Example #1
0
        /// <summary> Assert from the right side is always going to be from an
        /// Alpha node.
        /// </summary>
        /// <param name="">factInstance
        /// </param>
        /// <param name="">engine
        ///
        /// </param>
        public override void assertRight(IFact rfact, Rete engine, IWorkingMemory mem)
        {
            // we only proceed if the fact hasn't already entered
            // the join node
            Index linx = new Index(new IFact[0]);
            IGenericMap <Object, Object> rightmem = (IGenericMap <Object, Object>)mem.getBetaRightMemory(this);

            rightmem.Put(rfact, rfact);
            // now that we've added the facts to the list, we
            // proceed with evaluating the fact
            IGenericMap <Object, Object> leftmem = (IGenericMap <Object, Object>)mem.getBetaLeftMemory(this);
            IEnumerator itr = leftmem.Values.GetEnumerator();

            while (itr.MoveNext())
            {
                IBetaMemory bmem      = (IBetaMemory)itr.Current;
                int         prevCount = bmem.matchCount();
                if (evaluate(linx.Facts, rfact, engine))
                {
                    bmem.addMatch(rfact);
                }
                // When facts are asserted from the right, it can only
                // increase the match count, so basically it will never
                // need to propogate to successor nodes.
                if (prevCount == 0 && bmem.matchCount() != 0)
                {
                    linx = new Index(new IFact[0]);
                    // we have to retract
                    try
                    {
                        propogateRetract(linx, engine, mem);
                    }
                    catch (RetractException e)
                    {
                        throw new AssertException("NotJion - " + e.Message);
                    }
                }
            }
        }
Example #2
0
        /// <summary> Retract from the right works in the following order.
        /// 1. Remove the fact from the right memory
        /// 2. check which left memory matched
        /// 3. propogate the retract
        /// </summary>
        /// <param name="">factInstance
        /// </param>
        /// <param name="">engine
        ///
        /// </param>
        public override void retractRight(IFact rfact, Rete engine, IWorkingMemory mem)
        {
            Index linx = new Index(new IFact[0]);
            IGenericMap <Object, Object> rightmem = (IGenericMap <Object, Object>)mem.getBetaRightMemory(this);

            if (rightmem.RemoveWithReturn(rfact) != null)
            {
                // now we see the left memory matched and Remove it also
                IGenericMap <Object, Object> leftmem = (IGenericMap <Object, Object>)mem.getBetaLeftMemory(this);
                IEnumerator itr = leftmem.Values.GetEnumerator();
                while (itr.MoveNext())
                {
                    IBetaMemory bmem      = (IBetaMemory)itr.Current;
                    int         prevCount = bmem.matchCount();
                    if (bmem.matched(rfact))
                    {
                        // we Remove the fact from the memory
                        bmem.removeMatch(rfact);
                        // since 1 or more matches prevents propogation
                        // we don't need to propogate retract. if the
                        // match count is now zero, we need to propogate
                        // assert
                        if (prevCount != 0 && bmem.matchCount() == 0)
                        {
                            try
                            {
                                propogateAssert(bmem.Index, engine, mem);
                            }
                            catch (AssertException e)
                            {
                                throw new RetractException("NotJion - " + e.Message);
                            }
                        }
                    }
                }
            }
        }
Example #3
0
        /// <summary> Retract from the right works in the following order.
        /// 1. Remove the fact from the right memory
        /// 2. check which left memory matched
        /// 3. propogate the retract
        /// </summary>
        /// <param name="">factInstance
        /// </param>
        /// <param name="">engine
        ///
        /// </param>
        public override void retractRight(IFact rfact, Rete engine, IWorkingMemory mem)
        {
            IGenericMap <Object, Object> rightmem = (IGenericMap <Object, Object>)mem.getBetaRightMemory(this);

            rightmem.Remove(rfact);
            IGenericMap <Object, Object> leftmem = (IGenericMap <Object, Object>)mem.getBetaLeftMemory(this);
            IEnumerator itr = leftmem.Values.GetEnumerator();

