static MethodResult GetMapID(bool isGlobal, VarCollection varCollection, object[] parameters)
        {
            /*
             * All credit to https://us.forums.blizzard.com/en/overwatch/t/workshop-resource-get-the-current-map-name-updated-1-action/
             * Based off code: 5VAQA
             */

            int mapcount = 0;

            for (int i = 0; i < Constants.MapChecks.Length; i++)
            {
                mapcount += Constants.MapChecks[i].Length;
            }

            V_Append prev    = null;
            V_Append current = null;

            for (int s = 0; s < Constants.MapChecks.Length; s++)
            {
                for (int i = 0; i < Constants.MapChecks[s].Length; i++)
                {
                    current = new V_Append()
                    {
                        ParameterValues = new IWorkshopTree[2]
                    };

                    if (prev != null)
                    {
                        current.ParameterValues[0] = prev;
                    }
                    else
                    {
                        current.ParameterValues[0] = new V_EmptyArray();
                    }

                    // Set the map ID
                    current.ParameterValues[1] = new V_Number(Constants.MapChecks[s][i]);
                    prev = current;
                }
            }

            return(new MethodResult(null,
                                    Element.Part <V_IndexOfArrayValue>(current,
                                                                       Element.Part <V_RoundToInteger>(Element.Part <V_Divide>(
                                                                                                           Element.Part <V_RoundToInteger>(
                                                                                                               Element.Part <V_Multiply>(
                                                                                                                   Element.Part <V_DistanceBetween>(
                                                                                                                       Element.Part <V_Vector>(new V_Number(0), new V_Number(0), new V_Number(0)),
                                                                                                                       Element.Part <V_NearestWalkablePosition>(Element.Part <V_Vector>(new V_Number(100), new V_Number(100), new V_Number(100)))
                                                                                                                       ),
                                                                                                                   new V_Number(100)
                                                                                                                   ),
                                                                                                               EnumData.GetEnumValue(Rounding.Down)
                                                                                                               ),
                                                                                                           new V_Number(4)
                                                                                                           ),
                                                                                                       EnumData.GetEnumValue(Rounding.Down))
                                                                       ), CustomMethodType.Value));
        }
        Element ParseExpression(DeltinScriptParser.ExprContext context)
        {
            // If the expression is a(n)...

            #region Operation

            //   0       1      2
            // (expr operation expr)
            // count == 3
            if (context.ChildCount == 3 &&
                (Constants.MathOperations.Contains(context.GetChild(1).GetText()) ||
                 Constants.CompareOperations.Contains(context.GetChild(1).GetText()) ||
                 Constants.BoolOperations.Contains(context.GetChild(1).GetText())))
            {
                Element left      = ParseExpression(context.GetChild(0) as DeltinScriptParser.ExprContext);
                string  operation = context.GetChild(1).GetText();
                Element right     = ParseExpression(context.GetChild(2) as DeltinScriptParser.ExprContext);

                if (Constants.BoolOperations.Contains(context.GetChild(1).GetText()))
                {
                    if (left.ElementData.ValueType != Elements.ValueType.Any && left.ElementData.ValueType != Elements.ValueType.Boolean)
                    {
                        throw new SyntaxErrorException($"Expected boolean datatype, got {left .ElementData.ValueType.ToString()} instead.", context.start);
                    }
                    if (right.ElementData.ValueType != Elements.ValueType.Any && right.ElementData.ValueType != Elements.ValueType.Boolean)
                    {
                        throw new SyntaxErrorException($"Expected boolean datatype, got {right.ElementData.ValueType.ToString()} instead.", context.start);
                    }
                }

                switch (operation)
                {
                case "^":
                    return(Element.Part <V_RaiseToPower>(left, right));

                case "*":
                    return(Element.Part <V_Multiply>(left, right));

                case "/":
                    return(Element.Part <V_Divide>(left, right));

                case "+":
                    return(Element.Part <V_Add>(left, right));

                case "-":
                    return(Element.Part <V_Subtract>(left, right));

                case "%":
                    return(Element.Part <V_Modulo>(left, right));

