Exemplo n.º 1
0
int
main(void)
{
    int i, result;
    FLINT_TEST_INIT(state);
    

    flint_printf("one....");
    fflush(stdout);

    /* 1 * A == A * 1 == A */
    for (i = 0; i < 100 * flint_test_multiplier(); i++)
    {
        fmpq_mat_t A, B, C, I;

        slong n, bits;

        n = n_randint(state, 10);

        bits = 1 + n_randint(state, 100);

        fmpq_mat_init(A, n, n);
        fmpq_mat_init(B, n, n);
        fmpq_mat_init(C, n, n);
        fmpq_mat_init(I, n, n);

        fmpq_mat_randtest(A, state, bits);
        fmpq_mat_one(I);

        fmpq_mat_mul(B, I, A);
        fmpq_mat_mul(C, A, I);

        result = fmpq_mat_equal(A, B) && fmpq_mat_equal(A, C);
        if (!result)
        {
            flint_printf("FAIL:\n");
            flint_printf("A:\n");
            fmpq_mat_print(A);
            flint_printf("B:\n");
            fmpq_mat_print(B);
            flint_printf("C:\n");
            fmpq_mat_print(C);
            flint_printf("I:\n");
            fmpq_mat_print(I);
            abort();
        }

        fmpq_mat_clear(A);
        fmpq_mat_clear(B);
        fmpq_mat_clear(C);
        fmpq_mat_clear(I);
    }

    

    FLINT_TEST_CLEANUP(state);
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 2
0
void
_fmpq_mat_randtest_positive_semidefinite(fmpq_mat_t mat, flint_rand_t state, mp_bitcnt_t bits)
{
    slong n;
    fmpq_mat_t R, RT;
    if (!fmpq_mat_is_square(mat)) 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);
}
Exemplo n.º 3
0
int
main(void)
{
    int i;
    FLINT_TEST_INIT(state);
    

    flint_printf("init/clear....");
    fflush(stdout);

    for (i = 0; i < 1000 * flint_test_multiplier(); i++)
    {
        fmpq_mat_t a;
        slong j, k;
        slong rows = n_randint(state, 100);
        slong cols = n_randint(state, 100);

        fmpq_mat_init(a, rows, cols);

        for (j = 0; j < rows; j++)
            for (k = 0; k < cols; k++)
                fmpq_zero(fmpq_mat_entry(a, j, k));

        fmpq_mat_clear(a);
    }

    

    FLINT_TEST_CLEANUP(state);
    flint_printf("PASS\n");
    return 0;
}
Exemplo n.º 4
0
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("inv_ldl_precomp....");
    fflush(stdout);

    flint_randinit(state);

    for (iter = 0; iter < 10000 * arb_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");
                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");
                        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");

                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");
                abort();
            }
        }

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

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 5
0
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("ldl....");
    fflush(stdout);

    flint_randinit(state);

    /* check special matrices */
    {
        slong n;
        for (n = 1; n < 10; n++)
        {
            slong lprec;
            arb_mat_t L, A;
            arb_mat_init(L, n, n);
            arb_mat_init(A, n, n);
            for (lprec = 2; lprec < 10; lprec++)
            {
                int result;
                slong prec;
                prec = 1 << lprec;

                /* zero */
                arb_mat_zero(A);
                result = arb_mat_ldl(L, A, prec);
                if (result)
                {
                    flint_printf("FAIL (zero):\n");
                    flint_printf("n = %wd, prec = %wd\n", n, prec);
                    flint_printf("L = \n"); arb_mat_printd(L, 15);
                    flint_printf("\n\n");
                }

                /* negative identity */
                arb_mat_one(A);
                arb_mat_neg(A, A);
                result = arb_mat_ldl(L, A, prec);
                if (result)
                {
                    flint_printf("FAIL (negative identity):\n");
                    flint_printf("n = %wd, prec = %wd\n", n, prec);
                    flint_printf("L = \n"); arb_mat_printd(L, 15);
                    flint_printf("\n\n");
                }

                /* identity */
                arb_mat_one(A);
                result = arb_mat_ldl(L, A, prec);
                if (!result || !arb_mat_equal(L, A))
                {
                    flint_printf("FAIL (identity):\n");
                    flint_printf("n = %wd, prec = %wd\n", n, prec);
                    flint_printf("L = \n"); arb_mat_printd(L, 15);
                    flint_printf("\n\n");
                }
            }
            arb_mat_clear(L);
            arb_mat_clear(A);
        }
    }

    for (iter = 0; iter < 10000 * arb_test_multiplier(); iter++)
    {
        fmpq_mat_t Q;
        arb_mat_t A, L, D, U, T;
        slong n, qbits, prec;
        int q_invertible, r_invertible;

        n = n_randint(state, 8);
        qbits = 1 + n_randint(state, 100);
        prec = 2 + n_randint(state, 202);

        fmpq_mat_init(Q, n, n);
        arb_mat_init(A, n, n);
        arb_mat_init(L, n, n);
        arb_mat_init(D, n, n);
        arb_mat_init(U, n, n);
        arb_mat_init(T, n, n);

        _fmpq_mat_randtest_positive_semidefinite(Q, state, qbits);
        q_invertible = fmpq_mat_is_invertible(Q);

        if (!q_invertible)
        {
            arb_mat_set_fmpq_mat(A, Q, prec);
            r_invertible = arb_mat_ldl(L, 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("L = \n"); arb_mat_printd(L, 15); flint_printf("\n\n");
            }
        }
        else
        {
            /* now this must converge */
            while (1)
            {
                arb_mat_set_fmpq_mat(A, Q, prec);
                r_invertible = arb_mat_ldl(L, A, prec);
                if (r_invertible)
                {
                    break;
                }
                else
                {
                    if (prec > 10000)
                    {
                        flint_printf("FAIL: failed to converge at 10000 bits\n");
                        flint_printf("n = %wd, prec = %wd\n", n, prec);
                        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");
                        abort();
                    }
                    prec *= 2;
                }
            }

