public static int Main(string[] args) { int status = 0; Ice.Communicator communicator = null; try { Console.Error.Write("testing proxy & endpoint hash algorithm collisions... "); Console.Error.Flush(); Dictionary <int, Ice.ObjectPrx> seenProxy = new Dictionary <int, Ice.ObjectPrx>(); Dictionary <int, Ice.Endpoint> seenEndpoint = new Dictionary <int, Ice.Endpoint>(); int proxyCollisions = 0; int endpointCollisions = 0; int i = 0; int maxCollisions = 10; int maxIterations = 10000; Ice.InitializationData initData = new Ice.InitializationData(); initData.properties = Ice.Util.createProperties(ref args); //initData.properties.setProperty("Ice.Plugin.IceSSL", "IceSSL:IceSSL.PluginFactory"); communicator = Ice.Util.initialize(ref args, initData); { Random rand = new Random(); for (i = 0; proxyCollisions < maxCollisions && endpointCollisions < maxCollisions && i < maxIterations; ++i) { System.IO.StringWriter sw = new System.IO.StringWriter(); sw.Write(i); sw.Write(":tcp -p "); sw.Write(rand.Next(65536)); sw.Write(" -t 10"); sw.Write(rand.Next(1000000)); sw.Write(":udp -p "); sw.Write(rand.Next(65536)); sw.Write(" -h "); sw.Write(rand.Next(100)); Ice.ObjectPrx obj = communicator.stringToProxy(sw.ToString()); List <Ice.Endpoint> endpoints = new List <Ice.Endpoint>(obj.ice_getEndpoints()); if (seenProxy.ContainsKey(obj.GetHashCode())) { if (obj.Equals(seenProxy[obj.GetHashCode()])) { continue; } ++proxyCollisions; } else { seenProxy[obj.GetHashCode()] = obj; } foreach (Ice.Endpoint endpoint in endpoints) { if (seenEndpoint.ContainsKey(endpoint.GetHashCode())) { if (endpoint.Equals(seenEndpoint[endpoint.GetHashCode()])) { continue; } ++endpointCollisions; } else { seenEndpoint[endpoint.GetHashCode()] = endpoint; } // // Check the same endpoint produce always the same hash // test(endpoint.GetHashCode() == endpoint.GetHashCode()); } // // Check the same proxy produce always the same hash // test(obj.GetHashCode() == obj.GetHashCode()); } test(proxyCollisions < maxCollisions); test(endpointCollisions < maxCollisions); { Ice.ProxyIdentityKey comparer = new Ice.ProxyIdentityKey(); proxyCollisions = 0; seenProxy = new Dictionary <int, Ice.ObjectPrx>(); for (i = 0; proxyCollisions < maxCollisions && i < maxIterations; ++i) { System.IO.StringWriter sw = new System.IO.StringWriter(); sw.Write(i); sw.Write(":tcp -p "); sw.Write(rand.Next(65536)); sw.Write(" -t 10"); sw.Write(rand.Next(1000000)); sw.Write(":udp -p "); sw.Write(rand.Next(65536)); sw.Write(" -h "); sw.Write(rand.Next(100)); Ice.ObjectPrx obj = communicator.stringToProxy(sw.ToString()); if (seenProxy.ContainsKey(comparer.GetHashCode(obj))) { ++proxyCollisions; } else { seenProxy[comparer.GetHashCode(obj)] = obj; } // // Check the same proxy produce always the same hash // test(comparer.GetHashCode(obj) == comparer.GetHashCode(obj)); } test(proxyCollisions < maxCollisions); } } { Random rand = new Random(); Ice.ProxyIdentityFacetKey comparer = new Ice.ProxyIdentityFacetKey(); proxyCollisions = 0; seenProxy = new Dictionary <int, Ice.ObjectPrx>(); for (i = 0; proxyCollisions < maxCollisions && i < maxIterations; ++i) { System.IO.StringWriter sw = new System.IO.StringWriter(); sw.Write(i); sw.Write(" -f demo:tcp -p "); sw.Write(rand.Next(65536)); sw.Write(" -t 10"); sw.Write(rand.Next(1000000)); sw.Write(":udp -p "); sw.Write(rand.Next(65536)); sw.Write(" -h "); sw.Write(rand.Next(100)); Ice.ObjectPrx obj = communicator.stringToProxy(sw.ToString()); if (seenProxy.ContainsKey(comparer.GetHashCode(obj))) { ++proxyCollisions; } else { seenProxy[comparer.GetHashCode(obj)] = obj; } // // Check the same proxy produce always the same hash // test(comparer.GetHashCode(obj) == comparer.GetHashCode(obj)); } test(proxyCollisions < maxCollisions); } Ice.ProxyIdentityFacetKey iComparer = new Ice.ProxyIdentityFacetKey(); Ice.ProxyIdentityFacetKey ifComparer = new Ice.ProxyIdentityFacetKey(); Ice.ObjectPrx prx1 = communicator.stringToProxy("Glacier2/router:tcp -p 10010"); //Ice.ObjectPrx prx2 = communicator.stringToProxy("Glacier2/router:ssl -p 10011"); Ice.ObjectPrx prx3 = communicator.stringToProxy("Glacier2/router:udp -p 10012"); Ice.ObjectPrx prx4 = communicator.stringToProxy("Glacier2/router:tcp -h zeroc.com -p 10010"); //Ice.ObjectPrx prx5 = communicator.stringToProxy("Glacier2/router:ssl -h zeroc.com -p 10011"); Ice.ObjectPrx prx6 = communicator.stringToProxy("Glacier2/router:udp -h zeroc.com -p 10012"); Ice.ObjectPrx prx7 = communicator.stringToProxy("Glacier2/router:tcp -p 10010 -t 10000"); //Ice.ObjectPrx prx8 = communicator.stringToProxy("Glacier2/router:ssl -p 10011 -t 10000"); Ice.ObjectPrx prx9 = communicator.stringToProxy("Glacier2/router:tcp -h zeroc.com -p 10010 -t 10000"); //Ice.ObjectPrx prx10 = communicator.stringToProxy("Glacier2/router:ssl -h zeroc.com -p 10011 -t 10000"); Dictionary <string, int> proxyMap = new Dictionary <string, int>(); proxyMap["prx1"] = prx1.GetHashCode(); //proxyMap["prx2"] = prx2.GetHashCode(); proxyMap["prx3"] = prx3.GetHashCode(); proxyMap["prx4"] = prx4.GetHashCode(); //proxyMap["prx5"] = prx5.GetHashCode(); proxyMap["prx6"] = prx6.GetHashCode(); proxyMap["prx7"] = prx7.GetHashCode(); //proxyMap["prx8"] = prx8.GetHashCode(); proxyMap["prx9"] = prx9.GetHashCode(); //proxyMap["prx10"] = prx10.GetHashCode(); test(communicator.stringToProxy("Glacier2/router:tcp -p 10010").GetHashCode() == proxyMap["prx1"]); //test(communicator.stringToProxy("Glacier2/router:ssl -p 10011").GetHashCode() == proxyMap["prx2"]); test(communicator.stringToProxy("Glacier2/router:udp -p 10012").GetHashCode() == proxyMap["prx3"]); test(communicator.stringToProxy("Glacier2/router:tcp -h zeroc.com -p 10010").GetHashCode() == proxyMap["prx4"]); //test(communicator.stringToProxy("Glacier2/router:ssl -h zeroc.com -p 10011").GetHashCode() == proxyMap["prx5"]); test(communicator.stringToProxy("Glacier2/router:udp -h zeroc.com -p 10012").GetHashCode() == proxyMap["prx6"]); test(communicator.stringToProxy("Glacier2/router:tcp -p 10010 -t 10000").GetHashCode() == proxyMap["prx7"]); //test(communicator.stringToProxy("Glacier2/router:ssl -p 10011 -t 10000").GetHashCode() == proxyMap["prx8"]); test(communicator.stringToProxy("Glacier2/router:tcp -h zeroc.com -p 10010 -t 10000").GetHashCode() == proxyMap["prx9"]); //test(communicator.stringToProxy("Glacier2/router:ssl -h zeroc.com -p 10011 -t 10000").GetHashCode() == proxyMap["prx10"]); test(iComparer.GetHashCode(prx1) == iComparer.GetHashCode(prx1)); test(ifComparer.GetHashCode(prx1) == ifComparer.GetHashCode(prx1)); test(iComparer.GetHashCode(prx3) == iComparer.GetHashCode(prx3)); test(ifComparer.GetHashCode(prx3) == ifComparer.GetHashCode(prx3)); test(iComparer.GetHashCode(prx4) == iComparer.GetHashCode(prx4)); test(ifComparer.GetHashCode(prx4) == ifComparer.GetHashCode(prx4)); test(iComparer.GetHashCode(prx6) == iComparer.GetHashCode(prx6)); test(ifComparer.GetHashCode(prx6) == ifComparer.GetHashCode(prx6)); test(iComparer.GetHashCode(prx7) == iComparer.GetHashCode(prx7)); test(ifComparer.GetHashCode(prx7) == ifComparer.GetHashCode(prx7)); test(iComparer.GetHashCode(prx9) == iComparer.GetHashCode(prx9)); test(ifComparer.GetHashCode(prx9) == ifComparer.GetHashCode(prx9)); Console.Error.WriteLine("ok"); Console.Error.Write("testing