protected override object EvalExpression(ParseTree tree, params object[] paramlist)
        {
            // if only left hand side available, this is not an assignment, simple evaluate expression
            if (nodes.Count == 1)
            {
                return(this.GetValue(tree, TokenType.AssignmentExpression, 0)); // return the result
            }
            if (nodes.Count != 3)
            {
                tree.Errors.Add(new ParseError("Illegal EvalExpression format", 1092, this));
                return(null);
            }

            // ok, this is an assignment so declare the function or variable
            // assignment only allowed to function or to a variable
            ParseNode v = GetFunctionOrVariable(nodes[0]);

            if (v == null)
            {
                tree.Errors.Add(new ParseError("Can only assign to function or variable", 1020, this));
                return(null);
            }

            ParseTreeEvaluator root = tree as ParseTreeEvaluator;

            if (root == null)
            {
                tree.Errors.Add(new ParseError("Invalid parser used", 1040, this));
                return(null);
            }

            if (root.Context == null)
            {
                tree.Errors.Add(new ParseError("No context defined", 1041, this));
                return(null);
            }

            if (v.Token.Type == TokenType.VARIABLE)
            {
                // simply overwrite any previous defnition
                string key = v.Token.Text;
                root.Context.Globals[key] = this.GetValue(tree, TokenType.AssignmentExpression, 1);
                return(null);
            }
            else if (v.Token.Type == TokenType.Function)
            {
                string key = v.Nodes[0].Token.Text;

                // function lookup is case insensitive
                if (root.Context.Functions.ContainsKey(key.ToLower()))
                {
                    if (!(root.Context.Functions[key.ToLower()] is DynamicFunction))
                    {
                        tree.Errors.Add(new ParseError("Built in functions cannot be overwritten", 1050, this));
                        return(null);
                    }
                }

                // lets determine the input variables.
                // functions must be of te form f(x;y;z) = x+y*z;
                // check the function parameters to be of type Variable, error otherwise
                Variables vars       = new Variables();
                ParseNode paramsNode = v.Nodes[2];
                if (paramsNode.Token.Type == TokenType.Params)
                {       // function has parameters, so check if they are all variable declarations
                    for (int i = 0; i < paramsNode.Nodes.Count; i += 2)
                    {
                        ParseNode varNode = GetFunctionOrVariable(paramsNode.Nodes[i]);
                        if (varNode == null || varNode.Token.Type != TokenType.VARIABLE)
                        {
                            tree.Errors.Add(new ParseError("Function declaration may only contain variables", 1051, this));
                            return(null);
                        }
                        // simply declare the variable, no need to evaluate the value of it at this point.
                        // evaluation will be done when the function is executed
                        // note, variables are Case Sensitive (!)
                        vars.Add(varNode.Token.Text, null);
                    }
                }
                // we have all the info we need to know to declare the dynamicly defined function
                // pass on nodes[2] which is the Right Hand Side (RHS) of the assignment
                // nodes[2] will be evaluated at runtime when the function is executed.
                DynamicFunction dynf = new DynamicFunction(key, nodes[2], vars, vars.Count, vars.Count);
                root.Context.Functions[key.ToLower()] = dynf;
                return(null);
            }



            // in an assignment, dont return any result (basically void)
            return(null);
        }
 protected override object EvalStart(ParseTree tree, params object[] paramlist)
 {
     return(this.GetValue(tree, TokenType.Expression, 0));
 }
Exemple #3
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 protected virtual object EvalStringLiteral(ParseTree tree, params object[] paramlist)
 {
     throw new NotImplementedException();
 }
Exemple #4
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 protected virtual object EvalVariable(ParseTree tree, params object[] paramlist)
 {
     throw new NotImplementedException();
 }
Exemple #5
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 protected virtual object EvalAssignmentExpression(ParseTree tree, params object[] paramlist)
 {
     throw new NotImplementedException();
 }
Exemple #6
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 protected virtual object EvalMultiplicativeExpression(ParseTree tree, params object[] paramlist)
 {
     throw new NotImplementedException();
 }
Exemple #7
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 protected virtual object EvalStart(ParseTree tree, params object[] paramlist)
 {
     return("Could not interpret input; no semantics implemented.");
 }
Exemple #8
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        /// <summary>
        /// this implements the evaluation functionality, cannot be used directly
        /// </summary>
        /// <param name="tree">the parsetree itself</param>
        /// <param name="paramlist">optional input parameters</param>
        /// <returns>a partial result of the evaluation</returns>
        internal object Eval(ParseTree tree, params object[] paramlist)
        {
            object Value = null;

            switch (Token.Type)
            {
            case TokenType.Start:
                Value = EvalStart(tree, paramlist);
                break;

            case TokenType.Function:
                Value = EvalFunction(tree, paramlist);
                break;

            case TokenType.PrimaryExpression:
                Value = EvalPrimaryExpression(tree, paramlist);
                break;

            case TokenType.ParenthesizedExpression:
                Value = EvalParenthesizedExpression(tree, paramlist);
                break;

            case TokenType.UnaryExpression:
                Value = EvalUnaryExpression(tree, paramlist);
                break;

            case TokenType.PowerExpression:
                Value = EvalPowerExpression(tree, paramlist);
                break;

            case TokenType.MultiplicativeExpression:
                Value = EvalMultiplicativeExpression(tree, paramlist);
                break;

            case TokenType.AdditiveExpression:
                Value = EvalAdditiveExpression(tree, paramlist);
                break;

            case TokenType.ConcatEpression:
                Value = EvalConcatEpression(tree, paramlist);
                break;

            case TokenType.RelationalExpression:
                Value = EvalRelationalExpression(tree, paramlist);
                break;

            case TokenType.EqualityExpression:
                Value = EvalEqualityExpression(tree, paramlist);
                break;

            case TokenType.ConditionalAndExpression:
                Value = EvalConditionalAndExpression(tree, paramlist);
                break;

            case TokenType.ConditionalOrExpression:
                Value = EvalConditionalOrExpression(tree, paramlist);
                break;

            case TokenType.AssignmentExpression:
                Value = EvalAssignmentExpression(tree, paramlist);
                break;

            case TokenType.Expression:
                Value = EvalExpression(tree, paramlist);
                break;

            case TokenType.Params:
                Value = EvalParams(tree, paramlist);
                break;

            case TokenType.Literal:
                Value = EvalLiteral(tree, paramlist);
                break;

            case TokenType.IntegerLiteral:
                Value = EvalIntegerLiteral(tree, paramlist);
                break;

            case TokenType.RealLiteral:
                Value = EvalRealLiteral(tree, paramlist);
                break;

            case TokenType.StringLiteral:
                Value = EvalStringLiteral(tree, paramlist);
                break;

            case TokenType.Variable:
                Value = EvalVariable(tree, paramlist);
                break;

            default:
                Value = Token.Text;
                break;
            }
            return(Value);
        }
Exemple #9
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 protected object GetValue(ParseTree tree, TokenType type, int index)
 {
     return(GetValue(tree, type, ref index));
 }