/// <summary>
        /// Parses a Angular comment directive
        /// </summary>
        /// <param name="commentText">Comment text</param>
        /// <param name="directiveNameHandler">Directive name handler</param>
        /// <param name="expressionHandler">Binding expression handler</param>
        public static void ParseCommentDirective(string commentText, DirectiveNameDelegate directiveNameHandler,
                                                 ExpressionDelegate expressionHandler)
        {
            Match match = _ngCommentDirectiveRegex.Match(commentText);

            if (match.Success)
            {
                var innerContext = new InnerMarkupParsingContext(commentText);
                var context      = new MarkupParsingContext(innerContext);

                GroupCollection groups = match.Groups;

                Group  directiveNameGroup      = groups["directiveName"];
                int    directiveNamePosition   = directiveNameGroup.Index;
                string originalDirectiveName   = directiveNameGroup.Value;
                string normalizedDirectiveName = NormalizeDirectiveName(originalDirectiveName);

                innerContext.IncreasePosition(directiveNamePosition);
                directiveNameHandler?.Invoke(context, originalDirectiveName, normalizedDirectiveName);

                Group expressionGroup = groups["expression"];
                if (expressionGroup.Success)
                {
                    int    expressionPosition = expressionGroup.Index;
                    string expression         = expressionGroup.Value.Trim();

                    innerContext.IncreasePosition(expressionPosition - directiveNamePosition);
                    expressionHandler?.Invoke(context, expression);
                }
            }
        }
Beispiel #2
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    public float GetFitness()
    {
        if (time == 0 && distance == 0)
        {
            distance = float.Epsilon;
        }

        double[] inputs  = CreateInputArray();
        float    fitness = (float)fitnessDelegate.Invoke(inputs);

        return(Mathf.Clamp(fitness, 0, Mathf.Infinity));
    }
        /// <summary>
        /// Parses a Angular class directive
        /// </summary>
        /// <param name="className">Class name</param>
        /// <param name="directiveNameHandler">Directive name handler</param>
        /// <param name="expressionHandler">Binding expression handler</param>
        /// <param name="semicolonHandler">Semicolon handler</param>
        public static void ParseClassDirective(string className, DirectiveNameDelegate directiveNameHandler,
                                               ExpressionDelegate expressionHandler, SemicolonDelegate semicolonHandler)
        {
            MatchCollection matches    = _ngClassDirectiveRegex.Matches(className);
            int             matchCount = matches.Count;

            if (matchCount > 0)
            {
                var innerContext    = new InnerMarkupParsingContext(className);
                var context         = new MarkupParsingContext(innerContext);
                int currentPosition = 0;

                for (int matchIndex = 0; matchIndex < matchCount; matchIndex++)
                {
                    Match           match  = matches[matchIndex];
                    GroupCollection groups = match.Groups;

                    Group  directiveNameGroup      = groups["directiveName"];
                    int    directiveNamePosition   = directiveNameGroup.Index;
                    string originalDirectiveName   = directiveNameGroup.Value;
                    string normalizedDirectiveName = NormalizeDirectiveName(originalDirectiveName);

                    innerContext.IncreasePosition(directiveNamePosition - currentPosition);
                    currentPosition = directiveNamePosition;

                    directiveNameHandler?.Invoke(context, originalDirectiveName, normalizedDirectiveName);

                    Group expressionGroup = groups["expression"];
                    if (expressionGroup.Success)
                    {
                        int    expressionPosition = expressionGroup.Index;
                        string expression         = expressionGroup.Value.Trim();

                        innerContext.IncreasePosition(expressionPosition - currentPosition);
                        currentPosition = expressionPosition;

                        expressionHandler?.Invoke(context, expression);
                    }

                    Group semicolonGroup = groups["semicolon"];
                    if (semicolonGroup.Success)
                    {
                        int semicolonPosition = semicolonGroup.Index;

                        innerContext.IncreasePosition(semicolonPosition - currentPosition);
                        currentPosition = semicolonPosition;

                        semicolonHandler?.Invoke(context);
                    }
                }
            }
        }
Beispiel #4
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        /// <summary>
        /// Parses a Knockout begin containerless comment
        /// </summary>
        /// <param name="commentText">Comment text</param>
        /// <param name="expressionHandler">Binding expression handler</param>
        public static void ParseBeginContainerlessComment(string commentText,
                                                          ExpressionDelegate expressionHandler)
        {
            Match match = _koBeginContainerlessCommentRegex.Match(commentText);

            if (match.Success)
            {
                var innerContext = new InnerMarkupParsingContext(commentText);
                var context      = new MarkupParsingContext(innerContext);