exceptions hash algorithm collisions... "); { Dictionary <int, Test.OtherException> seenException = new Dictionary <int, Test.OtherException>(); Random rand = new Random(); int exceptionCollisions = 0; for (i = 0; i < maxIterations && exceptionCollisions < maxCollisions; ++i) { Test.OtherException ex = new Test.OtherException(rand.Next(100), rand.Next(100), 0, false); if (seenException.ContainsKey(ex.GetHashCode())) { if (ex.Equals(seenException[ex.GetHashCode()])) { continue; // same object } exceptionCollisions++; } else { seenException[ex.GetHashCode()] = ex; } // // Check the same exception produce always the same hash // test(ex.GetHashCode() == ex.GetHashCode()); } test(exceptionCollisions < maxCollisions); } // // Same as above but with numbers in high ranges // { Dictionary <int, Test.OtherException> seenException = new Dictionary <int, Test.OtherException>(); Random rand = new Random(); int exceptionCollisions = 0; for (i = 0; i < maxIterations && exceptionCollisions < maxCollisions; ++i) { Test.OtherException ex = new Test.OtherException(rand.Next(100) * 2 ^ 30, rand.Next(100) * 2 ^ 30, rand.Next(100) * 2 ^ 30, false); if (seenException.ContainsKey(ex.GetHashCode())) { if (ex.Equals(seenException[ex.GetHashCode()])) { continue; // same object } exceptionCollisions++; } else { seenException[ex.GetHashCode()] = ex; } // // Check the same exception produce always the same hash // test(ex.GetHashCode() == ex.GetHashCode()); } test(exceptionCollisions < maxCollisions); } { Dictionary <int, Test.BaseException> seenException = new Dictionary <int, Test.BaseException>(); Random rand = new Random(); int exceptionCollisions = 0; for (i = 0; i < maxIterations && exceptionCollisions < maxCollisions; ++i) { int v = rand.Next(1000); Test.BaseException ex = new Test.InvalidPointException(v); if (seenException.ContainsKey(ex.GetHashCode())) { if (ex.Equals(seenException[ex.GetHashCode()])) { continue; // same object } exceptionCollisions++; } else { seenException[ex.GetHashCode()] = ex; } // // Check the same exception produce always the same hash // test(ex.GetHashCode() == ex.GetHashCode()); ex = new Test.InvalidLengthException(v); if (seenException.ContainsKey(ex.GetHashCode())) { if (ex.Equals(seenException[ex.GetHashCode()])) { continue; // same object } exceptionCollisions++; } else { seenException[ex.GetHashCode()] = ex; } // // Check the same exception produce always the same hash // test(ex.GetHashCode() == ex.GetHashCode()); } test(exceptionCollisions < maxCollisions); } Console.Error.WriteLine("ok"); Console.Error.Write("testing struct hash algorithm collisions... "); { Dictionary <int, Test.PointF> seenPointF = new Dictionary <int, Test.PointF>(); Random rand = new Random(); int structCollisions = 0; for (i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.PointF pf = new Test.PointF((float)rand.NextDouble(), (float)rand.NextDouble(), (float)rand.NextDouble()); if (seenPointF.ContainsKey(pf.GetHashCode())) { if (pf.Equals(seenPointF[pf.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenPointF[pf.GetHashCode()] = pf; } // // Check the same struct produce always the same hash // test(pf.GetHashCode() == pf.GetHashCode()); } test(structCollisions < maxCollisions); Dictionary <int, Test.PointD> seenPointD = new Dictionary <int, Test.PointD>(); structCollisions = 0; for (i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.PointD pd = new Test.PointD(rand.NextDouble(), rand.NextDouble(), rand.NextDouble()); if (seenPointD.ContainsKey(pd.GetHashCode())) { if (pd.Equals(seenPointD[pd.