public override string dump(string prefix) { string pfx1 = prefix + PrettyPrinter.Spacer; StringBuilder builder = new StringBuilder(); builder.AppendLine("[NotificationStream " + (zeroOne == 0 ? "Tuple01" : "SubStream") + "]"); PrettyPrinter.Print(builder, pfx1, notice); return(builder.ToString()); }
public override string dump(string prefix) { string pfx1 = prefix + PrettyPrinter.Spacer; StringBuilder builder = new StringBuilder(); builder.AppendLine("ErrorResponse: msgType=" + causingMessageType + " code=" + errorCode); PrettyPrinter.Print(builder, pfx1, errorPayload); return(builder.ToString()); }
public override string dump(string prefix) { string pfx1 = prefix + PrettyPrinter.Spacer; StringBuilder builder = new StringBuilder(); builder.AppendLine("[CallRsp " + (subStream ? "PySubStream" : "PyTuple") + "]"); PrettyPrinter.Print(builder, pfx1, response); return(builder.ToString()); }
private void button1_Click(object sender, EventArgs e) { if (txtInput.Text.Length == 0) { txtOutput.Text = ""; return; } string hex = txtInput.Text.Replace(" ", "").Replace(System.Environment.NewLine, ""); try { //txtOutput.Text = hex; byte[] raw = new Byte[hex.Length / 2]; for (int i = 0; i < raw.Length; i++) { raw[i] = Convert.ToByte(hex.Substring(i * 2, 2), 16); } Console.WriteLine(raw.Length + ", " + hex.Length); Unmarshal un = new Unmarshal(); //un.DebugMode = true; //PyObject obj = un.Process(BinaryReader.); PyRep obj = un.Process(raw); PrettyPrinter pp = new PrettyPrinter(); txtOutput.Text = pp.Print(obj); } catch { hex = txtInput.Text.Substring(8, txtInput.Text.Length - 8).Replace(" ", "").Replace(System.Environment.NewLine, ""); byte[] raw = new Byte[hex.Length / 2]; for (int i = 0; i < raw.Length; i++) { raw[i] = Convert.ToByte(hex.Substring(i * 2, 2), 16); } Console.WriteLine(raw.Length + ", " + hex.Length); Unmarshal un = new Unmarshal(); un.DebugMode = true; // un.DebugMode = true; //PyObject obj = un.Process(BinaryReader.); PyRep obj = un.Process(raw); PrettyPrinter pp = new PrettyPrinter(); txtOutput.Text = pp.Print(obj); } /* * //txtOutput.Text = hex; * byte[] raw = new Byte[hex.Length / 2]; * for (int i = 0; i < raw.Length; i++) { * raw[i] = Convert.ToByte(hex.Substring(i * 2, 2), 16); * } * Console.WriteLine(raw.Length+", "+hex.Length); * Unmarshal un = new Unmarshal(); * // un.DebugMode = true; * //PyObject obj = un.Process(BinaryReader.); * PyObject obj = un.Process(raw); * txtOutput.Text = PrettyPrinter.Print(obj); */ }
public void EscapeString() { string origin = "\"\\\r\n"; var printer = new PrettyPrinter { Escape = true }; Assert.AreEqual("\\\"\\\\", printer.Print(origin)); }
public override string ToString() { StringBuilder sb = new StringBuilder(); foreach (Statement s in Statements) { sb.AppendLine(PrettyPrinter.Print(s)); } return(sb.ToString()); }
public void ReduceWhitespaces() { string origin = " a = b "; var printer = new PrettyPrinter { Trim = true, ReduceWhitespaces = true }; Assert.AreEqual("a = b", printer.Print(origin)); }
public void Primitives() { // Arrange var json = JsonDocument.Parse("[\"a\", 2, true, false, null]"); // Act var result = PrettyPrinter.Print(json); // Assert result.Should().Be("[ \"a\", 2, true, false, null ]"); }
public void JsonEscape() { // Arrange var json = JsonDocument.Parse("[\"\\\"a\", \"\\\"b\"]"); // Act var result = PrettyPrinter.Print(json); // Assert result.Should().Be("[ \"\\\"a\", \"\\\"b\" ]"); }
public void BasicObject() { // Arrange var json = JsonDocument.Parse("{\"a\": 2}"); // Act var result = PrettyPrinter.Print(json); // Assert result.Should().Be("{ \"a\": 2 }"); }
public void BasicArray() { // Arrange var json = JsonDocument.Parse("[\"a\", 2]"); // Act var result = PrettyPrinter.Print(json); // Assert result.Should().Be("[ \"a\", 2 ]"); }