                // COMPARE : '<' | '<=' | '==' | '>=' | '>' | '!=';

                case "&":
                    return(Element.Part <V_And>(left, right));

                case "|":
                    return(Element.Part <V_Or>(left, right));

                case "<":
                    return(Element.Part <V_Compare>(left, Operators.LessThan, right));

                case "<=":
                    return(Element.Part <V_Compare>(left, Operators.LessThanOrEqual, right));

                case "==":
                    return(Element.Part <V_Compare>(left, Operators.Equal, right));

                case ">=":
                    return(Element.Part <V_Compare>(left, Operators.GreaterThanOrEqual, right));

                case ">":
                    return(Element.Part <V_Compare>(left, Operators.GreaterThan, right));

                case "!=":
                    return(Element.Part <V_Compare>(left, Operators.NotEqual, right));
                }
            }

            #endregion

            #region Not

            if (context.GetChild(0) is DeltinScriptParser.NotContext)
            {
                return(Element.Part <V_Not>(ParseExpression(context.GetChild(1) as DeltinScriptParser.ExprContext)));
            }

            #endregion

            #region Number

            if (context.GetChild(0) is DeltinScriptParser.NumberContext)
            {
                var number = context.GetChild(0);

                double num = double.Parse(number.GetChild(0).GetText());

                /*
                 * // num will have the format expr(number(X)) if positive, expr(number(neg(X))) if negative.
                 * if (number.GetChild(0) is DeltinScriptParser.NegContext)
                 *  // Is negative, use '-' before int.parse to make it negative.
                 *  num = -double.Parse(number.GetChild(0).GetText());
                 * else
                 *  // Is positive
                 *  num = double.Parse(number.GetChild(0).GetText());
                 */

                return(new V_Number(num));
            }

            #endregion

            #region Boolean

            // True
            if (context.GetChild(0) is DeltinScriptParser.TrueContext)
            {
                return(new V_True());
            }

            // False
            if (context.GetChild(0) is DeltinScriptParser.FalseContext)
            {
                return(new V_False());
            }

            #endregion

            #region String

            if (context.GetChild(0) is DeltinScriptParser.StringContext)
            {
                return(V_String.ParseString(
                           context.start,
                           // String will look like "hey this is the contents", trim the quotes.
                           (context.GetChild(0) as DeltinScriptParser.StringContext).STRINGLITERAL().GetText().Trim('\"'),
                           null
                           ));
            }

            #endregion

            #region Formatted String

            if (context.GetChild(1) is DeltinScriptParser.StringContext)
            {
                Element[] values = context.expr().Select(expr => ParseExpression(expr)).ToArray();
                return(V_String.ParseString(
                           context.start,
                           (context.GetChild(1) as DeltinScriptParser.StringContext).STRINGLITERAL().GetText().Trim('\"'),
                           values
                           ));
            }

            #endregion

            #region null

            if (context.GetChild(0) is DeltinScriptParser.NullContext)
            {
                return(new V_Null());
            }

            #endregion

            #region Group ( expr )

            if (context.ChildCount == 3 && context.GetChild(0).GetText() == "(" &&
                context.GetChild(1) is DeltinScriptParser.ExprContext &&
                context.GetChild(2).GetText() == ")")
            {
                Console.WriteLine("Group type:" + context.GetChild(0).GetType());
                return(ParseExpression(context.GetChild(1) as DeltinScriptParser.ExprContext));
            }

            #endregion

            #region Method

            if (context.GetChild(0) is DeltinScriptParser.MethodContext)
            {
                return(ParseMethod(context.GetChild(0) as DeltinScriptParser.MethodContext, true));
            }

            #endregion

            #region Variable

            if (context.GetChild(0) is DeltinScriptParser.VariableContext)
            {
                return(DefinedVar.GetVar((context.GetChild(0) as DeltinScriptParser.VariableContext).PART().GetText(), context.start).GetVariable(new V_EventPlayer()));
            }

            #endregion

            #region Array

            if (context.ChildCount == 4 && context.GetChild(1).GetText() == "[" && context.GetChild(3).GetText() == "]")
            {
                return(Element.Part <V_ValueInArray>(
                           ParseExpression(context.expr(0) as DeltinScriptParser.ExprContext),
                           ParseExpression(context.expr(1) as DeltinScriptParser.ExprContext)));
            }

            #endregion

            #region Create Array

            if (context.ChildCount >= 4 && context.GetChild(0).GetText() == "[")
            {
                var      expressions = context.expr();
                V_Append prev        = null;
                V_Append current     = null;

                for (int i = 0; i < expressions.Length; i++)
                {
                    current = new V_Append()
                    {
                        ParameterValues = new object[2]
                    };

                    if (prev != null)
                    {
                        current.ParameterValues[0] = prev;
                    }
                    else
                    {
                        current.ParameterValues[0] = new V_EmptyArray();
                    }

                    current.ParameterValues[1] = ParseExpression(expressions[i]);
                    prev = current;
                }

                return(current);
            }

            #endregion

            #region Empty Array

            if (context.ChildCount == 2 && context.GetText() == "[]")
            {
                return(Element.Part <V_EmptyArray>());
            }