            /* multiply out the decomposition */
            {
                slong i;
                arb_mat_zero(D);
                arb_mat_transpose(U, L);
                for (i = 0; i < n; i++)
                {
                    arb_set(arb_mat_entry(D, i, i), arb_mat_entry(L, i, i));
                    arb_one(arb_mat_entry(L, i, i));
                    arb_one(arb_mat_entry(U, i, i));
                }
                arb_mat_mul(T, L, D, prec);
                arb_mat_mul(T, T, U, prec);
            }

            if (!arb_mat_contains_fmpq_mat(T, Q))
            {
                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("A = \n"); arb_mat_printd(A, 15); flint_printf("\n\n");
                flint_printf("L = \n"); arb_mat_printd(L, 15); flint_printf("\n\n");
                flint_printf("U = \n"); arb_mat_printd(U, 15); flint_printf("\n\n");
                flint_printf("L*U = \n"); arb_mat_printd(T, 15); flint_printf("\n\n");

                abort();
            }
        }

        fmpq_mat_clear(Q);
        arb_mat_clear(A);
        arb_mat_clear(L);
        arb_mat_clear(D);
        arb_mat_clear(U);
        arb_mat_clear(T);
    }

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 6
0
int
main(void)
{
    int i;
    FLINT_TEST_INIT(state);
    

    flint_printf("solve_dixon....");
    fflush(stdout);

    /* Solve nonsingular systems */
    for (i = 0; i < 100 * flint_test_multiplier(); i++)
    {
        fmpq_mat_t A, B, X, AX;
        fmpq_t d;
        int success;
        slong n, m, bits;

        n = n_randint(state, 10);
        m = n_randint(state, 10);
        bits = 1 + n_randint(state, 100);

        fmpq_mat_init(A, n, n);
        fmpq_mat_init(B, n, m);
        fmpq_mat_init(X, n, m);
        fmpq_mat_init(AX, n, m);

        fmpq_init(d);
        /* XXX: replace with a randtest function */
        do {
            fmpq_mat_randtest(A, state, bits);
            fmpq_mat_det(d, A);
        } while (fmpq_is_zero(d));
        fmpq_clear(d);

        fmpq_mat_randtest(B, state, bits);

        success = fmpq_mat_solve_dixon(X, A, B);
        fmpq_mat_mul(AX, A, X);

        if (!fmpq_mat_equal(AX, B) || !success)
        {
            flint_printf("FAIL!\n");
            flint_printf("success: %d\n", success);
            flint_printf("A:\n");
            fmpq_mat_print(A);
            flint_printf("B:\n");
            fmpq_mat_print(B);
            flint_printf("X:\n");
            fmpq_mat_print(X);
            flint_printf("AX:\n");
            fmpq_mat_print(AX);
            abort();
        }

        fmpq_mat_clear(A);
        fmpq_mat_clear(B);
        fmpq_mat_clear(X);
        fmpq_mat_clear(AX);
    }

    /* Check singular systems */
    for (i = 0; i < 100 * flint_test_multiplier(); i++)
    {
        fmpq_mat_t A, B, X;
        fmpz_mat_t M;
        fmpz_t den;
        slong n, m, bits;
        int success;

        n = 1 + n_randint(state, 10);
        m = 1 + n_randint(state, 10);
        bits = 1 + n_randint(state, 100);

        fmpz_init(den);
        fmpz_mat_init(M, n, n);
        fmpz_mat_randrank(M, state, n_randint(state, n), bits);
        if (i % 2)
            fmpz_mat_randops(M, state, n_randint(state, 2*m*n + 1));
        fmpz_randtest_not_zero(den, state, bits);
        fmpq_mat_init(A, n, n);
        fmpq_mat_set_fmpz_mat_div_fmpz(A, M, den);

        fmpq_mat_init(B, n, m);
        fmpq_mat_randtest(B, state, bits);
        fmpq_mat_init(X, n, m);

        success = fmpq_mat_solve_dixon(X, A, B);

        if (success != 0)
        {
            flint_printf("FAIL!\n");
            flint_printf("Expected success = 0\n");
            fmpq_mat_print(A);
            flint_printf("\n");
            abort();
        }

        fmpq_mat_clear(A);
        fmpq_mat_clear(B);
        fmpq_mat_clear(X);
        fmpz_mat_clear(M);
        fmpz_clear(den);
    }

    FLINT_TEST_CLEANUP(state);
    
    flint_printf("PASS\n");
    return 0;
}
Exemplo n.º 7
0
 ~DMat()
 {
     fmpq_mat_clear(mArray);
 }
Exemplo n.º 8
0
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("spd_solve....");
    fflush(stdout);

    flint_randinit(state);

    for (iter = 0; iter < 10000 * arb_test_multiplier(); iter++)
    {
        fmpq_mat_t Q, QX, QB;
        arb_mat_t A, X, B;
        slong n, m, qbits, prec;
        int q_invertible, r_invertible, r_invertible2;

        n = n_randint(state, 8);
        m = 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(QX, n, m);
        fmpq_mat_init(QB, n, m);

        arb_mat_init(A, n, n);
        arb_mat_init(X, n, m);
        arb_mat_init(B, n, m);

        _fmpq_mat_randtest_positive_semidefinite(Q, state, qbits);
        fmpq_mat_randtest(QB, state, qbits);

        q_invertible = fmpq_mat_solve_fraction_free(QX, Q, QB);

        if (!q_invertible)
        {
            arb_mat_set_fmpq_mat(A, Q, prec);
            r_invertible = arb_mat_spd_solve(X, A, B, 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("QX = \n"); fmpq_mat_print(QX); flint_printf("\n\n");
                flint_printf("QB = \n"); fmpq_mat_print(QB); flint_printf("\n\n");
                flint_printf("A = \n"); arb_mat_printd(A, 15); flint_printf("\n\n");
                abort();
            }
        }
        else
        {
            /* now this must converge */
            while (1)
            {
                arb_mat_set_fmpq_mat(A, Q, prec);
                arb_mat_set_fmpq_mat(B, QB, prec);

                r_invertible = arb_mat_spd_solve(X, A, B, 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("QX = \n"); fmpq_mat_print(QX); flint_printf("\n\n");
                        flint_printf("QB = \n"); fmpq_mat_print(QB); flint_printf("\n\n");
                        flint_printf("A = \n"); arb_mat_printd(A, 15); flint_printf("\n\n");
                        abort();
                    }
                    prec *= 2;
                }
            }

            if (!arb_mat_contains_fmpq_mat(X, QX))
            {
                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("QB = \n"); fmpq_mat_print(QB); flint_printf("\n\n");
                flint_printf("QX = \n"); fmpq_mat_print(QX); flint_printf("\n\n");

