pqc/external/flint-2.4.3/flintxx/test/t-fmpq_matxx.cpp
2014-05-24 23:16:06 +02:00

341 lines
9.9 KiB
C++

/*=============================================================================
This file is part of FLINT.
FLINT is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
FLINT is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with FLINT; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
=============================================================================*/
/******************************************************************************
Copyright (C) 2013 Tom Bachmann
******************************************************************************/
#include <iostream>
#include <sstream>
#include <string>
#include "fmpq_matxx.h"
#include "flintxx/test/helpers.h"
using namespace flint;
void
test_init()
{
fmpq_matxx A(3, 4);
tassert(A.rows() == 3 && A.cols() == 4);
tassert(A.at(0, 0).is_zero());
A.at(0, 0) = 1;
fmpq_matxx B(A);
tassert(B.rows() == 3 && B.cols() == 4);
tassert(B.at(0, 0).is_one());
B.at(0, 0) = 0;
tassert(A.at(0, 0).is_one());
tassert(fmpq_matxx::zero(3, 4).is_zero());
fmpq_matxx eye = fmpq_matxx::one(4, 4);
for(slong i = 0;i < eye.rows();++i)
for(slong j = 0;j < eye.cols();++j)
tassert(eye.at(i, j) == fmpqxx::integer(int(i == j)));
}
void
test_assignment()
{
frandxx state;
fmpz_matxx A = fmpz_matxx::randtest(3, 4, state, 10);
fmpq_matxx Aq(A.rows(), A.cols());
Aq = A;
tassert(Aq == fmpq_matxx::integer_matrix(A));
}
void
test_conversion()
{
frandxx state;
fmpz_matxx A = fmpz_matxx::randtest(3, 4, state, 10);
fmpq_matxx Aq = fmpq_matxx::integer_matrix(A);
tassert(Aq.rows() == A.rows() && Aq.cols() == A.cols());
for(slong i = 0;i < A.rows();++i)
for(slong j = 0;j < A.cols();++j)
tassert(Aq.at(i, j) == fmpqxx::integer(A.at(i, j)));
tassert(A == fmpz_matxx::from_integral_fraction(Aq));
Aq.at(0, 0) = fmpqxx::frac(1, 2);
assert_exception(fmpz_matxx::from_integral_fraction(Aq));
tassert(Aq.numden_entrywise().get<0>().rows() == A.rows()
&& Aq.numden_entrywise().get<0>().cols() == A.cols()
&& Aq.numden_entrywise().get<1>().rows() == A.rows()
&& Aq.numden_entrywise().get<1>().cols() == A.cols());
tassert(Aq.numden_matwise().get<0>().rows() == A.rows()
&& Aq.numden_matwise().get<0>().cols() == A.cols());
tassert(Aq.numden_rowwise().get<0>().rows() == A.rows()
&& Aq.numden_rowwise().get<0>().cols() == A.cols()
&& Aq.numden_rowwise().get<1>().size() == A.rows());
tassert(Aq.numden_colwise().get<0>().rows() == A.rows()
&& Aq.numden_colwise().get<0>().cols() == A.cols()
&& Aq.numden_colwise().get<1>().size() == A.cols());
fmpz_matxx den(A.rows(), A.cols());
for(slong i = 0;i < A.rows();++i)
for(slong j = 0;j < A.cols();++j)
den.at(i, j) = 1u;
den.at(0, 0) = 2u;
A.at(0, 0) = 1;
tassert(Aq.numden_entrywise() == ltupleref(A, den));
tassert(Aq.num_rowwise().at(0, 0) == 1);
tassert(Aq.num_colwise().at(0, 0) == 1);