            while (itr.MoveNext())
            {
                IBetaMemory bmem = (IBetaMemory)itr.Current;
                if (evaluate(bmem.LeftFacts, rfact, engine))
                {
                    bmem.removeMatch(rfact);
                    if (bmem.matchCount() == 0)
                    {
                        propogateRetract(bmem.Index, engine, mem);
                    }
                }
            }
        }
Example #4
0
        /// <summary> Assert from the right side is always going to be from an
        /// Alpha node.
        /// </summary>
        /// <param name="">factInstance
        /// </param>
        /// <param name="">engine
        ///
        /// </param>
        public override void assertRight(IFact rfact, Rete engine, IWorkingMemory mem)
        {
            IGenericMap <Object, Object> rightmem = (IGenericMap <Object, Object>)mem.getBetaRightMemory(this);

            rightmem.Put(rfact, rfact);
            IGenericMap <Object, Object> leftmem = (IGenericMap <Object, Object>)mem.getBetaLeftMemory(this);
            IEnumerator itr = leftmem.Values.GetEnumerator();

            while (itr.MoveNext())
            {
                IBetaMemory bmem = (IBetaMemory)itr.Current;
                if (evaluate(bmem.LeftFacts, rfact, engine))
                {
                    // now we propogate
                    bmem.addMatch(rfact);
                    if (bmem.matchCount() == 1)
                    {
                        propogateAssert(bmem.Index.add(rfact), engine, mem);
                    }
                }
            }
        }
Example #5
0
 /// <summary> NotJoin has to have a special addSuccessorNode since it needs
 /// to just propogate the left facts if it has zero matches.
 /// </summary>
 public override void addSuccessorNode(TerminalNode node, Rete engine, IWorkingMemory mem)
 {
     if (addNode(node))
     {
         // first, we Get the memory for this node
         IGenericMap <Object, Object> leftmem = (IGenericMap <Object, Object>)mem.getBetaLeftMemory(this);
         // now we iterate over the entry set
         IEnumerator itr = leftmem.Values.GetEnumerator();
         while (itr.MoveNext())
         {
             Object omem = itr.Current;
             if (omem is IBetaMemory)
             {
                 IBetaMemory bmem = (IBetaMemory)omem;
                 // iterate over the matches
                 if (bmem.matchCount() == 0)
                 {
                     node.assertFacts(bmem.Index, engine, mem);
                 }
             }
         }
     }
 }
Example #6
0
        public void testPropogateNoMatch()
        {
            Console.WriteLine("testPropogateNoMatch");
            // first create a rule engine instance
            Rete          engine = new Rete();
            NotJoin       nj     = new NotJoin(engine.nextNodeId());
            HashedEqBNode bn2    = new HashedEqBNode(engine.nextNodeId());

            Assert.IsNotNull(nj);

            // create a defclass
            Defclass dc = new Defclass(typeof(TestBean2));
            // create deftemplate
            Deftemplate dtemp = dc.createDeftemplate("testBean2");

            Assert.IsNotNull(dtemp);
            Binding[] binds = new Binding[1];
            Binding   b1    = new Binding();

            b1.LeftIndex   = (0);
            b1.IsObjectVar = (false);
            b1.LeftRow     = (0);
            b1.RightIndex  = (0);
            b1.VarName     = ("var1");
            binds[0]       = b1;

            Binding[] binds2 = new Binding[1];
            Binding   b2     = new Binding();

            b2.LeftIndex   = (1);
            b2.IsObjectVar = (false);
            b2.LeftRow     = (0);
            b2.RightIndex  = (1);
            b2.VarName     = ("var2");
            binds2[0]      = b2;

            // set the binding
            nj.Bindings = (binds);

            bn2.Bindings = (binds2);

            // now add the second Not to the first
            try
            {
                nj.addSuccessorNode(bn2, engine, engine.WorkingMemory);
            }
            catch (AssertException e)
            {
                Console.WriteLine(e.Message);
            }

            int       count = 10;
            ArrayList data  = new ArrayList();

            for (int idx = 0; idx < count; idx++)
            {
                TestBean2 bean = new TestBean2();
                bean.Attr1 = ("random" + idx);
                bean.Attr2 = (101 + idx);
                short s = 10001;
                bean.Attr3 = (s);
                long l = 10101018 + idx;
                bean.Attr4 = (l);
                bean.Attr5 = (1010101);
                bean.Attr6 = (1001.1001);
                IFact fact = dtemp.createFact(bean, dc, engine.nextFactId());
                data.Add(fact);
            }

