public void InstanceWithTrueInitialization()
        {
            var orOperator = new OrOperator(true);

            Assert.IsNotNull(orOperator);
            Assert.IsTrue(orOperator.Result);
        }
Exemplo n.º 2
0
 public void FalseTrueTest()
 {
     MockExpression leftExpression = new MockExpression(false);
     MockExpression rightExpression = new MockExpression(true);
     OrOperator expression = new OrOperator(leftExpression, rightExpression);
     Assert.IsTrue(expression.Evaluate(principal));
 }
Exemplo n.º 3
0
        public void AndOrNotTestWithQuotedStrings()
        {
            Parser            parser     = new Parser();
            BooleanExpression expression = parser.Parse(
                "(R:\"Human Resources\" OR R:\"General Managers\") AND NOT R:\"HR Specialist\"");

            Assert.AreEqual(typeof(AndOperator), expression.GetType());
            AndOperator andOperator = (AndOperator)expression;

            Assert.AreEqual(typeof(OrOperator), andOperator.Left.GetType());
            OrOperator orOperator = (OrOperator)andOperator.Left;

            Assert.AreEqual(typeof(RoleExpression), orOperator.Left.GetType());
            RoleExpression hrRoleExpression = (RoleExpression)orOperator.Left;

            Assert.AreEqual("Human Resources", hrRoleExpression.Word.Value);
            Assert.AreEqual(typeof(RoleExpression), orOperator.Right.GetType());
            RoleExpression gmRoleExpression = (RoleExpression)orOperator.Right;

            Assert.AreEqual("General Managers", gmRoleExpression.Word.Value);
            Assert.AreEqual(typeof(NotOperator), andOperator.Right.GetType());
            NotOperator notOperator = (NotOperator)andOperator.Right;

            Assert.AreEqual(typeof(RoleExpression), notOperator.Expression.GetType());
            RoleExpression specialistRoleExpression = (RoleExpression)notOperator.Expression;

            Assert.AreEqual("HR Specialist", specialistRoleExpression.Word.Value);
        }
        public void InstanceWithFalseInitialization()
        {
            var orOperator = new OrOperator(false);

            Assert.IsNotNull(orOperator);
            Assert.IsFalse(orOperator.Result);
        }
Exemplo n.º 5
0
 public void Visit(OrOperator node)
 {
     builder.AppendLine($"Or");
     builder.Indent();
     node.Left.Accept(this);
     node.Right.Accept(this);
     builder.Outdent();
 }
Exemplo n.º 6
0
        public override VariableValue Evaluate(IVariableStore variables)
        {
            var left   = Left.Evaluate(variables);
            var right  = Right.Evaluate(variables);
            var result = OrOperator.Or(ref left, ref right);

            return(Assign(variables, ref result));
        }
Exemplo n.º 7
0
        public void FalseTrueTest()
        {
            MockExpression leftExpression  = new MockExpression(false);
            MockExpression rightExpression = new MockExpression(true);
            OrOperator     expression      = new OrOperator(leftExpression, rightExpression);

            Assert.IsTrue(expression.Evaluate(principal));
        }
Exemplo n.º 8
0
        public void FilterOrWithAndConditionTest()
        {
            string expected = @"<?xml version=""1.0"" encoding=""utf-8""?>
<function controlid=""unittest"">
    <query>
        <select>
            <field>BATCHNO</field>
            <field>RECORDNO</field>
            <field>STATE</field>
        </select>
        <object>GLBATCH</object>
        <filter>
            <or>
                <equalto>
                    <field>JOURNAL</field>
                    <value>APJ</value>
                </equalto>
                <and>
                    <greaterthanorequalto>
                        <field>BATCHNO</field>
                        <value>1</value>
                    </greaterthanorequalto>
                    <equalto>
                        <field>STATE</field>
                        <value>Posted</value>
                    </equalto>
                </and>
            </or>
        </filter>
        <options />
    </query>
</function>";

            SelectBuilder builder = new SelectBuilder();

            ISelect[] fields = builder.Fields(new[] { "BATCHNO", "RECORDNO", "STATE" }).GetFields();

            AndOperator batchnoAndState = new AndOperator(new List <IFilter>());

            batchnoAndState.AddFilter((new Filter("BATCHNO")).SetGreaterThanOrEqualTo("1"));
            batchnoAndState.AddFilter((new Filter("STATE")).SetEqualTo("Posted"));

            IFilter journal = new Filter("JOURNAL").SetEqualTo("APJ");

            IFilter filter = new OrOperator(new List <IFilter>()
            {
                journal, batchnoAndState
            });

            IQueryFunction query = new QueryFunction("unittest")
            {
                FromObject   = "GLBATCH",
                SelectFields = fields,
                Filter       = filter
            };

            this.CompareXml(expected, query);
        }
Exemplo n.º 9
0
        public void OrApplyConstants()
        {
            Constant       c1 = Constant.Word32(1);
            Constant       c2 = Constant.Word32(2);
            BinaryOperator op = new OrOperator();
            Constant       c3 = op.ApplyConstants(c1, c2);

            Assert.AreEqual(3, c3.ToInt32());
        }
Exemplo n.º 10
0
        public void Visit(OrOperator node)
        {
            VisitBinary(node);

            ITerminalWrapper leftWrapper  = ReferenceTables.GetValue(node.Left);
            ITerminalWrapper rightWrapper = ReferenceTables.GetValue(node.Right);

            ReferenceTables.SetValue(node, ((dynamic)leftWrapper) | ((dynamic)rightWrapper));
        }
Exemplo n.º 11
0
        public void PerformLogicWithTrueInitializationAndTrue()
        {
            var orOperator = new OrOperator(true);
            Assert.IsNotNull(orOperator);

            var result = orOperator.PerformLogic(true);

