");
                flint_printf("Ainv = \n"); arb_mat_printd(Ainv, 15); flint_printf("\n\n");
                flint_abort();
            }
        }

        fmpq_mat_clear(Q);
        fmpq_mat_clear(Qinv);
        arb_mat_clear(A);
        arb_mat_clear(Ainv);
    }

    TEST_FUNCTION_END(state);
}
#undef _spd_inv