public void CanCreateUnionWithPointsAndPolylinesFastEnough()
{
var overall = new MemoryUsageInfo();
for (int i = 0; i < 5; i++)
{
CanCreateUnionWithPointsAndPolylinesFastEnoughCore();
GC.Collect();
}
overall.Refresh();
Console.WriteLine(@"overall: {0}", overall);
}
public new void ToString()
{
MemoryUsageInfo usage = new MemoryUsageInfo("X", new ByteValue(123), new ByteValue(345), new ByteValue(789));
Assert.That(
usage.ToString(),
Is.EqualTo(
string.Format(
"X:{0}\tWorking set: {1}{0}\tManaged memory before collect: {2}{0}\tAfter collect: {3}",
Environment.NewLine,
new ByteValue(123),
new ByteValue(345),
new ByteValue(789)
)));
}
public void LearningTestSimpleSetWithoutBoxing()
{
var memoryUsageInfo = new MemoryUsageInfo();
memoryUsageInfo.Refresh();
TestContainsWithoutBoxing(1000000);
memoryUsageInfo.Refresh();
Console.WriteLine(@"Memory usage: {0}", memoryUsageInfo);
GC.Collect();
GC.WaitForPendingFinalizers();
memoryUsageInfo.Refresh();
Console.WriteLine(@"Memory usage after GC: {0}", memoryUsageInfo);
}
public void ToDifferenceString()
{
MemoryUsageInfo comparison = new MemoryUsageInfo("Y", new ByteValue(999), new ByteValue(999), new ByteValue(999));
MemoryUsageInfo usage = new MemoryUsageInfo("X", new ByteValue(123), new ByteValue(345), new ByteValue(789));
Assert.That(
usage.ToDifferenceString(comparison),
Is.EqualTo(
string.Format(
"Compared to Y:{0}\tWorking set: {1}{0}\tManaged memory before collect: {2}{0}\tAfter collect: {3}",
Environment.NewLine,
(new ByteValue(123) - new ByteValue(999)).ToDifferenceString(),
(new ByteValue(345) - new ByteValue(999)).ToDifferenceString(),
(new ByteValue(789) - new ByteValue(999)).ToDifferenceString()
)));
}
public void LearningTestSimpleSetWithBoxing()
{
var memoryUsageInfo = new MemoryUsageInfo();
memoryUsageInfo.Refresh();
TestContainsWithBoxing(1000000);
memoryUsageInfo.Refresh();
Console.WriteLine(@"Memory usage: {0}", memoryUsageInfo);
GC.Collect();
GC.WaitForPendingFinalizers();
memoryUsageInfo.Refresh();
Console.WriteLine(@"Memory usage after GC: {0}", memoryUsageInfo);
// for 10'000'000 keys:
// --> boxing makes the contains test about 2x slower (773ms instead of 334ms),
// and it uses much more memory (380 mb instead of 20 mb)
}
private static void GetFeaturesInLoop(
int count,
[NotNull] Func <IFeatureClass, int, IFeature> getFeatureMethod)
{
IFeatureWorkspace featureWorkspace =
(IFeatureWorkspace)TestUtils.OpenSDEWorkspaceOracle();
IFeatureClass featureClass =
featureWorkspace.OpenFeatureClass("TOPGIS_TLM.TLM_DTM_MASSENPUNKTE");
IList <int> oids = GetFeatureIDs(featureClass, count);
var watch = new Stopwatch();
var memoryUsage = new MemoryUsageInfo();
memoryUsage.Refresh();
watch.Start();
IGdbTransaction gdbTransaction = new GdbTransaction();
gdbTransaction.Execute(
(IWorkspace)featureWorkspace,
delegate
{
foreach (int oid in oids)
{
IFeature feature = getFeatureMethod(featureClass, oid);
ComUtils.ReleaseComObject(feature);
}
memoryUsage.Refresh();
watch.Stop();
Console.WriteLine("Features read: {0}", oids.Count);
Console.WriteLine("Memory usage: {0}", memoryUsage);
Console.WriteLine("Elapsed: {0:N0} ms", watch.ElapsedMilliseconds);
}, "test");
}
private static ISpatialSearcher <int> CreateSpatialHash(Linestring linestring)
{
MemoryUsageInfo memUsageHash = new MemoryUsageInfo();
var watch = Stopwatch.StartNew();
var gridSize =
SpatialHashSearcher <int> .EstimateOptimalGridSize(new[] { linestring });
watch.Stop();
Console.WriteLine(
$"Linestring ({linestring.PointCount}) - Spatial hash: calculated grid size: {watch.ElapsedMilliseconds}ms. PB: {memUsageHash.Refresh().PrivateBytesDelta:N0}");
watch = Stopwatch.StartNew();