            Assert.IsTrue(orOperator.Result);
            Assert.AreEqual(orOperator.Result, result);
        }
Exemplo n.º 12
0
        public void PerformLogicWithFalseInitializationAndFalse()
        {
            var orOperator = new OrOperator(false);
            Assert.IsNotNull(orOperator);

            var result = orOperator.PerformLogic(false);

            Assert.IsFalse(orOperator.Result);
            Assert.AreEqual(orOperator.Result, result);
        }
Exemplo n.º 13
0
        public void OrExpressionTest()
        {
            Parser            parser      = new Parser();
            BooleanExpression expression  = parser.Parse("(R:Role1 or R:Role2)");
            OrOperator        andOperator = (OrOperator)expression;

            Assert.IsNotNull(andOperator.Left);
            Assert.IsNotNull(andOperator.Right);
            Assert.AreEqual("Role1", ((RoleExpression)andOperator.Left).Word.Value);
            Assert.AreEqual("Role2", ((RoleExpression)andOperator.Right).Word.Value);
        }
Exemplo n.º 14
0
        public void FilterOrConditionTest()
        {
            string expected = @"<?xml version=""1.0"" encoding=""utf-8""?>
<function controlid=""unittest"">
    <query>
        <select>
            <field>CUSTOMERID</field>
            <field>RECORDNO</field>
        </select>
        <object>ARINVOICE</object>
        <filter>
            <or>
                <lessthanorequalto>
                    <field>RECORDNO</field>
                    <value>10</value>
                </lessthanorequalto>
                <equalto>
                    <field>RECORDNO</field>
                    <value>100</value>
                </equalto>
                <equalto>
                    <field>RECORDNO</field>
                    <value>1000</value>
                </equalto>
                <equalto>
                    <field>RECORDNO</field>
                    <value>10000</value>
                </equalto>
            </or>
        </filter>
        <options />
    </query>
</function>";

            SelectBuilder builder = new SelectBuilder();

            ISelect[] fields = builder.Fields(new[] { "CUSTOMERID", "RECORDNO" }).GetFields();

            OrOperator filter = new OrOperator(new List <IFilter>());

            filter.AddFilter((new Filter("RECORDNO")).SetLessThanOrEqualTo("10"));
            filter.AddFilter((new Filter("RECORDNO")).SetEqualTo("100"));
            filter.AddFilter((new Filter("RECORDNO")).SetEqualTo("1000"));
            filter.AddFilter((new Filter("RECORDNO")).SetEqualTo("10000"));

            IQueryFunction query = new QueryFunction("unittest")
            {
                FromObject   = "ARINVOICE",
                SelectFields = fields,
                Filter       = filter
            };

            this.CompareXml(expected, query);
        }
Exemplo n.º 15
0
        public void OrOperator_ShouldPrint()
        {
            var ast = new OrOperator
                      (
                position: 0,
                left: new Identifier(0, "x"),
                right: new Identifier(0, "y")
                      );

            Assert.That(PrettyPrinter.ToString(ast), Is.EqualTo(
                            @"Or
    Identifier(x)
    Identifier(y)
"));
        }
Exemplo n.º 16
0
        public void CanPerformMultiOperationalExpression(int a, int b, int c, int d)
        {
            Dictionary <string, bool> expectedAnswersMap = new Dictionary <string, bool>
            {
                { "0000", false },
                { "1000", false },
                { "0100", false },
                { "0010", false },
                { "0001", true },
                { "1100", false },
                { "1010", true },
                { "1001", true },
                { "0110", true },
                { "0101", true },
                { "0011", true },
                { "1110", true },
                { "0111", true },
                { "1101", true },
                { "1011", true },
                { "1111", true },
            };
            LeafNode <int> A = new LeafNode <int>(a, SimpleValueExpressionFunction);
            LeafNode <int> B = new LeafNode <int>(b, SimpleValueExpressionFunction);
            LeafNode <int> C = new LeafNode <int>(c, SimpleValueExpressionFunction);
            LeafNode <int> D = new LeafNode <int>(d, SimpleValueExpressionFunction);
            List <Node>    firstOrChildren = new List <Node>
            {
                A,
                B
            };
            List <Node> middleAndChildren = new List <Node>();
            List <Node> lastOrChildren    = new List <Node>();
            Operator    andOp             = new AndOperator();
            Operator    orOp = new OrOperator();

            OperatorNode firstOr = new OperatorNode(firstOrChildren, orOp);

            middleAndChildren.Add(firstOr);
            middleAndChildren.Add(C);
            OperatorNode middleAnd = new OperatorNode(middleAndChildren, andOp);

            lastOrChildren.Add(middleAnd);
            lastOrChildren.Add(D);
            OperatorNode lastOr = new OperatorNode(lastOrChildren, orOp);

            Assert.Equal(lastOr.Evaluate(), expectedAnswersMap[$"{a}{b}{c}{d}"]);
        }
Exemplo n.º 17
0
        public void DefaultParamsTest()
        {
            string expected = @"<?xml version=""1.0"" encoding=""utf-8""?>" +
                              "<or>" +
                              "<lessthanorequalto>" +
                              "<field>RECORDNO</field>" +
                              "<value>1</value>" +
                              "</lessthanorequalto>" +
                              "<equalto>" +
                              "<field>RECORDNO</field>" +
                              "<value>100</value>" +
                              "</equalto>" +
                              "<equalto>" +
                              "<field>RECORDNO</field>" +
                              "<value>1000</value>" +
                              "</equalto>" +
                              "<equalto>" +
                              "<field>RECORDNO</field>" +
                              "<value>10000</value>" +
                              "</equalto>" +
                              "</or>";

            Stream            stream      = new MemoryStream();
            XmlWriterSettings xmlSettings = new XmlWriterSettings
            {
                Encoding = Encoding.GetEncoding("UTF-8")
            };

            IaXmlWriter xml = new IaXmlWriter(stream, xmlSettings);