            #endregion

            #region Seperator/enum

            if (context.ChildCount == 3 && context.GetChild(1).GetText() == ".")
            {
                Element left         = ParseExpression(context.GetChild(0) as DeltinScriptParser.ExprContext);
                string  variableName = context.GetChild(2).GetChild(0).GetText();

                DefinedVar var = DefinedVar.GetVar(variableName, context.start);

                return(var.GetVariable(left));
            }

            #endregion

            throw new Exception($"What's a {context.GetType().Name}?");
        }
示例#3
0
        private Translate(RuleNode ruleNode, ScopeGroup root, VarCollection varCollection, UserMethod[] userMethods)
        {
            Root          = root;
            VarCollection = varCollection;
            UserMethods   = userMethods;

            Rule     = new Rule(ruleNode.Name, ruleNode.Event, ruleNode.Team, ruleNode.Player);
            IsGlobal = Rule.IsGlobal;

            ContinueSkip = new ContinueSkip(IsGlobal, Actions, varCollection);

            ParseConditions(ruleNode.Conditions);
            ParseBlock(root.Child(), ruleNode.Block, false, null);

            Rule.Actions    = Actions.ToArray();
            Rule.Conditions = Conditions.ToArray();

            // Fufill remaining skips
            foreach (var skip in ReturnSkips)
            {
                skip.ParameterValues = new IWorkshopTree[] { new V_Number(Actions.Count - ReturnSkips.IndexOf(skip)) }
            }
            ;
            ReturnSkips.Clear();
        }

        void ParseConditions(IExpressionNode[] expressions)
        {
            foreach (var expr in expressions)
            {
                Element parsedIf = ParseExpression(Root, expr);
                // If the parsed if is a V_Compare, translate it to a condition.
                // Makes "(value1 == value2) == true" to just "value1 == value2"
                if (parsedIf is V_Compare)
                {
                    Element left = (Element)parsedIf.ParameterValues[0];
                    if (!left.ElementData.IsValue)
                    {
                        throw SyntaxErrorException.InvalidMethodType(true, left.Name, ((Node)expr).Range);
                    }

                    Element right = (Element)parsedIf.ParameterValues[2];
                    if (!right.ElementData.IsValue)
                    {
                        throw SyntaxErrorException.InvalidMethodType(true, right.Name, ((Node)expr).Range);
                    }

                    Conditions.Add(
                        new Condition(
                            left,
                            (EnumMember)parsedIf.ParameterValues[1],
                            right
                            )
                        );
                }
                // If not, just do "parsedIf == true"
                else
                {
                    if (!parsedIf.ElementData.IsValue)
                    {
                        throw SyntaxErrorException.InvalidMethodType(true, parsedIf.Name, ((Node)expr).Range);
                    }

                    Conditions.Add(new Condition(
                                       parsedIf, EnumData.GetEnumValue(Operators.Equal), new V_True()
                                       ));
                }
            }
        }

        Element ParseExpression(ScopeGroup scope, IExpressionNode expression)
        {
            switch (expression)
            {
            // Math and boolean operations.
            case OperationNode operationNode:
            {
                Element left  = ParseExpression(scope, operationNode.Left);
                Element right = ParseExpression(scope, operationNode.Right);

                /*
                 * if (Constants.BoolOperations.Contains(operationNode.Operation))
                 * {
                 *  if (left.ElementData.ValueType != Elements.ValueType.Any && left.ElementData.ValueType != Elements.ValueType.Boolean)
                 *      throw new SyntaxErrorException($"Expected boolean, got {left .ElementData.ValueType.ToString()} instead.", ((Node)operationNode.Left).Range);
                 *
                 *  if (right.ElementData.ValueType != Elements.ValueType.Any && right.ElementData.ValueType != Elements.ValueType.Boolean)
                 *      throw new SyntaxErrorException($"Expected boolean, got {right.ElementData.ValueType.ToString()} instead.", ((Node)operationNode.Right).Range);
                 * }
                 */

                switch (operationNode.Operation)
                {
                // Math: ^, *, %, /, +, -
                case "^":
                    return(Element.Part <V_RaiseToPower>(left, right));

                case "*":
                    return(Element.Part <V_Multiply>(left, right));

                case "%":
                    return(Element.Part <V_Modulo>(left, right));

                case "/":
                    return(Element.Part <V_Divide>(left, right));

                case "+":
                    return(Element.Part <V_Add>(left, right));

                case "-":
                    return(Element.Part <V_Subtract>(left, right));


