/// <summary> /// Converts the first column of the first row of the <see cref="DbDataReader"/> to an object in an asynchronous way. /// </summary> /// <returns>An instance of extracted object as value result.</returns> public async Task <object> ScalarAsync() { var value = (object)null; // Only if there are record if (await m_reader.ReadAsync()) { value = ObjectConverter.DbNullToNull(m_reader.GetValue(0)); } // Move to next result await NextResultAsync(); // Return the result return(value); }
/// <summary> /// Converts the first column of the first row of the <see cref="DbDataReader"/> to an object. /// </summary> /// <returns>An instance of extracted object as value result.</returns> public object Scalar() { var value = (object)null; // Only if there are record if (m_reader.Read()) { value = ObjectConverter.DbNullToNull(m_reader.GetValue(0)); } // Move to next result NextResult(); // Return the result return(value); }
/// <summary> /// Converts the first column of the first row of the <see cref="DbDataReader"/> to an object in an asynchronous way. /// </summary> /// <typeparam name="TResult">The type of the result.</typeparam> /// <returns>An instance of extracted object as value result.</returns> public async Task <TResult> ScalarAsync <TResult>() { var value = default(TResult); // Only if there are record if (await m_reader.ReadAsync()) { // TODO: This can be compiled expression using the 'Get<Type>()' method value = ObjectConverter.ToType <TResult>(m_reader[0]); } // Move to next result await NextResultAsync(); // Return the result return(value); }
/// <summary> /// Inserts multiple data in the database in an asynchronous way. /// </summary> /// <typeparam name="TEntity">The type of the object (whether a data entity or a dynamic).</typeparam> /// <param name="connection">The connection object to be used.</param> /// <param name="tableName">The name of the target table to be used.</param> /// <param name="entities">The list of data entity or dynamic objects to be inserted.</param> /// <param name="batchSize">The batch size of the insertion.</param> /// <param name="fields">The mapping list of <see cref="Field"/> objects to be used.</param> /// <param name="commandTimeout">The command timeout in seconds to be used.</param> /// <param name="transaction">The transaction to be used.</param> /// <param name="trace">The trace object to be used.</param> /// <param name="statementBuilder">The statement builder object to be used.</param> /// <param name="skipIdentityCheck">True to skip the identity check.</param> /// <returns>The number of inserted rows.</returns> internal static async Task <int> InsertAllAsyncInternalBase <TEntity>(this IDbConnection connection, string tableName, IEnumerable <TEntity> entities, int batchSize = Constant.DefaultBatchOperationSize, IEnumerable <Field> fields = null, int?commandTimeout = null, IDbTransaction transaction = null, ITrace trace = null, IStatementBuilder statementBuilder = null, bool skipIdentityCheck = false) where TEntity : class { // Guard the parameters var count = GuardInsertAll(entities); // Validate the batch size batchSize = Math.Min(batchSize, count); // Get the function var callback = new Func <int, InsertAllExecutionContext <TEntity> >((int batchSizeValue) => { // Variables needed var identity = (Field)null; var dbFields = DbFieldCache.Get(connection, tableName); var inputFields = (IEnumerable <DbField>)null; var outputFields = (IEnumerable <DbField>)null; var identityDbField = dbFields?.FirstOrDefault(f => f.IsIdentity); // Set the identity value if (skipIdentityCheck == false) { identity = IdentityCache.Get <TEntity>()?.AsField(); if (identity == null && identityDbField != null) { identity = FieldCache.Get <TEntity>().FirstOrDefault(field => field.UnquotedName.ToLower() == identityDbField.UnquotedName.ToLower()); } } // Filter the actual properties for input fields inputFields = dbFields? .Where(dbField => dbField.IsIdentity == false) .Where(dbField => fields.FirstOrDefault(field => field.UnquotedName.ToLower() == dbField.UnquotedName.ToLower()) != null) .AsList(); // Set the output fields if (batchSizeValue > 1) { outputFields = identityDbField?.AsEnumerable(); } // Variables for the context var multipleEntitiesFunc = (Action <DbCommand, IList <TEntity> >)null; var identitySettersFunc = (List <Action <TEntity, DbCommand> >)null; var singleEntityFunc = (Action <DbCommand, TEntity>)null; var identitySetterFunc = (Action <TEntity, object>)null; // Get if we have not skipped it if (skipIdentityCheck == false && identity != null) { if (batchSizeValue <= 1) { identitySetterFunc = FunctionCache.GetDataEntityPropertyValueSetterFunction <TEntity>(identity); } else { identitySettersFunc = new List <Action <TEntity, DbCommand> >(); for (var index = 0; index < batchSizeValue; index++) { identitySettersFunc.Add(FunctionCache.GetDataEntityPropertySetterFromDbCommandParameterFunction <TEntity>(identity, identity.UnquotedName, index)); } } } // Identity which objects to set if (batchSizeValue <= 1) { singleEntityFunc = FunctionCache.GetDataEntityDbCommandParameterSetterFunction <TEntity>( string.Concat(typeof(TEntity).FullName, ".", tableName, ".InsertAll"), inputFields?.AsList(), null); } else { multipleEntitiesFunc = FunctionCache.GetDataEntitiesDbCommandParameterSetterFunction <TEntity>( string.Concat(typeof(TEntity).FullName, ".", tableName, ".InsertAll"), inputFields?.AsList(), outputFields, batchSizeValue); } // Identify the requests var insertAllRequest = (InsertAllRequest)null; var insertRequest = (InsertRequest)null; // Create a different kind of requests if (typeof(TEntity) == typeof(object)) { if (batchSizeValue > 1) { insertAllRequest = new InsertAllRequest(tableName, connection, fields, batchSizeValue, statementBuilder); } else { insertRequest = new InsertRequest(tableName, connection, fields, statementBuilder); } } else { if (batchSizeValue > 1) { insertAllRequest = new InsertAllRequest(typeof(TEntity), connection, fields, batchSizeValue, statementBuilder); } else { insertRequest = new InsertRequest(typeof(TEntity), connection, fields, statementBuilder); } } // Return the value return(new InsertAllExecutionContext <TEntity> { CommandText = batchSizeValue > 1 ? CommandTextCache.GetInsertAllText(insertAllRequest) : CommandTextCache.GetInsertText(insertRequest), InputFields = inputFields, OutputFields = outputFields, BatchSize = batchSizeValue, SingleDataEntityParametersSetterFunc = singleEntityFunc, MultipleDataEntitiesParametersSetterFunc = multipleEntitiesFunc, IdentityPropertySetterFunc = identitySetterFunc, IdentityPropertySettersFunc = identitySettersFunc }); }); // Get the context var context = (InsertAllExecutionContext <TEntity>)null; // Identify the number of entities (performance), get an execution context from cache context = batchSize == 1 ? InsertAllExecutionContextCache <TEntity> .Get(tableName, fields, 1, callback) : InsertAllExecutionContextCache <TEntity> .Get(tableName, fields, batchSize, callback); // Before Execution if (trace != null) { var cancellableTraceLog = new CancellableTraceLog(context.CommandText, entities, null); trace.BeforeInsertAll(cancellableTraceLog); if (cancellableTraceLog.IsCancelled) { if (cancellableTraceLog.IsThrowException) { throw new CancelledExecutionException(context.CommandText); } return(0); } context.CommandText = (cancellableTraceLog.Statement ?? context.CommandText); entities = (IEnumerable <TEntity>)(cancellableTraceLog.Parameter ?? entities); } // Before Execution Time var beforeExecutionTime = DateTime.UtcNow; // Execution variables var result = 0; // Make sure to create transaction if there is no passed one var hasTransaction = (transaction != null); try { // Ensure the connection is open await connection.EnsureOpenAsync(); if (hasTransaction == false) { // Create a transaction transaction = connection.BeginTransaction(); } // Create the command using (var command = (DbCommand)connection.CreateCommand(context.CommandText, CommandType.Text, commandTimeout, transaction)) { // Directly execute if the entities is only 1 (performance) if (context.BatchSize == 1) { foreach (var entity in entities) { // Set the values context.SingleDataEntityParametersSetterFunc(command, entity); // Actual Execution var returnValue = ObjectConverter.DbNullToNull(await command.ExecuteScalarAsync()); // Set the return value if (returnValue != null) { context.IdentityPropertySetterFunc?.Invoke(entity, returnValue); } // Iterate the result result++; } } else { foreach (var batchEntities in entities.Split(batchSize)) { var batchItems = batchEntities.AsList(); // Break if there is no more records if (batchItems.Count <= 0) { break; } // Check if the batch