            List <IFilter> filters = new List <IFilter>();

            filters.Add((new Filter("RECORDNO")).SetLessThanOrEqualTo("1"));
            filters.Add((new Filter("RECORDNO")).SetEqualTo("100"));
            filters.Add((new Filter("RECORDNO")).SetEqualTo("1000"));
            filters.Add((new Filter("RECORDNO")).SetEqualTo("10000"));
            IFilter orFilter = new OrOperator(filters);

            orFilter.WriteXml(ref xml);

            xml.Flush();

            stream.Position = 0;
            StreamReader reader = new StreamReader(stream);

            Assert.Equal(expected, reader.ReadToEnd());
        }
Exemplo n.º 18
0
        public void NullFilterTest()
        {
            Stream            stream      = new MemoryStream();
            XmlWriterSettings xmlSettings = new XmlWriterSettings
            {
                Encoding = Encoding.GetEncoding("UTF-8")
            };

            IaXmlWriter xml = new IaXmlWriter(stream, xmlSettings);

            IFilter orFilter = new OrOperator(null);

            var ex = Record.Exception(() => orFilter.WriteXml(ref xml));

            Assert.IsType <IntacctException>(ex);
            Assert.Equal("Two or more IFilter objects required for or", ex.Message);
        }
Exemplo n.º 19
0
 /* Methods */
 private void Tokenize()
 {
     tokens = new List<Token>();
     Token prev = null;
     Token t = null;
     while (_inputReader.Peek() != -1)
     {
         char c = (char)_inputReader.Read();
         switch (c)
         {
             case Token.AND:
                 t = new AndOperator();
                 tokens.Add(t);
                 break;
             case Token.OR:
                 t = new OrOperator();
                 tokens.Add(t);
                 break;
             case Token.LEFT_PAREN:
                 // Insert implicit AND operators before (
                 if ((prev is RightParenthesis) || (prev is Literal) || (prev is NotOperator))
                     tokens.Add(new AndOperator());
                 t = new LeftParenthesis();
                 tokens.Add(t);
                 break;
             case Token.RIGHT_PAREN:
                 t = new RightParenthesis();
                 tokens.Add(t);
                 break;
             case Token.NOT:
                 t = new NotOperator();
                 tokens.Add(t);
                 break;
             default:
                 t = new Literal(c);
                 // Insert implicit AND operators before Literals
                 if ((prev is RightParenthesis) || (prev is Literal) || (prev is NotOperator))
                     tokens.Add(new AndOperator());
                 tokens.Add(t);
                 break;
         }
         prev = t;
     }
 }
Exemplo n.º 20
0
        public void CreateExpressionTest1()
        {
            // Arrange
            var parameterExpression = Expression.Parameter(typeof(Employee), "sample");
            var expressionProperty  = Expression.Property(parameterExpression, nameof(Employee.FirstName));
            var containsOperator    = new ContainsOperator();

            Expression leftExpression  = containsOperator.CreateExpression(expressionProperty, Expression.Constant("xxx"));
            Expression rightExpression = containsOperator.CreateExpression(expressionProperty, Expression.Constant("yyy"));

            Expression expectedExpression = Expression.Or(leftExpression, rightExpression);

            var _operator = new OrOperator();

            // Act
            Expression resultExpression = _operator.CreateExpression(leftExpression, rightExpression);

            // Assert
            Assert.AreEqual(expectedExpression.ToString(), resultExpression.ToString(), "Expression not correct");
        }
Exemplo n.º 21
0
        public void SingleFilterTest()
        {
            Stream            stream      = new MemoryStream();
            XmlWriterSettings xmlSettings = new XmlWriterSettings
            {
                Encoding = Encoding.GetEncoding("UTF-8")
            };

            IaXmlWriter xml = new IaXmlWriter(stream, xmlSettings);

            List <IFilter> filters = new List <IFilter>();

            filters.Add((new Filter("RECORDNO")).SetGreaterThanOrEqualTo("1"));
            IFilter orFilter = new OrOperator(filters);

            var ex = Record.Exception(() => orFilter.WriteXml(ref xml));

            Assert.IsType <IntacctException>(ex);
            Assert.Equal("Two or more IFilter objects required for or", ex.Message);
        }
Exemplo n.º 22
0
        public void Visit(OrOperator or)
        {
            var trueLabel = MakeNewLabel();
            var endLabel  = MakeNewLabel();

            or.Left.Accept(this);
            var leftOperand = tacs.Last().Result;

            tacs.Add(Tac.IfTrue(leftOperand, trueLabel));
            or.Right.Accept(this);
            var rightOperand = tacs.Last().Result;

            tacs.Add(Tac.IfTrue(rightOperand, trueLabel));
            var resultVariable = MakeNewTemp();

