public void IntervalTree_1D_Smoke_Test()
{
var intTree = new DIntervalTree <int>(1);
intTree.Insert(new int[] { 1 }, new int[] { 2 });
intTree.Insert(new int[] { 3 }, new int[] { 4 });
intTree.Insert(new int[] { 5 }, new int[] { 6 });
intTree.Insert(new int[] { 7 }, new int[] { 8 });
intTree.Insert(new int[] { 9 }, new int[] { 10 });
intTree.Insert(new int[] { 11 }, new int[] { 12 });
Assert.AreEqual(intTree.Count, 6);
Assert.IsTrue(intTree.DoOverlap(new int[] { 1 }, new int[] { 10 }));
intTree.Delete(new int[] { 1 }, new int[] { 2 });
Assert.IsFalse(intTree.DoOverlap(new int[] { 1 }, new int[] { 2 }));
intTree.Delete(new int[] { 3 }, new int[] { 4 });
intTree.Delete(new int[] { 5 }, new int[] { 6 });
intTree.Delete(new int[] { 7 }, new int[] { 8 });
intTree.Delete(new int[] { 9 }, new int[] { 10 });
Assert.IsTrue(intTree.DoOverlap(new int[] { 11 }, new int[] { 12 }));
intTree.Delete(new int[] { 11 }, new int[] { 12 });
Assert.IsFalse(intTree.DoOverlap(new int[] { 11 }, new int[] { 12 }));
Assert.AreEqual(intTree.Count, 0);
}
public void IntervalTree_1D_Stress_Test()
{
var nodeCount = 1000;
var intTree = new DIntervalTree <int>(1);
var rnd = new Random();
var intervals = new List <DInterval <int> >();
for (int i = 0; i < nodeCount; i++)
{
var start = i - 1000 + rnd.Next(1, 10);
var interval = new DInterval <int>(new int[] { start }, new int[] { start + rnd.Next(1, 10) });
intervals.Add(interval);
intTree.Insert(interval.Start, interval.End);
}
for (int i = 0; i < nodeCount; i++)
{
Assert.IsTrue(intTree.DoOverlap(intervals[i].Start,
intervals[i].End));
}
for (int i = 0; i < intervals.Count; i++)
{
intTree.Delete(intervals[i].Start, intervals[i].End);
}
}
public void IntervalTree_1D_Accuracy_Test()
{
var nodeCount = 100;
var intTree = new DIntervalTree <int>(1);
var rnd = new Random();
var intervals = new List <DInterval <int> >();
for (int i = 0; i < nodeCount; i++)
{
var start = i - 1000 + rnd.Next(1, 10);
var interval = new DInterval <int>(new int[] { start }, new int[] { start + rnd.Next(1, 10) });
intervals.Add(interval);
intTree.Insert(interval.Start, interval.End);
for (int j = i; j >= 0; j--)
{
Assert.IsTrue(intTree.DoOverlap(intervals[j].Start,
intervals[j].End));
var testStart = cloneArray(intervals[j].Start);
var testEnd = cloneArray(intervals[j].End);
testStart[0] = testStart[0] - rnd.Next(1, 5);
testEnd[0] = testEnd[0] + rnd.Next(1, 5);
Assert.IsTrue(intTree.DoOverlap(testStart,
testEnd));
}
}
for (int i = 0; i < nodeCount; i++)
{
Assert.IsTrue(intTree.DoOverlap(intervals[i].Start,
intervals[i].End));
var testStart = cloneArray(intervals[i].Start);
var testEnd = cloneArray(intervals[i].End);
testStart[0] = testStart[0] - rnd.Next(1, 5);
testEnd[0] = testEnd[0] + rnd.Next(1, 5);
Assert.IsTrue(intTree.DoOverlap(testStart,
testEnd));
}
for (int i = 0; i < intervals.Count; i++)
{
intTree.Delete(intervals[i].Start, intervals[i].End);
for (int j = i + 1; j < nodeCount; j++)
{
Assert.IsTrue(intTree.DoOverlap(intervals[j].Start,
intervals[j].End));
}
}
}
public void IntervalTree_2D_Stress_Test()
{
var nodeCount = 1000;
const int dimension = 2;
var intTree = new DIntervalTree <int>(dimension);
var rnd = new Random();
var intervals = new List <DInterval <int> >();
for (int i = 0; i < nodeCount; i++)
{
var startx = i - 1000 + rnd.Next(1, 10);
var starty = i + 15 + rnd.Next(1, 10);
//(x1,y1) and (x2, y2)
var interval = new DInterval <int>(new int[dimension] {
startx, starty
},
new int[dimension] {
startx + rnd.Next(1, 10), starty + rnd.Next(1, 10)
});
intervals.Add(interval);
intTree.Insert(interval.Start, interval.End);
}
for (int i = 0; i < nodeCount; i++)
{
Assert.IsTrue(intTree.DoOverlap(intervals[i].Start,
intervals[i].End));
}
for (int i = 0; i < intervals.Count; i++)
{
intTree.Delete(intervals[i].Start, intervals[i].End);
}
}
public void IntervalTree_2D_Accuracy_Test()
{
var nodeCount = 100;
const int dimension = 2;
var intTree = new DIntervalTree <int>(dimension);
var rnd = new Random();
var intervals = new List <DInterval <int> >();
for (int i = 0; i < nodeCount; i++)
{
var startx = i - 1000 + rnd.Next(1, 10);
var starty = i + 15 + rnd.Next(1, 10);
//(x1,y1) and (x2, y2)
var interval = new DInterval <int>(new int[dimension] {
startx, starty
},
new int[dimension] {
startx + rnd.Next(1, 10), starty + rnd.Next(1, 10)
});
intervals.Add(interval);
intTree.Insert(interval.Start, interval.End);
for (int j = i; j >= 0; j--)
{
var testStart = cloneArray(intervals[j].Start);
var testEnd = cloneArray(intervals[j].End);
testStart[0] = testStart[0] - rnd.Next(1, 5);
testStart[1] = testStart[1] - rnd.Next(1, 5);
testEnd[0] = testEnd[0] + rnd.Next(1, 5);
testEnd[1] = testEnd[1] + rnd.Next(1, 5);
Assert.IsTrue(intTree.DoOverlap(testStart,
testEnd));
}
}
for (int i = 0; i < nodeCount; i++)
{
Assert.IsTrue(intTree.DoOverlap(intervals[i].Start,
intervals[i].End));
var testStart = cloneArray(intervals[i].Start);
var testEnd = cloneArray(intervals[i].End);
testStart[0] = testStart[0] - rnd.Next(1, 5);
testStart[1] = testStart[1] - rnd.Next(1, 5);
testEnd[0] = testEnd[0] + rnd.Next(1, 5);
testEnd[1] = testEnd[1] + rnd.Next(1, 5);
Assert.IsTrue(intTree.DoOverlap(testStart,
testEnd));
}
for (int i = 0; i < intervals.Count; i++)
{
intTree.Delete(intervals[i].Start, intervals[i].End);
for (int j = i + 1; j < nodeCount; j++)
{
var testStart = cloneArray(intervals[j].Start);
var testEnd = cloneArray(intervals[j].End);
Assert.IsTrue(intTree.DoOverlap(testStart,
testEnd));
}
}
}