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenPointD[pd.GetHashCode()] = pd; } // // Check the same struct produce always the same hash // test(pd.GetHashCode() == pd.GetHashCode()); } test(structCollisions < maxCollisions); Dictionary <int, Test.Polyline> seenPolyline = new Dictionary <int, Test.Polyline>(); structCollisions = 0; for (i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.Polyline polyline = new Test.Polyline(); List <Test.Point> vertices = new List <Test.Point>(); for (int j = 0; j < 100; ++j) { vertices.Add(new Test.Point(rand.Next(100), rand.Next(100))); } polyline.vertices = vertices.ToArray(); if (seenPolyline.ContainsKey(polyline.GetHashCode())) { if (polyline.Equals(seenPolyline[polyline.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenPolyline[polyline.GetHashCode()] = polyline; } // // Check the same struct produce always the same hash // test(polyline.GetHashCode() == polyline.GetHashCode()); } test(structCollisions < maxCollisions); Dictionary <int, Test.ColorPalette> seenColorPalette = new Dictionary <int, Test.ColorPalette>(); structCollisions = 0; for (i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.ColorPalette colorPalette = new Test.ColorPalette(); colorPalette.colors = new Dictionary <int, Test.Color>(); for (int j = 0; j < 100; ++j) { colorPalette.colors[j] = new Test.Color(rand.Next(255), rand.Next(255), rand.Next(255), rand.Next(255)); } if (seenColorPalette.ContainsKey(colorPalette.GetHashCode())) { if (colorPalette.Equals(seenColorPalette[colorPalette.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenColorPalette[colorPalette.GetHashCode()] = colorPalette; } // // Check the same struct produce always the same hash // test(colorPalette.GetHashCode() == colorPalette.GetHashCode()); } test(structCollisions < maxCollisions); Dictionary <int, Test.Color> seenColor = new Dictionary <int, Test.Color>(); structCollisions = 0; for (i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.Color c = new Test.Color(rand.Next(255), rand.Next(255), rand.Next(255), rand.Next(255)); if (seenColor.ContainsKey(c.GetHashCode())) { if (c.Equals(seenColor[c.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenColor[c.GetHashCode()] = c; } // // Check the same struct produce always the same hash // test(c.GetHashCode() == c.GetHashCode()); } test(structCollisions < maxCollisions); structCollisions = 0; Dictionary <int, Test.Draw> seenDraw = new Dictionary <int, Test.Draw>(); structCollisions = 0; for (i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.Draw draw = new Test.Draw( new Test.Color(rand.Next(255), rand.Next(255), rand.Next(255), rand.Next(255)), new Test.Pen(rand.Next(10), new Test.Color(rand.Next(255), rand.Next(255), rand.Next(255), rand.Next(255))), false); if (seenDraw.ContainsKey(draw.GetHashCode())) { if (draw.Equals(seenDraw[draw.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenDraw[draw.GetHashCode()] = draw; } // // Check the same struct produce always the same hash // test(draw.GetHashCode() == draw.GetHashCode()); } test(structCollisions < maxCollisions); } Console.Error.WriteLine("ok"); if (communicator != null) { communicator.destroy(); } } catch (Exception ex) { Console.WriteLine(ex.ToString()); status = 1; } return(status); }