            tacs.Add(Tac.Assign("0", resultVariable));
            tacs.Add(Tac.Goto(endLabel));
            tacs.Add(Tac.Label(trueLabel, resultVariable));
            tacs.Add(Tac.Assign("1", resultVariable));
            tacs.Add(Tac.Label(endLabel, resultVariable));
        }
Exemplo n.º 23
0
 public void BuildSupplyPoint()
 {
     MarketDB.Instance.InsertByForce();
     datalayer               = PolicyDL.Instance;
     UsernameEqualsLeaf2     = new UsernameEquals(PolicyType.Global, "bla", "bla_bla", 1);
     UsernameEqualsLeaf      = new UsernameEquals(PolicyType.Global, "bla", "bla_bla", 2);
     QuantityLessThanLeaf    = new QuantityLessThan(PolicyType.Global, "bla", "bla_bla", 3);
     QuantityGreaterThanLeaf = new QuantityGreaterThan(PolicyType.Global, "bla", "bla_bla", 4);
     PriceLessThanLeaf       = new PriceLessThan(PolicyType.Global, "bla", "bla_bla", 5);
     PriceGreaterThanLeaf    = new PriceGreaterThan(PolicyType.Global, "bla", "bla_bla", 6);
     AddressEqualsLeaf       = new AddressEquals(PolicyType.Global, "bla", "bla_bla", 7);
     AndHas0opSun            = new AndOperator(PolicyType.Global, "bla", PriceGreaterThanLeaf, PriceLessThanLeaf, 8);
     AndHas1opSun            = new AndOperator(PolicyType.Global, "bla", AndHas0opSun, UsernameEqualsLeaf2, 9);
     OrHas0opSun             = new OrOperator(PolicyType.Global, "bla", QuantityLessThanLeaf, QuantityGreaterThanLeaf, 10);
     OrHas1opSun             = new OrOperator(PolicyType.Global, "bla", OrHas0opSun, UsernameEqualsLeaf, 11);
     NotHasCondSun           = new NotOperator(PolicyType.Global, "bla", AddressEqualsLeaf, null, 12);
     NotHasopSun             = new NotOperator(PolicyType.Global, "bla", NotHasCondSun, null, 13);
     OrHas2opSuns            = new OrOperator(PolicyType.Global, "bla", AndHas1opSun, OrHas1opSun, 14);
     ROOT_AndHas2opSuns      = new AndOperator(PolicyType.Global, "bla", OrHas2opSuns, NotHasopSun, 15);
     BadInputLeaf            = new UsernameEquals(PolicyType.Global, "bla", "bla'bla", 1);
 }
Exemplo n.º 24
0
        public void CanPerformSimpleOrTree()
        {
            List <Node> children = new List <Node>
            {
                new LeafNode <int>(0, SimpleValueExpressionFunction),
                new LeafNode <int>(0, SimpleValueExpressionFunction)
            };

            Operator     op       = new OrOperator();
            OperatorNode opNode00 = new OperatorNode(children, op);

            children = new List <Node>
            {
                new LeafNode <int>(0, SimpleValueExpressionFunction),
                new LeafNode <int>(1, SimpleValueExpressionFunction)
            };
            OperatorNode opNode01 = new OperatorNode(children, op);

            children = new List <Node>
            {
                new LeafNode <int>(1, SimpleValueExpressionFunction),
                new LeafNode <int>(0, SimpleValueExpressionFunction)
            };
            OperatorNode opNode10 = new OperatorNode(children, op);

            children = new List <Node>
            {
                new LeafNode <int>(1, SimpleValueExpressionFunction),
                new LeafNode <int>(1, SimpleValueExpressionFunction)
            };
            OperatorNode opNode11 = new OperatorNode(children, op);

            Assert.False(opNode00.Evaluate());
            Assert.True(opNode01.Evaluate());
            Assert.True(opNode10.Evaluate());
            Assert.True(opNode11.Evaluate());
        }
Exemplo n.º 25
0
        public void AndOrNotTest()
        {
            Parser            parser     = new Parser();
            BooleanExpression expression = parser.Parse(
                "(R:HumanSR OR R:GeneralManagers) AND NOT R:HRSpecialist");

            AndOperator andOperator = (AndOperator)expression;

            OrOperator orOperator = (OrOperator)andOperator.Left;

            RoleExpression hrRoleExpression = (RoleExpression)orOperator.Left;

            Assert.AreEqual("HumanSR", hrRoleExpression.Word.Value);

            RoleExpression gmRoleExpression = (RoleExpression)orOperator.Right;

            Assert.AreEqual("GeneralManagers", gmRoleExpression.Word.Value);

            NotOperator notOperator = (NotOperator)andOperator.Right;

            RoleExpression specialistRoleExpression = (RoleExpression)notOperator.Expression;

            Assert.AreEqual("HRSpecialist", specialistRoleExpression.Word.Value);
        }
            /// <summary>
            /// Processes the or operator.
            /// </summary>
            /// <param name="op">The op.</param>
            /// <returns></returns>
            private static IConditionOperator <LanguageUnderstandingResult> ProcessOrOperator(OrOperator op)
            {
                var orOperator = new CognitiveServices.LanguageUnderstanding.Conditions.OrConditionOperator <LanguageUnderstandingResult>();
                var operators  = ProcessSuboperators(op);

                orOperator.Operators = operators.ToArray();
                return(orOperator);
            }
Exemplo n.º 27
0
 public void Visit(OrOperator node)
 {
 }
Exemplo n.º 28
0
 public void Visit(OrOperator node)
 {
     VisitBinary(node);
     CheckOperandsAreOfSameType(node);
 }
Exemplo n.º 29
0
        public static void Run(ILogger logger)
        {
            OnlineClient client = Bootstrap.Client(logger);

            List <IFilter> filterList = new List <IFilter>();

            filterList.Add((new Filter("CUSTOMERID")).SetLike("c%"));
            filterList.Add((new Filter("CUSTOMERID")).SetLike("1%"));
            OrOperator filter = new OrOperator(filterList);

            OrderBuilder orderBuilder = new OrderBuilder();

            IOrder[] orders = orderBuilder.Descending("CUSTOMERID").GetOrders();

            SelectBuilder selectBuilder = new SelectBuilder();

            ISelect[] fields = selectBuilder.
                               Fields(new[] { "CUSTOMERID", "CUSTOMERNAME" }).
                               Sum("TOTALDUE").
                               GetFields();

            QueryFunction query = new QueryFunction()
            {
                SelectFields    = fields,
                FromObject      = "ARINVOICE",
                Filter          = filter,
                CaseInsensitive = true,
                PageSize        = 100,
                OrderBy         = orders
            };

            logger.LogInformation("Executing query to Intacct API");