var result =
SpatialHashSearcher <int> .CreateSpatialSearcher(linestring, gridSize);
watch.Stop();
Console.WriteLine(
$"Linestring ({linestring.PointCount}) - Spatial hash created: {watch.ElapsedMilliseconds}ms. PB: {memUsageHash.Refresh().PrivateBytesDelta:N0}");
return(result);
}
private static void CanCreateUnionWithPointsAndPolylinesFastEnoughCore()
{
var input = new List <IGeometry>();
for (int i = 0; i < 100; i++)
{
input.Add(GeometryFactory.CreatePoint(100 * i, 100 * i));
}
double xmin = 0;
for (int i = 0; i < 1000; i++)
{
xmin = xmin + 100;
double xmax = xmin + 100;
input.Add(GeometryFactory.CreatePolyline(xmin, 100, xmax, 100));
}
var watch = new Stopwatch();
watch.Start();
var memoryInfo = new MemoryUsageInfo();
const double expansionDistance = 10;
IGeometry union = GeometryFactory.CreateUnion(input, expansionDistance);
GC.Collect();
watch.Stop();
memoryInfo.Refresh();
Console.WriteLine(memoryInfo);
Console.WriteLine(@"{0:N2} ms", watch.ElapsedMilliseconds);
Assert.AreEqual(esriGeometryType.esriGeometryPolyline, union.GeometryType);
}
internal static IKeySet ReadKeySet([NotNull] ITable table,
[NotNull] string keyField,
[CanBeNull] string whereClause,
esriFieldType keyFieldType,
int keyFieldIndex)
{
Assert.ArgumentNotNull(table, nameof(table));
Assert.ArgumentNotNullOrEmpty(keyField, nameof(keyField));
Stopwatch watch = null;
MemoryUsageInfo memoryUsage = null;
if (_msg.IsVerboseDebugEnabled)
{
watch = _msg.DebugStartTiming();
memoryUsage = new MemoryUsageInfo();
memoryUsage.Refresh();
}
IKeySet result = CreateKeySet(keyFieldType);
var queryFilter = new QueryFilterClass
{
SubFields = keyField,
WhereClause = whereClause
};
string tableName = DatasetUtils.GetName(table);
const bool recycle = true;
foreach (IRow row in GdbQueryUtils.GetRows(table, queryFilter, recycle))
{
object key = row.Value[keyFieldIndex];
if (key == DBNull.Value || key == null)
{
continue;
}
// TODO handle errors (e.g. invalid guid strings)
bool added = result.Add(key);
if (!added)
{
_msg.VerboseDebugFormat(
"Ignored duplicate key found in field '{0}' in table '{1}': {2}",
keyField, tableName, key);
}
}
if (watch != null)
{
_msg.DebugStopTiming(watch,
"Reading {0:N0} {1} keys from field '{2}' in table '{3}'",
result.Count, keyFieldType, keyField,
DatasetUtils.GetName(table));
_msg.DebugFormat("Memory usage of keys: {0}", memoryUsage);
}
return(result);
}
internal static ITupleKeySet ReadTupleKeySet(
[NotNull] ITable table,
[NotNull] ICollection <string> keyFields,
[CanBeNull] string whereClause,
[NotNull] IList <esriFieldType> keyFieldTypes,
[NotNull] IList <int> keyFieldIndices)
{
Assert.ArgumentNotNull(table, nameof(table));
Assert.ArgumentNotNull(keyFields, nameof(keyFields));
Assert.ArgumentNotNull(keyFieldTypes, nameof(keyFieldTypes));
Assert.ArgumentNotNull(keyFieldIndices, nameof(keyFieldIndices));
Stopwatch watch = null;
MemoryUsageInfo memoryUsage = null;
if (_msg.IsVerboseDebugEnabled)
{
watch = _msg.DebugStartTiming();
memoryUsage = new MemoryUsageInfo();
memoryUsage.Refresh();
}
var fieldIndices = new List <int>();
foreach (string keyField in keyFields)
{
int fieldIndex = table.FindField(keyField);
Assert.True(fieldIndex >= 0, "field '{0}' not found in table {1}",
keyField, DatasetUtils.GetName(table));
fieldIndices.Add(fieldIndex);
}
ITupleKeySet result = new TupleKeySet();
IQueryFilter queryFilter = GetQueryFilter(keyFields, whereClause);
string keyFieldsString = StringUtils.Concatenate(keyFields, ",");
string tableName = DatasetUtils.GetName(table);
const bool recycle = true;
foreach (IRow row in GdbQueryUtils.GetRows(table, queryFilter, recycle))
{