public void TestPrettyPrintException() { try { ThrowStuff(); } catch (Exception e) { _outputHelper.WriteLine(PrettyPrinter.Print(e)); } }
public void PrettyPrintMessages() { var printer = new PrettyPrinter() { MaxMessageLength = 32 }; string origin = "The sample of very long message."; string actual = printer.Print(origin); Assert.AreEqual(origin, actual); printer = new PrettyPrinter { MaxMessageLength = 30, CutWords = true }; actual = printer.Print(origin); Assert.AreEqual(30, actual.Length); Assert.AreEqual("The sample of v ... g message.", actual); printer = new PrettyPrinter { MaxMessageLength = 30, CutWords = false }; actual = printer.Print(origin); Assert.AreEqual("The sample of ... message.", actual); printer = new PrettyPrinter { Trim = false, MaxMessageLength = 10, CutWords = false }; Assert.AreEqual(" ... ", printer.Print(" ")); origin = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"; printer = new PrettyPrinter { MaxMessageLength = 20, CutWords = false }; Assert.AreEqual("aaaaaaaaaa ... aaaaa", printer.Print(origin)); origin = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaa"; printer = new PrettyPrinter { MaxMessageLength = 20, StartRatio = 1.0, CutWords = false }; Assert.AreEqual("aaaaaaaaaaaaaaaaaaaa ... ", printer.Print(origin)); }
public void TestPrettyPrintSelfReferencingException() { try { var o = new Exception("foo"); o.Data.Add("Self", o); throw o; } catch (Exception e) { _outputHelper.WriteLine(PrettyPrinter.Print(e)); } }
private void RenderNode(Ust ust) { int index = currentIndex; string typeName = graphTooltipPrinter.Print(ust.GetType().Name); string labelName, tooltip; if (ust is ArgsUst || ust is BlockStatement || ust is ExpressionStatement || ust is ConditionalExpression) { labelName = typeName; tooltip = graphTooltipPrinter.Print(ust.ToString()); } else { labelName = graphNodePrinter.Print(ust.ToString()); tooltip = typeName; } vertexesString.Append($@"{index} [label=""{labelName}"""); vertexesString.Append($@", tooltip=""{tooltip}"""); /*if (ust is Token) * { * vertexesString.Append(", fillcolor=khaki, style=filled"); * } * else if (ust is Expression) * { * vertexesString.Append(", fillcolor=rosybrown1, style=filled"); * } * else if (ust is Statement) * { * vertexesString.Append(", fillcolor=skyblue1, style=filled"); * } * else if (ust is ArgsUst) * { * vertexesString.Append(", fillcolor=palegreen, style=filled"); * }*/ vertexesString.AppendLine("];"); foreach (Ust child in ust.Children) { if (child != null) { currentIndex++; edgesString.AppendEdge(index, currentIndex); RenderNode(child); } } }
static void Main(string[] args) { if (args.Length < 1) { PrettyPrinter.Print("Use `help` to list all available commands"); IsInteractive = true; LaunchInteractive(); } else { IsInteractive = false; ExecuteCommandArgument(args); } }
public void ObjectKeepIndentation() { // Arrange var json = JsonDocument.Parse("{\"a\": 1000, \"b\": 2000, \"c\": 3000}"); // Act var result = PrettyPrinter.Print( json, new PrettyPrinterOptions(new KeepIndentationOption(), 10)); // Assert result.Should().Be(@"{ ""a"": 1000, ""b"": 2000, ""c"": 3000 }".Replace("\n", Environment.NewLine)); }
public override string dump(string prefix) { string pfx1 = prefix + PrettyPrinter.Spacer; StringBuilder builder = new StringBuilder(); builder.AppendLine("[BuiltinSet]" + PrettyPrinter.PrintRawData(this)); foreach (var item in values) { PrettyPrinter.Print(builder, pfx1, item); } if (values.Items.Count == 0) { builder.AppendLine(pfx1 + "<Empty List>"); } return(builder.ToString()); }