            Task <OnlineResponse> task = client.Execute(query);

            task.Wait();
            OnlineResponse response = task.Result;
            Result         result   = response.Results[0];

            dynamic json = JsonConvert.DeserializeObject(JsonConvert.SerializeObject(result.Data));

            if (json != null && json.First != null)
            {
                Console.WriteLine("Success! Number of ARINVOICE objects found: " + result.TotalCount);
                Console.WriteLine("First ARINVOICE result found");
                Console.WriteLine("CUSTOMERID: " + json.First["ARINVOICE"]["CUSTOMERID"].Value);
                Console.WriteLine("CUSTOMERNAME: " + json.First["ARINVOICE"]["CUSTOMERNAME"].Value);
                Console.WriteLine("SUM.TOTALDUE: " + json.First["ARINVOICE"]["SUM.TOTALDUE"].Value);

                Console.WriteLine("See the log file (logs/intacct.log) for the complete list of results.");
            }
            else
            {
                Console.WriteLine("The query executed, but no ARINVOICE objects met the query criteria.");
                Console.WriteLine("Either modify the filter or comment it out from the query.");
                Console.WriteLine("See the log file (logs/intacct.log) for the XML request.");
            }

            try
            {
                string jsonString = json.ToString();

                logger.LogDebug(
                    "Query successful [ Company ID={0}, User ID={1}, Request control ID={2}, Function control ID={3}, Total count={4}, Data={5} ]",
                    response.Authentication.CompanyId,
                    response.Authentication.UserId,
                    response.Control.ControlId,
                    result.ControlId,
                    result.TotalCount,
                    jsonString
                    );
            }
            catch (NullReferenceException e)
            {
                logger.LogDebug("No response in Data. {0}", e);
            }
            finally
            {
                LogManager.Flush();
            }
        }
Exemplo n.º 30
0
 public void CanCreateOrOperator()
 {
     Operator orOperator = new OrOperator();
 }
Exemplo n.º 31
0
        static Expression ToSAT(List <_3COL.Node> nodes)
        {
            curVariables = new List <Variable>();
            AndOperator and = null;

            // Jeder Knoten muss mindestens eine Farbe haben
            foreach (var node in nodes)
            {
                OrOperator or = null;
                foreach (var color in colors)
                {
                    if (or == null)
                    {
                        or = new OrOperator(Vari(node, color), null);
                    }
                    else if (or.Right == null)
                    {
                        or.Right = Vari(node, color);
                    }
                    else
                    {
                        or = new OrOperator(or, Vari(node, color));
                    }
                }
                if (and == null)
                {
                    and = new AndOperator(or, null);
                }
                else if (and.Right == null)
                {
                    and.Right = or;
                }
                else
                {
                    and = new AndOperator(and, or);
                }
            }

            // Jeder Knoten darf maximal eine Farbe haben
            foreach (var node in nodes)
            {
                foreach (var c1 in colors)
                {
                    foreach (var c2 in colors)
                    {
                        if (c1 == c2)
                        {
                            continue;
                        }
                        and = new AndOperator(and,
                                              new NotOperator(
                                                  new AndOperator(
                                                      Vari(node, c1),
                                                      Vari(node, c2))));
                    }
                }
            }

            // Mein Nachbar darf nicht die selbe farbe haben
            foreach (var conn in connections)
            {
                foreach (var c in colors)
                {
                    and = new AndOperator(and,
                                          new NotOperator(
                                              new AndOperator(
                                                  Vari(conn.Item1, c),
                                                  Vari(conn.Item2, c))));
                }
            }
            string s = and.ToString();

            return(and);
        }
Exemplo n.º 32
0
        // help with creating binary tree
        private void InsertTreeHelper(ref Node n, string c)
        {
            switch (c)
            {
            case "&":
                n           = new AndOperator(c);
                n.LeftNode  = this._myStack.Pop();
                n.RightNode = this._myStack.Pop();
                this._myStack.Push(n);
                break;

            case "|":
                n           = new OrOperator(c);
                n.LeftNode  = this._myStack.Pop();
                n.RightNode = this._myStack.Pop();
                this._myStack.Push(n);
                break;

            case ">":
                n           = new Implication(c);
                n.LeftNode  = this._myStack.Pop();
                n.RightNode = this._myStack.Pop();
                this._myStack.Push(n);
                break;

            case "~":
                n           = new Negation(c);
                n.RightNode = this._myStack.Pop();
                this._myStack.Push(n);
                break;

            case "=":
                n           = new BiImplication(c);
                n.LeftNode  = this._myStack.Pop();
                n.RightNode = this._myStack.Pop();
                this._myStack.Push(n);
                break;

            case "%":
                n           = new NANDOperator(c);
                n.LeftNode  = this._myStack.Pop();
                n.RightNode = this._myStack.Pop();
                this._myStack.Push(n);
                break;

            case "!":
                n           = new Existential(c, new PredicateVariable(this._myStack.Pop().ToString()));
                n.RightNode = this._myStack.Pop();
                this._myStack.Push(n);
                break;

            case "@":
                n           = new Universal(c, new PredicateVariable(this._myStack.Pop().ToString()));
                n.RightNode = this._myStack.Pop();
                this._myStack.Push(n);
                break;

            default:
                if (char.IsLower(char.Parse(c)))
                {
                    n = new PredicateVariable(c);
                    this._myStack.Push(n);
                }
                else
                {
                    n = new Variable(c);
                    int total = this._myStack.Count;
                    for (int i = 0; i < total; i++)
                    {
                        if (_myStack.Peek() is PredicateVariable p)
                        {
                            n.AddVariable(p);
                            _myStack.Pop();
                        }
                    }
                    this._myStack.Push(n);
                }
                break;
            }
        }
        public static void Seed(ApplicationContext context)
        {
            #region Is entity equals operators

            var isShelf = context.IsEntityEquals.Add(new IsEntityEquals()
            {
                Name = "FurnitureType", Value = "shelf"
            });
            var isArmchair = context.IsEntityEquals.Add(new IsEntityEquals()
            {
                Name = "FurnitureType", Value = "armchair"
            });
            var isNumberTwo = context.IsEntityEquals.Add(new IsEntityEquals()
            {
                Name = "builtin.number", Value = "Two"
            });
            var isNumber2 = context.IsEntityEquals.Add(new IsEntityEquals()
            {
                Name = "builtin.number", Value = "2"
            });

