using System; using System.Text; using System.Collections.Generic; using System.Linq; using Microsoft.VisualStudio.TestTools.UnitTesting; using HeuristicLab.Persistence.Core; using System.Collections; using HeuristicLab.Persistence.Default.Xml; using HeuristicLab.Persistence.Default.DebugString; using System.IO; using System.Reflection; using HeuristicLab.Persistence.Default.CompositeSerializers.Storable; using HeuristicLab.Persistence.Interfaces; using HeuristicLab.Persistence.Default.Xml.Primitive; using HeuristicLab.Persistence.Default.CompositeSerializers; using HeuristicLab.Persistence.Auxiliary; using System.Text.RegularExpressions; using HeuristicLab.Persistence.Test; namespace HeuristicLab.Persistence.UnitTest { public class NumberTest { [Storable] private bool _bool = true; [Storable] private byte _byte = 0xFF; [Storable] private sbyte _sbyte = 0xF; [Storable] private short _short = -123; [Storable] private ushort _ushort = 123; [Storable] private int _int = -123; [Storable] private uint _uint = 123; [Storable] private long _long = 123456; [Storable] private ulong _ulong = 123456; } public class NonDefaultConstructorClass { [Storable] int value; public NonDefaultConstructorClass(int value) { this.value = value; } } public class IntWrapper { [Storable] public int Value; private IntWrapper() { } public IntWrapper(int value) { this.Value = value; } public override bool Equals(object obj) { if (obj as IntWrapper == null) return false; return Value.Equals(((IntWrapper)obj).Value); } public override int GetHashCode() { return Value.GetHashCode(); } } public class PrimitivesTest : NumberTest { [Storable] private char c = 'e'; [Storable] private long[,] _long_array = new long[,] { { 123, 456, }, { 789, 123 } }; [Storable] public List list = new List { 1, 2, 3, 4, 5 }; [Storable] private object o = new object(); } public enum TestEnum { va1, va2, va3, va8 } ; public class RootBase { [Storable] private string baseString = " Serial "; [Storable] public TestEnum myEnum = TestEnum.va3; } public class Root : RootBase { [Storable] public Stack intStack = new Stack(); [Storable] public int[] i = new[] { 3, 4, 5, 6 }; [Storable(Name = "Test String")] public string s; [Storable] public ArrayList intArray = new ArrayList(new[] { 1, 2, 3 }); [Storable] public List intList = new List(new[] { 321, 312, 321 }); [Storable] public Custom c; [Storable] public List selfReferences; [Storable] public double[,] multiDimArray = new double[,] { { 1, 2, 3 }, { 3, 4, 5 } }; [Storable] public bool boolean = true; [Storable] public DateTime dateTime; [Storable] public KeyValuePair kvp = new KeyValuePair("Serial", 123); [Storable] public Dictionary dict = new Dictionary(); [Storable(DefaultValue = "default")] public string uninitialized; } public enum SimpleEnum { one, two, three } public enum ComplexEnum { one = 1, two = 2, three = 3 } [FlagsAttribute] public enum TrickyEnum { zero = 0, one = 1, two = 2 } public class EnumTest { [Storable] public SimpleEnum simpleEnum = SimpleEnum.one; [Storable] public ComplexEnum complexEnum = (ComplexEnum)2; [Storable] public TrickyEnum trickyEnum = (TrickyEnum)15; } public class Custom { [Storable] public int i; [Storable] public Root r; [Storable] public