Ejemplos de Tangosol.Util.Processor PropertyManipulator en C# (CSharp)

Ejemplo n.º 1

Archivo: PropertyManipulator.cs Proyecto: vasac/coherence-dotnet-extend-client

 /// <summary>
 /// Compare the <b>PropertyManipulator</b> with another object to
 /// determine equality.
 /// </summary>
 /// <param name="o">
 /// The object to compare with.
 /// </param>
 /// <returns>
 /// <b>true</b> iff this <b>PropertyManipulator</b> and the passed
 /// object are equivalent <b>PropertyManipulator</b>.
 /// </returns>
 public override bool Equals(object o)
 {
     if (o is PropertyManipulator)
     {
         PropertyManipulator that = (PropertyManipulator)o;
         return m_name.Equals(that.m_name) && m_useIs == that.m_useIs;
     }
     return false;
 }

Ejemplo n.º 2

        public void TestProcessorSerialization()
        {
            ConfigurablePofContext ctx = new ConfigurablePofContext("assembly://Coherence.Tests/Tangosol.Resources/s4hc-test-config.xml");

            Assert.IsNotNull(ctx);

            CompositeProcessor   compositeProcessor   = new CompositeProcessor();
            ConditionalProcessor conditionalProcessor = new ConditionalProcessor();
            ConditionalPut       conditionalPut       = new ConditionalPut(AlwaysFilter.Instance, 1);
            ConditionalPutAll    conditionalPutAll    = new ConditionalPutAll(AlwaysFilter.Instance, new Hashtable());
            ConditionalRemove    conditionalRemove    = new ConditionalRemove(AlwaysFilter.Instance, true);
            ExtractorProcessor   extractorProcessor   = new ExtractorProcessor("member1");
            NumberIncrementor    numberIncrementor    = new NumberIncrementor("name1", 5, true);
            NumberMultiplier     numberMultiplier     = new NumberMultiplier("name2", 10, false);
            PreloadRequest       preloadRequest       = new PreloadRequest();
            PriorityProcessor    priorityProcessor    = new PriorityProcessor();
            PropertyManipulator  propertyManipulator  = new PropertyManipulator("name3");
            UpdaterProcessor     updaterProcessor     = new UpdaterProcessor("member2", 20);
            VersionedPut         versionedPut         = new VersionedPut();
            VersionedPutAll      versionedPutAll      = new VersionedPutAll(new Hashtable());

            Stream stream = new MemoryStream();

            ctx.Serialize(new DataWriter(stream), compositeProcessor);
            ctx.Serialize(new DataWriter(stream), conditionalProcessor);
            ctx.Serialize(new DataWriter(stream), conditionalPut);
            ctx.Serialize(new DataWriter(stream), conditionalPutAll);
            ctx.Serialize(new DataWriter(stream), conditionalRemove);
            ctx.Serialize(new DataWriter(stream), extractorProcessor);
            ctx.Serialize(new DataWriter(stream), numberIncrementor);
            ctx.Serialize(new DataWriter(stream), numberMultiplier);
            ctx.Serialize(new DataWriter(stream), preloadRequest);
            ctx.Serialize(new DataWriter(stream), priorityProcessor);
            ctx.Serialize(new DataWriter(stream), propertyManipulator);
            ctx.Serialize(new DataWriter(stream), updaterProcessor);
            ctx.Serialize(new DataWriter(stream), versionedPut);
            ctx.Serialize(new DataWriter(stream), versionedPutAll);

            stream.Position = 0;
            Assert.AreEqual(compositeProcessor, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(conditionalProcessor, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(conditionalPut, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(conditionalPutAll.GetType(), ctx.Deserialize(new DataReader(stream)).GetType());
            Assert.AreEqual(conditionalRemove, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(extractorProcessor, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(numberIncrementor, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(numberMultiplier, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(preloadRequest, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(priorityProcessor.GetType(), ctx.Deserialize(new DataReader(stream)).GetType());
            Assert.AreEqual(propertyManipulator, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(updaterProcessor, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(versionedPut, ctx.Deserialize(new DataReader(stream)));
            Assert.AreEqual(versionedPutAll.GetType(), ctx.Deserialize(new DataReader(stream)).GetType());

            stream.Close();
        }

Ejemplo n.º 3

        public void TestNumberIncrementor()
        {
            Temperature         belgrade         = new Temperature(25, 'c', 1);
            int                 bgdBefore        = belgrade.Value;
            PropertyManipulator valueManipulator = new PropertyManipulator("Value");
            IEntryProcessor     processor        = new NumberIncrementor(valueManipulator, 1, true);
            IEntryProcessor     processor1       = new NumberIncrementor(valueManipulator, 1, true);

            Assert.AreEqual(processor, processor1);
            Assert.AreEqual(processor.GetHashCode(), processor1.GetHashCode());
            Assert.AreEqual(processor.ToString(), processor1.ToString());

            LocalCache.Entry entry = new LocalCache.Entry(new LocalCache(), "belgrade", belgrade);
            processor.Process(entry);
            Assert.AreEqual(bgdBefore + 1, ((Temperature)entry.Value).Value);
            processor.Process(entry);
            Assert.AreEqual(bgdBefore + 2, ((Temperature)entry.Value).Value);