            #endregion Is entity equals operators

            #region Or operators

            var isTwoOrOperator = new OrOperator()
            {
                IsEntityEquals = new List <IsEntityEquals>()
            };
            isTwoOrOperator.IsEntityEquals.Add(isNumber2);
            isTwoOrOperator.IsEntityEquals.Add(isNumberTwo);

            #endregion Or operators

            #region Conditions

            var isShelfCondition = context.Conditions.Add(new Condition()
            {
                IsEntityEquals = isShelf
            });
            var isArmchairCondition = context.Conditions.Add(new Condition()
            {
                IsEntityEquals = isArmchair
            });
            var isTwoCondition = context.Conditions.Add(new Condition()
            {
                OrOperator = isTwoOrOperator
            });

            #endregion Conditions

            #region Flow states

            List <LuisFlowState> flowStateWithError = new List <LuisFlowState>();
            List <LuisFlowState> allFlowStates      = new List <LuisFlowState>();
            var initialFlowState = context.FlowStates.Add(new LuisFlowState()
            {
                IsInitialState     = true,
                Name               = "InitialState",
                StateBehaviorClass = "CognitiveServices.LanguageUnderstanding.Samples.Bot.ConversationSendBehavior, Bot Application"
            });
            flowStateWithError.Add(initialFlowState);
            allFlowStates.Add(initialFlowState);

            var buildingShelfFlowState = context.FlowStates.Add(new LuisFlowState()
            {
                Name = "BuildingShelf",
                StateBehaviorClass = "CognitiveServices.LanguageUnderstanding.Samples.Bot.PostToUserBehavior, Bot Application"
            });
            flowStateWithError.Add(buildingShelfFlowState);
            allFlowStates.Add(buildingShelfFlowState);

            var twoMetersFlowState = context.FlowStates.Add(new LuisFlowState()
            {
                Name = "TwoMeters",
                StateBehaviorClass = "CognitiveServices.LanguageUnderstanding.Samples.Bot.PostToUserBehavior, Bot Application"
            });
            flowStateWithError.Add(twoMetersFlowState);
            allFlowStates.Add(twoMetersFlowState);

            var buildingArmchairFlowState = context.FlowStates.Add(new LuisFlowState()
            {
                Name = "BuildingArmchair",
                StateBehaviorClass = "CognitiveServices.LanguageUnderstanding.Samples.Bot.PostToUserBehavior, Bot Application"
            });
            flowStateWithError.Add(buildingArmchairFlowState);
            allFlowStates.Add(buildingArmchairFlowState);

            var buildingSomethingElseFlowState = context.FlowStates.Add(new LuisFlowState()
            {
                Name = "BuildingSomethingElse",
                StateBehaviorClass = "CognitiveServices.LanguageUnderstanding.Samples.Bot.PostToUserBehavior, Bot Application"
            });
            flowStateWithError.Add(buildingSomethingElseFlowState);
            allFlowStates.Add(buildingSomethingElseFlowState);

            var completedFlowState = context.FlowStates.Add(new LuisFlowState()
            {
                Name = "Completed",
                StateBehaviorClass = "CognitiveServices.LanguageUnderstanding.Samples.Bot.PostToUserBehavior, Bot Application"
            });
            flowStateWithError.Add(completedFlowState);
            allFlowStates.Add(completedFlowState);

            var errorHandlingFlowState = context.FlowStates.Add(new LuisFlowState()
            {
                Name = "ErrorHandling",
                StateBehaviorClass = "CognitiveServices.LanguageUnderstanding.Samples.Bot.PostToUserBehavior, Bot Application"
            });
            allFlowStates.Add(errorHandlingFlowState);

            #endregion Flow states

            #region Flow state transitions

            List <LuisFlowStateTransition> allTransitions = new List <LuisFlowStateTransition>();

            var flowStateTransition1 = context.FlowStateTransitions.Add(new LuisFlowStateTransition()
            {
                CurrentState = initialFlowState,
                NextState    = buildingShelfFlowState,
                Intent       = "Build.Furniture",
                Condition    = isShelfCondition
            });
            allTransitions.Add(flowStateTransition1);

            var flowStateTransition2 = context.FlowStateTransitions.Add(new LuisFlowStateTransition()
            {
                CurrentState = initialFlowState,
                NextState    = buildingArmchairFlowState,
                Intent       = "Build.Furniture",
                Condition    = isArmchairCondition
            });
            allTransitions.Add(flowStateTransition2);

            var flowStateTransition3 = context.FlowStateTransitions.Add(new LuisFlowStateTransition()
            {
                CurrentState = initialFlowState,
                NextState    = buildingSomethingElseFlowState,
                Intent       = "Build.Furniture"
            });
            allTransitions.Add(flowStateTransition3);

            var flowStateTransition4 = context.FlowStateTransitions.Add(new LuisFlowStateTransition()
            {
                CurrentState = buildingShelfFlowState,
                NextState    = twoMetersFlowState,
                Intent       = "Shelf.Size",
                Condition    = isTwoCondition
            });
            allTransitions.Add(flowStateTransition4);

            var flowStateTransition5 = context.FlowStateTransitions.Add(new LuisFlowStateTransition()
            {
                CurrentState = twoMetersFlowState,
                NextState    = completedFlowState,
                Intent       = "Acknowledgement"
            });
            allTransitions.Add(flowStateTransition5);

            var flowStateTransition6 = context.FlowStateTransitions.Add(new LuisFlowStateTransition()
            {
                CurrentState = completedFlowState,
                NextState    = buildingShelfFlowState,
                Intent       = "Build.Furniture",
                Condition    = isShelfCondition
            });
            allTransitions.Add(flowStateTransition5);

            foreach (var state in flowStateWithError)
            {
                var transition = context.FlowStateTransitions.Add(new LuisFlowStateTransition()
                {
                    CurrentState = state,
                    NextState    = errorHandlingFlowState,
                    Intent       = "None",
                });
                allTransitions.Add(transition);
            }