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

                abort();
            }

            /* test aliasing */
            r_invertible2 = arb_mat_spd_solve(B, A, B, prec);
            if (!arb_mat_equal(X, B) || r_invertible != r_invertible2)
            {
                flint_printf("FAIL (aliasing)\n");
                flint_printf("A = \n"); arb_mat_printd(A, 15); flint_printf("\n\n");
                flint_printf("B = \n"); arb_mat_printd(B, 15); flint_printf("\n\n");
                flint_printf("X = \n"); arb_mat_printd(X, 15); flint_printf("\n\n");
                abort();
            }
        }

        fmpq_mat_clear(Q);
        fmpq_mat_clear(QB);
        fmpq_mat_clear(QX);
        arb_mat_clear(A);
        arb_mat_clear(B);
        arb_mat_clear(X);
    }

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 9
0
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("mul....");
    fflush(stdout);

    flint_randinit(state);

    for (iter = 0; iter < 10000 * arb_test_multiplier(); iter++)
    {
        slong m, n, k, qbits1, qbits2, rbits1, rbits2, rbits3;
        fmpq_mat_t A, B, C;
        acb_mat_t a, b, c, d;

        qbits1 = 2 + n_randint(state, 200);
        qbits2 = 2 + n_randint(state, 200);
        rbits1 = 2 + n_randint(state, 200);
        rbits2 = 2 + n_randint(state, 200);
        rbits3 = 2 + n_randint(state, 200);

        m = n_randint(state, 10);
        n = n_randint(state, 10);
        k = n_randint(state, 10);

        fmpq_mat_init(A, m, n);
        fmpq_mat_init(B, n, k);
        fmpq_mat_init(C, m, k);

        acb_mat_init(a, m, n);
        acb_mat_init(b, n, k);
        acb_mat_init(c, m, k);
        acb_mat_init(d, m, k);

        fmpq_mat_randtest(A, state, qbits1);
        fmpq_mat_randtest(B, state, qbits2);
        fmpq_mat_mul(C, A, B);

        acb_mat_set_fmpq_mat(a, A, rbits1);
        acb_mat_set_fmpq_mat(b, B, rbits2);
        acb_mat_mul(c, a, b, rbits3);

        if (!acb_mat_contains_fmpq_mat(c, C))
        {
            flint_printf("FAIL\n\n");
            flint_printf("m = %wd, n = %wd, k = %wd, bits3 = %wd\n", m, n, k, rbits3);

            flint_printf("A = "); fmpq_mat_print(A); flint_printf("\n\n");
            flint_printf("B = "); fmpq_mat_print(B); flint_printf("\n\n");
            flint_printf("C = "); fmpq_mat_print(C); flint_printf("\n\n");

            flint_printf("a = "); acb_mat_printd(a, 15); flint_printf("\n\n");
            flint_printf("b = "); acb_mat_printd(b, 15); flint_printf("\n\n");
            flint_printf("c = "); acb_mat_printd(c, 15); flint_printf("\n\n");

            abort();
        }

        /* test aliasing with a */
        if (acb_mat_nrows(a) == acb_mat_nrows(c) &&
            acb_mat_ncols(a) == acb_mat_ncols(c))
        {
            acb_mat_set(d, a);
            acb_mat_mul(d, d, b, rbits3);
            if (!acb_mat_equal(d, c))
            {
                flint_printf("FAIL (aliasing 1)\n\n");
                abort();
            }
        }

        /* test aliasing with b */
        if (acb_mat_nrows(b) == acb_mat_nrows(c) &&
            acb_mat_ncols(b) == acb_mat_ncols(c))
        {
            acb_mat_set(d, b);
            acb_mat_mul(d, a, d, rbits3);
            if (!acb_mat_equal(d, c))
            {
                flint_printf("FAIL (aliasing 2)\n\n");
                abort();
            }
        }

        fmpq_mat_clear(A);
        fmpq_mat_clear(B);
        fmpq_mat_clear(C);

        acb_mat_clear(a);
        acb_mat_clear(b);
        acb_mat_clear(c);
        acb_mat_clear(d);
    }

    /* check algebraic properties like associativity and distributivity */
    for (iter = 0; iter < 1000 * arb_test_multiplier(); iter++)
    {
        slong m, n, k, l;
        slong rbits;
        acb_mat_t a, b, c, d, ab, ac, bd, cd, s;

        rbits = 2 + n_randint(state, 200);

        m = n_randint(state, 10);
        n = n_randint(state, 10);
        k = n_randint(state, 10);
        l = n_randint(state, 10);

        _acb_mat_init_randtest(a, m, n, state);
        _acb_mat_init_randtest(b, n, k, state);
        _acb_mat_init_randtest(c, n, k, state);
        _acb_mat_init_randtest(d, k, l, state);

        acb_mat_init(ab, m, k);
        acb_mat_init(ac, m, k);
        acb_mat_init(bd, n, l);
        acb_mat_init(cd, n, l);
        acb_mat_init(s, n, k);

        acb_mat_mul(ab, a, b, rbits);
        acb_mat_mul(ac, a, c, rbits);
        acb_mat_mul(bd, b, d, rbits);
        acb_mat_mul(cd, c, d, rbits);
        acb_mat_add(s, b, c, rbits);

        /* check associativity of multiplication */
        /* (A*B)*D = A*(B*D) */
        {
            acb_mat_t lhs, rhs;

            acb_mat_init(lhs, m, l);
            acb_mat_init(rhs, m, l);

            acb_mat_mul(lhs, ab, d, rbits);
            acb_mat_mul(rhs, a, bd, rbits);

            if (!acb_mat_overlaps(lhs, rhs))
            {
                flint_printf("FAIL\n\n");
                flint_printf("m, n, k, l = %wd, %wd, %wd, %wd\n", m, n, k, l);
                flint_printf("rbits = %wd\n", rbits);