                // BoolCompare: &, |
                case "&":
                    return(Element.Part <V_And>(left, right));

                case "|":
                    return(Element.Part <V_Or>(left, right));

                // Compare: <, <=, ==, >=, >, !=
                case "<":
                    return(Element.Part <V_Compare>(left, EnumData.GetEnumValue(Operators.LessThan), right));

                case "<=":
                    return(Element.Part <V_Compare>(left, EnumData.GetEnumValue(Operators.LessThanOrEqual), right));

                case "==":
                    return(Element.Part <V_Compare>(left, EnumData.GetEnumValue(Operators.Equal), right));

                case ">=":
                    return(Element.Part <V_Compare>(left, EnumData.GetEnumValue(Operators.GreaterThanOrEqual), right));

                case ">":
                    return(Element.Part <V_Compare>(left, EnumData.GetEnumValue(Operators.GreaterThan), right));

                case "!=":
                    return(Element.Part <V_Compare>(left, EnumData.GetEnumValue(Operators.NotEqual), right));
                }

                throw new Exception($"Operation {operationNode.Operation} not implemented.");
            }

            // Number
            case NumberNode numberNode:
                return(new V_Number(numberNode.Value));

            // Bool
            case BooleanNode boolNode:
                if (boolNode.Value)
                {
                    return(new V_True());
                }
                else
                {
                    return(new V_False());
                }

            // Not operation
            case NotNode notNode:
                return(Element.Part <V_Not>(ParseExpression(scope, notNode.Value)));

            // Strings
            case StringNode stringNode:
                Element[] stringFormat = new Element[stringNode.Format?.Length ?? 0];
                for (int i = 0; i < stringFormat.Length; i++)
                {
                    stringFormat[i] = ParseExpression(scope, stringNode.Format[i]);
                }
                return(V_String.ParseString(stringNode.Range, stringNode.Value, stringFormat));

            // Null
            case NullNode nullNode:
                return(new V_Null());

            // TODO check if groups need to be implemented here

            // Methods
            case MethodNode methodNode:
                return(ParseMethod(scope, methodNode, true));

            // Variable
            case VariableNode variableNode:
                return(scope.GetVar(variableNode.Name, variableNode.Range, Diagnostics)
                       .GetVariable(variableNode.Target != null ? ParseExpression(scope, variableNode.Target) : null));

            // Get value in array
            case ValueInArrayNode viaNode:
                return(Element.Part <V_ValueInArray>(ParseExpression(scope, viaNode.Value), ParseExpression(scope, viaNode.Index)));

            // Create array
            case CreateArrayNode createArrayNode:
            {
                Element prev    = null;
                Element current = null;

                for (int i = 0; i < createArrayNode.Values.Length; i++)
                {
                    current = new V_Append()
                    {
                        ParameterValues = new IWorkshopTree[2]
                    };

                    if (prev != null)
                    {
                        current.ParameterValues[0] = prev;
                    }
                    else
                    {
                        current.ParameterValues[0] = new V_EmptyArray();
                    }

                    current.ParameterValues[1] = ParseExpression(scope, createArrayNode.Values[i]);
                    prev = current;
                }

                return(current ?? new V_EmptyArray());
            }

            case EnumNode enumNode:
                return(EnumData.Special(enumNode.EnumMember)
                       ?? throw SyntaxErrorException.EnumCantBeValue(enumNode.Type, enumNode.Range));

                // Seperator
            }

            throw new Exception();
        }

        Element ParseMethod(ScopeGroup scope, MethodNode methodNode, bool needsToBeValue)
        {
            methodNode.RelatedScopeGroup = scope;

            // Get the kind of method the method is (Method (Overwatch), Custom Method, or User Method.)
            var methodType = GetMethodType(UserMethods, methodNode.Name);

            // Throw exception if the method does not exist.
            if (methodType == null)
            {
                throw SyntaxErrorException.NonexistentMethod(methodNode.Name, methodNode.Range);
            }

