/*
Copyright (C) 2018 Daniel Schultz
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 2.1 of the License, or
(at your option) any later version. See .
*/
#include
#include
#include "nmod_mpoly.h"
int
main(void)
{
int i, j, result, max_threads = 5;
int tmul = 10;
#ifdef _WIN32
tmul = 1;
#endif
FLINT_TEST_INIT(state);
flint_printf("mul....");
fflush(stdout);
/* Check f*(g + h) = f*g + f*h with bit bound */
for (i = 0; i < tmul * flint_test_multiplier(); i++)
{
nmod_mpoly_ctx_t ctx;
nmod_mpoly_t f, g, h, k1, k2, t1, t2;
slong len, len1, len2;
flint_bitcnt_t exp_bits, exp_bits1, exp_bits2;
mp_limb_t modulus;
modulus = n_randint(state, FLINT_BITS - 2) + 2;
modulus = n_randbits(state, modulus);
nmod_mpoly_ctx_init_rand(ctx, state, 5, modulus);
nmod_mpoly_init(f, ctx);
nmod_mpoly_init(g, ctx);
nmod_mpoly_init(h, ctx);
nmod_mpoly_init(k1, ctx);
nmod_mpoly_init(k2, ctx);
nmod_mpoly_init(t1, ctx);
nmod_mpoly_init(t2, ctx);
len = n_randint(state, 100);
len1 = n_randint(state, 100);
len2 = n_randint(state, 100);
exp_bits = n_randint(state, 100) + 2;
exp_bits1 = n_randint(state, 100) + 2;
exp_bits2 = n_randint(state, 100) + 2;
nmod_mpoly_randtest_bits(k1, state, len, exp_bits, ctx);
nmod_mpoly_randtest_bits(k2, state, len, exp_bits, ctx);
for (j = 0; j < 4; j++)
{
nmod_mpoly_randtest_bits(f, state, len1, exp_bits1, ctx);
nmod_mpoly_randtest_bits(g, state, len2, exp_bits2, ctx);
nmod_mpoly_randtest_bits(h, state, len2, exp_bits, ctx);
nmod_mpoly_add(t1, g, h, ctx);
nmod_mpoly_assert_canonical(t1, ctx);
nmod_mpoly_mul(k1, f, t1, ctx);
nmod_mpoly_assert_canonical(k1, ctx);
nmod_mpoly_mul(t1, f, g, ctx);
nmod_mpoly_assert_canonical(t1, ctx);
nmod_mpoly_mul(t2, f, h, ctx);
nmod_mpoly_assert_canonical(t2, ctx);
nmod_mpoly_add(k2, t1, t2, ctx);
nmod_mpoly_assert_canonical(k2, ctx);
result = nmod_mpoly_equal(k1, k2, ctx);
if (!result)
{
printf("FAIL\n");
flint_printf("Check f*(g + h) = f*g + f*h with bit bound\ni = %wd, j = %wd\n", i ,j);
flint_abort();
}
}
nmod_mpoly_clear(f, ctx);
nmod_mpoly_clear(g, ctx);
nmod_mpoly_clear(h, ctx);
nmod_mpoly_clear(k1, ctx);
nmod_mpoly_clear(k2, ctx);
nmod_mpoly_clear(t1, ctx);
nmod_mpoly_clear(t2, ctx);
nmod_mpoly_ctx_clear(ctx);
}
/* Check aliasing first argument */
for (i = 0; i < tmul * flint_test_multiplier(); i++)
{
nmod_mpoly_ctx_t ctx;
nmod_mpoly_t f, g, h;
slong len, len1, len2, nvars;
flint_bitcnt_t exp_bound, exp_bound1, exp_bound2;
mp_limb_t modulus;
modulus = n_randint(state, FLINT_BITS - 2) + 2;
modulus = n_randbits(state, modulus);
nmod_mpoly_ctx_init_rand(ctx, state, 4, modulus);
nvars = ctx->minfo->nvars;
nmod_mpoly_init(f, ctx);
nmod_mpoly_init(g, ctx);
nmod_mpoly_init(h, ctx);
exp_bound = 3 + n_randint(state, 1 + 100/nvars/nvars);
