public void SortedArrayKeyList_without_duplicates()
{
var a = new CKSortedArrayKeyList <int, string>(i => i.ToString());
a.AddRangeArray(3, 2, 1);
bool exists;
a.GetByKey("1", out exists).Should().Be(1); exists.Should().BeTrue();
a.GetByKey("10", out exists).Should().Be(0); exists.Should().BeFalse();
a.GetByKey("2", out exists).Should().Be(2); exists.Should().BeTrue();
a.Contains("2").Should().BeTrue();
a.Contains("1").Should().BeTrue();
a.Contains("21").Should().BeFalse();
object o;
o = "2";
a.Contains(o).Should().BeTrue("Using the key.");
o = 2;
a.Contains(o).Should().BeTrue("Using the value itself.");
o = null;
a.Contains(o).Should().BeFalse();
o = 42;
a.Contains(o).Should().BeFalse();
o = "42";
a.Contains(o).Should().BeFalse();
a.Add(3).Should().BeFalse();
a.Add(2).Should().BeFalse();
a.Add(1).Should().BeFalse();
CheckList(a.GetAllByKey("2"), 2);
}
public void SortedArrayKeyList_without_duplicates()
{
var a = new CKSortedArrayKeyList <int, string>(i => i.ToString());
a.AddRangeArray(3, 2, 1);
bool exists;
Assert.That(a.GetByKey("1", out exists) == 1 && exists);
Assert.That(a.GetByKey("10", out exists) == 0 && !exists);
Assert.That(a.GetByKey("2", out exists) == 2 && exists);
Assert.That(a.Contains("2"));
Assert.That(a.Contains("1"));
Assert.That(!a.Contains("21"));
object o;
o = "2";
Assert.That(a.Contains(o), "Using the key.");
o = 2;
Assert.That(a.Contains(o), "Using the value itself.");
o = null;
Assert.That(a.Contains(o), Is.False);
o = 42;
Assert.That(a.Contains(o), Is.False);
o = "42";
Assert.That(a.Contains(o), Is.False);
Assert.That(!a.Add(3));
Assert.That(!a.Add(2));
Assert.That(!a.Add(1));
CheckList(a.GetAllByKey("2"), 2);
}
public void SortedArrayKeyList_can_allow_duplicates()
{
var a = new CKSortedArrayKeyList<int, string>( i => i.ToString() );
a.AddRangeArray( 1, 10, 100, 100, 1000, 10000, 2, 20, 3, 30, 100, 46, 56 );
CheckList( a, 1, 10, 100, 1000, 10000, 2, 20, 3, 30, 46, 56 );
Assert.That( a.IndexOf( 1 ), Is.EqualTo( 0 ) );
Assert.That( a.IndexOf( 2 ), Is.EqualTo( 5 ) );
Assert.That( a.IndexOf( 3 ), Is.EqualTo( 7 ) );
Assert.That( a.KeyCount( "100" ), Is.EqualTo( 1 ) );
object o;
o = "2";
Assert.That( a.IndexOf( o ), Is.EqualTo( 5 ) );
o = 2;
Assert.That( a.IndexOf( o ), Is.EqualTo( 5 ) );
o = null;
Assert.That( a.IndexOf( o ), Is.EqualTo( Int32.MinValue ) );
o = new ClassToTest( "A" );
Assert.That( a.IndexOf( o ), Is.EqualTo( Int32.MinValue ) );
o = "42";
Assert.That( a.Contains( o ), Is.False );
a.Remove( "10" );
Assert.That( a.KeyCount( "10" ), Is.EqualTo( 0 ) );
CheckList( a, 1, 100, 1000, 10000, 2, 20, 3, 30, 46, 56 );
a.Remove( "20" );
CheckList( a, 1, 100, 1000, 10000, 2, 3, 30, 46, 56 );
a.Remove( "100" );
Assert.That( a.KeyCount( "100" ), Is.EqualTo( 0 ) );
CheckList( a, 1, 1000, 10000, 2, 3, 30, 46, 56 );
Assert.That( a.Remove( "Nothing" ), Is.False );
}
public void SortedArrayKeyList_does_not_accept_null_entries()
{
var b = new CKSortedArrayKeyList <ClassToTest, string>(i => i.ToString(), false);
ClassToTest classToTest = new ClassToTest("A");
b.Add(classToTest);
b.Add(new ClassToTest("B"));
Assert.That(b.Contains(classToTest), Is.True);
Assert.That(b.IndexOf(classToTest), Is.EqualTo(0));
