public void testContains()
{
assertTrue(candyCane.Contains(S2LatLng.FromDegrees(5, 71).ToPoint()));
for (var i = 0; i < 4; ++i)
{
assertTrue(northHemi.Contains(new S2Point(0, 0, 1)));
assertTrue(!northHemi.Contains(new S2Point(0, 0, -1)));
assertTrue(!southHemi.Contains(new S2Point(0, 0, 1)));
assertTrue(southHemi.Contains(new S2Point(0, 0, -1)));
assertTrue(!westHemi.Contains(new S2Point(0, 1, 0)));
assertTrue(westHemi.Contains(new S2Point(0, -1, 0)));
assertTrue(eastHemi.Contains(new S2Point(0, 1, 0)));
assertTrue(!eastHemi.Contains(new S2Point(0, -1, 0)));
northHemi = rotate(northHemi);
southHemi = rotate(southHemi);
eastHemi = rotate(eastHemi);
westHemi = rotate(westHemi);
}
// This code checks each cell vertex is contained by exactly one of
// the adjacent cells.
for (var level = 0; level < 3; ++level)
{
var loops = new List <S2Loop>();
var loopVertices = new List <S2Point>();
ISet <S2Point> points = new HashSet <S2Point>();
for (var id = S2CellId.Begin(level); !id.Equals(S2CellId.End(level)); id = id.Next)
{
var cell = new S2Cell(id);
points.Add(cell.Center);
for (var k = 0; k < 4; ++k)
{
loopVertices.Add(cell.GetVertex(k));
points.Add(cell.GetVertex(k));
}
loops.Add(new S2Loop(loopVertices));
loopVertices.Clear();
}
foreach (var point in points)
{
var count = 0;
for (var j = 0; j < loops.Count; ++j)
{
if (loops[j].Contains(point))
{
++count;
}
}
assertEquals(count, 1);
}
}
}
private void assertRelation(
S2Loop a, S2Loop b, int containsOrCrosses, bool intersects, bool nestable)
{
assertEquals(a.Contains(b), containsOrCrosses == 1);
assertEquals(a.Intersects(b), intersects);
if (nestable)
{
assertEquals(a.ContainsNested(b), a.Contains(b));
}
if (containsOrCrosses >= -1)
{
assertEquals(a.ContainsOrCrosses(b), containsOrCrosses);
}
}
private static void CompareS2LoopToShape(S2Loop loop, S2Shape shape)
{
MutableS2ShapeIndex index = new();
index.Add(shape);
S2Cap cap = loop.GetCapBound();
var query = index.MakeS2ContainsPointQuery();
for (int iter = 0; iter < 100; ++iter)
{
S2Point point = S2Testing.SamplePoint(cap);
Assert.Equal(loop.Contains(point),
query.ShapeContains(index.Shape(0), point));
}
}
private void dumpCrossings(S2Loop loop)
{
Console.WriteLine("Ortho(v1): " + S2.Ortho(loop.Vertex(1)));
Console.WriteLine("Contains(kOrigin): {0}\n", loop.Contains(S2.Origin));
for (var i = 1; i <= loop.NumVertices; ++i)
{
var a = S2.Ortho(loop.Vertex(i));
var b = loop.Vertex(i - 1);
var c = loop.Vertex(i + 1);
var o = loop.Vertex(i);
Console.WriteLine("Vertex {0}: [%.17g, %.17g, %.17g], "
+ "%d%dR=%d, %d%d%d=%d, R%d%d=%d, inside: %b\n",
i,
loop.Vertex(i).X,
loop.Vertex(i).Y,
loop.Vertex(i).Z,
i - 1,
i,
S2.RobustCcw(b, o, a),
i + 1,
i,
i - 1,
S2.RobustCcw(c, o, b),
i,
i + 1,
S2.RobustCcw(a, o, c),
S2.OrderedCcw(a, b, c, o));