string name = "]]>"; } public class Manager { public DateTime lastLoadTime; [Storable] private DateTime lastLoadTimePersistence { get { return lastLoadTime; } set { lastLoadTime = DateTime.Now; } } [Storable] public double? dbl; } public class C { [Storable] public C[][] allCs; [Storable] public KeyValuePair, C> kvpList; } public class NonSerializable { int x; } [TestClass] public class UseCases { private string tempFile; [TestInitialize()] public void CreateTempFile() { tempFile = Path.GetTempFileName(); } [TestCleanup()] public void ClearTempFile() { StreamReader reader = new StreamReader(tempFile); string s = reader.ReadToEnd(); reader.Close(); File.Delete(tempFile); } [TestMethod] public void ComplexStorable() { Root r = new Root(); r.intStack.Push(1); r.intStack.Push(2); r.intStack.Push(3); r.selfReferences = new List { r, r }; r.c = new Custom { r = r }; r.dict.Add("one", 1); r.dict.Add("two", 2); r.dict.Add("three", 3); r.myEnum = TestEnum.va1; r.i = new[] { 7, 5, 6 }; r.s = "new value"; r.intArray = new ArrayList { 3, 2, 1 }; r.intList = new List { 9, 8, 7 }; r.multiDimArray = new double[,] { { 5, 4, 3 }, { 1, 4, 6 } }; r.boolean = false; r.dateTime = DateTime.Now; r.kvp = new KeyValuePair("string key", 321); r.uninitialized = null; XmlGenerator.Serialize(r, tempFile); Root newR = (Root)XmlParser.Deserialize(tempFile); Assert.AreEqual( DebugStringGenerator.Serialize(r), DebugStringGenerator.Serialize(newR)); Assert.AreSame(newR, newR.selfReferences[0]); Assert.AreNotSame(r, newR); Assert.AreEqual(r.myEnum, TestEnum.va1); Assert.AreEqual(r.i[0], 7); Assert.AreEqual(r.i[1], 5); Assert.AreEqual(r.i[2], 6); Assert.AreEqual(r.s, "new value"); Assert.AreEqual(r.intArray[0], 3); Assert.AreEqual(r.intArray[1], 2); Assert.AreEqual(r.intArray[2], 1); Assert.AreEqual(r.intList[0], 9); Assert.AreEqual(r.intList[1], 8); Assert.AreEqual(r.intList[2], 7); Assert.AreEqual(r.multiDimArray[0, 0], 5); Assert.AreEqual(r.multiDimArray[0, 1], 4); Assert.AreEqual(r.multiDimArray[0, 2], 3); Assert.AreEqual(r.multiDimArray[1, 0], 1); Assert.AreEqual(r.multiDimArray[1, 1], 4); Assert.AreEqual(r.multiDimArray[1, 2], 6); Assert.IsFalse(r.boolean); Assert.IsTrue((DateTime.Now - r.dateTime).TotalSeconds < 10); Assert.AreEqual(r.kvp.Key, "string key"); Assert.AreEqual(r.kvp.Value, 321); Assert.IsNull(r.uninitialized); Assert.AreEqual(newR.myEnum, TestEnum.va1); Assert.AreEqual(newR.i[0], 7); Assert.AreEqual(newR.i[1], 5); Assert.AreEqual(newR.i[2], 6); Assert.AreEqual(newR.s, "new value"); Assert.AreEqual(newR.intArray[0], 3); Assert.AreEqual(newR.intArray[1], 2); Assert.AreEqual(newR.intArray[2], 1); Assert.AreEqual(newR.intList[0], 9); Assert.AreEqual(newR.intList[1], 8); Assert.AreEqual(newR.intList[2], 7); Assert.AreEqual(newR.multiDimArray[0, 0], 5); Assert.AreEqual(newR.multiDimArray[0, 1], 4); Assert.AreEqual(newR.multiDimArray[0, 2], 3); Assert.AreEqual(newR.multiDimArray[1, 0], 1); Assert.AreEqual(newR.multiDimArray[1, 1], 4); Assert.AreEqual(newR.multiDimArray[1, 2], 6); Assert.AreEqual(newR.intStack.Pop(), 3); Assert.AreEqual(newR.intStack.Pop(), 2); Assert.AreEqual(newR.intStack.Pop(), 1); Assert.IsFalse(newR.boolean); Assert.IsTrue((DateTime.Now - newR.dateTime).TotalSeconds < 10); Assert.AreEqual(newR.kvp.Key, "string key"); Assert.AreEqual(newR.kvp.Value, 321); Assert.IsNull(newR.uninitialized); } [TestMethod] public void SelfReferences() { C c = new C(); C[][] cs = new C[2][]; cs[0] = new C[] { c }; cs[1] = new C[] { c }; c.allCs = cs; c.kvpList = new KeyValuePair, C>(new List { c }, c); XmlGenerator.Serialize(cs, tempFile); object o = XmlParser.Deserialize(tempFile); Assert.AreEqual( DebugStringGenerator.Serialize(cs), DebugStringGenerator.Serialize(o)); Assert.AreSame(c, c.allCs[0][0]); Assert.AreSame(c, c.allCs[1][0]); Assert.AreSame(c, c.kvpList.Key[0]); Assert.AreSame(c, c.kvpList.Value); C[][] newCs = (C[][])o; C newC = newCs[0][0]; Assert.AreSame(newC, newC.allCs[0][0]); Assert.AreSame(newC, newC.allCs[1][0]); Assert.AreSame(newC, newC.kvpList.Key[0]); Assert.AreSame(newC, newC.kvpList.Value); } [TestMethod] public void ArrayCreation() { ArrayList[] arrayListArray = new ArrayList[4]; arrayListArray[0] = new ArrayList(); arrayListArray[0].Add(arrayListArray); arrayListArray[0].Add(arrayListArray); arrayListArray[1] = new ArrayList(); arrayListArray[1].Add(arrayListArray); arrayListArray[2] = new ArrayList(); arrayListArray[2].Add(arrayListArray); arrayListArray[2].Add(arrayListArray); Array a = Array.CreateInstance( typeof(object), new[] { 1, 2 }, new[] { 3, 4 }); arrayListArray[2].Add(a); XmlGenerator.Serialize(arrayListArray, tempFile); object o = XmlParser.Deserialize(tempFile); Assert.AreEqual( DebugStringGenerator.Serialize(arrayListArray), DebugStringGenerator.Serialize(o)); ArrayList[] newArray = (ArrayList[])o; Assert.AreSame(arrayListArray, arrayListArray[0][0]); Assert.AreSame(arrayListArray, arrayListArray[2][1]); Assert.AreSame(newArray, newArray[0][0]); Assert.AreSame(newArray, newArray[2][1]); } [TestMethod] public void CustomSerializationProperty() { Manager m = new Manager(); XmlGenerator.Serialize(m, tempFile); Manager newM = (Manager)XmlParser.Deserialize(tempFile); Assert.AreNotEqual( DebugStringGenerator.Serialize(m), DebugStringGenerator.Serialize(newM)); Assert.AreEqual(m.dbl, newM.dbl); Assert.AreEqual(m.lastLoadTime, new DateTime()); Assert.AreNotEqual(newM.lastLoadTime, new DateTime()); Assert.IsTrue((DateTime.Now - newM.lastLoadTime).TotalSeconds < 10); } [TestMethod] public void Primitives() { PrimitivesTest sdt = new PrimitivesTest(); XmlGenerator.Serialize(sdt, tempFile); object o = XmlParser.Deserialize(tempFile); Assert.AreEqual( DebugStringGenerator.Serialize(sdt), DebugStringGenerator.Serialize(o)); } [TestMethod] public void MultiDimensionalArray() { string[,] mDimString = new string[,] { {"ora", "et", "labora"}, {"Beten", "und", "Arbeiten"} }; XmlGenerator.Serialize(mDimString, tempFile); object o = XmlParser.Deserialize(tempFile); Assert.AreEqual( DebugStringGenerator.Serialize(mDimString), DebugStringGenerator.Serialize(o)); } public class NestedType { [Storable] private string value = "value"; } [TestMethod] public void NestedTypeTest() { NestedType t = new NestedType(); XmlGenerator.Serialize(t, tempFile); object o = XmlParser.Deserialize(tempFile); Assert.AreEqual( DebugStringGenerator.Serialize(t), DebugStringGenerator.Serialize(o)); } [TestMethod] public void