public void MildlyComplexKeepIndentation() { // Arrange string jsonStr = CreateComplexJson(); var json = JsonDocument.Parse(jsonStr); // Act var result = PrettyPrinter.Print(json); // Assert result.Should().Be(@"{ ""age"": 20, ""name"": ""John"", ""address"": { ""street"": ""Main"", ""number"": 20, ""city"": ""Smallville"" }, ""array"": [ 1000, 2000, 3000, 4000, 5000, 6000, 7000, 8000, 9000, 10000 ] }" .Replace("\n", Environment.NewLine)); }
public override string dump(string prefix) { string pfx1 = prefix + PrettyPrinter.Spacer; string pfx2 = pfx1 + PrettyPrinter.Spacer; string pfx3 = pfx2 + PrettyPrinter.Spacer + PrettyPrinter.Spacer; StringBuilder builder = new StringBuilder(); builder.AppendLine("[CRowSet]" + PrettyPrinter.PrintRawData(this)); builder.AppendLine(pfx1 + descriptor.dump(pfx1).TrimEnd('\r', '\n')); builder.AppendLine(pfx1 + "Rows:"); foreach (var item in rows) { PrettyPrinter.Print(builder, pfx2, item); } return(builder.ToString()); }
public void TestPrettyPrintObjectWithException() { try { ThrowStuff(); } catch (Exception e) { _outputHelper.WriteLine(PrettyPrinter.Print(new { Name = "foo", Age = 42, Error = e })); } }
public static void Main(string[] args) { if (args.Length > 0) { Stream stream = File.OpenRead(args[0]); /* The default entry point is used. For other options see class Parser */ Scanner scanner = Scanner.CreateScanner(stream); Parser parser = new Parser(scanner); // Uncomment to enable trace information: // parser.Trace shows what the parser is doing // parser.Trace = true; // scanner.Trace prints the tokens as they are parsed, one token per line // scanner.Trace = true; // parser.scanner = scanner; try { OCLfile parse_tree = parser.ParseOCLfile(); if (parse_tree != null) { Console.Out.WriteLine("Parse Successful!"); Console.Out.WriteLine(""); Console.Out.WriteLine("[Abstract Syntax]"); Console.Out.WriteLine("{0}", PrettyPrinter.Show(parse_tree)); Console.Out.WriteLine(""); Console.Out.WriteLine("[Linearized Tree]"); Console.Out.WriteLine("{0}", PrettyPrinter.Print(parse_tree)); } else { Console.Out.WriteLine("Parse NOT Successful!"); } } catch (Exception e) { Console.Out.WriteLine("Parse NOT Successful:"); Console.Out.WriteLine(e.Message); Console.Out.WriteLine(""); Console.Out.WriteLine("Stack Trace:"); Console.Out.WriteLine(e.StackTrace); } } else { Console.Out.WriteLine("You must specify a filename!"); } }
public void ArrayKeepIndentation() { // Arrange var json = JsonDocument.Parse("[100, 200, 300, 400, 500]"); // Act var result = PrettyPrinter.Print( json, new PrettyPrinterOptions(new KeepIndentationOption(), 10)); // Assert result.Should().Be(@"[ 100, 200, 300, 400, 500 ]".Replace("\n", Environment.NewLine)); }
public override string dump(string prefix) { string pfx1 = prefix + PrettyPrinter.Spacer; string pfx2 = pfx1 + PrettyPrinter.Spacer; StringBuilder builder = new StringBuilder(); builder.AppendLine("[CIndexedRowSet]" + PrettyPrinter.PrintRawData(this)); builder.AppendLine(pfx1 + "index: " + columnName); builder.AppendLine(pfx1 + descriptor.dump(pfx1).TrimEnd('\r', '\n')); builder.AppendLine(pfx1 + "Rows:"); foreach (var item in rows) { PrettyPrinter.Print(builder, pfx2 + "Key:", item.Key); PrettyPrinter.Print(builder, pfx2, item.Value); } return(builder.ToString()); }
