public async void Test() { _databaseConnection.Connect(); ///////////////////////////////////// // OPERATIONAL, CONTEXUAL SCOPE... // ///////////////////////////////////// // create a Writer to write to the database IWriter writer = new Writer(_databaseConnection); // create a Reader to read from the database IReader reader = new Reader(_databaseConnection); // create an Updater to update the database IUpdater updater = new Updater(_databaseConnection); Entry exampleMongoDBEntry = new Entry(); exampleMongoDBEntry.Message = "Hello"; // write the object to the "MyFirstCollection" Collection that exists within the // previously referenced "MyFirstDatabase" that was used to create the "writer" object writer.Write <Entry>("MyFirstCollection", exampleMongoDBEntry); IEnumerable <Entry> readEntrys = reader.Read <Entry>("MyFirstCollection", // within this collection... "Message", // for the object field "Description" "Hello"); // return matches for 'Hello' Assert.AreEqual(1, readEntrys.Count()); //////////////////////////////////// // AND ASYNCHRONOUS OPERATIONS... // //////////////////////////////////// // read, write and update asynchronously using System.Threading.Task IAsyncReader asyncReader = new AsyncReader(reader); readEntrys = await asyncReader.ReadAsync <Entry>("MyFirstCollection", "Message", "Hello"); Assert.AreEqual(1, readEntrys.Count()); IAsyncWriter asyncWriter = new AsyncWriter(writer); IAsyncUpdater asyncUpdater = new AsyncUpdater(updater); // or delegate call backs IAsyncDelegateReader asyncDelegateReader = new AsyncDelegateReader(reader); asyncDelegateReader.AsyncReadCompleted += new ReadCompletedEvent(readerCallBack); asyncDelegateReader.ReadAsync <Entry>("MyFirstCollection", "Message", "Hello"); _readerAutoResetEvent.WaitOne(); Assert.AreEqual(1, _asyncReadResults.Count()); IAsyncDelegateWriter asyncDelegateWriter = new AsyncDelegateWriter(writer); IAsyncDelegateUpdater asyncDelegateUpdater = new AsyncDelegateUpdater(updater); ///////////////////////////////////////////// // FOR A SERVER, DATABASE OR COLLECTION... // ///////////////////////////////////////////// // get a little higher level with the EasyMongo.Database namespace to target a database for operations IDatabaseReader databaseReader = new DatabaseReader(reader, asyncReader); IDatabaseWriter databaseWriter = new DatabaseWriter(writer, asyncWriter); IDatabaseUpdater databaseUpdater = new DatabaseUpdater(updater, asyncUpdater); // or a little lower level with the EasyMongo.Collection namespace to target a specific Collection ICollectionReader collectionReader = new CollectionReader(databaseReader, "MyFirstCollection"); ICollectionWriter collectionWriter = new CollectionWriter(databaseWriter, "MyFirstCollection"); ICollectionUpdater collectionUpdater = new CollectionUpdater(databaseUpdater, "MyFirstCollection"); /////////////////////////////////////////////// // TO RESTRICT CLIENT SCOPE (LAW OF DEMETER) // /////////////////////////////////////////////// // operate only against "MyFirstDatabase"'s "MySecondCollection" readEntrys = collectionReader.Read <Entry>("Message", "Hello"); Assert.AreEqual(1, readEntrys.Count()); ///////////////////// // GENERIC CLASSES // ///////////////////// // Instead of defining generic type arguments at the method level, // you can do it once at the class declaration IWriter <Entry> writerT = new Writer <Entry>(writer); writerT.Write("MySecondCollection", new Entry() { Message = "Goodbye World (Generically)" }); /////////////////////////////// // SIMPLIFY CREATION VIA IoC // /////////////////////////////// // because EasyMongo is a componentized framework built with blocks of functionality, EasyMongo // works great with DI containers and Inversion of Control. // here's an example of using the nuget Ninject extension to load EasyMongo mappings and a conn // string from configuration Ninject.IKernel kernel = new Ninject.StandardKernel(); ICollectionUpdater <Entry> collectionUpdaterT = kernel.TryGet <ICollectionUpdater <Entry> >(); // the alternative to this would be: IServerConnection serverConn = new ServerConnection(LOCAL_MONGO_SERVER_CONNECTION_STRING); IDatabaseConnection databaseConnn = new