                _acb_mat_nprintd("a", a);
                _acb_mat_nprintd("b", b);
                _acb_mat_nprintd("d", d);
                _acb_mat_nprintd("(a*b)*d", lhs);
                _acb_mat_nprintd("a*(b*d)", rhs);

                abort();
            }

            acb_mat_clear(lhs);
            acb_mat_clear(rhs);
        }

        /* check left distributivity of multiplication over addition */
        /* A*(B + C) = A*B + A*C */
        {
            acb_mat_t lhs, rhs;

            acb_mat_init(lhs, m, k);
            acb_mat_init(rhs, m, k);

            acb_mat_mul(lhs, a, s, rbits);
            acb_mat_add(rhs, ab, ac, rbits);

            if (!acb_mat_overlaps(lhs, rhs))
            {
                flint_printf("FAIL\n\n");
                flint_printf("m, n, k, l = %wd, %wd, %wd, %wd\n", m, n, k, l);
                flint_printf("rbits = %wd\n", rbits);

                _acb_mat_nprintd("a", a);
                _acb_mat_nprintd("b", b);
                _acb_mat_nprintd("c", c);
                _acb_mat_nprintd("a*(b + c)", lhs);
                _acb_mat_nprintd("a*b + b*c", rhs);

                abort();
            }

            acb_mat_clear(lhs);
            acb_mat_clear(rhs);
        }

        /* check right distributivity of multiplication over addition */
        /* (B + C)*D = B*D + C*D */
        {
            acb_mat_t lhs, rhs;

            acb_mat_init(lhs, n, l);
            acb_mat_init(rhs, n, l);

            acb_mat_mul(lhs, s, d, rbits);
            acb_mat_add(rhs, bd, cd, rbits);

            if (!acb_mat_overlaps(lhs, rhs))
            {
                flint_printf("FAIL\n\n");
                flint_printf("m, n, k, l = %wd, %wd, %wd, %wd\n", m, n, k, l);
                flint_printf("rbits = %wd\n", rbits);

                _acb_mat_nprintd("b", b);
                _acb_mat_nprintd("c", c);
                _acb_mat_nprintd("d", d);
                _acb_mat_nprintd("(b + c)*d", lhs);
                _acb_mat_nprintd("b*d + c*d", rhs);

                abort();
            }

            acb_mat_clear(lhs);
            acb_mat_clear(rhs);
        }

        /* check left multiplicative identity I*D = D */
        {
            acb_mat_t one, lhs;

            acb_mat_init(one, k, k);
            acb_mat_init(lhs, k, l);

            acb_mat_one(one);
            acb_mat_mul(lhs, one, d, rbits);

            if (!acb_mat_contains(lhs, d))
            {
                flint_printf("FAIL\n\n");
                flint_printf("k = %wd, l = %wd\n", k, l);
                flint_printf("rbits = %wd\n", rbits);

                _acb_mat_nprintd("identity * d", lhs);
                _acb_mat_nprintd("d", d);

                abort();
            }

            acb_mat_clear(one);
            acb_mat_clear(lhs);
        }

        /* check right multiplicative identity A*I = A */
        {
            acb_mat_t one, lhs;

            acb_mat_init(one, n, n);
            acb_mat_init(lhs, m, n);

            acb_mat_one(one);
            acb_mat_mul(lhs, a, one, rbits);

            if (!acb_mat_contains(lhs, a))
            {
                flint_printf("FAIL\n\n");
                flint_printf("m = %wd, n = %wd\n", m, n);
                flint_printf("rbits = %wd\n", rbits);

                _acb_mat_nprintd("a * identity", lhs);
                _acb_mat_nprintd("a", a);

                abort();
            }

            acb_mat_clear(one);
            acb_mat_clear(lhs);
        }

        acb_mat_clear(a);
        acb_mat_clear(b);
        acb_mat_clear(c);
        acb_mat_clear(d);
        acb_mat_clear(ab);
        acb_mat_clear(ac);
        acb_mat_clear(bd);
        acb_mat_clear(cd);
        acb_mat_clear(s);
    }

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 10
0
Arquivo: t-det.c Projeto: isuruf/arb
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("det....");
    fflush(stdout);

    flint_randinit(state);

    for (iter = 0; iter < 100000; iter++)
    {
        fmpq_mat_t Q;
        fmpq_t Qdet;
        arb_mat_t A;
        arb_t Adet;
        slong n, qbits, prec;

        n = n_randint(state, 8);
        qbits = 1 + n_randint(state, 100);
        prec = 2 + n_randint(state, 200);

        fmpq_mat_init(Q, n, n);
        fmpq_init(Qdet);

        arb_mat_init(A, n, n);
        arb_init(Adet);

        fmpq_mat_randtest(Q, state, qbits);
        fmpq_mat_det(Qdet, Q);

        arb_mat_set_fmpq_mat(A, Q, prec);
        arb_mat_det(Adet, A, prec);

        if (!arb_contains_fmpq(Adet, Qdet))
        {
            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("Qdet = \n"); fmpq_print(Qdet); flint_printf("\n\n");

            flint_printf("A = \n"); arb_mat_printd(A, 15); flint_printf("\n\n");
            flint_printf("Adet = \n"); arb_printd(Adet, 15); flint_printf("\n\n");
            flint_printf("Adet = \n"); arb_print(Adet); flint_printf("\n\n");

            abort();
        }

        fmpq_mat_clear(Q);
        fmpq_clear(Qdet);
        arb_mat_clear(A);
        arb_clear(Adet);
    }

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 11
0
Arquivo: t-lu.c Projeto: isuruf/arb
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("lu....");
    fflush(stdout);

    flint_randinit(state);

    for (iter = 0; iter < 10000; iter++)
    {
        fmpq_mat_t Q;
        acb_mat_t A, LU, P, L, U, T;
        slong i, j, n, qbits, prec, *perm;
        int q_invertible, r_invertible;

        n = n_randint(state, 8);
        qbits = 1 + n_randint(state, 100);
        prec = 2 + n_randint(state, 202);

        fmpq_mat_init(Q, n, n);
        acb_mat_init(A, n, n);
        acb_mat_init(LU, n, n);
        acb_mat_init(P, n, n);
        acb_mat_init(L, n, n);
        acb_mat_init(U, n, n);
        acb_mat_init(T, n, n);
        perm = _perm_init(n);

        fmpq_mat_randtest(Q, state, qbits);
        q_invertible = fmpq_mat_is_invertible(Q);