public static int Main(string[] args) { int status = 0; Ice.Communicator communicator = null; try { System.Console.Error.Write("testing proxy & endpoint hash algorithm collisions... "); System.Console.Error.Flush(); Dictionary<int, Ice.ObjectPrx> seenProxy = new Dictionary<int, Ice.ObjectPrx>(); Dictionary<int, Ice.Endpoint> seenEndpoint = new Dictionary<int, Ice.Endpoint>(); int proxyCollisions = 0; int endpointCollisions = 0; int i = 0; int maxCollisions = 10; int maxIterations = 10000; Ice.InitializationData initData = new Ice.InitializationData(); initData.properties = Ice.Util.createProperties(ref args); //initData.properties.setProperty("Ice.Plugin.IceSSL", "IceSSL:IceSSL.PluginFactory"); communicator = Ice.Util.initialize(ref args, initData); { System.Random rand = new System.Random(); for(i = 0; proxyCollisions < maxCollisions && endpointCollisions < maxCollisions && i < maxIterations; ++i) { System.IO.StringWriter sw = new System.IO.StringWriter(); sw.Write(i); sw.Write(":tcp -p "); sw.Write(rand.Next(65536)); sw.Write(" -t 10"); sw.Write(rand.Next(1000000)); sw.Write(":udp -p "); sw.Write(rand.Next(65536)); sw.Write(" -h "); sw.Write(rand.Next(100)); Ice.ObjectPrx obj = communicator.stringToProxy(sw.ToString()); List<Ice.Endpoint> endpoints = new List<Ice.Endpoint>(obj.ice_getEndpoints()); if(seenProxy.ContainsKey(obj.GetHashCode())) { if(obj.Equals(seenProxy[obj.GetHashCode()])) { continue; } ++proxyCollisions; } else { seenProxy[obj.GetHashCode()] = obj; } foreach(Ice.Endpoint endpoint in endpoints) { if(seenEndpoint.ContainsKey(endpoint.GetHashCode())) { if(endpoint.Equals(seenEndpoint[endpoint.GetHashCode()])) { continue; } ++endpointCollisions; } else { seenEndpoint[endpoint.GetHashCode()] = endpoint; } // // Check the same endpoint produce always the same hash // test(endpoint.GetHashCode() == endpoint.GetHashCode()); } // // Check the same proxy produce always the same hash // test(obj.GetHashCode() == obj.GetHashCode()); } test(proxyCollisions < maxCollisions); test(endpointCollisions < maxCollisions); { Ice.ProxyIdentityKey comparer = new Ice.ProxyIdentityKey(); proxyCollisions = 0; seenProxy = new Dictionary<int, Ice.ObjectPrx>(); for(i = 0; proxyCollisions < maxCollisions && i < maxIterations; ++i) { System.IO.StringWriter sw = new System.IO.StringWriter(); sw.Write(i); sw.Write(":tcp -p "); sw.Write(rand.Next(65536)); sw.Write(" -t 10"); sw.Write(rand.Next(1000000)); sw.Write(":udp -p "); sw.Write(rand.Next(65536)); sw.Write(" -h "); sw.Write(rand.Next(100)); Ice.ObjectPrx obj = communicator.stringToProxy(sw.ToString()); if(seenProxy.ContainsKey(comparer.GetHashCode(obj))) { ++proxyCollisions; } else { seenProxy[comparer.GetHashCode(obj)] = obj; } // // Check the same proxy produce always the same hash // test(comparer.GetHashCode(obj) == comparer.GetHashCode(obj)); } test(proxyCollisions < maxCollisions); } } { System.Random rand = new System.Random(); Ice.ProxyIdentityFacetKey comparer = new Ice.ProxyIdentityFacetKey(); proxyCollisions = 0; seenProxy = new Dictionary<int, Ice.ObjectPrx>(); for(i = 0; proxyCollisions < maxCollisions && i < maxIterations; ++i) { System.IO.StringWriter sw = new System.IO.StringWriter(); sw.Write(i); sw.Write(" -f demo:tcp -p "); sw.Write(rand.Next(65536)); sw.Write(" -t 10"); sw.Write(rand.Next(1000000)); sw.Write(":udp -p "); sw.Write(rand.Next(65536)); sw.Write(" -h "); sw.Write(rand.Next(100)); Ice.ObjectPrx obj = communicator.stringToProxy(sw.ToString()); if(seenProxy.ContainsKey(comparer.GetHashCode(obj))) { ++proxyCollisions; } else { seenProxy[comparer.GetHashCode(obj)] = obj; } // // Check the same