public bool Evaluate(Dictionary <string, object> variables)
        {
            switch (Operator)
            {
            case Operator.LessThan:
                return(LeftExpr.Evaluate(variables) < RightExpr.Evaluate(variables));

            case Operator.LessThanOrEqual:
                return(LeftExpr.Evaluate(variables) <= RightExpr.Evaluate(variables));

            case Operator.Equal:
                return(Math.Abs(LeftExpr.Evaluate(variables) - RightExpr.Evaluate(variables)) < double.Epsilon);

            case Operator.NotEqual:
                return(Math.Abs(LeftExpr.Evaluate(variables) - RightExpr.Evaluate(variables)) > double.Epsilon);

            case Operator.GreaterThanOrEqual:
                return(LeftExpr.Evaluate(variables) >= RightExpr.Evaluate(variables));

            case Operator.GreaterThan:
                return(LeftExpr.Evaluate(variables) > RightExpr.Evaluate(variables));

            default:
                throw new NotSupportedException(String.Format("Operator {0} not supported", Operator));
            }
        }
Exemple #2
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        public bool Evaluate(Dictionary <string, object> variables)
        {
            switch (Operator)
            {
            case Operator.Equal:
                return(LeftExpr.Evaluate(variables) == RightExpr.Evaluate(variables));

            case Operator.NotEqual:
                return(LeftExpr.Evaluate(variables) != RightExpr.Evaluate(variables));

            default:
                throw new NotSupportedException(string.Format("Operator {0} not supported", Operator));
            }
        }
        public double Evaluate(Dictionary <string, object> variables)
        {
            switch (Operator)
            {
            case Operator.Plus:
                return(RightExpr == null?
                       LeftExpr.Evaluate(variables) :
                           LeftExpr.Evaluate(variables) + RightExpr.Evaluate(variables));

            case Operator.Minus:
                return(RightExpr == null ?
                       -LeftExpr.Evaluate(variables) :
                       LeftExpr.Evaluate(variables) - RightExpr.Evaluate(variables));

            case Operator.Mult:
                return(LeftExpr.Evaluate(variables) * RightExpr.Evaluate(variables));

            case Operator.Div:
                return(LeftExpr.Evaluate(variables) / RightExpr.Evaluate(variables));

            case Operator.Mod:
                return(LeftExpr.Evaluate(variables) % RightExpr.Evaluate(variables));

            case Operator.BitwiseAnd:
                return((int)LeftExpr.Evaluate(variables) & (int)RightExpr.Evaluate(variables));

            case Operator.BitwiseOr:
                return((int)LeftExpr.Evaluate(variables) | (int)RightExpr.Evaluate(variables));

            case Operator.BitwiseXor:
                return((int)LeftExpr.Evaluate(variables) ^ (int)RightExpr.Evaluate(variables));

            case Operator.BitwiseComplement:
                return(~(int)LeftExpr.Evaluate(variables));

            case Operator.LeftShift:
                return((int)LeftExpr.Evaluate(variables) << (int)RightExpr.Evaluate(variables));

            case Operator.RightShift:
                return((int)LeftExpr.Evaluate(variables) >> (int)RightExpr.Evaluate(variables));

            default:
                throw new NotSupportedException(string.Format("operator {0} not support", Operator));
            }
        }
 public double Evaluate(Dictionary <string, object> variables)
 {
     return(ConditionExpr.Evaluate(variables) ? LeftExpr.Evaluate(variables) : RightExpr.Evaluate(variables));
 }