Assert.Throws <ArgumentNullException>(() => b.IndexOf((ClassToTest)null));
}
public void SortedArrayKeyList_does_not_accept_null_entries()
{
var b = new CKSortedArrayKeyList <ClassToTest, string>(i => i.ToString(), false);
ClassToTest classToTest = new ClassToTest("A");
b.Add(classToTest);
b.Add(new ClassToTest("B"));
b.Contains(classToTest).Should().BeTrue();
b.IndexOf(classToTest).Should().Be(0);
b.Invoking(sut => sut.IndexOf((ClassToTest)null)).Should().Throw <ArgumentNullException>();
}
public void SortedArrayKeyList_can_allow_duplicates()
{
var a = new CKSortedArrayKeyList <int, string>(i => i.ToString());
a.AddRangeArray(1, 10, 100, 100, 1000, 10000, 2, 20, 3, 30, 100, 46, 56);
CheckList(a, 1, 10, 100, 1000, 10000, 2, 20, 3, 30, 46, 56);
Assert.That(a.IndexOf(1), Is.EqualTo(0));
Assert.That(a.IndexOf(2), Is.EqualTo(5));
Assert.That(a.IndexOf(3), Is.EqualTo(7));
Assert.That(a.KeyCount("100"), Is.EqualTo(1));
object o;
o = "2";
Assert.That(a.IndexOf(o), Is.EqualTo(5));
o = 2;
Assert.That(a.IndexOf(o), Is.EqualTo(5));
o = null;
Assert.That(a.IndexOf(o), Is.EqualTo(Int32.MinValue));
o = new ClassToTest("A");
Assert.That(a.IndexOf(o), Is.EqualTo(Int32.MinValue));
o = "42";
Assert.That(a.Contains(o), Is.False);
a.Remove("10");
Assert.That(a.KeyCount("10"), Is.EqualTo(0));
CheckList(a, 1, 100, 1000, 10000, 2, 20, 3, 30, 46, 56);
a.Remove("20");
CheckList(a, 1, 100, 1000, 10000, 2, 3, 30, 46, 56);
a.Remove("100");
Assert.That(a.KeyCount("100"), Is.EqualTo(0));
CheckList(a, 1, 1000, 10000, 2, 3, 30, 46, 56);
Assert.That(a.Remove("Nothing"), Is.False);
}
public void SortedArrayKeyList_can_allow_duplicates()
{
var a = new CKSortedArrayKeyList <int, string>(i => i.ToString());
a.AddRangeArray(1, 10, 100, 100, 1000, 10000, 2, 20, 3, 30, 100, 46, 56);
CheckList(a, 1, 10, 100, 1000, 10000, 2, 20, 3, 30, 46, 56);
a.IndexOf(1).Should().Be(0);
a.IndexOf(2).Should().Be(5);
a.IndexOf(3).Should().Be(7);
a.KeyCount("100").Should().Be(1);
object o;
o = "2";
a.IndexOf(o).Should().Be(5);
o = 2;
a.IndexOf(o).Should().Be(5);
o = null;
a.IndexOf(o).Should().Be(Int32.MinValue);
o = new ClassToTest("A");
a.IndexOf(o).Should().Be(Int32.MinValue);
o = "42";
a.Contains(o).Should().BeFalse();
a.Remove("10");
a.KeyCount("10").Should().Be(0);
CheckList(a, 1, 100, 1000, 10000, 2, 20, 3, 30, 46, 56);
a.Remove("20");
CheckList(a, 1, 100, 1000, 10000, 2, 3, 30, 46, 56);
a.Remove("100");
a.KeyCount("100").Should().Be(0);
CheckList(a, 1, 1000, 10000, 2, 3, 30, 46, 56);
a.Remove("Nothing").Should().BeFalse();
}
private static void ReadPlugin(XmlReader r, DiscoveredInfo d,
CKSortedArrayKeyList <ServiceInfo, string> loadedServices,
CKSortedArrayKeyList <PluginInfo, string> loadedPlugins,
List <PendingPluginService> pendingPluginServices,
List <PendingServiceReference> pendingServiceReferences
)
{
r.Read();
string pluginFullName = String.Empty;
string serviceFullName = null;
List <Tuple <string, DependencyRequirement> > references = new List <Tuple <string, DependencyRequirement> >();
while (r.Read())
{
if (r.IsStartElement() && !r.IsEmptyElement)
{
switch (r.Name)
{
case "FullName":
if (r.Read())
{
pluginFullName = r.Value;
}
break;