DatabaseConnection(serverConn, "MyFirstDatabase"); IDatabaseUpdater databaseUpdatr = new DatabaseUpdater(updater, asyncUpdater); ICollectionUpdater collectionUpdaterTheHardWay = new CollectionUpdater(databaseUpdater, "MySecondCollection"); ///////////////////////// // SIMPLE QUERIES... // ///////////////////////// databaseReader.Read <Entry>("MyFirstCollection", "Message", "Hello"); readEntrys = await databaseReader.ReadAsync <Entry>("MyFirstCollection", "Message", "Hello"); Assert.AreEqual(1, readEntrys.Count()); ///////////////////////// // POWERFUL QUERIES... // ///////////////////////// // when more robust querying is needed leverage power of underlying MongoDB driver IMongoQuery IMongoQuery query1 = Query.Matches("Message", new BsonRegularExpression("HE", "i")); IEnumerable <Entry> queryResults = reader.Execute <Entry>("MyFirstCollection", query1); Assert.AreEqual(1, queryResults.Count()); Assert.AreEqual("Hello", queryResults.ElementAt(0).Message); ////////////////////// // AND COMBINATIONS // ////////////////////// Entry exampleMongoDBEntry2 = new Entry(); exampleMongoDBEntry2.Message = "Hello Again"; Entry exampleMongoDBEntry3 = new Entry(); exampleMongoDBEntry3.Message = "Goodbye"; writer.Write <Entry>("MyFirstCollection", exampleMongoDBEntry2); writer.Write <Entry>("MyFirstCollection", exampleMongoDBEntry3); // "AND" multiple IMongoQueries... IMongoQuery query2 = Query.Matches("Message", new BsonRegularExpression("Again")); queryResults = reader.ExecuteAnds <Entry>("MyFirstCollection", new [] { query1, query2 }); Assert.AreEqual(1, queryResults.Count()); Assert.AreEqual("Hello Again", queryResults.ElementAt(0).Message); // "OR" multiple IMongoQueries... IMongoQuery query3 = Query.Matches("Message", new BsonRegularExpression("Goo")); queryResults = reader.ExecuteOrs <Entry>("MyFirstCollection", new[] { query1, query2, query3 }); Assert.AreEqual(3, queryResults.Count()); Assert.AreEqual("Hello", queryResults.ElementAt(0).Message); Assert.AreEqual("Hello Again", queryResults.ElementAt(1).Message); Assert.AreEqual("Goodbye", queryResults.ElementAt(2).Message); }
public async void Test() { _databaseConnection.Connect(); ///////////////////////////////////// // OPERATIONAL, CONTEXUAL SCOPE... // ///////////////////////////////////// // create a Writer to write to the database IWriter writer = new Writer(_databaseConnection); // create a Reader to read from the database IReader reader = new Reader(_databaseConnection); // create an Updater to update the database IUpdater updater = new Updater(_databaseConnection); Entry exampleMongoDBEntry = new Entry(); exampleMongoDBEntry.Message = "Hello"; // write the object to the "MyFirstCollection" Collection that exists within the // previously referenced "MyFirstDatabase" that was used to create the "writer" object writer.Write<Entry>("MyFirstCollection", exampleMongoDBEntry); IEnumerable<Entry> readEntrys = reader.Read<Entry>("MyFirstCollection", // within this collection... "Message",// for the object field "Description" "Hello");// return matches for 'Hello' Assert.AreEqual(1, readEntrys.Count()); //////////////////////////////////// // AND ASYNCHRONOUS OPERATIONS... // //////////////////////////////////// // read, write and update asynchronously using System.Threading.Task IAsyncReader asyncReader = new AsyncReader(reader); readEntrys = await asyncReader.ReadAsync<Entry>("MyFirstCollection", "Message", "Hello"); Assert.AreEqual(1, readEntrys.Count()); IAsyncWriter asyncWriter = new AsyncWriter(writer); IAsyncUpdater asyncUpdater = new AsyncUpdater(updater); // or delegate call backs IAsyncDelegateReader asyncDelegateReader = new AsyncDelegateReader(reader); asyncDelegateReader.AsyncReadCompleted += new ReadCompletedEvent(readerCallBack); asyncDelegateReader.ReadAsync<Entry>("MyFirstCollection", "Message", "Hello"); _readerAutoResetEvent.WaitOne(); Assert.AreEqual(1, _asyncReadResults.Count()); IAsyncDelegateWriter asyncDelegateWriter = new AsyncDelegateWriter(writer); IAsyncDelegateUpdater asyncDelegateUpdater = new AsyncDelegateUpdater(updater); ///////////////////////////////////////////// // FOR A SERVER, DATABASE OR