public void TestCStyleArrayBadIndexName() { // Simple set of types for an index array var vArray = new ItemCStyleArray("int[]", new ItemSimpleType("arr", "int")); vArray.Add(0, "i", false); var vIndex = new ItemSimpleType("n", "int"); FileInfo proxyFile = new FileInfo("TestCStyleArray.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("TestSimpleRename") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(vIndex); mainClass.Add(vArray); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "ungrouped", Variables = new VariableInfo[] { new VariableInfo() { NETName = "n", TTreeName = "n" }, new VariableInfo() { NETName = "arr", TTreeName = "arr"} } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("TestCStyleArray.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "TestSimpleRename", userinfo } }); }
public void TestDuplicateClassNames() { var vIndex = new ItemSimpleType("n", "int"); FileInfo proxyFile = new FileInfo("TestCStyleArray.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("TestSimpleRename") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(vIndex); ROOTClassShell mainClass1 = new ROOTClassShell("TestSimpleRename") { NtupleProxyPath = proxyFile.FullName }; mainClass1.Add(vIndex); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass, mainClass1 }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "ungrouped", Variables = new VariableInfo[] { new VariableInfo() { NETName = "n", TTreeName = "n" }, } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("TestDuplicateClassNames.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "TestDuplicateClassNames", userinfo } }); }
public void TestRenamedIndex() { /// Create simple user info - but don't do anything with it! ItemSimpleType simpleIndex = new ItemSimpleType("index", "int[]"); ItemSimpleType simpleVal = new ItemSimpleType("var1", "float[]"); FileInfo proxyFile = new FileInfo("TestRenamedIndex.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("TestRenamedIndex") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(simpleIndex); mainClass.Add(simpleVal); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "jets", Variables = new VariableInfo[] { new VariableInfo() { NETName = "muons", TTreeName = "index", IndexToGroup="muons" } } }, new ArrayGroup() { Name = "muons", Variables = new VariableInfo[] { new VariableInfo() { NETName = "var1", TTreeName = "var1"} } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("TestRenamedIndex.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "TestRenamedIndex", userinfo } }); DumpOutputFile(outputFile); /// Look through this to see if we can make sure there are no renames! Assert.IsTrue(FindInFile(outputFile, "TTreeVariableGrouping"), "Missing TTreeVariableGrouping"); Assert.IsTrue(FindInFile(outputFile, "jets"), "missing a reference to jets"); Assert.IsTrue(FindInFile(outputFile, "muons"), "missing a reference to jets"); Assert.IsTrue(FindInFile(outputFile, "IndexToOtherObjectArray(typeof("), "Missing IndexToOtherObject"); Assert.IsTrue(FindInFile(outputFile, "TestRenamedIndexmuons muons"), "Muon reference is imporper"); Assert.IsTrue(FindInFile(outputFile, "float var1"), "var1 missing"); Assert.IsFalse(FindInFile(outputFile, "ungrouped"), "group found"); }
public void TestConstCStyleArray() { // Simple set of types for an index array var vArray = new ItemCStyleArray("int[]", new ItemSimpleType("arr", "int")); vArray.Add(0, "10", true); var vIndex = new ItemSimpleType("n", "int"); FileInfo proxyFile = new FileInfo("TestConstCStyleArray.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("TestSimpleRename") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(vIndex); mainClass.Add(vArray); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "ungrouped", Variables = new VariableInfo[] { new VariableInfo() { NETName = "n", TTreeName = "n" }, new VariableInfo() { NETName = "arr", TTreeName = "arr"} } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("TestConstCStyleArray.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "TestSimpleRename", userinfo } }); CopyToOutput(outputFile); /// Look through this to see if we can make sure there are no renames! Assert.IsTrue(FindInFile(outputFile, "int[] arr"), "Array Decl missing"); Assert.IsTrue(FindInFile(outputFile, "int n"), "Index decl missing"); Assert.IsTrue(FindInFile(outputFile, "[ArraySizeIndex(\"10\", IsConstantExpression = true, Index = 0)]"), "Missing array size index attribute"); }
public void TestSimpleGroupWithCustomClassName() { /// Create simple user info - but don't do anything with it! ItemSimpleType simple = new ItemSimpleType("var1", "int[]"); FileInfo proxyFile = new FileInfo("TestSimpleGroupAndRename.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("TestSimpleGroupAndRename") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(simple); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "jets", ClassName = "Jet", Variables = new VariableInfo[] { new VariableInfo() { NETName = "myvar", TTreeName = "var1" } } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("TestSimpleGroupAndRename.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "TestSimpleGroupAndRename", userinfo } }); DumpOutputFile(outputFile); /// Look through this to see if we can make sure there are no renames! Assert.IsTrue(FindInFile(outputFile, "RenameVariable(\"var1\")"), "Rename missing!"); Assert.IsTrue(FindInFile(outputFile, "TTreeVariableGrouping"), "Missing TTreeVariableGrouping"); Assert.IsTrue(FindInFile(outputFile, "jets"), "missing a reference to jets"); Assert.IsTrue(FindInFile(outputFile, "int myvar"), "myvar missing"); Assert.IsTrue(FindInFile(outputFile, "int[] var1"), "val1 missing"); Assert.IsFalse(FindInFile(outputFile, "ungrouped"), "group found"); Assert.IsFalse(FindInFile(outputFile, "TestSimpleGroupAndRenamejets"), "Found the non-class name default class name"); Assert.IsTrue(FindInFile(outputFile, "Jet"), "Did not find the Jet custom class name"); }