        if (!q_invertible)
        {
            acb_mat_set_fmpq_mat(A, Q, prec);
            r_invertible = acb_mat_lu(perm, LU, 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"); acb_mat_printd(A, 15); flint_printf("\n\n");
                flint_printf("LU = \n"); acb_mat_printd(LU, 15); flint_printf("\n\n");
            }
        }
        else
        {
            /* now this must converge */
            while (1)
            {
                acb_mat_set_fmpq_mat(A, Q, prec);
                r_invertible = acb_mat_lu(perm, LU, A, prec);
                if (r_invertible)
                {
                    break;
                }
                else
                {
                    if (prec > 10000)
                    {
                        flint_printf("FAIL: failed to converge at 10000 bits\n");
                        abort();
                    }
                    prec *= 2;
                }
            }

            acb_mat_one(L);
            for (i = 0; i < n; i++)
                for (j = 0; j < i; j++)
                    acb_set(acb_mat_entry(L, i, j),
                        acb_mat_entry(LU, i, j));

            for (i = 0; i < n; i++)
                for (j = i; j < n; j++)
                    acb_set(acb_mat_entry(U, i, j),
                        acb_mat_entry(LU, i, j));

            for (i = 0; i < n; i++)
                acb_one(acb_mat_entry(P, perm[i], i));

            acb_mat_mul(T, P, L, prec);
            acb_mat_mul(T, T, U, prec);

            if (!acb_mat_contains_fmpq_mat(T, Q))
            {
                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("A = \n"); acb_mat_printd(A, 15); flint_printf("\n\n");
                flint_printf("LU = \n"); acb_mat_printd(LU, 15); flint_printf("\n\n");
                flint_printf("L = \n"); acb_mat_printd(L, 15); flint_printf("\n\n");
                flint_printf("U = \n"); acb_mat_printd(U, 15); flint_printf("\n\n");
                flint_printf("P*L*U = \n"); acb_mat_printd(T, 15); flint_printf("\n\n");

                abort();
            }
        }

        fmpq_mat_clear(Q);
        acb_mat_clear(A);
        acb_mat_clear(LU);
        acb_mat_clear(P);
        acb_mat_clear(L);
        acb_mat_clear(U);
        acb_mat_clear(T);
        _perm_clear(perm);
    }

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 12
0
int
main(void)
{
    long i;
    flint_rand_t state;

    printf("trace....");
    fflush(stdout);

    flint_randinit(state);

    /* Test trace(AB) = trace(BA) */
    for (i = 0; i < 1000; i++)
    {
        fmpq_mat_t A, B, AB, BA;
        fmpq_t trab, trba;
        long m, n;

        m = n_randint(state, 10);
        n = n_randint(state, 10);

        fmpq_mat_init(A, m, n);
        fmpq_mat_init(B, n, m);
        fmpq_mat_init(AB, m, m);
        fmpq_mat_init(BA, n, n);

        fmpq_init(trab);
        fmpq_init(trba);

        fmpq_mat_randtest(A, state, 1 + n_randint(state, 100));
        fmpq_mat_randtest(B, state, 1 + n_randint(state, 100));

        fmpq_mat_mul(AB, A, B);
        fmpq_mat_mul(BA, B, A);

        fmpq_mat_trace(trab, AB);
        fmpq_mat_trace(trba, BA);

        if (!fmpq_equal(trab, trba))
        {
            printf("FAIL:\n");
            fmpq_mat_print(A), printf("\n");
            fmpq_mat_print(B), printf("\n");
            fmpq_mat_print(AB), printf("\n");
            fmpq_mat_print(BA), printf("\n");
            printf("tr(AB): "),  fmpq_print(trab),    printf("\n");
            printf("tr(BA): "),  fmpq_print(trba),    printf("\n");
            abort();
        }

        fmpq_mat_clear(A);
        fmpq_mat_clear(B);
        fmpq_mat_clear(AB);
        fmpq_mat_clear(BA);
        fmpq_clear(trab);
        fmpq_clear(trba);
    }

    flint_randclear(state);
    _fmpz_cleanup();
    printf("PASS\n");
    return 0;
}
Exemplo n.º 13
0
int main()
{
    long iter;
    flint_rand_t state;

    printf("exp....");
    fflush(stdout);

    flint_randinit(state);

    /* check exp(A)*exp(c*A) = exp((1+c)*A) */
    for (iter = 0; iter < 1000; iter++)
    {
        arb_mat_t A, E, F, EF, G;
        fmpq_mat_t Q;
        arb_t c, d;
        long n, qbits, prec;

        n = n_randint(state, 5);
        qbits = 2 + n_randint(state, 300);
        prec = 2 + n_randint(state, 300);

        arb_init(c);
        arb_init(d);
        fmpq_mat_init(Q, n, n);
        arb_mat_init(A, n, n);
        arb_mat_init(E, n, n);
        arb_mat_init(F, n, n);
        arb_mat_init(EF, n, n);
        arb_mat_init(G, n, n);

        fmpq_mat_randtest(Q, state, qbits);
        arb_mat_set_fmpq_mat(A, Q, prec);

        arb_mat_exp(E, A, prec);

        arb_randtest(c, state, prec, 10);
        arb_mat_scalar_mul_arb(F, A, c, prec);
        arb_mat_exp(F, F, prec);

        arb_add_ui(d, c, 1, prec);
        arb_mat_scalar_mul_arb(G, A, d, prec);
        arb_mat_exp(G, G, prec);

        arb_mat_mul(EF, E, F, prec);

        if (!arb_mat_overlaps(EF, G))
        {
            printf("FAIL\n\n");
            printf("n = %ld, prec = %ld\n", n, prec);

            printf("c = \n"); arb_printd(c, 15); printf("\n\n");

            printf("A = \n"); arb_mat_printd(A, 15); printf("\n\n");
            printf("E   = \n"); arb_mat_printd(E, 15); printf("\n\n");
            printf("F   = \n"); arb_mat_printd(F, 15); printf("\n\n");
            printf("E*F = \n"); arb_mat_printd(EF, 15); printf("\n\n");
            printf("G   = \n"); arb_mat_printd(G, 15); printf("\n\n");

            abort();
        }

        arb_clear(c);
        arb_clear(d);
        fmpq_mat_clear(Q);
        arb_mat_clear(A);
        arb_mat_clear(E);
        arb_mat_clear(F);
        arb_mat_clear(EF);
        arb_mat_clear(G);
    }

    flint_randclear(state);
    flint_cleanup();
    printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 14
0
int main()
{
    long iter;
    flint_rand_t state;

    printf("det....");
    fflush(stdout);

    flint_randinit(state);

