public void IsArithmeticVMCommand_InputInvalidAdditionCommand_ReturnsFalse() { string vmCommand = "addition"; bool isArithmeticVMCommand = SyntaxValidator.IsArithmeticVMCommand(vmCommand); Assert.AreEqual(false, isArithmeticVMCommand); }
public void IsConvertableToInteger_InputInvalidString_ReturnsFalse() { string vmCommand = "two"; bool isConvertableToInteger = SyntaxValidator.IsConvertableToInteger(vmCommand); Assert.AreEqual(false, isConvertableToInteger); }
public void IsArithmeticVMCommand_InputRandomSymbolsAndNumbers_ReturnsFalse() { string vmCommand = "%^$&432*^%231324"; bool isArithmeticVMCommand = SyntaxValidator.IsArithmeticVMCommand(vmCommand); Assert.AreEqual(false, isArithmeticVMCommand); }
public void IsArithmeticVMCommand_InputCommandWithSpace_ReturnsFalse() { string vmCommand = " gt"; bool isArithmeticVMCommand = SyntaxValidator.IsArithmeticVMCommand(vmCommand); Assert.AreEqual(false, isArithmeticVMCommand); }
public void IsMemoryAccessVMCommand_InputValidPopStaticCommand_ReturnsTrue() { string vmCommand = "pop static 200"; bool isMemoryAccessVMCommand = SyntaxValidator.IsMemoryAccessVMCommand(vmCommand); Assert.AreEqual(true, isMemoryAccessVMCommand); }
public void IsMemoryAccessVMCommand_InputValidPushConstantCommand_ReturnsTrue() { string vmCommand = "push constant 909"; bool isMemoryAccessVMCommand = SyntaxValidator.IsMemoryAccessVMCommand(vmCommand); Assert.AreEqual(true, isMemoryAccessVMCommand); }
public void IsMemoryAccessVMCommand_InputInvalidPopConstantCommand_ReturnsFalse() { string vmCommand = "pop constant 200"; bool isMemoryAccessVMCommand = SyntaxValidator.IsMemoryAccessVMCommand(vmCommand); Assert.AreEqual(false, isMemoryAccessVMCommand); }
public void IsMemoryAccessVMCommand_InputInvalidPushCommand_ReturnsFalse() { string vmCommand = "push stack 245"; bool isMemoryAccessVMCommand = SyntaxValidator.IsMemoryAccessVMCommand(vmCommand); Assert.AreEqual(false, isMemoryAccessVMCommand); }
public void IsArithmeticVMCommand_InputAddCommand_ReturnsTrue() { string vmCommand = "add"; bool isArithmeticVMCommand = SyntaxValidator.IsArithmeticVMCommand(vmCommand); Assert.AreEqual(true, isArithmeticVMCommand); }
public void IsConvertableToInteger_InputValidString_ReturnsTrue() { string vmCommand = "2345"; bool isConvertableToInteger = SyntaxValidator.IsConvertableToInteger(vmCommand); Assert.AreEqual(true, isConvertableToInteger); }
public void IsMemoryAccessVMCommand_InputPushTempCommandWithoutValue_ReturnsFalse() { string vmCommand = "push temp"; bool isMemoryAccessVMCommand = SyntaxValidator.IsMemoryAccessVMCommand(vmCommand); Assert.AreEqual(false, isMemoryAccessVMCommand); }
private void SyntaxCheck(object sender, RoutedEventArgs e) { Button_Click(sender, e); var validator = new SyntaxValidator(_parsingResult); try { validator.CheckStatement(); }catch (Exception exception) { MessageBox.Show(exception.Message, "Error occured", MessageBoxButton.OK, MessageBoxImage.Error); } }
/// <summary> /// Validates the specified TOML document. /// </summary> /// <param name="doc">The TOML document to validate</param> /// <returns>The same instance as the parameter. Check <see cref="DocumentSyntax.HasErrors"/> and <see cref="DocumentSyntax.Diagnostics"/> for details.</returns> public static DocumentSyntax Validate(DocumentSyntax doc) { if (doc == null) { throw new ArgumentNullException(nameof(doc)); } if (doc.HasErrors) { return(doc); } var validator = new SyntaxValidator(doc.Diagnostics); validator.Visit(doc); return(doc); }
public static void Main() { var language = Languages.Pascal; var filePath = "pascalDefinition.xml"; language.Save(filePath); var loadedLanguage = Language.Load(filePath); Console.WriteLine($"Check if serialized and stored languages are equal: {language.Equals(loadedLanguage)}"); var file = @"TestData\test_code.pas"; var fsm = new StateMachine(filePath); var result = fsm.Process(file); var validator = new SyntaxValidator(result); validator.CheckStatement(); Console.ReadLine(); }
public void IsAddressInstruction_InputInvalidAddressInstruction_ReturnFalse() { bool isAddressInstruction = SyntaxValidator.IsAddressInstruction("@InvalidAddressInstruction"); Assert.AreEqual(false, isAddressInstruction); }
public void IsAddressInstructionWithSymbol_InputValidAddressInstructionWithSymbol_ReturnTrue() { bool isAddressInstructionWithLabel = SyntaxValidator.IsAddressInstructionWithSymbol("@R0"); Assert.AreEqual(true, isAddressInstructionWithLabel); }
public void IsAddressInstructionWithSymbol_InputAddressInstructionWithSymbolAndRightWhitespacePadding_ReturnFalse() { bool isAddressInstructionWithLabel = SyntaxValidator.IsAddressInstructionWithSymbol("@R0 "); Assert.AreEqual(false, isAddressInstructionWithLabel); }
public void IsAddressInstructionWithSymbol_InputInvalidAddressInstructionWithSymbol_ReturnFalse() { bool isAddressInstructionWithLabel = SyntaxValidator.IsAddressInstructionWithSymbol("@1InvalidLabel"); Assert.AreEqual(false, isAddressInstructionWithLabel); }
public void IsComputationInstruction_InputValidComputationInstruction_ReturnTrue() { bool isComputationInstrucation = SyntaxValidator.IsComputationInstruction("D=D+M"); Assert.AreEqual(true, isComputationInstrucation); }
public void IsComputationInstruction_InputInvalidComputationInstruction_ReturnFalse() { bool isComputationInstrucation = SyntaxValidator.IsComputationInstruction("D=SCREEN"); Assert.AreEqual(false, isComputationInstrucation); }
public void IsLabel_InputValidLabel_ReturnTrue() { bool isLabel = SyntaxValidator.IsLabel("(TESTLABEL)"); Assert.AreEqual(true, isLabel); }
public void IsAddressInstruction_InputValidAddressInstruction_ReturnTrue() { bool isAddressInstruction = SyntaxValidator.IsAddressInstruction("@1234"); Assert.AreEqual(true, isAddressInstruction); }
public void IsLabel_InputInvalidLabel_ReturnFalse() { bool isLabel = SyntaxValidator.IsLabel("D=D+1"); Assert.AreEqual(false, isLabel); }
public void IsAddressInstruction_InputAddressInstructionWithRightWhitespacePadding_ReturnFalse() { bool isAddressInstruction = SyntaxValidator.IsAddressInstruction("@1234 "); Assert.AreEqual(false, isAddressInstruction); }