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Format all C++ and Java code via clang-format

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Signed-off-by: Konstantin Pastbin <konstantin.pastbin@gmail.com>
This commit is contained in:
Konstantin Pastbin
2025-08-17 14:32:37 +07:00
parent 9f0290c0ec
commit bfffa1fff4
2169 changed files with 56441 additions and 64188 deletions
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98
libs/geometry/geometry_tests/angle_test.cpp
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@@ -6,20 +6,19 @@
#include "geometry/angles.hpp"
using namespace test;
using math::pi;
UNIT_TEST(Atan)
{
double const h4 = math::pi/4.0;
double const h4 = math::pi / 4.0;
TEST(is_equal_atan(1, 1, h4), ());
TEST(is_equal_atan(-1, 1, math::pi - h4), ());
TEST(is_equal_atan(-1, -1, h4 - math::pi), ());
TEST(is_equal_atan(1, -1, -h4), ());
double const hh = atan(1.0/2.0);
double const hh = atan(1.0 / 2.0);
TEST(is_equal_atan(2, 1, hh), ());
TEST(is_equal_atan(-2, 1, math::pi - hh), ());
@@ -29,36 +28,36 @@ UNIT_TEST(Atan)
UNIT_TEST(Atan2)
{
TEST_ALMOST_EQUAL_ULPS(atan2(1, 0), pi/2.0, ());
TEST_ALMOST_EQUAL_ULPS(atan2(-1, 0), -pi/2.0, ());
TEST_ALMOST_EQUAL_ULPS(atan2(1, 0), pi / 2.0, ());
TEST_ALMOST_EQUAL_ULPS(atan2(-1, 0), -pi / 2.0, ());
TEST_ALMOST_EQUAL_ULPS(atan2(0, 1), 0.0, ());
TEST_ALMOST_EQUAL_ULPS(atan2(0, -1), pi, ());
TEST_ALMOST_EQUAL_ULPS(atan2(1, 1), pi/4.0, ());
TEST_ALMOST_EQUAL_ULPS(atan2(1, 1), pi / 4.0, ());
}
namespace
{
void check_avg(double arr[], size_t n, double v)
{
ang::AverageCalc calc;
for (size_t i = 0; i < n; ++i)
calc.Add(arr[i]);
void check_avg(double arr[], size_t n, double v)
{
ang::AverageCalc calc;
for (size_t i = 0; i < n; ++i)
calc.Add(arr[i]);
double const avg = calc.GetAverage();
TEST(is_equal_angle(avg, v), (avg, v));
}
double const avg = calc.GetAverage();
TEST(is_equal_angle(avg, v), (avg, v));
}
} // namespace
UNIT_TEST(Average)
{
double constexpr eps = 1.0E-3;
double arr1[] = { math::pi-eps, -math::pi+eps };
double arr1[] = {math::pi - eps, -math::pi + eps};
TEST(is_equal_angle(ang::GetMiddleAngle(arr1[0], arr1[1]), math::pi), ());
check_avg(arr1, ARRAY_SIZE(arr1), math::pi);
double arr2[] = { eps, -eps };
double arr2[] = {eps, -eps};
TEST(is_equal_angle(ang::GetMiddleAngle(arr2[0], arr2[1]), 0.0), ());
check_avg(arr2, ARRAY_SIZE(arr2), 0.0);
}
@@ -75,47 +74,36 @@ UNIT_TEST(ShortestDistance)
UNIT_TEST(TwoVectorsAngle)
{
double constexpr eps = 1e-10;
TEST(AlmostEqualAbs(ang::TwoVectorsAngle(m2::Point<double>(0, 0) /* p */,
m2::Point<double>(0, 1) /* p1 */,
m2::Point<double>(1, 0)) /* p2 */, 3 * math::pi2, eps), ());
TEST(AlmostEqualAbs(ang::TwoVectorsAngle(m2::Point<double>(1, 1) /* p */,
m2::Point<double>(2, 2) /* p1 */,
m2::Point<double>(1, 2)) /* p2 */, math::pi4, eps), ());
TEST(AlmostEqualAbs(ang::TwoVectorsAngle(m2::Point<double>(0, 0) /* p */,
m2::Point<double>(1, 0) /* p1 */,
m2::Point<double>(0, -1)) /* p2 */, 3 * math::pi2, eps), ());
TEST(AlmostEqualAbs(ang::TwoVectorsAngle(m2::Point<double>(0, 0) /* p */,
m2::Point<double>(1, 0) /* p1 */,
m2::Point<double>(-1, 0)) /* p2 */, math::pi, eps), ());
TEST(AlmostEqualAbs(ang::TwoVectorsAngle(m2::Point<double>(0, 0) /* p */, m2::Point<double>(0, 1) /* p1 */,
m2::Point<double>(1, 0)) /* p2 */,
3 * math::pi2, eps),
());
TEST(AlmostEqualAbs(ang::TwoVectorsAngle(m2::Point<double>(1, 1) /* p */, m2::Point<double>(2, 2) /* p1 */,
m2::Point<double>(1, 2)) /* p2 */,
math::pi4, eps),
());
TEST(AlmostEqualAbs(ang::TwoVectorsAngle(m2::Point<double>(0, 0) /* p */, m2::Point<double>(1, 0) /* p1 */,
m2::Point<double>(0, -1)) /* p2 */,
3 * math::pi2, eps),
());
TEST(AlmostEqualAbs(ang::TwoVectorsAngle(m2::Point<double>(0, 0) /* p */, m2::Point<double>(1, 0) /* p1 */,
m2::Point<double>(-1, 0)) /* p2 */,
math::pi, eps),
());
}
UNIT_TEST(Azimuth)
{
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(-1, 0),
m2::Point<double>(0, 1),
math::pi2), -math::pi4), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(-1, 0),
m2::Point<double>(0, 1),
0.0), math::pi4), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(-1, 1),
m2::Point<double>(1, -1),
0.0), 3 * math::pi4), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(1, 1),
m2::Point<double>(0, 1),
-math::pi2), 0.0), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(1, -1),
m2::Point<double>(-1, -1),
math::pi), math::pi2), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(0, 0),
m2::Point<double>(-1, -1),
math::pi4), math::pi), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(0.5, -0.5),
m2::Point<double>(-0.5, 0.5),
math::pi4), -math::pi2), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(0.1, 0.1),
m2::Point<double>(0.2, 0.2),
math::pi4), 0.0), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(0.7, 0.7),
m2::Point<double>(-0.2, -0.2),
math::pi2), 3 * math::pi4), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(-1, 0), m2::Point<double>(0, 1), math::pi2), -math::pi4), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(-1, 0), m2::Point<double>(0, 1), 0.0), math::pi4), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(-1, 1), m2::Point<double>(1, -1), 0.0), 3 * math::pi4), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(1, 1), m2::Point<double>(0, 1), -math::pi2), 0.0), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(1, -1), m2::Point<double>(-1, -1), math::pi), math::pi2), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(0, 0), m2::Point<double>(-1, -1), math::pi4), math::pi), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(0.5, -0.5), m2::Point<double>(-0.5, 0.5), math::pi4), -math::pi2),
());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(0.1, 0.1), m2::Point<double>(0.2, 0.2), math::pi4), 0.0), ());
TEST(is_equal_angle(ang::Azimuth(m2::Point<double>(0.7, 0.7), m2::Point<double>(-0.2, -0.2), math::pi2),
3 * math::pi4),
());
}