}
for (var i = 0; i < loop.NumVertices + 2; ++i)
{
var orig = S2.Origin;
S2Point dest;
if (i < loop.NumVertices)
{
dest = loop.Vertex(i);
Console.WriteLine("Origin->{0} crosses:", i);
}
else
{
dest = new S2Point(0, 0, 1);
if (i == loop.NumVertices + 1)
{
orig = loop.Vertex(1);
}
Console.WriteLine("Case {0}:", i);
}
for (var j = 0; j < loop.NumVertices; ++j)
{
Console.WriteLine(
" " + S2EdgeUtil.EdgeOrVertexCrossing(orig, dest, loop.Vertex(j), loop.Vertex(j + 1)));
}
Console.WriteLine();
}
for (var i = 0; i <= 2; i += 2)
{
Console.WriteLine("Origin->v1 crossing v{0}->v1: ", i);
var a = S2.Ortho(loop.Vertex(1));
var b = loop.Vertex(i);
var c = S2.Origin;
var o = loop.Vertex(1);
Console.WriteLine("{0}1R={1}, M1{2}={3}, R1M={4}, crosses: {5}\n",
i,
S2.RobustCcw(b, o, a),
i,
S2.RobustCcw(c, o, b),
S2.RobustCcw(a, o, c),
S2EdgeUtil.EdgeOrVertexCrossing(c, o, b, a));
}
}
private void assertRelation(
S2Loop a, S2Loop b, int containsOrCrosses, bool intersects, bool nestable)
{
assertEquals(a.Contains(b), containsOrCrosses == 1);
assertEquals(a.Intersects(b), intersects);
if (nestable)
{
assertEquals(a.ContainsNested(b), a.Contains(b));
}
if (containsOrCrosses >= -1)
{
assertEquals(a.ContainsOrCrosses(b), containsOrCrosses);
}
}
private void dumpCrossings(S2Loop loop)
{
Console.WriteLine("Ortho(v1): " + S2.Ortho(loop.Vertex(1)));
Console.WriteLine("Contains(kOrigin): {0}\n", loop.Contains(S2.Origin));
for (var i = 1; i <= loop.NumVertices; ++i)
{
var a = S2.Ortho(loop.Vertex(i));
var b = loop.Vertex(i - 1);
var c = loop.Vertex(i + 1);
var o = loop.Vertex(i);
Console.WriteLine("Vertex {0}: [%.17g, %.17g, %.17g], "
+ "%d%dR=%d, %d%d%d=%d, R%d%d=%d, inside: %b\n",
i,
loop.Vertex(i).X,
loop.Vertex(i).Y,
loop.Vertex(i).Z,
i - 1,
i,
S2.RobustCcw(b, o, a),
i + 1,
i,
i - 1,
S2.RobustCcw(c, o, b),
i,
i + 1,
S2.RobustCcw(a, o, c),
S2.OrderedCcw(a, b, c, o));
}
for (var i = 0; i < loop.NumVertices + 2; ++i)
{
var orig = S2.Origin;
S2Point dest;
if (i < loop.NumVertices)
{
dest = loop.Vertex(i);
Console.WriteLine("Origin->{0} crosses:", i);
}
else
{
dest = new S2Point(0, 0, 1);
if (i == loop.NumVertices + 1)
{
orig = loop.Vertex(1);
}
Console.WriteLine("Case {0}:", i);
}
for (var j = 0; j < loop.NumVertices; ++j)
{
Console.WriteLine(
" " + S2EdgeUtil.EdgeOrVertexCrossing(orig, dest, loop.Vertex(j), loop.Vertex(j + 1)));
}
Console.WriteLine();
}
for (var i = 0; i <= 2; i += 2)
{
Console.WriteLine("Origin->v1 crossing v{0}->v1: ", i);
var a = S2.Ortho(loop.Vertex(1));
var b = loop.Vertex(i);
var c = S2.Origin;
var o = loop.Vertex(1);
Console.WriteLine("{0}1R={1}, M1{2}={3}, R1M={4}, crosses: {5}\n",
i,
S2.RobustCcw(b, o, a),
i,
S2.RobustCcw(c, o, b),
S2.RobustCcw(a, o, c),
S2EdgeUtil.EdgeOrVertexCrossing(c, o, b, a));
}
}