// We dont need to encode it, just decode as this is only sent by the client public bool Decode(PyObject data) { if (data.Type != PyObjectType.Tuple) { Log.Error("PlaceboRequest", "Wrong type"); return(false); } PyTuple tmp = data.As <PyTuple>(); if (tmp.Items.Count != 2) { Log.Error("PlaceboRequest", "Wrong item count, expected 2 but got " + tmp.Items.Count); return(false); } if (tmp.Items[0].Type != PyObjectType.String) { Log.Error("PlaceboRequest", "Wrong item 1 type"); return(false); } if (tmp.Items[1].Type != PyObjectType.Dict) { Log.Error("PlaceboRequest", "Wrong item 2 type"); return(false); } PyString command = tmp.Items[0].As <PyString>(); if (command.Value != "placebo") { Log.Error("PlaceboRequest", "Wrong value for command, expected \"" + request + "\", but got \"" + command.Value + "\""); return(false); } PyDict args = tmp.Items[1].As <PyDict>(); if (args.Dictionary.Count != 0) { Log.Warning("PlaceboRequest", "PlaceboRequest arguments are not supported yet"); Log.Warning("PlaceboRequest", PrettyPrinter.Print(args)); } return(true); }
//constants //custom body //methods //equals trait //hash code trait //pretty print public override void Print(PrettyPrinter printer) { printer.Println("SummonerModel ("); using (printer.IndentCookie()) { printer.Print("myString = "); _MyString.PrintEx(printer); printer.Println(); printer.Print("myBool = "); _MyBool.PrintEx(printer); printer.Println(); printer.Print("myEnum = "); _MyEnum.PrintEx(printer); printer.Println(); printer.Print("data = "); _Data.PrintEx(printer); printer.Println(); printer.Print("myStructure = "); _MyStructure.PrintEx(printer); printer.Println(); } printer.Print(")"); }
//custom body //equals trait //hash code trait //pretty print public override void Print(PrettyPrinter printer) { printer.Println("UnitTestLaunch ("); using (printer.IndentCookie()) { printer.Print("testNames = "); TestNames.PrintEx(printer); printer.Println(); printer.Print("testGroups = "); TestGroups.PrintEx(printer); printer.Println(); printer.Print("testCategories = "); TestCategories.PrintEx(printer); printer.Println(); printer.Print("testResult = "); _TestResult.PrintEx(printer); printer.Println(); printer.Print("runResult = "); _RunResult.PrintEx(printer); printer.Println(); } printer.Print(")"); }
public void PrintTypeCtorDef(TextWriter writer) { writer.WriteLine($"{nameof(TypeCtorMap)} size: {TypeCtorMap.Count}"); foreach (var pair in TypeCtorMap) { var adt = pair.Value; writer.WriteLine($"type constructor {pair.Key}, type:{adt.GetType()},kind:{PrettyPrinter.Print(adt.Kind)}"); for (var i = 0; i < adt.CtorNmLst.Length; i++) { writer.Write($" {adt.CtorNmLst[i]} :: "); writer.WriteLine($"{PrettyPrinter.Print(adt.CtorTyLst[i])}"); } if (adt.CtorNmLst.Length == 0) { writer.WriteLine(" no value constructor"); } } }
public void TestPrettyPrintDeepObject() { var fixture = new Fixture(); fixture.Customizations.Add(new TypeRelay(typeof(IEnumerable), typeof(ArrayList))); fixture.Behaviors.OfType <ThrowingRecursionBehavior>() .ToList() .ForEach(b => fixture.Behaviors.Remove(b)); fixture.Behaviors.Add(new GenerationDepthBehavior(2)); var deepObject = fixture.Build <DeepObject>() .WithAutoProperties() .With(p => p.EnumerableOfSomething, fixture.Create <List <decimal> >()) .Create(); _outputHelper.WriteLine(PrettyPrinter.Print(deepObject)); }
private void listBox1_SelectedIndexChanged(object sender, EventArgs e) { if (listBox1.SelectedItem == null) { richTextBox2.Text = ""; return; } if (Cache.UpdateCache(listBox1.SelectedItem.ToString()) == false) { WindowLog.Error("Main::LoadCache", "Error loading cache"); return; } PyObject cache = Cache.GetCache(listBox1.SelectedItem.ToString()); PyCachedObject obj = new PyCachedObject(); if (obj.Decode(cache) == false) { WindowLog.Error("Main::LoadCache", "Cannot decode the cache data"); return; } if (Program.cacheDataDisplayMode == "Pretty") { try { richTextBox2.Text = PrettyPrinter.Print(Unmarshal.Process <PyObject>(obj.cache.Data)); } catch (Exception) { WindowLog.Error("Main::LoadCache", "Cannot Unmarshal the cache data"); richTextBox2.Text = "Error"; } } else { richTextBox2.Text = ByteToString(obj.cache.Data); } WindowLog.Debug("Main::LoadCache", "Cache loaded"); }