public void TestGetPriority01() { MemberOp memberOP = new MemberOp(); //Test Procedure Call OperatorPriority priority = memberOP.Priority; //Post Condition Check }
public void TestCreateMemberOp01() { MemberOp memberOp = CreateMemberOp01(); Assert.IsNotNull(memberOp); #region Record State ValueRecorder recorder = new ValueRecorder(); recorder.Record((bool)memberOp.IsFunction); recorder.Record((OperatorPriority)memberOp.Priority); recorder.FinishRecording(); #endregion }
public void TestErr_EvalStaticField01() { MemberOp memberOP = new MemberOp(); Evaluator evalutor = new Evaluator(); Result[] argArray = new Result[0]; Result res1 = new Result(typeof(MytestClass)); Result res2 = new Result("m_Staticnumnr"); //argArray[0] = res1; //argArray[1] = res2; //Test Procedure Call Result res = memberOP.Eval(evalutor, argArray); //Post Condition Check }
public void TestErr_EvalStaticField05() { MemberOp memberOP = new MemberOp(); Evaluator evalutor = new Evaluator(); Result[] argArray = new Result[2]; Result res1 = new Result(typeof(MytestClass), null); Result res2 = new Result(typeof(string), "GetName"); argArray[0] = res1; argArray[1] = res2; //Test Procedure Call Result res = memberOP.Eval(evalutor, argArray); //Post Condition Check }
void ParseMember() { Token token = this.PeekToken(); if ((token != Token.Identifier) && (token != Token.LeftParen)) { throw BuildException(Error.IndentiferExpected); } MemberOp mo = new MemberOp(); _tree.AddOperator(mo); if (token == Token.LeftParen) { this.NextToken(); this._tree.Push('('); } }
public void TestErr_Eval01() { MemberOp memberOP = new MemberOp(); Evaluator evalutor = new Evaluator(); Result[] argArray = new Result[1]; MytestClass myclass = new MytestClass(); Result res1 = new Result(myclass); argArray[0] = res1; Accessor memberAccessor = ReflectionAccessor.Wrap(memberOP); memberAccessor.SetField("_isFunction", true); //Test Procedure Call Result res = memberOP.Eval(evalutor, argArray); //Post Condition Check }
public void TestEvalField01() { MemberOp memberOP = new MemberOp(); Evaluator evalutor = new Evaluator(); Result[] argArray = new Result[2]; MytestClass myclass = new MytestClass(); Result res1 = new Result(myclass); Result res2 = new Result("m_number"); argArray[0] = res1; argArray[1] = res2; //Test Procedure Call Result res = memberOP.Eval(evalutor, argArray); //Post Condition Check Assert.AreEqual(myclass.m_number, res.Value); }
public void TestErr_Eval03() { MemberOp memberOP = new MemberOp(); Evaluator evalutor = new Evaluator(); Result[] argArray = new Result[2]; Result res1 = null; Result res2 = new Result("GetName"); argArray[0] = res1; argArray[1] = res2; Accessor memberAccessor = ReflectionAccessor.Wrap(memberOP); memberAccessor.SetField("_isFunction", true); //Test Procedure Call Result res = memberOP.Eval(evalutor, argArray); //Post Condition Check }
public void TestEval02() { MemberOp memberOP = new MemberOp(); Evaluator evalutor = new Evaluator(); Result[] argArray = new Result[2]; MytestClass myclass = new MytestClass(); Result res1 = new Result(typeof(MytestClass)); Result res2 = new Result("GetStaticName"); argArray[0] = res1; argArray[1] = res2; memberOP.IsFunction = true; //Test Procedure Call Result res = memberOP.Eval(evalutor, argArray); //Post Condition Check Assert.AreEqual(MytestClass.GetStaticName(), res.Value); }
public void TestEval01() { MemberOp memberOP = new MemberOp(); memberOP.ToString(); Evaluator evalutor = new Evaluator(); Result[] argArray = new Result[2]; MytestClass myclass = new MytestClass(); Result res1 = new Result(myclass); Result res2 = new Result("GetName"); argArray[0] = res1; argArray[1] = res2; Accessor memberAccessor = ReflectionAccessor.Wrap(memberOP); memberAccessor.SetField("_isFunction", true); //Test Procedure Call Result res = memberOP.Eval(evalutor, argArray); //Post Condition Check Assert.AreEqual(myclass.GetName(), res.Value); }
public Tree Parse(string text) { _scanner = new Scanner(text); _tree = new Tree(); Token token = this.NextToken(); if (token == Token.EndOfFile) { return(_tree); } this.CheckStartableToken(token); while (token != Token.EndOfFile) { if (Parser.IsConstTocken(token)) { ParseConst(); } else if (_tree._isStart && ((token == Token.Subtract) || (token == Token.Add))) { Constant constant = new Constant((int)0); _tree.AddOperand(constant); BinaryOp bo = BinaryOp.CreateOp(token); _tree.AddOperator(bo); } else if (Parser.IsBinaryOp(token)) { ParseBinaryOp(); } else if (Parser.IsUnaryOp(token)) { ParseUnaryOp(); } else { switch (token) { case Token.Identifier: ParseIdentifier(); break; case Token.LeftIndexer: this.ParseIndexer(); break; case Token.RightIndexer: _tree.Pop('['); break; case Token.ConditionalIf: ParseConditional(); break; case Token.ConditionalSemicolon: ParseConditionalSemicolon(); break; case Token.Member: ParseMember(); break; case Token.LeftParen: if (_tree._top.Expression is MemberOp) { MemberOp memberOp = (MemberOp)_tree._top.Expression; if (memberOp.IsFunction) { throw new ParserException("()() not allowed"); } memberOp.IsFunction = true; } this._tree.Push('('); break; case Token.RightParen: _tree.Pop('('); break; case Token.Comma: this._tree.Pop(','); this._tree.Push(','); break; default: throw BuildException(Error.InternalError); } } token = this.NextToken(); } _tree.Complete(); return(_tree); }
internal static MemberOp CreateMemberOp01() { MemberOp memberOp = new MemberOp(); return(memberOp); }