            Element method;

            switch (methodType)
            {
            case MethodType.Method:
            {
                Type owMethod = Element.GetMethod(methodNode.Name);

                method = (Element)Activator.CreateInstance(owMethod);
                Parameter[] parameterData = owMethod.GetCustomAttributes <Parameter>().ToArray();

                List <IWorkshopTree> parsedParameters = new List <IWorkshopTree>();
                for (int i = 0; i < parameterData.Length; i++)
                {
                    if (methodNode.Parameters.Length > i)
                    {
                        // Parse the parameter.
                        parsedParameters.Add(ParseParameter(scope, methodNode.Parameters[i], methodNode.Name, parameterData[i]));
                    }
                    else
                    {
                        if (parameterData[i].ParameterType == ParameterType.Value && parameterData[i].DefaultType == null)
                        {
                            // Throw exception if there is no default method to fallback on.
                            throw SyntaxErrorException.MissingParameter(parameterData[i].Name, methodNode.Name, methodNode.Range);
                        }
                        else
                        {
                            parsedParameters.Add(parameterData[i].GetDefault());
                        }
                    }
                }

                method.ParameterValues = parsedParameters.ToArray();
                break;
            }

            case MethodType.CustomMethod:
            {
                MethodInfo  customMethod     = CustomMethods.GetCustomMethod(methodNode.Name);
                Parameter[] parameterData    = customMethod.GetCustomAttributes <Parameter>().ToArray();
                object[]    parsedParameters = new Element[parameterData.Length];

                for (int i = 0; i < parameterData.Length; i++)
                {
                    if (methodNode.Parameters.Length > i)
                    {
                        parsedParameters[i] = ParseParameter(scope, methodNode.Parameters[i], methodNode.Name, parameterData[i]);
                    }
                    else
                    {
                        // Throw exception if there is no default method to fallback on.
                        throw SyntaxErrorException.MissingParameter(parameterData[i].Name, methodNode.Name, methodNode.Range);
                    }
                }

                MethodResult result = (MethodResult)customMethod.Invoke(null, new object[] { IsGlobal, VarCollection, parsedParameters });
                switch (result.MethodType)
                {
                case CustomMethodType.Action:
                    if (needsToBeValue)
                    {
                        throw SyntaxErrorException.InvalidMethodType(true, methodNode.Name, methodNode.Range);
                    }
                    break;

                case CustomMethodType.MultiAction_Value:
                case CustomMethodType.Value:
                    if (!needsToBeValue)
                    {
                        throw SyntaxErrorException.InvalidMethodType(false, methodNode.Name, methodNode.Range);
                    }
                    break;
                }

                // Some custom methods have extra actions.
                if (result.Elements != null)
                {
                    Actions.AddRange(result.Elements);
                }
                method = result.Result;

                break;
            }

            case MethodType.UserMethod:
            {
                if (!AllowRecursion)
                {
                    UserMethod userMethod = UserMethod.GetUserMethod(UserMethods, methodNode.Name);

                    if (MethodStackNoRecursive.Contains(userMethod))
                    {
                        throw SyntaxErrorException.RecursionNotAllowed(methodNode.Range);
                    }

                    var methodScope = Root.Child();

                    // Add the parameter variables to the scope.
                    DefinedVar[] parameterVars = new DefinedVar[userMethod.Parameters.Length];
                    for (int i = 0; i < parameterVars.Length; i++)
                    {
                        if (methodNode.Parameters.Length > i)
                        {
                            // Create a new variable using the parameter input.
                            parameterVars[i] = VarCollection.AssignDefinedVar(methodScope, IsGlobal, userMethod.Parameters[i].Name, methodNode.Range);
                            Actions.Add(parameterVars[i].SetVariable(ParseExpression(scope, methodNode.Parameters[i])));
                        }
                        else
                        {
                            throw SyntaxErrorException.MissingParameter(userMethod.Parameters[i].Name, methodNode.Name, methodNode.Range);
                        }
                    }

                    var returns = VarCollection.AssignVar($"{methodNode.Name}: return temp value", IsGlobal);

                    MethodStackNoRecursive.Add(userMethod);

                    var userMethodScope = methodScope.Child();
                    userMethod.Block.RelatedScopeGroup = userMethodScope;

                    ParseBlock(userMethodScope, userMethod.Block, true, returns);

                    MethodStackNoRecursive.Remove(userMethod);