proxy produce always the same hash // test(comparer.GetHashCode(obj) == comparer.GetHashCode(obj)); } test(proxyCollisions < maxCollisions); } Ice.ProxyIdentityFacetKey iComparer = new Ice.ProxyIdentityFacetKey(); Ice.ProxyIdentityFacetKey ifComparer = new Ice.ProxyIdentityFacetKey(); Ice.ObjectPrx prx1 = communicator.stringToProxy("Glacier2/router:tcp -p 10010"); //Ice.ObjectPrx prx2 = communicator.stringToProxy("Glacier2/router:ssl -p 10011"); Ice.ObjectPrx prx3 = communicator.stringToProxy("Glacier2/router:udp -p 10012"); Ice.ObjectPrx prx4 = communicator.stringToProxy("Glacier2/router:tcp -h zeroc.com -p 10010"); //Ice.ObjectPrx prx5 = communicator.stringToProxy("Glacier2/router:ssl -h zeroc.com -p 10011"); Ice.ObjectPrx prx6 = communicator.stringToProxy("Glacier2/router:udp -h zeroc.com -p 10012"); Ice.ObjectPrx prx7 = communicator.stringToProxy("Glacier2/router:tcp -p 10010 -t 10000"); //Ice.ObjectPrx prx8 = communicator.stringToProxy("Glacier2/router:ssl -p 10011 -t 10000"); Ice.ObjectPrx prx9 = communicator.stringToProxy("Glacier2/router:tcp -h zeroc.com -p 10010 -t 10000"); //Ice.ObjectPrx prx10 = communicator.stringToProxy("Glacier2/router:ssl -h zeroc.com -p 10011 -t 10000"); Dictionary<string, int> proxyMap = new Dictionary<string, int>(); proxyMap["prx1"] = prx1.GetHashCode(); //proxyMap["prx2"] = prx2.GetHashCode(); proxyMap["prx3"] = prx3.GetHashCode(); proxyMap["prx4"] = prx4.GetHashCode(); //proxyMap["prx5"] = prx5.GetHashCode(); proxyMap["prx6"] = prx6.GetHashCode(); proxyMap["prx7"] = prx7.GetHashCode(); //proxyMap["prx8"] = prx8.GetHashCode(); proxyMap["prx9"] = prx9.GetHashCode(); //proxyMap["prx10"] = prx10.GetHashCode(); test(communicator.stringToProxy("Glacier2/router:tcp -p 10010").GetHashCode() == proxyMap["prx1"]); //test(communicator.stringToProxy("Glacier2/router:ssl -p 10011").GetHashCode() == proxyMap["prx2"]); test(communicator.stringToProxy("Glacier2/router:udp -p 10012").GetHashCode() == proxyMap["prx3"]); test(communicator.stringToProxy("Glacier2/router:tcp -h zeroc.com -p 10010").GetHashCode() == proxyMap["prx4"]); //test(communicator.stringToProxy("Glacier2/router:ssl -h zeroc.com -p 10011").GetHashCode() == proxyMap["prx5"]); test(communicator.stringToProxy("Glacier2/router:udp -h zeroc.com -p 10012").GetHashCode() == proxyMap["prx6"]); test(communicator.stringToProxy("Glacier2/router:tcp -p 10010 -t 10000").GetHashCode() == proxyMap["prx7"]); //test(communicator.stringToProxy("Glacier2/router:ssl -p 10011 -t 10000").GetHashCode() == proxyMap["prx8"]); test(communicator.stringToProxy("Glacier2/router:tcp -h zeroc.com -p 10010 -t 10000").GetHashCode() == proxyMap["prx9"]); //test(communicator.stringToProxy("Glacier2/router:ssl -h zeroc.com -p 10011 -t 10000").GetHashCode() == proxyMap["prx10"]); test(iComparer.GetHashCode(prx1) == iComparer.GetHashCode(prx1)); test(ifComparer.GetHashCode(prx1) == ifComparer.GetHashCode(prx1)); test(iComparer.GetHashCode(prx3) == iComparer.GetHashCode(prx3)); test(ifComparer.GetHashCode(prx3) == ifComparer.GetHashCode(prx3)); test(iComparer.GetHashCode(prx4) == iComparer.GetHashCode(prx4)); test(ifComparer.GetHashCode(prx4) == ifComparer.GetHashCode(prx4)); test(iComparer.GetHashCode(prx6) == iComparer.GetHashCode(prx6)); test(ifComparer.GetHashCode(prx6) == ifComparer.GetHashCode(prx6)); test(iComparer.GetHashCode(prx7) == iComparer.GetHashCode(prx7)); test(ifComparer.GetHashCode(prx7) == ifComparer.GetHashCode(prx7)); test(iComparer.GetHashCode(prx9) == iComparer.GetHashCode(prx9)); test(ifComparer.GetHashCode(prx9) == ifComparer.GetHashCode(prx9)); System.Console.Error.WriteLine("ok"); System.Console.Error.Write("testing