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dda885e5fff87dd0336db5610aee57cfc311e2d2
gil/test/extension/numeric/kernel_fixed.cpp
Mateusz Łoskot dda885e5ff Replace Boost.Test with Boost.LightweightTest in test/ (#459) 
Motivation is to:
- use on simpler and light test framework,
- eliminate dependency on libraries like Boost.MPL,
- achieve faster compilation times for CI builds (20% seems feasible)
- have test programs easy to run and debug
- avoid macros

Remove outdated FIXME-s for bugs that have been already fixed.
Fix off-by-one bug in test/core/test_fixture.hpp generators.
Minor corrections and tidying up.

Add missing test assertions to numeric extension tests.
Fixes #458
2020-03-21 22:53:09 +01:00

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//
// Copyright 2019 Mateusz Loskot <mateusz at loskot dot net>
// Copyright 2019 Miral Shah <miralshah2211@gmail.com>
//
// Distributed under the Boost Software License, Version 1.0
// See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt
//
#define BOOST_DISABLE_ASSERTS 1 // kernel_1d_adaptor assertions are too strict
#include <boost/gil.hpp>
#include <boost/gil/extension/numeric/kernel.hpp>
#include <boost/core/lightweight_test.hpp>
#include <vector>
namespace gil = boost::gil;
void test_kernel_1d_fixed_default_constructor()
{
gil::kernel_1d_fixed<int, 9> k;
BOOST_TEST(k.center() == 0);
BOOST_TEST(k.left_size() == 0);
BOOST_TEST(k.right_size() == 8); // TODO: Why not 0 or -1 if not set?
// std::array interface
BOOST_TEST(k.size() == 9);
}
void test_kernel_2d_fixed_default_constructor()
{
gil::detail::kernel_2d_fixed<int, 9> k;
BOOST_TEST(k.center_x() == 0);
BOOST_TEST(k.center_y() == 0);
BOOST_TEST(k.left_size() == 0);
BOOST_TEST(k.right_size() == 8); // TODO: Why not 0 or -1 if not set?
BOOST_TEST(k.upper_size() == 0);
BOOST_TEST(k.lower_size() == 8);
// std::array interface
BOOST_TEST(k.size() == 9);
}
void test_kernel_1d_fixed_parameterized_constructor()
{
gil::kernel_1d_fixed<int, 9> k(4);
BOOST_TEST(k.center() == 4);
BOOST_TEST(k.left_size() == 4);
BOOST_TEST(k.right_size() == 4);
// std::vector interface
BOOST_TEST(k.size() == 9);
}
void test_kernel_2d_fixed_parameterized_constructor()
{
gil::detail::kernel_2d_fixed<int, 9> k(4, 4);
BOOST_TEST(k.center_x() == 4);
BOOST_TEST(k.center_y() == 4);
BOOST_TEST(k.left_size() == 4);
BOOST_TEST(k.right_size() == 4);
BOOST_TEST(k.upper_size() == 4);
BOOST_TEST(k.lower_size() == 4);
// std::vector interface
BOOST_TEST(k.size() == 9);
}
void test_kernel_1d_fixed_parameterized_constructor_with_iterator()
{
// FIXME: The constructor should throw if v.size() < k.size()
std::vector<int> v(9);
gil::kernel_1d_fixed<int, 9> k(v.cbegin(), 4);
BOOST_TEST((gil::kernel_1d_fixed<int, 9>::static_size) == 9);
BOOST_TEST(k.center() == 4);
BOOST_TEST(k.left_size() == 4);
BOOST_TEST(k.right_size() == 4);
// std::vector interface
BOOST_TEST(k.size() == 9);
}
void test_kernel_2d_fixed_parameterized_constructor_with_iterator()
{
// // FIXME: The constructor should throw if v.size() < k.size()
std::array<int, 81> v;
gil::detail::kernel_2d_fixed<int, 9> k(v.cbegin(), 4, 4);
BOOST_TEST((gil::detail::kernel_2d_fixed<int, 9>::static_size) == 9);