Tuple tuple = ReadTuple(row, fieldIndices);
bool added = result.Add(tuple);
if (!added)
{
_msg.DebugFormat(
"Ignored duplicate value combination found in fields '{0}' in table '{1}': {2}",
keyFieldsString, tableName, tuple);
}
}
if (watch != null)
{
_msg.DebugStopTiming(watch,
"Reading {0:N0} keys from fields '{1}' in table '{2}'",
result.Count, queryFilter.SubFields,
DatasetUtils.GetName(table));
_msg.DebugFormat("Memory usage of keys: {0}", memoryUsage);
}
return(result);
}
public void ToCSVString()
{
MemoryUsageInfo usage = new MemoryUsageInfo("X", new ByteValue(123), new ByteValue(345), new ByteValue(789000000));
Assert.That(usage.ToCSVString(), Is.EqualTo("123;345;789000000"));
}
public void CompareSpatialIndexPerformance()
{
const int pointCount = 100000;
Linestring linestring1 =
new Linestring(CreateRandomPoints(pointCount, 2600000, 1200000, 400));
Linestring linestring2 =
new Linestring(CreateRandomPoints(pointCount, 2600000, 1200000, 400));
Stopwatch watch;
int foundCountBoxtree;
int foundSpatialHash;
int envelopeIntersections;
double tolerance = 0.01;
MemoryUsageInfo memUsageBox = new MemoryUsageInfo();
watch = Stopwatch.StartNew();
linestring2.SpatialIndex =
BoxTreeSearcher <int> .CreateSpatialSearcher(linestring2);
watch.Stop();
Console.WriteLine(
$"Linestring ({pointCount}) - Box tree created: {watch.ElapsedMilliseconds}ms. PB: {memUsageBox.Refresh().PrivateBytesDelta:N0}");
watch = Stopwatch.StartNew();
foundCountBoxtree = 0;
envelopeIntersections = 0;
foreach (Line3D line3D in linestring1)
{
int foundInEnv = linestring2.FindSegments(
line3D.XMin, line3D.YMin, line3D.XMax,
line3D.YMax, tolerance).Count();
if (foundInEnv > 0)
{
envelopeIntersections++;
}
foundCountBoxtree += foundInEnv;
}
watch.Stop();
Console.WriteLine(
$"Linestring ({pointCount}) - Box tree ({foundCountBoxtree} segments found): {watch.ElapsedMilliseconds}ms");
MemoryUsageInfo memUsageHash = new MemoryUsageInfo();
watch = Stopwatch.StartNew();
linestring2.SpatialIndex = CreateSpatialHash(linestring2);
watch.Stop();
Console.WriteLine(
$"Linestring ({pointCount}) - spatial hash created: {watch.ElapsedMilliseconds}ms. PB: {memUsageHash.Refresh().PrivateBytesDelta:N0}");
watch = Stopwatch.StartNew();
foundSpatialHash = 0;
envelopeIntersections = 0;
foreach (Line3D line3D in linestring1)
{
int foundInEnv = linestring2.FindSegments(
line3D.XMin, line3D.YMin, line3D.XMax,
line3D.YMax, tolerance).Count();
if (foundInEnv > 0)
{
envelopeIntersections++;
}
foundSpatialHash += foundInEnv;
}
watch.Stop();
Console.WriteLine(
$"Linestring ({pointCount}) - Spatial hash ({foundSpatialHash} segments found): {watch.ElapsedMilliseconds}ms");
Assert.AreEqual(foundCountBoxtree, foundSpatialHash);
MultiPolycurve poly2 = new MultiPolycurve(new List <Linestring> {
linestring2
});
memUsageHash.Refresh();
watch = Stopwatch.StartNew();
poly2.SpatialIndex =
SpatialHashSearcher <SegmentIndex> .CreateSpatialSearcher(poly2);
watch.Stop();
Console.WriteLine(
$"Linestring ({pointCount}) - spatial hash (using multi-part index) created: {watch.ElapsedMilliseconds}ms. PB: {memUsageHash.Refresh().PrivateBytesDelta:N0}");
watch = Stopwatch.StartNew();
foundSpatialHash = 0;
envelopeIntersections = 0;
foreach (Line3D line3D in linestring1)
{
int foundInEnv = poly2.FindSegments(
line3D.XMin, line3D.YMin, line3D.XMax,
line3D.YMax, tolerance).Count();
if (foundInEnv > 0)
{
envelopeIntersections++;
}
foundSpatialHash += foundInEnv;
}
watch.Stop();
Console.WriteLine(
$"Linestring ({pointCount}) - Spatial hash on poly ({foundSpatialHash} segments found): {watch.ElapsedMilliseconds}ms");
Assert.AreEqual(foundCountBoxtree, foundSpatialHash);
}