exceptions hash algorithm collisions... "); { Dictionary<int,Test.OtherException> seenException = new Dictionary<int, Test.OtherException>(); System.Random rand = new System.Random(); int exceptionCollisions = 0; for(i = 0; i < maxIterations && exceptionCollisions < maxCollisions; ++i) { Test.OtherException ex = new Test.OtherException(rand.Next(100), rand.Next(100), 0, false); if(seenException.ContainsKey(ex.GetHashCode())) { if(ex.Equals(seenException[ex.GetHashCode()])) { continue; // same object } exceptionCollisions++; } else { seenException[ex.GetHashCode()] = ex; } // // Check the same exception produce always the same hash // test(ex.GetHashCode() == ex.GetHashCode()); } test(exceptionCollisions < maxCollisions); } // // Same as above but with numbers in high ranges // { Dictionary<int,Test.OtherException> seenException = new Dictionary<int, Test.OtherException>(); System.Random rand = new System.Random(); int exceptionCollisions = 0; for(i = 0; i < maxIterations && exceptionCollisions < maxCollisions; ++i) { Test.OtherException ex = new Test.OtherException(rand.Next(100) * 2^30, rand.Next(100) * 2^30, rand.Next(100) * 2^30, false); if(seenException.ContainsKey(ex.GetHashCode())) { if(ex.Equals(seenException[ex.GetHashCode()])) { continue; // same object } exceptionCollisions++; } else { seenException[ex.GetHashCode()] = ex; } // // Check the same exception produce always the same hash // test(ex.GetHashCode() == ex.GetHashCode()); } test(exceptionCollisions < maxCollisions); } { Dictionary<int,Test.BaseException> seenException = new Dictionary<int, Test.BaseException>(); System.Random rand = new System.Random(); int exceptionCollisions = 0; for(i = 0; i < maxIterations && exceptionCollisions < maxCollisions; ++i) { int v = rand.Next(1000); Test.BaseException ex = new Test.InvalidPointException(v); if(seenException.ContainsKey(ex.GetHashCode())) { if(ex.Equals(seenException[ex.GetHashCode()])) { continue; // same object } exceptionCollisions++; } else { seenException[ex.GetHashCode()] = ex; } // // Check the same exception produce always the same hash // test(ex.GetHashCode() == ex.GetHashCode()); ex = new Test.InvalidLengthException(v); if(seenException.ContainsKey(ex.GetHashCode())) { if(ex.Equals(seenException[ex.GetHashCode()])) { continue; // same object } exceptionCollisions++; } else { seenException[ex.GetHashCode()] = ex; } // // Check the same exception produce always the same hash // test(ex.GetHashCode() == ex.GetHashCode()); } test(exceptionCollisions < maxCollisions); } System.Console.Error.WriteLine("ok"); System.Console.Error.Write("testing struct hash algorithm collisions... "); { Dictionary<int,Test.PointF> seenPointF = new Dictionary<int, Test.PointF>(); System.Random rand = new System.Random(); int structCollisions = 0; for(i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.PointF pf = new Test.PointF((float)rand.NextDouble(), (float)rand.NextDouble(), (float)rand.NextDouble()); if(seenPointF.ContainsKey(pf.GetHashCode())) { if(pf.Equals(seenPointF[pf.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenPointF[pf.GetHashCode()] = pf; } // // Check the same struct produce always the same hash // test(pf.GetHashCode() == pf.GetHashCode()); } test(structCollisions < maxCollisions); Dictionary<int,Test.PointD> seenPointD = new Dictionary<int, Test.PointD>(); structCollisions = 0; for(i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.PointD pd = new Test.PointD(rand.NextDouble(), rand.NextDouble(), rand.NextDouble()); if(seenPointD.ContainsKey(pd.GetHashCode())) { if(pd.Equals(seenPointD[pd.