    for (iter = 0; iter < 10000; iter++)
    {
        fmpq_mat_t Q;
        fmpq_t Qdet;
        acb_mat_t A;
        acb_t Adet, imagunit;
        long n, qbits, prec;
        int imaginary;

        n = n_randint(state, 8);
        qbits = 1 + n_randint(state, 100);
        prec = 2 + n_randint(state, 200);
        imaginary = n_randint(state, 2);

        fmpq_mat_init(Q, n, n);
        fmpq_init(Qdet);

        acb_mat_init(A, n, n);
        acb_init(Adet);
        acb_init(imagunit);

        fmpq_mat_randtest(Q, state, qbits);
        fmpq_mat_det(Qdet, Q);

        acb_mat_set_fmpq_mat(A, Q, prec);

        if (imaginary)
        {
            acb_onei(imagunit);
            acb_mat_scalar_mul_acb(A, A, imagunit, prec);
        }

        acb_mat_det(Adet, A, prec);

        if (imaginary)
        {
            acb_onei(imagunit);
            acb_inv(imagunit, imagunit, prec);
            acb_pow_ui(imagunit, imagunit, n, prec);
            acb_mul(Adet, Adet, imagunit, prec);
        }

        if (!acb_contains_fmpq(Adet, Qdet))
        {
            printf("FAIL (containment, iter = %ld)\n", iter);
            printf("n = %ld, prec = %ld\n", n, prec);
            printf("\n");

            printf("Q = \n"); fmpq_mat_print(Q); printf("\n\n");
            printf("Qdet = \n"); fmpq_print(Qdet); printf("\n\n");

            printf("A = \n"); acb_mat_printd(A, 15); printf("\n\n");
            printf("Adet = \n"); acb_printd(Adet, 15); printf("\n\n");
            printf("Adet = \n"); acb_print(Adet); printf("\n\n");

            abort();
        }

        fmpq_mat_clear(Q);
        fmpq_clear(Qdet);
        acb_mat_clear(A);
        acb_clear(Adet);
        acb_clear(imagunit);
    }

    flint_randclear(state);
    flint_cleanup();
    printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 15
0
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("mul_threaded....");
    fflush(stdout);

    flint_randinit(state);

    for (iter = 0; iter < 5000 * arb_test_multiplier(); iter++)
    {
        slong m, n, k, qbits1, qbits2, rbits1, rbits2, rbits3;
        fmpq_mat_t A, B, C;
        acb_mat_t a, b, c, d;

        flint_set_num_threads(1 + n_randint(state, 5));

        qbits1 = 2 + n_randint(state, 200);
        qbits2 = 2 + n_randint(state, 200);
        rbits1 = 2 + n_randint(state, 200);
        rbits2 = 2 + n_randint(state, 200);
        rbits3 = 2 + n_randint(state, 200);

        m = n_randint(state, 10);
        n = n_randint(state, 10);
        k = n_randint(state, 10);

        fmpq_mat_init(A, m, n);
        fmpq_mat_init(B, n, k);
        fmpq_mat_init(C, m, k);

        acb_mat_init(a, m, n);
        acb_mat_init(b, n, k);
        acb_mat_init(c, m, k);
        acb_mat_init(d, m, k);

        fmpq_mat_randtest(A, state, qbits1);
        fmpq_mat_randtest(B, state, qbits2);
        fmpq_mat_mul(C, A, B);

        acb_mat_set_fmpq_mat(a, A, rbits1);
        acb_mat_set_fmpq_mat(b, B, rbits2);
        acb_mat_mul_threaded(c, a, b, rbits3);

        if (!acb_mat_contains_fmpq_mat(c, C))
        {
            flint_printf("FAIL\n\n");
            flint_printf("threads = %d, m = %wd, n = %wd, k = %wd, bits3 = %wd\n",
                flint_get_num_threads(), m, n, k, rbits3);

            flint_printf("A = "); fmpq_mat_print(A); flint_printf("\n\n");
            flint_printf("B = "); fmpq_mat_print(B); flint_printf("\n\n");
            flint_printf("C = "); fmpq_mat_print(C); flint_printf("\n\n");

            flint_printf("a = "); acb_mat_printd(a, 15); flint_printf("\n\n");
            flint_printf("b = "); acb_mat_printd(b, 15); flint_printf("\n\n");
            flint_printf("c = "); acb_mat_printd(c, 15); flint_printf("\n\n");

            flint_abort();
        }

        /* test aliasing with a */
        if (acb_mat_nrows(a) == acb_mat_nrows(c) &&
            acb_mat_ncols(a) == acb_mat_ncols(c))
        {
            acb_mat_set(d, a);
            acb_mat_mul_threaded(d, d, b, rbits3);
            if (!acb_mat_equal(d, c))
            {
                flint_printf("FAIL (aliasing 1)\n\n");
                flint_abort();
            }
        }

        /* test aliasing with b */
        if (acb_mat_nrows(b) == acb_mat_nrows(c) &&
            acb_mat_ncols(b) == acb_mat_ncols(c))
        {
            acb_mat_set(d, b);
            acb_mat_mul_threaded(d, a, d, rbits3);
            if (!acb_mat_equal(d, c))
            {
                flint_printf("FAIL (aliasing 2)\n\n");
                flint_abort();
            }
        }

        fmpq_mat_clear(A);
        fmpq_mat_clear(B);
        fmpq_mat_clear(C);

        acb_mat_clear(a);
        acb_mat_clear(b);
        acb_mat_clear(c);
        acb_mat_clear(d);
    }