SimpleArray() { string[] strings = { "ora", "et", "labora" }; XmlGenerator.Serialize(strings, tempFile); object o = XmlParser.Deserialize(tempFile); Assert.AreEqual( DebugStringGenerator.Serialize(strings), DebugStringGenerator.Serialize(o)); } [TestMethod] public void PrimitiveRoot() { XmlGenerator.Serialize(12.3f, tempFile); object o = XmlParser.Deserialize(tempFile); Assert.AreEqual( DebugStringGenerator.Serialize(12.3f), DebugStringGenerator.Serialize(o)); } private string formatFullMemberName(MemberInfo mi) { return new StringBuilder() .Append(mi.DeclaringType.Assembly.GetName().Name) .Append(": ") .Append(mi.DeclaringType.Namespace) .Append('.') .Append(mi.DeclaringType.Name) .Append('.') .Append(mi.Name).ToString(); } [TestMethod] public void CodingConventions() { List lowerCaseMethodNames = new List(); List lowerCaseProperties = new List(); List lowerCaseFields = new List(); foreach (Assembly a in AppDomain.CurrentDomain.GetAssemblies()) { if (!a.GetName().Name.StartsWith("HeuristicLab")) continue; foreach (Type t in a.GetTypes()) { foreach (MemberInfo mi in t.GetMembers(BindingFlags.Public | BindingFlags.Instance | BindingFlags.Static)) { if (char.IsLower(mi.Name[0])) { if (mi.MemberType == MemberTypes.Field) lowerCaseFields.Add(formatFullMemberName(mi)); if (mi.MemberType == MemberTypes.Property) lowerCaseProperties.Add(formatFullMemberName(mi)); if (mi.MemberType == MemberTypes.Method && !mi.Name.StartsWith("get_") && !mi.Name.StartsWith("set_") && !mi.Name.StartsWith("add_") && !mi.Name.StartsWith("remove_")) lowerCaseMethodNames.Add(formatFullMemberName(mi)); } } } } //Assert.AreEqual("", lowerCaseFields.Aggregate("", (a, b) => a + "\r\n" + b)); Assert.AreEqual("", lowerCaseMethodNames.Aggregate("", (a, b) => a + "\r\n" + b)); Assert.AreEqual("", lowerCaseProperties.Aggregate("", (a, b) => a + "\r\n" + b)); } [TestMethod] public void Number2StringDecomposer() { NumberTest sdt = new NumberTest(); XmlGenerator.Serialize(sdt, tempFile, new Configuration(new XmlFormat(), new List { new String2XmlSerializer() }, new List { new StorableSerializer(), new Number2StringSerializer() })); object o = XmlParser.Deserialize(tempFile); Assert.AreEqual( DebugStringGenerator.Serialize(sdt), DebugStringGenerator.Serialize(o)); } [TestMethod] public void Enums() { EnumTest et = new EnumTest(); et.simpleEnum = SimpleEnum.two; et.complexEnum = ComplexEnum.three; et.trickyEnum = TrickyEnum.two | TrickyEnum.one; XmlGenerator.Serialize(et, tempFile); EnumTest newEt = (EnumTest)XmlParser.Deserialize(tempFile); Assert.AreEqual(et.simpleEnum, SimpleEnum.two); Assert.AreEqual(et.complexEnum, ComplexEnum.three); Assert.AreEqual(et.trickyEnum, (TrickyEnum)3); } [TestMethod] public void TestAliasingWithOverriddenEquals() { List ints = new List(); ints.Add(new IntWrapper(1)); ints.Add(new IntWrapper(1)); Assert.AreEqual(ints[0], ints[1]); Assert.AreNotSame(ints[0], ints[1]); XmlGenerator.Serialize(ints, tempFile); List newInts = (List)XmlParser.Deserialize(tempFile); Assert.AreEqual(newInts[0].Value, 1); Assert.AreEqual(newInts[1].Value, 1); Assert.AreEqual(newInts[0], newInts[1]); Assert.AreNotSame(newInts[0], newInts[1]); } [TestMethod] public void NonDefaultConstructorTest() { NonDefaultConstructorClass