tassert(Aq.numden_matwise().get<1>() == 2);
fmpz_vecxx rowdens(A.rows());
rowdens[0] = 2;
for(slong i = 1;i < A.rows();++i)
rowdens[i] = 1;
for(slong i = 1;i < A.cols();++i)
A.at(0, i) *= 2;
tassert(Aq.numden_rowwise() == ltupleref(A, rowdens));
tassert(Aq.numden_colwise().get<1>()[0] == 2);
}
template<class Expr>
bool has_explicit_temporaries(const Expr&)
{
return Expr::ev_traits_t::rule_t::temporaries_t::len != 0;
}
void
test_arithmetic()
{
fmpq_matxx A(10, 10);
fmpq_matxx v(10, 1);
for(int i = 0;i < 10;++i)
v.at(i, 0) = i;
fmpzxx two(2);
tassert(transpose(v).rows() == 1);
tassert(v.transpose().cols() == 10);
tassert((two*v).rows() == 10);
tassert((v*two).rows() == 10);
tassert((v*transpose(v)).rows() == 10 && (v*transpose(v)).cols() == 10);
tassert(!has_explicit_temporaries(trace(transpose(v))));
tassert(!has_explicit_temporaries(trace(A + v*transpose(v))));
tassert(!has_explicit_temporaries(A + v*transpose(v)));
tassert(!has_explicit_temporaries(trace((v*transpose(v) + A))));
tassert(!has_explicit_temporaries(trace(v*transpose(v) + v*transpose(v))));
tassert(!has_explicit_temporaries(v*transpose(v) + v*transpose(v)));
tassert(trace(transpose(v)).is_zero());
tassert(trace(A + v*transpose(v)) == fmpqxx(285, 1u));
tassert(trace(v*transpose(v) + A) == fmpqxx(285, 1u));
tassert(trace(v*transpose(v) + v*transpose(v)) == fmpqxx(2*285, 1u));
tassert(trace((A+A)*(two + two)).is_zero());
for(int i = 0;i < 10; ++i)
for(int j = 0; j < 10; ++j)
A.at(i, j) = i*j;
tassert(A == v*transpose(v));
tassert(A != transpose(v)*v);
A.at(0, 0) = 15;
tassert(A != v*transpose(v));
A.at(0, 0) = 0;
for(unsigned i = 0;i < 10; ++i)
for(unsigned j = 0; j < 10; ++j)
A.at(i, j) *= two;
tassert(A == v*transpose(v) + v*transpose(v));
tassert(A - v*transpose(v) == v*transpose(v));
tassert(((-A) + A).is_zero());
tassert((A + A).at(0, 0) == A.at(0, 0) + A.at(0, 0));
tassert((A + A) == A*two);
tassert((two*A) / two == A);
frandxx state;
A.set_randtest(state, 15);
fmpz_matxx B(A.rows(), A.cols());
B.set_randtest(state, 15);
fmpq_matxx C(A.rows(), A.cols());
for(slong i = 0;i < A.rows();++i)
for(slong j = 0;j < A.cols();++j)
C.at(i, j).num() = B.at(i, j);
tassert(C*A == B*A && A*C == A*B);
tassert(C.mul_direct(A) == C*A && C.mul_cleared(A) == C*A);
}
void
test_functions()
{
fmpq_matxx A(2, 3), B(2, 2), empty(0, 15);
B.at(0, 0) = 1;
tassert(A.is_zero() && !A.is_empty() && !A.is_square());
tassert(!B.is_zero() == B.is_square());
tassert(empty.is_zero() && empty.is_empty());
// transpose tested in arithmetic
// mul tested in arithmetic
// trace tested in arithmetic
tassert(hilbert_matrix(4, 6).rows() == 4);
tassert(hilbert_matrix(4, 6).cols() == 6);
A.set_hilbert_matrix();
fmpq_matxx H(hilbert_matrix(2, 3));
tassert(A == H);
for(slong i = 0;i < A.rows();++i)
for(slong j = 0;j < A.rows();++j)
tassert(A.at(i, j).num() == 1 && A.at(i, j).den() == i + j + 1);
tassert(A.is_integral() == false);