                Group  expressionGroup    = match.Groups["expression"];
                int    expressionPosition = expressionGroup.Index;
                string expression         = expressionGroup.Value.TrimEnd(null);

                innerContext.IncreasePosition(expressionPosition);
                expressionHandler?.Invoke(context, expression);
            }
        }
Beispiel #5
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    //int debug_iter = 0;

    //Attempts to parse an expression. Sets invalidity flags and updates the status display
    //fieldNumber: X=1, Y=2, Z=3
    public void ValidateExpression(int fieldNumber)
    {
        string expr;

        //Set the field we're looking at
        switch (fieldNumber)
        {
        case 1:
            expr = expressionXInput.text;
            //Debug.Log("Validation Field number" + fieldNumber + ". X equation input='" + expr + "'");
            break;

        case 2:
            expr = expressionYInput.text;
            //Debug.Log("Validation Field number" + fieldNumber + ". Y equation input='" + expr + "'");
            break;

        case 3:
            expr = expressionZInput.text;
            //Debug.Log("Validation Field number" + fieldNumber + ". Z equation input='" + expr + "'");
            break;

        default:
            //shouldn't happen
            //Debug.Log("fieldNumber using default.");
            expr = expressionXInput.text;
            break;
        }

        //debug_iter += 1;
        //Debug.Log("Validating: Current expr at (" + debug_iter + "): <" + expr + ">");

        //Validate
        try
        {
            //First check for empty expression
            if (expr == "")
            {
                //Debug.Log("Empty string detected. Current expr at (" + debug_iter + "): <" + expr + ">");
                throw new EmptyExpressionException("Please enter all equations.");
            }
            ExpressionParser parser = new ExpressionParser();
            //First, read in the user parameters as constants and give it test values
            int i = 1;
            foreach (KeyValuePair <string, double> p in parameters)
            {
                //each test value should be unique and nonzero to avoid divide by zero
                parser.AddConst(p.Key, () => 0.00013 * (i * 17));
                i++;
            }
            //Next, try to evaluate the expression
            Expression tempExpr = parser.EvaluateExpression(expr);
            //If no ParseException was thrown, expression parsed correctly
            //This is where I'd check for custom functions, if that was handled.
            //Now let's check the parameters of the Expression
            foreach (KeyValuePair <string, Parameter> p in tempExpr.Parameters)
            {
                if (!(variablesAvailable.Contains(p.Key)))
                {
                    throw new UnknownIdentiferException("Unknown identifier '" + p.Key + "'.");
                }
            }
            //Now for an invocation test:
            if (order == 1)
            {
                ExpressionDelegate deleg  = tempExpr.ToDelegate("x", "y", "z", "t");
                double[]           values = { 0.125778, 0.13456928, 0.2944782, 0.41698793 };
                deleg.Invoke(values);
            }
            else //order == 2
            {
                ExpressionDelegate deleg  = tempExpr.ToDelegate("x", "x'", "y", "y'", "z", "z'", "t");
                double[]           values = { 0.155926, 0.13562489, 0.2990285, 0.412947352, 1.8308463, 1.0329475, 2.7386352 };
                deleg.Invoke(values);
            }
            //If no exception, then expression is validated.
            //Debug.Log("Expression validated: fieldNumber=" + fieldNumber);
            valid[(fieldNumber - 1)] = true;
            //All good in this expression. Check the other invalid flags
            CheckInvalidFlags();
            UpdateStatusDisplay(validationStatusDisplay.text);
        }
        catch (ExpressionParser.ParseException ex)
        {
            //validation unsuccessful due to parsing error
            valid[(fieldNumber - 1)] = false;
            UpdateStatusDisplay(ex.Message);
        }
        catch (UnknownIdentiferException ex)
        {
            //validation unsuccessful due to unknown identifier
            valid[(fieldNumber - 1)] = false;
            UpdateStatusDisplay(ex.Message);
        }
        catch (EmptyExpressionException ex)
        {
            //validation unsuccessful due to empty expression
            valid[(fieldNumber - 1)] = false;
            UpdateStatusDisplay(ex.Message);
        }
        catch (Exception ex) {
            //validation unsuccessful on invocation test
            valid[(fieldNumber - 1)] = false;
            UpdateStatusDisplay("Unknown error. Check inputs.");
            Debug.Log(ex.Message);
        }
    }