COLLECTION... // ///////////////////////////////////////////// // get a little higher level with the EasyMongo.Database namespace to target a database for operations IDatabaseReader databaseReader = new DatabaseReader(reader, asyncReader); IDatabaseWriter databaseWriter = new DatabaseWriter(writer, asyncWriter); IDatabaseUpdater databaseUpdater = new DatabaseUpdater(updater, asyncUpdater); // or a little lower level with the EasyMongo.Collection namespace to target a specific Collection ICollectionReader collectionReader = new CollectionReader(databaseReader, "MyFirstCollection"); ICollectionWriter collectionWriter = new CollectionWriter(databaseWriter, "MyFirstCollection"); ICollectionUpdater collectionUpdater = new CollectionUpdater(databaseUpdater, "MyFirstCollection"); /////////////////////////////////////////////// // TO RESTRICT CLIENT SCOPE (LAW OF DEMETER) // /////////////////////////////////////////////// // operate only against "MyFirstDatabase"'s "MySecondCollection" readEntrys = collectionReader.Read<Entry>("Message", "Hello"); Assert.AreEqual(1, readEntrys.Count()); ///////////////////// // GENERIC CLASSES // ///////////////////// // Instead of defining generic type arguments at the method level, // you can do it once at the class declaration IWriter<Entry> writerT = new Writer<Entry>(writer); writerT.Write("MySecondCollection", new Entry() { Message = "Goodbye World (Generically)" }); /////////////////////////////// // SIMPLIFY CREATION VIA IoC // /////////////////////////////// // because EasyMongo is a componentized framework built with blocks of functionality, EasyMongo // works great with DI containers and Inversion of Control. // here's an example of using the nuget Ninject extension to load EasyMongo mappings and a conn // string from configuration Ninject.IKernel kernel = new Ninject.StandardKernel(); ICollectionUpdater<Entry> collectionUpdaterT = kernel.TryGet<ICollectionUpdater<Entry>>(); // the alternative to this would be: IServerConnection serverConn = new ServerConnection(LOCAL_MONGO_SERVER_CONNECTION_STRING); IDatabaseConnection databaseConnn = new DatabaseConnection(serverConn, "MyFirstDatabase"); IDatabaseUpdater databaseUpdatr = new DatabaseUpdater(updater, asyncUpdater); ICollectionUpdater collectionUpdaterTheHardWay = new CollectionUpdater(databaseUpdater, "MySecondCollection"); ///////////////////////// // SIMPLE QUERIES... // ///////////////////////// databaseReader.Read<Entry>("MyFirstCollection", "Message", "Hello"); readEntrys = await databaseReader.ReadAsync<Entry>("MyFirstCollection", "Message", "Hello"); Assert.AreEqual(1, readEntrys.Count()); ///////////////////////// // POWERFUL QUERIES... // ///////////////////////// // when more robust querying is needed leverage power of underlying MongoDB driver IMongoQuery IMongoQuery query1 = Query.Matches("Message", new BsonRegularExpression("HE", "i")); IEnumerable<Entry> queryResults = reader.Execute<Entry>("MyFirstCollection", query1); Assert.AreEqual(1, queryResults.Count()); Assert.AreEqual("Hello", queryResults.ElementAt(0).Message); ////////////////////// // AND COMBINATIONS // ////////////////////// Entry exampleMongoDBEntry2 = new Entry(); exampleMongoDBEntry2.Message = "Hello Again"; Entry exampleMongoDBEntry3 = new Entry(); exampleMongoDBEntry3.Message = "Goodbye"; writer.Write<Entry>("MyFirstCollection", exampleMongoDBEntry2); writer.Write<Entry>("MyFirstCollection", exampleMongoDBEntry3); // "AND" multiple IMongoQueries... IMongoQuery query2 = Query.Matches("Message", new BsonRegularExpression("Again")); queryResults = reader.ExecuteAnds<Entry>("MyFirstCollection", new []{ query1, query2}); Assert.AreEqual(1, queryResults.Count()); Assert.AreEqual("Hello Again", queryResults.ElementAt(0).Message); // "OR" multiple IMongoQueries... IMongoQuery query3 = Query.Matches("Message", new BsonRegularExpression("Goo")); queryResults = reader.ExecuteOrs<Entry>("MyFirstCollection", new[] { query1, query2, query3 }); Assert.AreEqual(3, queryResults.Count()); Assert.AreEqual("Hello", queryResults.ElementAt(0).Message); Assert.AreEqual("Hello Again", queryResults.ElementAt(1).Message); Assert.AreEqual("Goodbye", queryResults.ElementAt(2).Message); }