public void TestNonIntIndex() { /// Create simple user info - but don't do anything with it! ItemSimpleType simpleIndex = new ItemSimpleType("index", "float[]"); ItemSimpleType simpleVal = new ItemSimpleType("var1", "float[]"); FileInfo proxyFile = new FileInfo("TestNonIntIndex.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("TestNonIntIndex") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(simpleIndex); mainClass.Add(simpleVal); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "jets", Variables = new VariableInfo[] { new VariableInfo() { NETName = "index", TTreeName = "index", IndexToGroup="muons" } } }, new ArrayGroup() { Name = "muons", Variables = new VariableInfo[] { new VariableInfo() { NETName = "var1", TTreeName = "var1"} } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("TestNonIntIndex.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "TestNonIntIndex", userinfo } }); }
public void TestCharactersInClassName() { ItemSimpleType simple = new ItemSimpleType("fork", "int"); FileInfo proxyFile = new FileInfo("TestColonsInVarName.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("##Shapes") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(simple); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "jets", Variables = new VariableInfo[] { new VariableInfo() { NETName = "fork", TTreeName = "fork" } } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("TestCharactersInClassName.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "TestSimpleGroupAndRename", userinfo } }); DumpOutputFile(outputFile); Assert.AreEqual(3, CountInFile(outputFile, "##Shapes"), "Missing reference ot the shapes object"); }
public void TestColonsInVarName() { ItemSimpleType simple = new ItemSimpleType("dude::fork", "int[]"); FileInfo proxyFile = new FileInfo("TestColonsInVarName.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("TestSimpleGroupAndRename") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(simple); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "jets", Variables = new VariableInfo[] { new VariableInfo() { NETName = "dude::fork", TTreeName = "dude::fork" } } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("TestSimpleGroupAndRename.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "TestSimpleGroupAndRename", userinfo } }); DumpOutputFile(outputFile); /// Look through this to see if we can make sure there are no renames! Assert.IsFalse(FindInFile(outputFile, "dude::fork"), "Saw the double colon!!"); Assert.IsTrue(FindInFile(outputFile, "dude__fork"), "Missing the variable!!"); }
public void GroupWithArrayLengthSpecification() { ItemSimpleType simple1 = new ItemSimpleType("avar", "int[]"); ItemSimpleType simple2 = new ItemSimpleType("bvar", "int[]"); FileInfo proxyFile = new FileInfo("TestColonsInVarNameWRename.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("GroupWithArrayLengthSpecification") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(simple1); mainClass.Add(simple2); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "jets", NETNameOfVariableToUseAsArrayLength ="b", Variables = new VariableInfo[] { new VariableInfo() { NETName = "a", TTreeName = "avar" }, new VariableInfo() { NETName = "b", TTreeName = "bvar" }, } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("GroupWithArrayLengthSpecification.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "GroupWithArrayLengthSpecification", userinfo } }); DumpOutputFile(outputFile); /// Look through this to see if we can make sure there are no renames! Assert.IsTrue(FindInFile(outputFile, "UseAsArrayLength"), "Missing the UseAsArrayLength attribute!!"); }
public void TestNoGroups() { /// Create simple user info - but don't do anything with it! ItemSimpleType simple = new ItemSimpleType("var1", "int[]"); Assert.IsFalse(simple.NotAPointer, "not a pointer"); FileInfo proxyFile = new FileInfo("TestNoGroupsProxy.cpp"); using (var writer = proxyFile.CreateText()) { writer.WriteLine(); writer.Close(); } ROOTClassShell mainClass = new ROOTClassShell("TestSimpleRename") { NtupleProxyPath = proxyFile.FullName }; mainClass.Add(simple); var ntup = new NtupleTreeInfo() { Classes = new ROOTClassShell[] { mainClass }, ClassImplimintationFiles = new string[0] }; var userinfo = new TTreeUserInfo() { Groups = new ArrayGroup[] { new ArrayGroup() { Name = "ungrouped", Variables = new VariableInfo[] { new VariableInfo() { NETName = "var1", TTreeName = "var1" } } } } }; var cg = new ClassGenerator(); var outputFile = new FileInfo("TestNoGroups.cs"); cg.GenerateClasss(ntup, outputFile, "junk", new Dictionary<string, TTreeUserInfo>() { { "TestSimpleRename", userinfo } }); /// Look through this to see if we can make sure there are no renames! Assert.IsFalse(FindInFile(outputFile, "RenameVariable"), "We saw a rename!"); Assert.IsFalse(FindInFile(outputFile, "ungrouped"), "group found"); }
/// <summary> /// Write out the user info file. This file contains things like group names, etc., that the user /// might want to change. Do not destroy the old one. Rather, move it out of the way! /// </summary> /// <param name="groupInfo"></param> /// <returns></returns> private FileInfo WriteUserInfo(List<ArrayGroup> groupInfo, string treeName) { /// /// First job is to figure out where we will put the file. If there is one there already, then /// we chose a new filename. :-) /// FileInfo userInfoFile = null; int index = 0; do { userInfoFile = new FileInfo(ProxyGenerationLocation.FullName + "\\" + treeName + "Config-" + index.ToString("000") + ".ntup"); index = index + 1; } while (userInfoFile.Exists); /// /// Write out the info. /// using (var writer = userInfoFile.CreateText()) { XmlSerializer output = new XmlSerializer(typeof(TTreeUserInfo)); var userInfo = new TTreeUserInfo() { Groups = groupInfo.ToArray() }; output.Serialize(writer, userInfo); writer.Close(); } return userInfoFile; }