case "Service":
if (r.Read())
{
serviceFullName = r.Value;
}
break;
case "ServiceReferences":
while (r.Read())
{
if (r.IsStartElement() && r.Name == "ServiceReference")
{
string serviceFullName2 = r.GetAttribute("Service");
if (!String.IsNullOrEmpty(serviceFullName2))
{
DependencyRequirement requirement = (DependencyRequirement)Enum.Parse(typeof(DependencyRequirement), r.GetAttribute("Requirement"));
references.Add(Tuple.Create(serviceFullName2, requirement));
}
}
}
break;
}
}
}
PluginInfo p = new PluginInfo(pluginFullName, d.DefaultAssembly);
d.PluginInfos.Add(p);
loadedPlugins.Add(p);
if (!String.IsNullOrEmpty(serviceFullName))
{
if (loadedServices.Contains(serviceFullName))
{
var service = loadedServices.GetByKey(serviceFullName);
p.Service = service;
}
else
{
pendingPluginServices.Add(new PendingPluginService(p, serviceFullName));
}
}
foreach (var t in references)
{
if (loadedServices.Contains(t.Item1))
{
p.AddServiceReference(loadedServices.GetByKey(t.Item1), t.Item2);
}
else
{
pendingServiceReferences.Add(new PendingServiceReference(p, t.Item1, t.Item2));
}
}
}
private static void ReadService(XmlReader r, DiscoveredInfo d,
CKSortedArrayKeyList <ServiceInfo, string> loadedServices,
CKSortedArrayKeyList <PluginInfo, string> loadedPlugins,
List <PendingGeneralization> pendingGeneralizations,
List <PendingPluginService> pendingPluginServices,
List <PendingServiceReference> pendingServiceReferences
)
{
r.Read();
string serviceFullName = r.GetAttribute("FullName");
Debug.Assert(serviceFullName != null, "FullName attribute was found in Service XML element.");
var s = new ServiceInfo(serviceFullName, d.DefaultAssembly);
d.ServiceInfos.Add(s);
loadedServices.Add(s);
ServiceInfo generalization = null;
while (r.Read())
{
if (r.IsStartElement() && !r.IsEmptyElement)
{
if (r.Name == "Generalization")
{
if (r.Read())
{
string generalizationName = r.Value;
if (!String.IsNullOrEmpty(generalizationName))
{
if (loadedServices.Contains(generalizationName))
{
generalization = loadedServices.GetByKey(generalizationName);
s.Generalization = generalization;
}
else
{
pendingGeneralizations.Add(new PendingGeneralization(s, generalizationName));
}
}
}
}
}
}
// Fix pending references of this service
foreach (var pg in pendingGeneralizations.Where(x => x.PendingServiceFullName == serviceFullName).ToList())
{
pg.Service.Generalization = s;
pendingGeneralizations.Remove(pg);
}
foreach (var pps in pendingPluginServices.Where(x => x.PendingServiceFullName == serviceFullName).ToList())
{
pps.Plugin.Service = s;
pendingPluginServices.Remove(pps);
}
foreach (var psr in pendingServiceReferences.Where(x => x.PendingServiceFullName == serviceFullName).ToList())
{
psr.Plugin.AddServiceReference(s, psr.Requirement);
pendingServiceReferences.Remove(psr);
}
}
private static void ReadService( XmlReader r, DiscoveredInfo d,
CKSortedArrayKeyList<ServiceInfo, string> loadedServices,
CKSortedArrayKeyList<PluginInfo, string> loadedPlugins,
List<PendingGeneralization> pendingGeneralizations,
List<PendingPluginService> pendingPluginServices,
List<PendingServiceReference> pendingServiceReferences
)
{
r.Read();
string serviceFullName = r.GetAttribute( "FullName" );