            #endregion Flow state transitions

            #region Luis configuration

            var configuration = context.LuisConfigurations.Add(new LuisConfiguration()
            {
                Description              = "LUIS Configuration",
                LuisFlowStates           = new List <LuisFlowState>(),
                LuisFlowStateTransitions = new List <LuisFlowStateTransition>()
            });
            allFlowStates.ForEach(x => configuration.LuisFlowStates.Add(x));
            allTransitions.ForEach(x => configuration.LuisFlowStateTransitions.Add(x));

            #endregion Luis configuration
        }
Exemplo n.º 34
0
        public void ThreeLevelFilterTest()
        {
            string expected = @"<?xml version=""1.0"" encoding=""utf-8""?>
<function controlid=""unittest"">
    <query>
        <select>
            <field>BATCHNO</field>
            <field>RECORDNO</field>
            <field>STATE</field>
        </select>
        <object>GLBATCH</object>
        <filter>
            <or>
                <and>
                    <equalto>
                        <field>JOURNAL</field>
                        <value>APJ</value>
                    </equalto>
                    <equalto>
                        <field>STATE</field>
                        <value>Posted</value>
                    </equalto>
                </and>
                <and>
                    <equalto>
                        <field>JOURNAL</field>
                        <value>RCPT</value>
                    </equalto>
                    <equalto>
                        <field>STATE</field>
                        <value>Posted</value>
                    </equalto>
                    <or>
                        <equalto>
                            <field>RECORDNO</field>
                            <value>168</value>
                        </equalto>
                        <equalto>
                            <field>RECORDNO</field>
                            <value>132</value>
                        </equalto>
                    </or>
                </and>
            </or>
        </filter>
        <options />
    </query>
</function>";

            SelectBuilder builder = new SelectBuilder();

            ISelect[] fields = builder.Fields(new[] { "BATCHNO", "RECORDNO", "STATE" }).GetFields();

            AndOperator apjAndState = new AndOperator(new List <IFilter>());

            apjAndState.AddFilter((new Filter("JOURNAL")).SetEqualTo("APJ"));
            apjAndState.AddFilter((new Filter("STATE")).SetEqualTo("Posted"));

            OrOperator recordnoOr = new OrOperator(new List <IFilter>());

            recordnoOr.AddFilter((new Filter("RECORDNO")).SetEqualTo("168"));
            recordnoOr.AddFilter((new Filter("RECORDNO")).SetEqualTo("132"));

            AndOperator rcptAndState = new AndOperator(new List <IFilter>());

            rcptAndState.AddFilter((new Filter("JOURNAL")).SetEqualTo("RCPT"));
            rcptAndState.AddFilter((new Filter("STATE")).SetEqualTo("Posted"));
            rcptAndState.AddFilter(recordnoOr);

            IFilter filter = new OrOperator(new List <IFilter>()
            {
                apjAndState, rcptAndState
            });

            IFunction query = new QueryFunction("unittest")
            {
                FromObject   = "GLBATCH",
                SelectFields = fields,
                Filter       = filter
            };

            this.CompareXml(expected, query);
        }
Exemplo n.º 35
0
        private static ExpTreeNode GetAsExpressionTree(this ParseTreeNode parsedNode, ExpTreeNode parentExpNode)
        {
            //The current node is a variable / value token. Create a value node and return it back
            if (!parsedNode.ChildNodes.Any())
            {
                switch (parsedNode.Term.Name)
                {
                case "variable":
                {
                    var varName = parsedNode.FindTokenAndGetValue <string>();
                    return(new VariableValue(varName, parentExpNode));
                }

                case "boolean":
                    return(new LiteralValue(parsedNode.FindTokenAndGetValue <bool>(), parentExpNode));

                case "integer":
                case "decimal":
                    return(new LiteralValue(parsedNode.FindTokenAndGetValue <double>(), parentExpNode));

                case "SingleQuoteString":
                case "DoubleQuoteString":
                    return(new LiteralValue(parsedNode.FindTokenAndGetValue <string>(), parentExpNode));

                default:
                    throw parsedNode.GetException($"Invalid token type '{parsedNode.Term.Name}' in expression");
                }
            }

            // Look on the next node down
            else if (parsedNode.ChildNodes.Count == 1)
            {
                return(GetAsExpressionTree(parsedNode.ChildNodes[0], parentExpNode));
            }

            //Ignore parenthesis, the middle non-terminal is what we want
            // Look on the next node down
            else if (parsedNode.ChildNodes.Count == 3 && parsedNode.ChildNodes[0]?.Token?.Text == "(")
            {
                return(GetAsExpressionTree(parsedNode.ChildNodes[1], parentExpNode));
            }

            //Binary operator
            else if (parsedNode.ChildNodes.Count == 3)
            {
                BinaryOperatorBase binaryOp;
                var opStr = parsedNode.ChildNodes[1].FindToken().ValueString;
                switch (opStr)
                {
                // Math
                case "+":
                    binaryOp = new AdditionOperator(parentExpNode);
                    break;

                case "-":
                    binaryOp = new SubtractionOperator(parentExpNode);
                    break;

                case "*":
                    binaryOp = new MultiplacationOperator(parentExpNode);
                    break;

                case "/":
                    binaryOp = new DivisionOperator(parentExpNode);
                    break;

                case "%":
                    binaryOp = new ModulusOperator(parentExpNode);
                    break;

                case "^":
                    binaryOp = new PowerOperator(parentExpNode);
                    break;

