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#include "../../testing/testing.hpp"
#include "test_polylines.hpp"
#include "../cell_id.hpp"
#include "../../base/logging.hpp"
#include "../../std/cmath.hpp"
#include "../../std/utility.hpp"
namespace
{
double const g_eps = MercatorBounds::GetCellID2PointAbsEpsilon();
uint32_t const g_coordBits = POINT_COORD_BITS;
void CheckEqualPoints(CoordPointT const & p1, CoordPointT const & p2)
{
TEST(fabs(p1.first - p2.first) < g_eps &&
fabs(p1.second - p2.second) < g_eps,
(p1, p2));
TEST_GREATER_OR_EQUAL(p1.first, -180.0, ());
TEST_GREATER_OR_EQUAL(p1.second, -180.0, ());
TEST_LESS_OR_EQUAL(p1.first, 180.0, ());
TEST_LESS_OR_EQUAL(p1.second, 180.0, ());
TEST_GREATER_OR_EQUAL(p2.first, -180.0, ());
TEST_GREATER_OR_EQUAL(p2.second, -180.0, ());
TEST_LESS_OR_EQUAL(p2.first, 180.0, ());
TEST_LESS_OR_EQUAL(p2.second, 180.0, ());
}
struct pod_point_t
{
double x, y;
};
}
UNIT_TEST(PointToInt64_Smoke)
{
pod_point_t arr[] = { {1.25, 1.3}, {180, 90}, {-180, -90}, {0, 0} };
for (size_t i = 0; i < ARRAY_SIZE(arr); ++i)
{
CoordPointT p(arr[i].x, arr[i].y);
CheckEqualPoints(p, Int64ToPoint(PointToInt64(p, g_coordBits), g_coordBits));
}
}
UNIT_TEST(PointToInt64_Grid)
{
int const delta = 5;
for (int ix = -180; ix <= 180; ix += delta)
for (int iy = -180; iy <= 180; iy += delta)
{
CoordPointT const pt(ix, iy);
int64_t const id = PointToInt64(pt, g_coordBits);
CoordPointT const pt1 = Int64ToPoint(id, g_coordBits);
CheckEqualPoints(pt, pt1);
int64_t const id1 = PointToInt64(pt1, g_coordBits);
TEST_EQUAL(id, id1, (pt, pt1));
}
}
UNIT_TEST(PointToInt64_Bounds)
{
double arrEps[] = { -1.0E-2, -1.0E-3, -1.0E-4, 0, 1.0E-4, 1.0E-3, 1.0E-2 };
pod_point_t arrPt[] = { {0, 0},
{-180, -180}, {-180, 180}, {180, 180}, {180, -180},
{-90, -90}, {-90, 90}, {90, 90}, {90, -90}
};
for (size_t iP = 0; iP < ARRAY_SIZE(arrPt); ++iP)
for (size_t iX = 0; iX < ARRAY_SIZE(arrEps); ++iX)
for (size_t iY = 0; iY < ARRAY_SIZE(arrEps); ++iY)
{
CoordPointT const pt(arrPt[iP].x + arrEps[iX], arrPt[iP].y + arrEps[iY]);
CoordPointT const pt1 = Int64ToPoint(PointToInt64(pt, g_coordBits), g_coordBits);
TEST(fabs(pt.first - pt1.first) <= (fabs(arrEps[iX]) + g_eps) &&
fabs(pt.second - pt1.second) <= (fabs(arrEps[iY]) + g_eps), (pt, pt1));
}
}
UNIT_TEST(PointToInt64_DataSet1)
{
for (size_t i = 0; i < ARRAY_SIZE(index_test::arr1); ++i)
{
CoordPointT const pt(index_test::arr1[i].x, index_test::arr1[i].y);
int64_t const id = PointToInt64(pt, g_coordBits);
CoordPointT const pt1 = Int64ToPoint(id, g_coordBits);
CheckEqualPoints(pt, pt1);
int64_t const id1 = PointToInt64(pt1, g_coordBits);
TEST_EQUAL(id, id1, (pt, pt1));
}
}
UNIT_TEST(PointD2PointU_Epsilons)
{
pod_point_t arrPt[] = { {-180, -180}, {-180, 180}, {180, 180}, {180, -180} };
pod_point_t arrD[] = { {1, 1}, {1, -1}, {-1, -1}, {-1, 1} };
size_t const count = ARRAY_SIZE(arrPt);
/*
double eps = 1.0;
for (; true; eps = eps / 10.0)
{
size_t i = 0;
for (; i < count; ++i)
{
m2::PointU p = PointD2PointU(arrPt[i].x, arrPt[i].y, g_coordBits);
m2::PointU p1 = PointD2PointU(arrPt[i].x + arrD[i].x * eps,
arrPt[i].y + arrD[i].y * eps,
g_coordBits);
if (p != p1) break;
}
if (i == count) break;
}
LOG(LINFO, ("Epsilon = ", eps));
*/
for (size_t i = 0; i < count; ++i)
{
m2::PointU const p1 = PointD2PointU(arrPt[i].x, arrPt[i].y, g_coordBits);
m2::PointU const p2(p1.x + arrD[i].x, p1.y + arrD[i].y);
CoordPointT const p3 = PointU2PointD(p2, g_coordBits);
LOG(LINFO, ("Dx = ", p3.first - arrPt[i].x, "Dy = ", p3.second - arrPt[i].y));
}
}
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