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenPointD[pd.GetHashCode()] = pd; } // // Check the same struct produce always the same hash // test(pd.GetHashCode() == pd.GetHashCode()); } test(structCollisions < maxCollisions); Dictionary<int,Test.Polyline> seenPolyline = new Dictionary<int, Test.Polyline>(); structCollisions = 0; for(i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.Polyline polyline = new Test.Polyline(); List<Test.Point> vertices = new List<Test.Point>(); for(int j = 0; j < 100; ++j) { vertices.Add(new Test.Point(rand.Next(100), rand.Next(100))); } polyline.vertices = vertices.ToArray(); if(seenPolyline.ContainsKey(polyline.GetHashCode())) { if(polyline.Equals(seenPolyline[polyline.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenPolyline[polyline.GetHashCode()] = polyline; } // // Check the same struct produce always the same hash // test(polyline.GetHashCode() == polyline.GetHashCode()); } test(structCollisions < maxCollisions); Dictionary<int,Test.ColorPalette> seenColorPalette = new Dictionary<int, Test.ColorPalette>(); structCollisions = 0; for(i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.ColorPalette colorPalette = new Test.ColorPalette(); colorPalette.colors = new Dictionary<int, Test.Color>(); for(int j = 0; j < 100; ++j) { colorPalette.colors[j] = new Test.Color(rand.Next(255), rand.Next(255), rand.Next(255), rand.Next(255)); } if(seenColorPalette.ContainsKey(colorPalette.GetHashCode())) { if(colorPalette.Equals(seenColorPalette[colorPalette.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenColorPalette[colorPalette.GetHashCode()] = colorPalette; } // // Check the same struct produce always the same hash // test(colorPalette.GetHashCode() == colorPalette.GetHashCode()); } test(structCollisions < maxCollisions); Dictionary<int,Test.Color> seenColor = new Dictionary<int, Test.Color>(); structCollisions = 0; for(i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.Color c = new Test.Color(rand.Next(255), rand.Next(255), rand.Next(255), rand.Next(255)); if(seenColor.ContainsKey(c.GetHashCode())) { if(c.Equals(seenColor[c.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenColor[c.GetHashCode()] = c; } // // Check the same struct produce always the same hash // test(c.GetHashCode() == c.GetHashCode()); } test(structCollisions < maxCollisions); structCollisions = 0; Dictionary<int,Test.Draw> seenDraw = new Dictionary<int, Test.Draw>(); structCollisions = 0; for(i = 0; i < maxIterations && structCollisions < maxCollisions; ++i) { Test.Draw draw = new Test.Draw( new Test.Color(rand.Next(255), rand.Next(255), rand.Next(255), rand.Next(255)), new Test.Pen(rand.Next(10), new Test.Color(rand.Next(255), rand.Next(255), rand.Next(255), rand.Next(255))), false); if(seenDraw.ContainsKey(draw.GetHashCode())) { if(draw.Equals(seenDraw[draw.GetHashCode()])) { continue; // same object } structCollisions++; } else { seenDraw[draw.GetHashCode()] = draw; } // // Check the same struct produce always the same hash // test(draw.GetHashCode() == draw.GetHashCode()); } test(structCollisions < maxCollisions); } System.Console.Error.WriteLine("ok"); if(communicator != null) { try { communicator.destroy(); } catch(Ice.LocalException ex) { System.Console.Error.WriteLine(ex); status = 1; } } } catch(Exception ex) { Console.WriteLine(ex.ToString()); status = 1; } return status; }