                    // No return value if the method is being used as an action.
                    if (needsToBeValue)
                    {
                        method = returns.GetVariable();
                    }
                    else
                    {
                        method = null;
                    }

                    break;
                }
                else
                {
                    UserMethod userMethod = UserMethod.GetUserMethod(UserMethods, methodNode.Name);

                    MethodStack lastMethod = MethodStack.FirstOrDefault(ms => ms.UserMethod == userMethod);
                    if (lastMethod != null)
                    {
                        ContinueSkip.Setup();

                        for (int i = 0; i < lastMethod.ParameterVars.Length; i++)
                        {
                            if (methodNode.Parameters.Length > i)
                            {
                                Actions.Add(lastMethod.ParameterVars[i].Push(ParseExpression(scope, methodNode.Parameters[i])));
                            }
                        }

                        // ?--- Multidimensional Array
                        Actions.Add(
                            Element.Part <A_SetGlobalVariable>(EnumData.GetEnumValue(Variable.B), lastMethod.ContinueSkipArray.GetVariable())
                            );
                        Actions.Add(
                            Element.Part <A_ModifyGlobalVariable>(EnumData.GetEnumValue(Variable.B), EnumData.GetEnumValue(Operation.AppendToArray), new V_Number(ContinueSkip.GetSkipCount() + 4))
                            );
                        Actions.Add(
                            lastMethod.ContinueSkipArray.SetVariable(Element.Part <V_GlobalVariable>(EnumData.GetEnumValue(Variable.B)))
                            );
                        // ?---

                        ContinueSkip.SetSkipCount(lastMethod.ActionIndex);
                        Actions.Add(Element.Part <A_Loop>());

                        if (needsToBeValue)
                        {
                            method = lastMethod.Return.GetVariable();
                        }
                        else
                        {
                            method = null;
                        }
                    }
                    else
                    {
                        var methodScope = Root.Child();

                        // Add the parameter variables to the scope.
                        ParameterVar[] parameterVars = new ParameterVar[userMethod.Parameters.Length];
                        for (int i = 0; i < parameterVars.Length; i++)
                        {
                            if (methodNode.Parameters.Length > i)
                            {
                                // Create a new variable using the parameter input.
                                parameterVars[i] = VarCollection.AssignParameterVar(Actions, methodScope, IsGlobal, userMethod.Parameters[i].Name, methodNode.Range);
                                Actions.Add(parameterVars[i].Push(ParseExpression(scope, methodNode.Parameters[i])));
                            }
                            else
                            {
                                throw SyntaxErrorException.MissingParameter(userMethod.Parameters[i].Name, methodNode.Name, methodNode.Range);
                            }
                        }

                        var returns = VarCollection.AssignVar($"{methodNode.Name}: return temp value", IsGlobal);

                        Var continueSkipArray = VarCollection.AssignVar($"{methodNode.Name}: continue skip temp value", IsGlobal);
                        var stack             = new MethodStack(userMethod, parameterVars, ContinueSkip.GetSkipCount(), returns, continueSkipArray);
                        MethodStack.Add(stack);

                        var userMethodScope = methodScope.Child();
                        userMethod.Block.RelatedScopeGroup = userMethodScope;

                        ParseBlock(userMethodScope, userMethod.Block, true, returns);

                        // No return value if the method is being used as an action.
                        if (needsToBeValue)
                        {
                            method = returns.GetVariable();
                        }
                        else
                        {
                            method = null;
                        }

                        Actions.Add(Element.Part <A_Wait>(new V_Number(Constants.MINIMUM_WAIT)));
                        for (int i = 0; i < parameterVars.Length; i++)
                        {
                            parameterVars[i].Pop();
                        }

                        ContinueSkip.Setup();
                        ContinueSkip.SetSkipCount(Element.Part <V_LastOf>(continueSkipArray.GetVariable()));

                        // ?--- Multidimensional Array
                        Actions.Add(
                            Element.Part <A_SetGlobalVariable>(EnumData.GetEnumValue(Variable.B), continueSkipArray.GetVariable())
                            );
                        Actions.Add(
                            continueSkipArray.SetVariable(
                                Element.Part <V_ArraySlice>(
                                    Element.Part <V_GlobalVariable>(EnumData.GetEnumValue(Variable.B)),
                                    new V_Number(0),
                                    Element.Part <V_Subtract>(
                                        Element.Part <V_CountOf>(Element.Part <V_GlobalVariable>(EnumData.GetEnumValue(Variable.B))),
                                        new V_Number(1)
                                        )
                                    )
                                )
                            );
                        // ?---