frandxx rand;
fmpz_matxx Bp(B.rows(), B.cols());
Bp.set_randtest(rand, 10);
for(slong i = 0;i < B.rows();++i)
for(slong j = 0;j < B.rows();++j)
B.at(i, j) = fmpqxx(Bp.at(i, j), fmpzxx(1));
tassert(B.det().num() == Bp.det() && B.det().den() == 1);
B.at(0, 0) = fmpqxx::randtest_not_zero(rand, 10);
B.at(0, 1) = 0;
B.at(1, 0) = fmpqxx::randtest(rand, 10);
B.at(1, 1) = fmpqxx::randtest_not_zero(rand, 10);
tassert(B*B.solve_fraction_free(A) == A);
tassert(B*B.solve_dixon(A) == A);
fmpq_matxx eye(B.rows(), B.cols());
for(slong i = 0;i < B.rows();++i)
eye.at(i, i) = 1;
tassert(B*B.inv() == eye);
assert_exception(fmpq_matxx(2, 2).solve_fraction_free(A).evaluate());
assert_exception(fmpq_matxx(2, 2).solve_dixon(A).evaluate());
// make sure this compiles
if(0)
print(B);
}
void
test_extras()
{
fmpq_matxx A(10, 10), B(10, 10);
frandxx rand;
A.set_randtest(rand, 15);
B.set_randtest(rand, 15);
A.at(0, 0) = B.at(0, 0) + fmpqxx(1, 1u);
fmpq_matxx_srcref Asr(A);
fmpq_matxx_ref Br(B);
tassert((A + A) + (B + B) == (Asr + Asr) + (Br + Br));
Br = Asr;
tassert(A == B);
fmpq_matxx C(Asr);
tassert(C == A);
C.at(0, 0) += fmpqxx(2, 1u);
tassert(C != A);
}
void
test_randomisation()
{
frandxx rand;
fmpq_matxx A(2, 2);
A.set_randbits(rand, 5);
tassert(height(A.at(0, 0)) <= 31);
A.set_randtest(rand, 5);
tassert(height(A.at(0, 0)) <= 31);
frandxx rand2, rand3;
A.set_randbits(rand2, 5);
tassert(A == fmpq_matxx::randbits(2, 2, rand3, 5));
A.set_randtest(rand2, 5);
tassert(A == fmpq_matxx::randtest(2, 2, rand3, 5));
}
void
test_reduction_reconstruction()
{
fmpq_matxx A(4, 7);
frandxx state;
A.set_randtest(state, 4);
fmpzxx M(UWORD(123457891));
fmpz_matxx Ar = fmpz_matxx::reduce(A, M);
tassert(Ar.rows() == A.rows() && Ar.cols() == A.cols());
for(slong i = 0;i < A.rows();++i)
for(slong j = 0;j < A.cols();++j)
tassert(Ar.at(i, j) == A.at(i, j) % M);
tassert(A == fmpq_matxx::reconstruct(Ar, M));
// TODO test exception
}
void
test_row_reduction()
{
frandxx state;
fmpq_matxx A = fmpq_matxx::randtest(5, 5, state, 15);
slong rank1, rank2;
permxx p1(5), p2(5);
fmpq_matxx res1(A.rows(), A.cols()), res2(A.rows(), A.cols());
fmpq_matxx B(A);
tassert(B.pivot(1, 1, &p1) == fmpq_mat_pivot(p1._data(), A._mat(), 1, 1));
tassert(A == B);
ltupleref(rank1, res1) = rref(A);
rank2 = fmpq_mat_rref(res2._mat(), A._mat());
tassert(rank1 == rank2 && res1 == res2);
tassert(rref_classical(A) == rref(A) && rref_fraction_free(A) == rref(A));
}
void
test_unified_access()
{
fmpq_matxx A(2, 2);
const fmpq_matxx& Ar = A;
const fmpq_matxx_ref Ar2(A);
Ar2.at(0, 0) = fmpqxx::one();
tassert(Ar.at(0, 0).is_one());
}
int
main()
{
std::cout << "fmpq_matxx....";
test_init();
test_assignment();
test_conversion();
test_arithmetic();
test_functions();
test_extras();
test_randomisation();
test_reduction_reconstruction();
test_row_reduction();
test_unified_access();
std::cout << "PASS" << std::endl;
return 0;
}