                // Bool
                case "~==":
                    binaryOp = new LooseEqualsOperator(parentExpNode);
                    break;

                case "~!=":
                    binaryOp = new LooseNotEqualsOperator(parentExpNode);
                    break;

                case "==":
                    binaryOp = new EqualsOperator(parentExpNode);
                    break;

                case "!=":
                    binaryOp = new NotEqualsOperator(parentExpNode);
                    break;

                case "like":
                    binaryOp = new LikeOperator(parentExpNode);
                    break;

                case "match":
                    binaryOp = new MatchOperator(parentExpNode);
                    break;

                case ">":
                    binaryOp = new GreaterThanOperator(parentExpNode);
                    break;

                case ">=":
                    binaryOp = new GreaterThanOrEqualOperator(parentExpNode);
                    break;

                case "<":
                    binaryOp = new LessThanOperator(parentExpNode);
                    break;

                case "<=":
                    binaryOp = new LessThanOrEqualOperator(parentExpNode);
                    break;

                case "&&":
                    binaryOp = new AndOperator(parentExpNode);
                    break;

                case "||":
                    binaryOp = new OrOperator(parentExpNode);
                    break;

                default:
                    throw parsedNode.ChildNodes[1].GetException($"Unrecognized operator '{opStr}'");
                }

                binaryOp.LeftOperand  = GetAsExpressionTree(parsedNode.ChildNodes[0], binaryOp);
                binaryOp.RightOperand = GetAsExpressionTree(parsedNode.ChildNodes[2], binaryOp);

                //Optimize
                if (binaryOp.LeftOperand is LiteralValue && binaryOp.RightOperand is LiteralValue)
                {
                    return(new LiteralValue(binaryOp.Eval(), parentExpNode));
                }

                return(binaryOp);
            }

            // Unary operator
            else if (parsedNode.ChildNodes.Count == 2)
            {
                var opVal = parsedNode.ChildNodes[0].FindToken().Value;
                UnaryOperatorBase unaryOp;
                if (parsedNode.ChildNodes[0].FindToken().Value is TypeCode convertType)
                {
                    unaryOp = new TypeConversionOperator(convertType, parentExpNode);
                }
                else
                {
                    var opStr = opVal.ToString();
                    switch (opStr)
                    {
                    case "!":
                        unaryOp = new NotOperator(parentExpNode);
                        break;

                    //Property Checking
                    case "lengthof":
                        unaryOp = new LengthOperator(parentExpNode);
                        break;

                    case "typeof":
                        unaryOp = new TypeOperator(parentExpNode);
                        break;

                    default:
                        unaryOp = new GenericUnaryMathFunctionOperator(opStr, parentExpNode);
                        break;
                    }
                }

                unaryOp.Operand = GetAsExpressionTree(parsedNode.ChildNodes[1], unaryOp);

                //Optimize
                if (unaryOp.Operand is LiteralValue)
                {
                    return(new LiteralValue(unaryOp.Eval(), parentExpNode));
                }

                return(unaryOp);
            }

            else
            {
                throw parsedNode.GetException($"Invalid number of tokens ({parsedNode.ChildNodes.Count})");
            }
        }
Exemplo n.º 36
0
        static void Main(string[] args)
        {
            nodes = new List <Node>();
            for (int i = 1; i <= 12; i++)
            {
                nodes.Add(i);
            }
            nodes.Add(1, 2);
            nodes.Add(1, 7);
            nodes.Add(1, 11);
            nodes.Add(2, 3);
            nodes.Add(2, 11);
            nodes.Add(3, 4);
            nodes.Add(3, 10);
            nodes.Add(4, 5);
            nodes.Add(4, 9);
            nodes.Add(5, 6);
            nodes.Add(5, 9);
            nodes.Add(6, 7);
            nodes.Add(6, 8);
            nodes.Add(7, 8);
            nodes.Add(8, 12);
            nodes.Add(9, 12);
            nodes.Add(10, 12);
            nodes.Add(10, 11);
            #region Random Graph
            //Random rand = new Random();
            //for (int i = 0; i < 12; i++)
            //{
            //    nodes.Add(new Node((i + 1) + ""));
            //}
            //for (int i = 0; i < 20; i++)
            //{
            //    List<Node> forcon = nodes.Where(n => n.Neighbours.Count < 11).ToList();
            //    if (forcon.Count < 2)
            //        break;
            //    Node a = forcon[rand.Next(0, forcon.Count)];
            //    forcon = forcon.Where(n => n != a).ToList();
            //    Node b = forcon[rand.Next(0, forcon.Count)];
            //    a.AddNeighbour(b);
            //}
            #endregion

            CurVariables = new List <Variable>();
            AndOperator and = null;
            foreach (var first in nodes)
            {
                foreach (var secound in first.NeighboursFromOneSide)
                {
                    OrOperator or = new OrOperator(Vari(first), Vari(secound));
                    if (and == null)
                    {
                        and = new AndOperator(or, null);
                    }
                    else if (and.Right == null)
                    {
                        and.Right = or;
                    }
                    else
                    {
                        and = new AndOperator(and, or);
                    }
                }
            }
            SATSolver.Program.OnFound += Program_OnFound;
            string str = and.ToString();
            SATSolver.Program.Solve(and);
            Console.WriteLine();
            foreach (var item in best)
            {
                Console.Write(item + ", ");
                nodes.FirstOrDefault(n => n.NodeName == item).NodeColor = Microsoft.Glee.Drawing.Color.Red;
            }
            GraphPlotter.GraphPlott.PlottToFile(nodes, "asd.jpg", 1000, true);
            Console.ReadLine();
        }