            IEnumerator itr = data.GetEnumerator();

            while (itr.MoveNext())
            {
                try
                {
                    IFact f1 = (IFact)itr.Current;
                    nj.assertLeft(new Index(new IFact[] { f1 }), engine, engine.WorkingMemory);
                    nj.assertRight(f1, engine, engine.WorkingMemory);
                }
                catch (AssertException e)
                {
                    Console.WriteLine(e.Message);
                }
            }
            IGenericMap <IFact, IFact> rbmem = (IGenericMap <IFact, IFact>)engine.WorkingMemory.getBetaRightMemory(nj);

            Assert.AreEqual(count, rbmem.Count);

            IGenericMap <Object, Object> lbmem = (IGenericMap <Object, Object>)engine.WorkingMemory.getBetaLeftMemory(nj);

            Assert.AreEqual(count, lbmem.Count);

            // now check the BetaMemory has matches
            Console.WriteLine(nj.toPPString());
            IEnumerator mitr = lbmem.Values.GetEnumerator();

            while (mitr.MoveNext())
            {
                IBetaMemory btm = (IBetaMemory)mitr.Current;
                Assert.AreEqual(0, btm.matchCount());
                Console.WriteLine("match count=" + btm.matchCount() +
                                  " - " + btm.toPPString());
            }

            IGenericMap <Object, Object> lbmem2 = (IGenericMap <Object, Object>)engine.WorkingMemory.getBetaLeftMemory(bn2);

            Assert.AreEqual(count, lbmem2.Count);
            Console.WriteLine(bn2.toPPString());
            IEnumerator mitr2 = lbmem2.Values.GetEnumerator();

            engine.close();
            // TODO need to update the test to check the match count
            // by getting the right memory
        }
Example #7
0
        public void testMatch()
        {
            // first create a rule engine instance
            Rete    engine = new Rete();
            NotJoin bn     = new NotJoin(engine.nextNodeId());

            Assert.IsNotNull(bn);

            // create a defclass
            Defclass dc = new Defclass(typeof(TestBean2));
            // create deftemplate
            Deftemplate dtemp = dc.createDeftemplate("testBean2");

            Assert.IsNotNull(dtemp);
            Binding[] binds = new Binding[1];
            Binding   b1    = new Binding();

            b1.LeftIndex   = (0);
            b1.IsObjectVar = (false);
            b1.LeftRow     = (0);
            b1.RightIndex  = (0);
            b1.VarName     = ("var1");
            binds[0]       = b1;

            // set the binding
            bn.Bindings = (binds);

            int       count = 10;
            ArrayList data  = new ArrayList();

            for (int idx = 0; idx < count; idx++)
            {
                TestBean2 bean = new TestBean2();
                bean.Attr1 = ("random");
                bean.Attr2 = (101);
                short s = 10001;
                bean.Attr3 = (s);
                long l = 10101018;
                bean.Attr4 = (l);
                bean.Attr5 = (1010101);
                bean.Attr6 = (1001.1001);
                IFact fact = dtemp.createFact(bean, dc, engine.nextFactId());
                data.Add(fact);
            }

            IEnumerator itr = data.GetEnumerator();

            while (itr.MoveNext())
            {
                try
                {
                    IFact f1 = (IFact)itr.Current;
                    bn.assertLeft(new Index(new IFact[] { f1 }), engine, engine.WorkingMemory);
                    bn.assertRight(f1, engine, engine.WorkingMemory);
                }
                catch (AssertException e)
                {
                    Console.WriteLine(e.Message);
                }
            }
            IGenericMap <IFact, IFact> rbmem = (IGenericMap <IFact, IFact>)engine.WorkingMemory.getBetaRightMemory(bn);

            Assert.AreEqual(count, rbmem.Count);

            IGenericMap <Object, Object> lbmem = (IGenericMap <Object, Object>)engine.WorkingMemory.getBetaLeftMemory(bn);

            Assert.AreEqual(count, lbmem.Count);

            // now check the BetaMemory has matches
            Console.WriteLine(bn.toPPString());
            IEnumerator mitr = lbmem.Values.GetEnumerator();

            while (mitr.MoveNext())
            {
                IBetaMemory btm = (IBetaMemory)mitr.Current;
                Assert.AreEqual(9, btm.matchCount());
                Console.WriteLine("match count=" + btm.matchCount() +
                                  " - " + btm.toPPString());
            }
            engine.close();
        }