c = new NonDefaultConstructorClass(1); try { XmlGenerator.Serialize(c, tempFile); Assert.Fail("Exception not thrown"); } catch (PersistenceException) { } } [TestMethod] public void TestSavingException() { List list = new List { 1, 2, 3 }; XmlGenerator.Serialize(list, tempFile); NonSerializable s = new NonSerializable(); try { XmlGenerator.Serialize(s, tempFile); Assert.Fail("Exception expected"); } catch (PersistenceException) { } List newList = (List)XmlParser.Deserialize(tempFile); Assert.AreEqual(list[0], newList[0]); Assert.AreEqual(list[1], newList[1]); } [TestMethod] public void TestTypeStringConversion() { string name = typeof(List[]).AssemblyQualifiedName; string shortName = "System.Collections.Generic.List`1[[System.Int32, mscorlib]][], mscorlib"; Assert.AreEqual(name, TypeNameParser.Parse(name).ToString()); Assert.AreEqual(shortName, TypeNameParser.Parse(name).ToString(false)); Assert.AreEqual(shortName, typeof(List[]).VersionInvariantName()); } [TestMethod] public void TestMultipleFailure() { List l = new List(); l.Add(new NonSerializable()); l.Add(new NonSerializable()); l.Add(new NonSerializable()); try { Serializer s = new Serializer(l, ConfigurationService.Instance.GetConfiguration(new XmlFormat()), "ROOT", true); StringBuilder tokens = new StringBuilder(); foreach (var token in s) { tokens.Append(token.ToString()); } Assert.Fail("Exception expected"); } catch (PersistenceException px) { Assert.AreEqual(3, px.Data.Count); } } [TestMethod] public void TestAssemblyVersionCheck() { IntWrapper i = new IntWrapper(1); Serializer s = new Serializer(i, ConfigurationService.Instance.GetDefaultConfig(new XmlFormat())); XmlGenerator g = new XmlGenerator(); StringBuilder dataString = new StringBuilder(); foreach (var token in s) { dataString.Append(g.Format(token)); } StringBuilder typeString = new StringBuilder(); foreach (var line in g.Format(s.TypeCache)) typeString.Append(line); Deserializer d = new Deserializer(XmlParser.ParseTypeCache(new StringReader(typeString.ToString()))); XmlParser p = new XmlParser(new StringReader(dataString.ToString())); IntWrapper newI = (IntWrapper)d.Deserialize(p); Assert.AreEqual(i.Value, newI.Value); string newTypeString = Regex.Replace(typeString.ToString(), "Version=\\d+\\.\\d+\\.\\d+\\.\\d+", "Version=0.0.9999.9999"); try { d = new Deserializer(XmlParser.ParseTypeCache(new StringReader(newTypeString))); Assert.Fail("Exception expected"); } catch (PersistenceException x) { Assert.IsTrue(x.Message.Contains("incompatible")); } newTypeString = Regex.Replace(typeString.ToString(), "Version=(\\d+\\.\\d+)\\.\\d+\\.\\d+", "Version=$1.9999.9999"); try { d = new Deserializer(XmlParser.ParseTypeCache(new StringReader(newTypeString))); Assert.Fail("Exception expected"); } catch (PersistenceException x) { Assert.IsTrue(x.Message.Contains("newer")); } } [TestMethod] public void InheritanceTest() { New n = new New(); XmlGenerator.Serialize(n, tempFile); New nn = (New)XmlParser.Deserialize(tempFile); Assert.AreEqual(n.Name, nn.Name); Assert.AreEqual(((Override)n).Name, ((Override)nn).Name); } [ClassInitialize] public static void Initialize(TestContext testContext) { ConfigurationService.Instance.Reset(); } } }