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 16
0
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("sqr....");
    fflush(stdout);

    flint_randinit(state);

    for (iter = 0; iter < 10000 * arb_test_multiplier(); iter++)
    {
        slong n, qbits1, rbits1, rbits2;
        fmpq_mat_t A, B;
        acb_mat_t a, b, c;

        qbits1 = 2 + n_randint(state, 200);
        rbits1 = 2 + n_randint(state, 200);
        rbits2 = 2 + n_randint(state, 200);

        n = n_randint(state, 10);

        fmpq_mat_init(A, n, n);
        fmpq_mat_init(B, n, n);

        acb_mat_init(a, n, n);
        acb_mat_init(b, n, n);
        acb_mat_init(c, n, n);

        fmpq_mat_randtest(A, state, qbits1);
        fmpq_mat_mul(B, A, A);

        acb_mat_set_fmpq_mat(a, A, rbits1);
        acb_mat_sqr(b, a, rbits2);

        if (!acb_mat_contains_fmpq_mat(b, B))
        {
            flint_printf("FAIL\n\n");
            flint_printf("n = %wd, bits2 = %wd\n", n, rbits2);

            flint_printf("A = "); fmpq_mat_print(A); flint_printf("\n\n");
            flint_printf("B = "); fmpq_mat_print(B); flint_printf("\n\n");

            flint_printf("a = "); acb_mat_printd(a, 15); flint_printf("\n\n");
            flint_printf("b = "); acb_mat_printd(b, 15); flint_printf("\n\n");

            abort();
        }

        /* test aliasing */
        acb_mat_set(c, a);
        acb_mat_sqr(c, c, rbits2);
        if (!acb_mat_equal(c, b))
        {
            flint_printf("FAIL (aliasing)\n\n");
            abort();
        }

        fmpq_mat_clear(A);
        fmpq_mat_clear(B);

        acb_mat_clear(a);
        acb_mat_clear(b);
        acb_mat_clear(c);
    }

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 17
0
Arquivo: t-trace.c Projeto: isuruf/arb
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("trace....");
    fflush(stdout);

    flint_randinit(state);

    /* check that the acb trace contains the fmpq trace */
    for (iter = 0; iter < 10000; iter++)
    {
        fmpq_mat_t Q;
        fmpq_t Qtrace;
        acb_mat_t A;
        acb_t Atrace;
        slong n, qbits, prec;

        n = n_randint(state, 8);
        qbits = 1 + n_randint(state, 100);
        prec = 2 + n_randint(state, 200);

        fmpq_mat_init(Q, n, n);
        fmpq_init(Qtrace);

        acb_mat_init(A, n, n);
        acb_init(Atrace);

        fmpq_mat_randtest(Q, state, qbits);
        fmpq_mat_trace(Qtrace, Q);

        acb_mat_set_fmpq_mat(A, Q, prec);
        acb_mat_trace(Atrace, A, prec);

        if (!acb_contains_fmpq(Atrace, Qtrace))
        {
            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("Qtrace = \n"); fmpq_print(Qtrace); flint_printf("\n\n");

            flint_printf("A = \n"); acb_mat_printd(A, 15); flint_printf("\n\n");
            flint_printf("Atrace = \n"); acb_printd(Atrace, 15); flint_printf("\n\n");
            flint_printf("Atrace = \n"); acb_print(Atrace); flint_printf("\n\n");

            abort();
        }

        fmpq_mat_clear(Q);
        fmpq_clear(Qtrace);
        acb_mat_clear(A);
        acb_clear(Atrace);
    }

    /* check trace(A*B) = trace(B*A) */
    for (iter = 0; iter < 10000; iter++)
    {
        slong m, n, prec;
        acb_mat_t a, b, ab, ba;
        acb_t trab, trba;

        prec = 2 + n_randint(state, 200);

        m = n_randint(state, 10);
        n = n_randint(state, 10);

        acb_mat_init(a, m, n);
        acb_mat_init(b, n, m);
        acb_mat_init(ab, m, m);
        acb_mat_init(ba, n, n);

        acb_init(trab);
        acb_init(trba);

        acb_mat_randtest(a, state, 2 + n_randint(state, 100), 10);
        acb_mat_randtest(b, state, 2 + n_randint(state, 100), 10);

        acb_mat_mul(ab, a, b, prec);
        acb_mat_mul(ba, b, a, prec);

        acb_mat_trace(trab, ab, prec);
        acb_mat_trace(trba, ba, prec);

        if (!acb_overlaps(trab, trba))
        {
            flint_printf("FAIL (overlap, iter = %wd)\n", iter);
            flint_printf("m = %wd, n = %wd, prec = %wd\n", m, n, prec);
            flint_printf("\n");

            flint_printf("a = \n"); acb_mat_printd(a, 15); flint_printf("\n\n");
            flint_printf("b = \n"); acb_mat_printd(b, 15); flint_printf("\n\n");
            flint_printf("ab = \n"); acb_mat_printd(ab, 15); flint_printf("\n\n");
            flint_printf("ba = \n"); acb_mat_printd(ba, 15); flint_printf("\n\n");

            flint_printf("trace(ab) = \n"); acb_printd(trab, 15); flint_printf("\n\n");
            flint_printf("trace(ba) = \n"); acb_printd(trba, 15); flint_printf("\n\n");
        }

        acb_clear(trab);
        acb_clear(trba);

        acb_mat_clear(a);
        acb_mat_clear(b);
        acb_mat_clear(ab);
        acb_mat_clear(ba);
    }

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 18
0
int main()
{
    slong iter;
    flint_rand_t state;

    flint_printf("frobenius_norm....");
    fflush(stdout);

    flint_randinit(state);

    /* compare to the exact rational norm */
    for (iter = 0; iter < 10000 * arb_test_multiplier(); iter++)
    {
        fmpq_mat_t Q;
        fmpq_t q;
        arb_mat_t A;
        slong n, qbits, prec;

        n = n_randint(state, 8);
        qbits = 1 + n_randint(state, 100);
        prec = 2 + n_randint(state, 200);

        fmpq_mat_init(Q, n, n);
        fmpq_init(q);

        arb_mat_init(A, n, n);

        fmpq_mat_randtest(Q, state, qbits);
        _fmpq_mat_sum_of_squares(q, Q);

        arb_mat_set_fmpq_mat(A, Q, prec);