                        Actions.Add(
                            Element.Part <A_LoopIf>(
                                Element.Part <V_Compare>(
                                    Element.Part <V_CountOf>(continueSkipArray.GetVariable()),
                                    EnumData.GetEnumValue(Operators.NotEqual),
                                    new V_Number(0)
                                    )
                                )
                            );
                        ContinueSkip.ResetSkip();

                        MethodStack.Remove(stack);
                    }
                    break;
                }
            }

            default: throw new NotImplementedException();
            }

            methodNode.RelatedElement = method;
            return(method);
        }

        IWorkshopTree ParseParameter(ScopeGroup scope, IExpressionNode node, string methodName, Parameter parameterData)
        {
            IWorkshopTree value = null;

            switch (node)
            {
            case EnumNode enumNode:

                /*
                 * if (parameterData.ParameterType != ParameterType.Enum)
                 *  throw SyntaxErrorException.ExpectedType(true, parameterData.ValueType.ToString(), methodName, parameterData.Name, enumNode.Range);
                 *
                 * if (enumNode.Type != parameterData.EnumType.Name)
                 *  throw SyntaxErrorException.ExpectedType(false, parameterData.EnumType.ToString(), methodName, parameterData.Name, enumNode.Range);
                 */

                value = (IWorkshopTree)EnumData.Special(enumNode.EnumMember) ?? (IWorkshopTree)enumNode.EnumMember;

                //if (value == null)
                //  throw SyntaxErrorException.InvalidEnumValue(enumNode.Type, enumNode.Value, enumNode.Range);

                break;

            default:

                if (parameterData.ParameterType != ParameterType.Value)
                {
                    throw SyntaxErrorException.ExpectedType(false, parameterData.EnumType.Name, methodName, parameterData.Name, ((Node)node).Range);
                }

                value = ParseExpression(scope, node);

                Element     element     = value as Element;
                ElementData elementData = element.GetType().GetCustomAttribute <ElementData>();

                if (elementData.ValueType != Elements.ValueType.Any &&
                    !parameterData.ValueType.HasFlag(elementData.ValueType))
                {
                    throw SyntaxErrorException.InvalidType(parameterData.ValueType, elementData.ValueType, ((Node)node).Range);
                }

                break;
            }

            if (value == null)
            {
                throw new Exception("Failed to parse parameter.");
            }

            return(value);
        }
        public Element ParseExpression(ScopeGroup getter, ScopeGroup scope, Node expression)
        {
            switch (expression)
            {
            // Math and boolean operations.
            case OperationNode operationNode:
            {
                Element left  = ParseExpression(getter, scope, operationNode.Left);
                Element right = ParseExpression(getter, scope, operationNode.Right);

                /*
                 * if (Constants.BoolOperations.Contains(operationNode.Operation))
                 * {
                 *  if (left.ElementData.ValueType != Elements.ValueType.Any && left.ElementData.ValueType != Elements.ValueType.Boolean)
                 *      throw new SyntaxErrorException($"Expected boolean, got {left .ElementData.ValueType.ToString()} instead.", ((Node)operationNode.Left).Range);
                 *
                 *  if (right.ElementData.ValueType != Elements.ValueType.Any && right.ElementData.ValueType != Elements.ValueType.Boolean)
                 *      throw new SyntaxErrorException($"Expected boolean, got {right.ElementData.ValueType.ToString()} instead.", ((Node)operationNode.Right).Range);
                 * }
                 */

                switch (operationNode.Operation)
                {
                // Math: ^, *, %, /, +, -
                case "^":
                    return(Element.Part <V_RaiseToPower>(left, right));

                case "*":
                    return(left * right);

                case "%":
                    return(left % right);

                case "/":
                    return(left / right);

                case "+":
                    return(left + right);

                case "-":
                    return(left - right);


                // BoolCompare: &&, ||
                case "&&":
                    return(Element.Part <V_And>(left, right));

                case "||":
                    return(Element.Part <V_Or>(left, right));

                // Compare: <, <=, ==, >=, >, !=
                case "<":
                    return(left < right);

                case "<=":
                    return(left <= right);

                case "==":
                    return(Element.Part <V_Compare>(left, EnumData.GetEnumValue(Operators.Equal), right));

                case ">=":
                    return(left >= right);

                case ">":
                    return(left > right);

                case "!=":
                    return(Element.Part <V_Compare>(left, EnumData.GetEnumValue(Operators.NotEqual), right));
                }

                throw new Exception($"Operation {operationNode.Operation} not implemented.");
            }