BOOST_TEST(k.center_y() == 4);
BOOST_TEST(k.center_x() == 4);
BOOST_TEST(k.left_size() == 4);
BOOST_TEST(k.right_size() == 4);
BOOST_TEST(k.upper_size() == 4);
BOOST_TEST(k.lower_size() == 4);
// std::vector interface
BOOST_TEST(k.size() == 9);
}
void test_kernel_1d_fixed_copy_constructor()
{
gil::kernel_1d_fixed<int, 9> d(4);
gil::kernel_1d_fixed<int, 9> k(d);
BOOST_TEST((gil::kernel_1d_fixed<int, 9>::static_size) == 9);
BOOST_TEST(k.center() == 4);
BOOST_TEST(k.center() == d.center());
BOOST_TEST(k.left_size() == d.left_size());
BOOST_TEST(k.right_size() == d.right_size());
// std::vector interface
BOOST_TEST(k.size() == d.size());
}
void test_kernel_2d_fixed_copy_constructor()
{
gil::detail::kernel_2d_fixed<int, 9> d(4, 4);
gil::detail::kernel_2d_fixed<int, 9> k(d);
BOOST_TEST((gil::detail::kernel_2d_fixed<int, 9>::static_size) == 9);
BOOST_TEST(k.center_x() == 4);
BOOST_TEST(k.center_y() == 4);
BOOST_TEST(k.center_x() == d.center_x());
BOOST_TEST(k.center_y() == d.center_y());
BOOST_TEST(k.left_size() == d.left_size());
BOOST_TEST(k.right_size() == d.right_size());
BOOST_TEST(k.lower_size() == d.lower_size());
BOOST_TEST(k.upper_size() == d.upper_size());
// std::vector interface
BOOST_TEST(k.size() == d.size());
}
void test_kernel_1d_fixed_assignment_operator()
{
gil::kernel_1d_fixed<int, 9> d(4);
gil::kernel_1d_fixed<int, 9> k;
k = d;
BOOST_TEST((gil::kernel_1d_fixed<int, 9>::static_size) == 9);
BOOST_TEST(k.center() == 4);
BOOST_TEST(k.center() == d.center());
BOOST_TEST(k.left_size() == d.left_size());
BOOST_TEST(k.right_size() == d.right_size());
// std::vector interface
BOOST_TEST(k.size() == d.size());
}
void test_kernel_2d_fixed_assignment_operator()
{
gil::detail::kernel_2d_fixed<int, 9> d(4, 4);
gil::detail::kernel_2d_fixed<int, 9> k;
k = d;
BOOST_TEST((gil::detail::kernel_2d_fixed<int, 9>::static_size) == 9);
BOOST_TEST(k.center_x() == 4);
BOOST_TEST(k.center_y() == 4);
BOOST_TEST(k.center_x() == d.center_x());
BOOST_TEST(k.center_y() == d.center_y());
BOOST_TEST(k.left_size() == d.left_size());
BOOST_TEST(k.right_size() == d.right_size());
BOOST_TEST(k.lower_size() == d.lower_size());
BOOST_TEST(k.upper_size() == d.upper_size());
// std::vector interface
BOOST_TEST(k.size() == d.size());
}
void test_kernel_1d_fixed_reverse_kernel()
{
std::array<int, 3> values = {1, 2, 3};
gil::kernel_1d_fixed<int, 3> d(values.begin(), 1);
BOOST_TEST((gil::kernel_1d_fixed<int, 3>::static_size) == 3);
BOOST_TEST(d == values);
std::array<int, 3> values_rev = {3, 2, 1};
auto k = gil::reverse_kernel(d);
BOOST_TEST(k == values_rev);
}
int main()
{
test_kernel_1d_fixed_default_constructor();
test_kernel_2d_fixed_default_constructor();
test_kernel_1d_fixed_parameterized_constructor();
test_kernel_2d_fixed_parameterized_constructor();
test_kernel_1d_fixed_parameterized_constructor_with_iterator();
test_kernel_2d_fixed_parameterized_constructor_with_iterator();
test_kernel_1d_fixed_copy_constructor();
test_kernel_2d_fixed_copy_constructor();
test_kernel_1d_fixed_assignment_operator();
test_kernel_2d_fixed_assignment_operator();
test_kernel_1d_fixed_reverse_kernel();
return ::boost::report_errors();
}
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