Debug.Assert( serviceFullName != null, "FullName attribute was found in Service XML element." );
var s = new ServiceInfo( serviceFullName, d.DefaultAssembly );
d.ServiceInfos.Add( s );
loadedServices.Add( s );
ServiceInfo generalization = null;
while( r.Read() )
{
if( r.IsStartElement() && !r.IsEmptyElement )
{
if( r.Name == "Generalization" )
{
if( r.Read() )
{
string generalizationName = r.Value;
if( !String.IsNullOrEmpty( generalizationName ) )
{
if( loadedServices.Contains( generalizationName ) )
{
generalization = loadedServices.GetByKey( generalizationName );
s.Generalization = generalization;
}
else
{
pendingGeneralizations.Add( new PendingGeneralization( s, generalizationName ) );
}
}
}
}
}
}
// Fix pending references of this service
foreach( var pg in pendingGeneralizations.Where( x => x.PendingServiceFullName == serviceFullName ).ToList() )
{
pg.Service.Generalization = s;
pendingGeneralizations.Remove( pg );
}
foreach( var pps in pendingPluginServices.Where( x => x.PendingServiceFullName == serviceFullName ).ToList() )
{
pps.Plugin.Service = s;
pendingPluginServices.Remove( pps );
}
foreach( var psr in pendingServiceReferences.Where( x => x.PendingServiceFullName == serviceFullName ).ToList() )
{
psr.Plugin.AddServiceReference( s, psr.Requirement );
pendingServiceReferences.Remove( psr );
}
}
private static void ReadPlugin( XmlReader r, DiscoveredInfo d,
CKSortedArrayKeyList<ServiceInfo, string> loadedServices,
CKSortedArrayKeyList<PluginInfo, string> loadedPlugins,
List<PendingPluginService> pendingPluginServices,
List<PendingServiceReference> pendingServiceReferences
)
{
r.Read();
string pluginFullName = String.Empty;
string serviceFullName = null;
List<Tuple<string,DependencyRequirement>> references = new List<Tuple<string, DependencyRequirement>>();
while( r.Read() )
{
if( r.IsStartElement() && !r.IsEmptyElement )
{
switch( r.Name )
{
case "FullName":
if( r.Read() )
{
pluginFullName = r.Value;
}
break;
case "Service":
if( r.Read() )
{
serviceFullName = r.Value;
}
break;
case "ServiceReferences":
while( r.Read() )
{
if( r.IsStartElement() && r.Name == "ServiceReference" )
{
string serviceFullName2 = r.GetAttribute( "Service" );
if( !String.IsNullOrEmpty( serviceFullName2 ) )
{
DependencyRequirement requirement = (DependencyRequirement)Enum.Parse( typeof( DependencyRequirement ), r.GetAttribute( "Requirement" ) );
references.Add( Tuple.Create( serviceFullName2, requirement ) );
}
}
}
break;
}
}
}
PluginInfo p = new PluginInfo( pluginFullName, d.DefaultAssembly );
d.PluginInfos.Add( p );
loadedPlugins.Add( p );
if( !String.IsNullOrEmpty( serviceFullName ) )
{
if( loadedServices.Contains( serviceFullName ) )
{
var service = loadedServices.GetByKey( serviceFullName );
p.Service = service;
}
else
{
pendingPluginServices.Add( new PendingPluginService( p, serviceFullName ) );
}
}
foreach( var t in references )
{
if( loadedServices.Contains( t.Item1 ) )
{
p.AddServiceReference( loadedServices.GetByKey( t.Item1 ), t.Item2 );
}
else
{
pendingServiceReferences.Add( new PendingServiceReference( p, t.Item1, t.Item2 ) );
}
}
}
private void ReadService(XmlReader r)
{
r.Read();