            // Number
            case NumberNode numberNode:
                return(numberNode.Value);

            // Bool
            case BooleanNode boolNode:
                if (boolNode.Value)
                {
                    return(new V_True());
                }
                else
                {
                    return(new V_False());
                }

            // Not operation
            case NotNode notNode:
                return(!(ParseExpression(getter, scope, notNode.Value)));

            case InvertNode invertNode:
                return(-ParseExpression(getter, scope, invertNode.Value));

            // Strings
            case StringNode stringNode:

                Element[] stringFormat = new Element[stringNode.Format?.Length ?? 0];
                for (int i = 0; i < stringFormat.Length; i++)
                {
                    stringFormat[i] = ParseExpression(getter, scope, stringNode.Format[i]);
                }
                if (stringNode.Localized)
                {
                    return(V_String.ParseString(stringNode.Location, stringNode.Value, stringFormat));
                }
                else
                {
                    return(V_CustomString.ParseString(stringNode.Location, stringNode.Value, stringFormat));
                }

            // Null
            case NullNode nullNode:
                return(new V_Null());

            // TODO check if groups need to be implemented here

            // Methods
            case MethodNode methodNode:
                return(ParseMethod(getter, scope, methodNode, true));

            // Variable
            case VariableNode variableNode:

                Element[] index = new Element[variableNode.Index.Length];
                for (int i = 0; i < index.Length; i++)
                {
                    index[i] = ParseExpression(getter, scope, variableNode.Index[i]);
                }

                Var var = scope.GetVar(getter, variableNode.Name, variableNode.Location);
                if (!var.Gettable())
                {
                    throw SyntaxErrorException.VariableIsReadonly(var.Name, variableNode.Location);
                }

                Element result = var.GetVariable();
                for (int i = 0; i < index.Length; i++)
                {
                    result = Element.Part <V_ValueInArray>(result, index[i]);
                }

                return(result);

            // Get value in array
            case ValueInArrayNode viaNode:
                return(Element.Part <V_ValueInArray>(ParseExpression(getter, scope, viaNode.Value), ParseExpression(getter, scope, viaNode.Index)));

            // Create array
            case CreateArrayNode createArrayNode:
            {
                Element prev    = null;
                Element current = null;

                for (int i = 0; i < createArrayNode.Values.Length; i++)
                {
                    current = new V_Append()
                    {
                        ParameterValues = new IWorkshopTree[2]
                    };

                    if (prev != null)
                    {
                        current.ParameterValues[0] = prev;
                    }
                    else
                    {
                        current.ParameterValues[0] = new V_EmptyArray();
                    }

                    current.ParameterValues[1] = ParseExpression(getter, scope, createArrayNode.Values[i]);
                    prev = current;
                }

                return(current ?? new V_EmptyArray());
            }

            // Ternary Conditional (a ? b : c)
            case TernaryConditionalNode ternaryNode:
                return(Element.TernaryConditional
                       (
                           ParseExpression(getter, scope, ternaryNode.Condition),
                           ParseExpression(getter, scope, ternaryNode.Consequent),
                           ParseExpression(getter, scope, ternaryNode.Alternative)
                       ));

            // Enums
            case EnumNode enumNode:
                return(EnumData.ToElement(enumNode.EnumMember)
                       ?? throw SyntaxErrorException.EnumCantBeValue(enumNode.Type, enumNode.Location));

            // New object
            case CreateObjectNode createObjectNode:
                DefinedType typeData = ParserData.GetDefinedType(createObjectNode.TypeName, createObjectNode.Location);
                return(typeData.New(createObjectNode, getter, scope, this));

            // Expression tree
            case ExpressionTreeNode expressionTree:
                return(new ParseExpressionTree(this, getter, scope, expressionTree).ResultingElement);

            // This
            case ThisNode thisNode:
                return(getter.GetThis(thisNode.Location));

            // Type convert
            case TypeConvertNode typeConvertNode:
                DefinedType type    = ParserData.GetDefinedType(typeConvertNode.Type, typeConvertNode.Location);
                Element     element = ParseExpression(getter, scope, typeConvertNode.Expression);
                type.GetSource(this, element, typeConvertNode.Location);
                return(element);

            case RootNode rootNode: throw new SyntaxErrorException("'root' cannot be used like an expression.", rootNode.Location);
            }

            throw new Exception();
        }