            // testing on Remote cache
            INamedCache cache = CacheFactory.GetCache(CacheName);

            cache.Clear();

            Temperature bgd = new Temperature(25, 'c', 12);
            Temperature nyc = new Temperature(99, 'f', 12);

            cache.Insert("BGD", bgd);
            cache.Insert("NYC", nyc);

            PropertyManipulator manipulator = new PropertyManipulator("Value");

            processor = new NumberIncrementor(manipulator, 1, true);
            object before = cache.Invoke("BGD", processor);

            Assert.AreEqual(bgd.Value, before);

            Temperature after = (Temperature)cache["BGD"];

            Assert.AreEqual(((int)before) + 1, after.Value);

            processor = new NumberIncrementor(manipulator, -19, false);
            object newNYC = cache.Invoke("NYC", processor);

            Assert.AreEqual(nyc.Value - 19, newNYC);

            Score score = new Score(1, 1, 1, 1, 1, 1, 1, new RawInt128(new byte[] { 0 }), 1);

            LocalCache.Entry scoreEntry = new LocalCache.Entry(new LocalCache(), "score", score);
            valueManipulator = new PropertyManipulator("RawInt128Value");
            processor        = new NumberIncrementor(valueManipulator, 1, true);
            processor.Process(scoreEntry);

            CacheFactory.Shutdown();
        }

Ejemplo n.º 4

Archivo: NumberIncrementor.cs Proyecto: vasac/coherence-dotnet-extend-client

 /// <summary>
 /// Construct an <b>NumberIncrementor</b> processor that will
 /// increment a property value by a specified amount, returning
 /// either the old or the new value as specified.
 /// </summary>
 /// <remarks>
 /// The .NET type of the numInc parameter will dictate the .NET type
 /// of the original and the new value.
 /// </remarks>
 /// <param name="manipulator">
 /// The <see cref="PropertyManipulator"/>; could be <c>null</c>.
 /// </param>
 /// <param name="numInc">
 /// The object representing the magnitude and sign of the increment.
 /// </param>
 /// <param name="postIncrement">
 /// Pass <b>true</b> to return the value as it was before it was
 /// incremented, or pass <b>false</b> to return the value as it is
 /// after it is incremented.
 /// </param>
 public NumberIncrementor(PropertyManipulator manipulator,
                          object numInc,
                          bool postIncrement) : base(manipulator)
 {
     Debug.Assert(numInc != null);
     if (numInc != null && !NumberUtils.IsNumber(numInc))
     {
         throw new ArgumentException("Bad parameter format! " +
                                     numInc.GetType().Name + " is not supported type.");
     }
     m_numInc  = numInc;
     m_postInc = postIncrement;
 }

Ejemplo n.º 5

        public void TestNumberMultiplier()
        {
            Temperature         belgrade         = new Temperature(25, 'c', 1);
            int                 bgdBefore        = belgrade.Value;
            PropertyManipulator valueManipulator = new PropertyManipulator("Value");
            IEntryProcessor     processor        = new NumberMultiplier(valueManipulator, 2, true);
            IEntryProcessor     processor1       = new NumberMultiplier(valueManipulator, 2, true);

            Assert.AreEqual(processor, processor1);
            Assert.AreEqual(processor.GetHashCode(), processor1.GetHashCode());
            Assert.AreEqual(processor.ToString(), processor1.ToString());

            LocalCache.Entry entry = new LocalCache.Entry(new LocalCache(), "belgrade", belgrade);
            processor.Process(entry);
            Assert.AreEqual(bgdBefore * 2, ((Temperature)entry.Value).Value);

            INamedCache cache = CacheFactory.GetCache(CacheName);

            cache.Clear();

            Temperature bgd = new Temperature(25, 'c', 12);
            Temperature nyc = new Temperature(99, 'f', 12);

            cache.Insert("BGD", bgd);
            cache.Insert("NYC", nyc);

            PropertyManipulator manipulator = new PropertyManipulator("Value");

            processor = new NumberMultiplier(manipulator, 2, false);
            object newTemp = cache.Invoke("BGD", processor);

            Assert.AreEqual(bgd.Value * 2, newTemp);

            Temperature newBGD = (Temperature)cache["BGD"];

            Assert.AreEqual(bgd.Value * 2, newBGD.Value);

            processor = new NumberMultiplier(manipulator, 0.5, false);
            object newNYC = cache.Invoke("NYC", processor);

            Assert.AreEqual(49, newNYC);

            CacheFactory.Shutdown();
        }

Ejemplo n.º 6

Archivo: PropertyProcessor.cs Proyecto: vasac/coherence-dotnet-extend-client

 /// <summary>
 /// Construct a <b>PropertyProcessor</b> based for the specified
 /// <see cref="PropertyManipulator"/>.
 /// </summary>
 /// <param name="manipulator">
 /// A <b>PropertyManipulator</b>; could be <c>null</c>.
 /// </param>
 public PropertyProcessor(PropertyManipulator manipulator)
 {
     m_manipulator = manipulator;
 }