exp_bound1 = 3 + n_randint(state, 1 + 100/nvars/nvars);
exp_bound2 = 3 + n_randint(state, 1 + 100/nvars/nvars);
len = exp_bound + 1;
len1 = exp_bound1 + 1;
len2 = exp_bound2 + 1;
for (j = n_randint(state, nvars) + 2; j >= 0; j--)
{
len *= exp_bound + 1;
len1 *= exp_bound1 + 1;
len2 *= exp_bound2 + 1;
len = FLINT_MIN(len, WORD(1000));
len1 = FLINT_MIN(len, WORD(1000));
len2 = FLINT_MIN(len, WORD(1000));
}
for (j = 0; j < 4; j++)
{
nmod_mpoly_randtest_bound(f, state, len1, exp_bound1, ctx);
nmod_mpoly_randtest_bound(g, state, len2, exp_bound2, ctx);
nmod_mpoly_randtest_bound(h, state, len, exp_bound, ctx);
flint_set_num_threads(n_randint(state, max_threads) + 1);
nmod_mpoly_mul(h, f, g, ctx);
nmod_mpoly_assert_canonical(h, ctx);
nmod_mpoly_mul(f, f, g, ctx);
nmod_mpoly_assert_canonical(f, ctx);
result = nmod_mpoly_equal(h, f, ctx);
if (!result)
{
printf("FAIL\n");
flint_printf("Check aliasing first arg\ni = %wd, j = %wd\n", i ,j);
flint_abort();
}
}
nmod_mpoly_clear(f, ctx);
nmod_mpoly_clear(g, ctx);
nmod_mpoly_clear(h, ctx);
nmod_mpoly_ctx_clear(ctx);
}
/* Check aliasing second argument */
for (i = 0; i < tmul * flint_test_multiplier(); i++)
{
nmod_mpoly_ctx_t ctx;
nmod_mpoly_t f, g, h;
slong len, len1, len2, nvars;
flint_bitcnt_t exp_bound, exp_bound1, exp_bound2;
mp_limb_t modulus;
modulus = n_randint(state, FLINT_BITS - 2) + 2;
modulus = n_randbits(state, modulus);
nmod_mpoly_ctx_init_rand(ctx, state, 4, modulus);
nvars = ctx->minfo->nvars;
nmod_mpoly_init(f, ctx);
nmod_mpoly_init(g, ctx);
nmod_mpoly_init(h, ctx);
exp_bound = 3 + n_randint(state, 1 + 100/nvars/nvars);
exp_bound1 = 3 + n_randint(state, 1 + 100/nvars/nvars);
exp_bound2 = 3 + n_randint(state, 1 + 100/nvars/nvars);
len = exp_bound + 1;
len1 = exp_bound1 + 1;
len2 = exp_bound2 + 1;
for (j = n_randint(state, nvars) + 2; j >= 0; j--)
{
len *= exp_bound + 1;
len1 *= exp_bound1 + 1;
len2 *= exp_bound2 + 1;
len = FLINT_MIN(len, WORD(1000));
len1 = FLINT_MIN(len, WORD(1000));
len2 = FLINT_MIN(len, WORD(1000));
}
for (j = 0; j < 4; j++)
{
nmod_mpoly_randtest_bound(f, state, len1, exp_bound1, ctx);
nmod_mpoly_randtest_bound(g, state, len2, exp_bound2, ctx);
nmod_mpoly_randtest_bound(h, state, len, exp_bound, ctx);
flint_set_num_threads(n_randint(state, max_threads) + 1);
nmod_mpoly_mul(h, f, g, ctx);
nmod_mpoly_assert_canonical(h, ctx);
nmod_mpoly_mul(g, f, g, ctx);
nmod_mpoly_assert_canonical(g, ctx);
result = nmod_mpoly_equal(h, g, ctx);
if (!result)
{
printf("FAIL\n");
flint_printf("Check aliasing second arg\ni = %wd, j = %wd\n", i ,j);
flint_abort();
}
}
nmod_mpoly_clear(f, ctx);
nmod_mpoly_clear(g, ctx);
nmod_mpoly_clear(h, ctx);
nmod_mpoly_ctx_clear(ctx);
}
FLINT_TEST_CLEANUP(state);
flint_printf("PASS\n");
return 0;
}