string serviceFullName = r.GetAttribute("FullName");
Debug.Assert(serviceFullName != null, "FullName attribute was found in Service XML element.");
ServiceInfo s = new ServiceInfo(serviceFullName, AssemblyInfoHelper.ExecutingAssemblyInfo);
loadedServices.Add(s);
ServiceInfo generalization = null;
Point pos = new Point();
pos.X = Double.NaN;
pos.Y = Double.NaN;
while (r.Read())
{
if (r.IsStartElement() && !r.IsEmptyElement)
{
switch (r.Name)
{
case "Generalization":
if (r.Read())
{
string generalizationName = r.Value;
if (!String.IsNullOrEmpty(generalizationName))
{
if (loadedServices.Contains(generalizationName))
{
generalization = loadedServices.GetByKey(generalizationName);
s.Generalization = generalization;
}
else
{
pendingGeneralizations.Add(new PendingGeneralization(s, generalizationName));
}
}
}
break;
case "X":
if (r.Read())
{
double posX;
if (Double.TryParse(r.Value, NumberStyles.Any, CultureInfo.InvariantCulture, out posX))
{
pos.X = posX;
}
}
break;
case "Y":
if (r.Read())
{
double posY;
if (Double.TryParse(r.Value, NumberStyles.Any, CultureInfo.InvariantCulture, out posY))
{
pos.Y = posY;
}
}
break;
}
}
}
s.PositionInGraph = pos;
// Fix pending references of this service
foreach (var pg in pendingGeneralizations.Where(x => x.PendingServiceFullName == serviceFullName).ToList())
{
pg.Service.Generalization = s;
pendingGeneralizations.Remove(pg);
}
foreach (var pps in pendingPluginServices.Where(x => x.PendingServiceFullName == serviceFullName).ToList())
{
pps.Plugin.Service = s;
s.InternalImplementations.Add(pps.Plugin);
pendingPluginServices.Remove(pps);
}
foreach (var psr in pendingServiceReferences.Where(x => x.PendingServiceFullName == serviceFullName).ToList())
{
var reference = new MockServiceReferenceInfo(psr.Plugin, s, psr.Requirement);
psr.Plugin.InternalServiceReferences.Add(reference);
pendingServiceReferences.Remove(psr);
}
}
public void SortedArrayKeyList_does_not_accept_null_entries()
{
var b = new CKSortedArrayKeyList<ClassToTest, string>( i => i.ToString(), false );
ClassToTest classToTest = new ClassToTest( "A" );
b.Add( classToTest );
b.Add( new ClassToTest( "B" ) );
Assert.That( b.Contains( classToTest ), Is.True );
Assert.That( b.IndexOf( classToTest ), Is.EqualTo( 0 ) );
Assert.Throws<ArgumentNullException>( () => b.IndexOf( (ClassToTest)null ) );
}
public void SortedArrayKeyList_without_duplicates()
{
var a = new CKSortedArrayKeyList<int, string>( i => i.ToString() );
a.AddRangeArray( 3, 2, 1 );
bool exists;
Assert.That( a.GetByKey( "1", out exists ) == 1 && exists );
Assert.That( a.GetByKey( "10", out exists ) == 0 && !exists );
Assert.That( a.GetByKey( "2", out exists ) == 2 && exists );
Assert.That( a.Contains( "2" ) );
Assert.That( a.Contains( "1" ) );
Assert.That( !a.Contains( "21" ) );
object o;
o = "2";
Assert.That( a.Contains( o ), "Using the key." );
o = 2;
Assert.That( a.Contains( o ), "Using the value itself." );
o = null;
Assert.That( a.Contains( o ), Is.False );
o = 42;
Assert.That( a.Contains( o ), Is.False );
o = "42";
Assert.That( a.Contains( o ), Is.False );
Assert.That( !a.Add( 3 ) );
Assert.That( !a.Add( 2 ) );
Assert.That( !a.Add( 1 ) );
CheckList( a.GetAllByKey( "2" ), 2 );
}