Ejemplo n.º 7

 public void TestNumberMultiplierWithException1()
 {
     PropertyManipulator valueManipulator = new PropertyManipulator("Value");
     IEntryProcessor     processor        = new NumberMultiplier(valueManipulator, "badnumber", true);
 }

Ejemplo n.º 8

        public void TestUnitNumberMultiplier()
        {
            Score score     = new Score(3, 3, 3, 3L, 3, 3, new decimal(3), new RawInt128(new byte[] { 3 }), 3);
            Score scoreOrig = new Score(3, 3, 3, 3L, 3, 3, new decimal(3), new RawInt128(new byte[] { 3 }), 3);

            PropertyManipulator byteManipulator    = new PropertyManipulator("ByteValue");
            PropertyManipulator shortManipulator   = new PropertyManipulator("ShortValue");
            PropertyManipulator intManipulator     = new PropertyManipulator("IntValue");
            PropertyManipulator longManipulator    = new PropertyManipulator("LongValue");
            PropertyManipulator floatManipulator   = new PropertyManipulator("FloatValue");
            PropertyManipulator doubleManipulator  = new PropertyManipulator("DoubleValue");
            PropertyManipulator decimalManipulator = new PropertyManipulator("DecimalValue");
            PropertyManipulator int128Manipulator  = new PropertyManipulator("RawInt128Value");

            NumberMultiplier processorByte  = new NumberMultiplier(byteManipulator, 2, true);
            NumberMultiplier processorByte2 = new NumberMultiplier("ByteValue", 2, false);

            Assert.IsTrue(processorByte.Equals(processorByte2));
            NumberMultiplier processorShort   = new NumberMultiplier(shortManipulator, 2, true);
            NumberMultiplier processorInt     = new NumberMultiplier(intManipulator, 2, true);
            NumberMultiplier processorLong    = new NumberMultiplier(longManipulator, 2, true);
            NumberMultiplier processorFloat   = new NumberMultiplier(floatManipulator, 2, true);
            NumberMultiplier processorDouble  = new NumberMultiplier(doubleManipulator, 2, true);
            NumberMultiplier processorDecimal = new NumberMultiplier(decimalManipulator, new decimal(2), true);

            Exception        e = null;
            NumberMultiplier processorInt128 = null;

            try
            {
                processorInt128 = new NumberMultiplier(int128Manipulator, new RawInt128(new byte[] { 6 }), true);
            }
            catch (Exception ex)
            {
                e = ex;
            }
            Assert.IsNull(processorInt128);
            Assert.IsNotNull(e);
            Assert.IsInstanceOf(typeof(ArgumentException), e);

            processorInt128 = new NumberMultiplier(int128Manipulator, 2, true);

            LocalCache.Entry entry   = new LocalCache.Entry(new LocalCache(), "score", score);
            object           result1 = processorByte.Process(entry);

            Assert.IsNotNull(result1);
            Assert.IsInstanceOf(typeof(byte), result1);
            Assert.AreEqual((byte)result1, 3);
            result1 = processorByte2.Process(entry);
            Assert.IsNotNull(result1);
            Assert.IsInstanceOf(typeof(byte), result1);
            Assert.AreEqual((byte)result1, 12);

            processorShort.Process(entry);
            processorInt.Process(entry);
            processorLong.Process(entry);
            processorFloat.Process(entry);
            processorDouble.Process(entry);
            processorDecimal.Process(entry);
            processorInt128.Process(entry);

            Assert.AreEqual(scoreOrig.ByteValue * 4, ((Score)entry.Value).ByteValue);
            Assert.AreEqual(scoreOrig.ShortValue * 2, ((Score)entry.Value).ShortValue);
            Assert.AreEqual(scoreOrig.IntValue * 2, ((Score)entry.Value).IntValue);
            Assert.AreEqual(scoreOrig.LongValue * 2, ((Score)entry.Value).LongValue);
            Assert.AreEqual(scoreOrig.FloatValue * 2, ((Score)entry.Value).FloatValue);
            Assert.AreEqual(scoreOrig.DoubleValue * 2, ((Score)entry.Value).DoubleValue);
            Assert.AreEqual(scoreOrig.RawInt128Value.ToDecimal() * 2, ((Score)entry.Value).RawInt128Value.ToDecimal());
            Assert.AreEqual(Decimal.Multiply(scoreOrig.DecimalValue, new Decimal(2)), ((Score)entry.Value).DecimalValue);

            processorShort = new NumberMultiplier(shortManipulator, 2.5, true);
            processorLong  = new NumberMultiplier(longManipulator, 2.5, true);
            processorByte  = new NumberMultiplier(byteManipulator, 2.5, true);
            processorShort.Process(entry);
            processorLong.Process(entry);
            processorByte.Process(entry);
            Assert.AreEqual(scoreOrig.ByteValue * 10, ((Score)entry.Value).ByteValue);
            Assert.AreEqual(scoreOrig.ShortValue * 5, ((Score)entry.Value).ShortValue);
            Assert.AreEqual(scoreOrig.LongValue * 5, ((Score)entry.Value).LongValue);
        }