        /* check that the arb interval contains the exact value */
        {
            arb_t a;
            arb_init(a);

            arb_mat_frobenius_norm(a, A, prec);
            arb_mul(a, a, a, prec);

            if (!arb_contains_fmpq(a, q))
            {
                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("frobenius_norm(Q)^2 = \n");
                fmpq_print(q);
                flint_printf("\n\n");

                flint_printf("A = \n");
                arb_mat_printd(A, 15);
                flint_printf("\n\n");
                flint_printf("frobenius_norm(A)^2 = \n");
                arb_printd(a, 15);
                flint_printf("\n\n");
                flint_printf("frobenius_norm(A)^2 = \n");
                arb_print(a);
                flint_printf("\n\n");

                abort();
            }

            arb_clear(a);
        }

        /* check that the upper bound is not less than the exact value */
        {
            mag_t b;
            fmpq_t y;

            mag_init(b);
            fmpq_init(y);

            arb_mat_bound_frobenius_norm(b, A);
            mag_mul(b, b, b);
            mag_get_fmpq(y, b);

            if (fmpq_cmp(q, y) > 0)
            {
                flint_printf("FAIL (bound, 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("frobenius_norm(Q)^2 = \n");
                fmpq_print(q);
                flint_printf("\n\n");

                flint_printf("A = \n");
                arb_mat_printd(A, 15);
                flint_printf("\n\n");
                flint_printf("bound_frobenius_norm(A)^2 = \n");
                mag_printd(b, 15);
                flint_printf("\n\n");
                flint_printf("bound_frobenius_norm(A)^2 = \n");
                mag_print(b);
                flint_printf("\n\n");

                abort();
            }

            mag_clear(b);
            fmpq_clear(y);
        }

        fmpq_mat_clear(Q);
        fmpq_clear(q);
        arb_mat_clear(A);
    }

    /* check trace(A^T A) = frobenius_norm(A)^2 */
    for (iter = 0; iter < 10000 * arb_test_multiplier(); iter++)
    {
        slong m, n, prec;
        arb_mat_t A, AT, ATA;
        arb_t t;

        prec = 2 + n_randint(state, 200);

        m = n_randint(state, 10);
        n = n_randint(state, 10);

        arb_mat_init(A, m, n);
        arb_mat_init(AT, n, m);
        arb_mat_init(ATA, n, n);
        arb_init(t);

        arb_mat_randtest(A, state, 2 + n_randint(state, 100), 10);
        arb_mat_transpose(AT, A);
        arb_mat_mul(ATA, AT, A, prec);
        arb_mat_trace(t, ATA, prec);
        arb_sqrt(t, t, prec);

        /* check the norm bound */
        {
            mag_t low, frobenius;

            mag_init(low);
            arb_get_mag_lower(low, t);

            mag_init(frobenius);
            arb_mat_bound_frobenius_norm(frobenius, A);

            if (mag_cmp(low, frobenius) > 0)
            {
                flint_printf("FAIL (bound)\n", iter);
                flint_printf("m = %wd, n = %wd, prec = %wd\n", m, n, prec);
                flint_printf("\n");

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

                flint_printf("lower(sqrt(trace(A^T A))) = \n");
                mag_printd(low, 15);
                flint_printf("\n\n");

                flint_printf("bound_frobenius_norm(A) = \n");
                mag_printd(frobenius, 15);
                flint_printf("\n\n");

                abort();
            }

            mag_clear(low);
            mag_clear(frobenius);
        }

        /* check the norm interval */
        {
            arb_t frobenius;

            arb_init(frobenius);
            arb_mat_frobenius_norm(frobenius, A, prec);

            if (!arb_overlaps(t, frobenius))
            {
                flint_printf("FAIL (overlap)\n", iter);
                flint_printf("m = %wd, n = %wd, prec = %wd\n", m, n, prec);
                flint_printf("\n");

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

                flint_printf("sqrt(trace(A^T A)) = \n");
                arb_printd(t, 15);
                flint_printf("\n\n");

                flint_printf("frobenius_norm(A) = \n");
                arb_printd(frobenius, 15);
                flint_printf("\n\n");

                abort();
            }

            arb_clear(frobenius);
        }

        arb_mat_clear(A);
        arb_mat_clear(AT);
        arb_mat_clear(ATA);
        arb_clear(t);
    }

    flint_randclear(state);
    flint_cleanup();
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}
Exemplo n.º 19
0
int
main(void)
{
    int i, result;
    FLINT_TEST_INIT(state);
    

    flint_printf("scalar_div_fmpz....");
    fflush(stdout);

    /* Aliasing */
    for (i = 0; i < 100 * flint_test_multiplier(); i++)
    {
        fmpq_mat_t A, B;
        fmpz_t x;

        slong m, n, bits;

        m = n_randint(state, 10);
        n = n_randint(state, 10);

        bits = 1 + n_randint(state, 100);

        fmpq_mat_init(A, m, n);
        fmpq_mat_init(B, m, n);
        fmpz_init(x);

        fmpq_mat_randtest(B, state, bits);
        fmpz_randtest_not_zero(x, state, bits);

        fmpq_mat_scalar_div_fmpz(A, B, x);
        fmpq_mat_scalar_div_fmpz(B, B, x);

        result = fmpq_mat_equal(A, B);
        if (!result)
        {
            flint_printf("FAIL:\n");
            flint_printf("A:\n"), fmpq_mat_print(A);
            flint_printf("B:\n"), fmpq_mat_print(B);
            abort();
        }

        fmpq_mat_clear(A);
        fmpq_mat_clear(B);
        fmpz_clear(x);
    }

    /* (A + B) / x == A / x + B / x */
    for (i = 0; i < 100 * flint_test_multiplier(); i++)
    {
        fmpq_mat_t A, B, C, D;
        fmpz_t x;

        slong m, n, bits;

        m = n_randint(state, 10);
        n = n_randint(state, 10);

        bits = 1 + n_randint(state, 100);

        fmpq_mat_init(A, m, n);
        fmpq_mat_init(B, m, n);
        fmpq_mat_init(C, m, n);
        fmpq_mat_init(D, m, n);
        fmpz_init(x);

        fmpq_mat_randtest(A, state, bits);
        fmpq_mat_randtest(B, state, bits);
        fmpz_randtest_not_zero(x, state, bits);

        fmpq_mat_scalar_div_fmpz(C, A, x);
        fmpq_mat_scalar_div_fmpz(D, B, x);
        fmpq_mat_add(D, C, D);

        fmpq_mat_add(C, A, B);
        fmpq_mat_scalar_div_fmpz(C, C, x);

        result = fmpq_mat_equal(C, D);
        if (!result)
        {
            flint_printf("FAIL:\n");
            flint_printf("A:\n"), fmpq_mat_print(A);
            flint_printf("B:\n"), fmpq_mat_print(B);
            abort();
        }

        fmpq_mat_clear(A);
        fmpq_mat_clear(B);
        fmpq_mat_clear(C);
        fmpq_mat_clear(D);
        fmpz_clear(x);
    }

    

    FLINT_TEST_CLEANUP(state);
    flint_printf("PASS\n");
    return EXIT_SUCCESS;
}