size has changed (probably the last batch on the enumerables) if (batchItems.Count != batchSize) { // Get a new execution context from cache context = InsertAllExecutionContextCache <TEntity> .Get(tableName, fields, batchItems.Count, callback); // Set the command properties command.CommandText = context.CommandText; // Prepare the command command.Prepare(); } // Set the values context.MultipleDataEntitiesParametersSetterFunc(command, batchItems); // Actual Execution result += await command.ExecuteNonQueryAsync(); // Set the identities if (context.IdentityPropertySettersFunc != null && command.Parameters.Count > 0) { for (var index = 0; index < batchItems.Count; index++) { var func = context.IdentityPropertySettersFunc.ElementAt(index); func(batchItems[index], command); } } } } } if (hasTransaction == false) { // Commit the transaction transaction.Commit(); } } catch { if (hasTransaction == false) { // Rollback for any exception transaction.Rollback(); } throw; } finally { if (hasTransaction == false) { // Rollback and dispose the transaction transaction.Dispose(); } } // After Execution if (trace != null) { trace.AfterInsertAll(new TraceLog(context.CommandText, entities, result, DateTime.UtcNow.Subtract(beforeExecutionTime))); } // Return the result return(result); }
/// <summary> /// Inserts a new data in the database in an asynchronous way. /// </summary> /// <typeparam name="TEntity">The type of the object (whether a data entity or a dynamic).</typeparam> /// <typeparam name="TResult">The target type of the result.</typeparam> /// <param name="connection">The connection object to be used.</param> /// <param name="tableName">The name of the target table to be used.</param> /// <param name="entity">The data entity or dynamic object to be inserted.</param> /// <param name="fields">The mapping list of <see cref="Field"/> objects to be used.</param> /// <param name="commandTimeout">The command timeout in seconds to be used.</param> /// <param name="transaction">The transaction to be used.</param> /// <param name="trace">The trace object to be used.</param> /// <param name="statementBuilder">The statement builder object to be used.</param> /// <param name="skipIdentityCheck">True to skip the identity check.</param> /// <returns>The value of the identity field if present, otherwise, the value of primary field.</returns> internal async static Task <TResult> InsertAsyncInternalBase <TEntity, TResult>(this IDbConnection connection, string tableName, TEntity entity, IEnumerable <Field> fields = null, int?commandTimeout = null, IDbTransaction transaction = null, ITrace trace = null, IStatementBuilder statementBuilder = null, bool skipIdentityCheck = false) where TEntity : class { // Variables needed var dbSetting = connection.GetDbSetting(); // Get the database fields var dbFields = await DbFieldCache.GetAsync(connection, tableName, transaction); // Get the function var callback = new Func <InsertExecutionContext <TEntity> >(() => { // Variables needed var identity = (Field)null; var inputFields = (IEnumerable <DbField>)null; var identityDbField = dbFields?.FirstOrDefault(f => f.IsIdentity); // Set the identity field if (skipIdentityCheck == false) { identity = IdentityCache.Get <TEntity>()?.AsField(); if (identity == null && identityDbField != null) { identity = FieldCache.Get <TEntity>().FirstOrDefault(field => string.Equals(field.Name.AsUnquoted(true, dbSetting), identityDbField.Name.AsUnquoted(true, dbSetting), StringComparison.OrdinalIgnoreCase)); } } // Filter the actual properties for input fields inputFields = dbFields? .Where(dbField => dbField.IsIdentity == false) .Where(dbField => fields.FirstOrDefault(field => string.Equals(field.Name.AsUnquoted(true, dbSetting), dbField.Name.AsUnquoted(true, dbSetting), StringComparison.OrdinalIgnoreCase)) != null) .AsList(); // Variables for the entity action var identityPropertySetter = (Action <TEntity, object>)null; // Get the identity setter if (skipIdentityCheck == false && identity != null) { identityPropertySetter = FunctionCache.GetDataEntityPropertyValueSetterFunction <TEntity>(identity); } // Identify the requests var insertRequest = (InsertRequest)null; // Create a different kind of requests if (typeof(TEntity) == typeof(object)) { insertRequest = new InsertRequest(tableName, connection, transaction, fields, statementBuilder); } else { insertRequest = new InsertRequest(typeof(TEntity), connection, transaction, fields, statementBuilder); } // Return the value return(new InsertExecutionContext <TEntity> { CommandText = CommandTextCache.GetInsertText(insertRequest), InputFields = inputFields, ParametersSetterFunc = FunctionCache.GetDataEntityDbCommandParameterSetterFunction <TEntity>( string.Concat(typeof(TEntity).FullName, ".", tableName, ".Insert"), inputFields?.AsList(), null, dbSetting), IdentityPropertySetterFunc = identityPropertySetter }); }); // Get the context var context = InsertExecutionContextCache <TEntity> .Get(tableName, fields, callback); // Before Execution if (trace != null) { var cancellableTraceLog = new CancellableTraceLog(context.CommandText, entity, null); trace.BeforeInsert(cancellableTraceLog); if (cancellableTraceLog.IsCancelled) { if (cancellableTraceLog.IsThrowException) { throw new CancelledExecutionException(context.CommandText); } return(default(TResult)); } context.CommandText = (cancellableTraceLog.Statement ?? context.CommandText); entity = (TEntity)(cancellableTraceLog.Parameter ?? entity); } // Before Execution Time var beforeExecutionTime = DateTime.UtcNow; // Execution variables var result = default(TResult); // Create the command using (var command = (DbCommand)(await connection.EnsureOpenAsync()).CreateCommand(context.CommandText, CommandType.Text, commandTimeout, transaction)) { // Set the values context.ParametersSetterFunc(command, entity); // Actual Execution result = ObjectConverter.ToType <TResult>(command.ExecuteScalar()); // Get explicity if needed if (Equals(result, default(TResult)) == true && dbSetting.IsMultiStatementExecutable == false) { result = ObjectConverter.ToType <TResult>(connection.GetDbHelper().GetScopeIdentity(connection, transaction)); } // Set the return value if (Equals(result, default(TResult)) == false) { context.IdentityPropertySetterFunc?.Invoke(entity, result); } } // After Execution if (trace != null) { trace.AfterInsert(new TraceLog(context.CommandText, entity, result, DateTime.UtcNow.Subtract(beforeExecutionTime))); } // Return the result return(result); }
/// <summary> /// Gets the long value from the defined property index. /// </summary> /// <param name="i">The index of the property.</param> /// <returns>The value from the property index.</returns> public override long GetInt64(int i) { ThrowExceptionIfNotAvailable(); return(ObjectConverter.ToType <long>(GetValue(i))); }
/// <summary> /// Gets the string value from the defined property index. /// </summary> /// <param name="i">The index of the property.</param> /// <returns>The value from the property index.</returns> public override string GetString(int i) { ThrowExceptionIfNotAvailable(); return(ObjectConverter.ToType <string>(GetValue(i))); }
/// <summary> /// Gets the float value from the defined property index. /// </summary> /// <param name="i">The index of the property.</param> /// <returns>The value from the property index.</returns> public override float GetFloat(int i) { ThrowExceptionIfNotAvailable(); return(ObjectConverter.ToType <float>(GetValue(i))); }
/// <summary> /// Gets the int value from the defined property index. /// </summary> /// <param name="i">The index of the property.</param> /// <returns>The value from the property index.</returns> public override int GetInt32(int i) { ThrowExceptionIfNotAvailable(); return(ObjectConverter.ToType <int>(GetValue(i))); }
/// <summary> /// Gets the double value from the defined property index. /// </summary> /// <param name="i">The index of the property.</param> /// <returns>The value from the property index.</returns> public override double GetDouble(int i) { ThrowExceptionIfNotAvailable(); return(ObjectConverter.ToType <double>(GetValue(i))); }
/// <summary> /// Gets the decimal value from the defined property index. /// </summary> /// <param name="i">The index of the property.</param> /// <returns>The value from the property index.</returns> public override decimal GetDecimal(int i) { ThrowExceptionIfNotAvailable(); return(ObjectConverter.ToType <decimal>(GetValue(i))); }
/// <summary> /// Gets the date time value from the defined property index. /// </summary> /// <param name="i">The index of the property.</param> /// <returns>The value from the property index.</returns> public override DateTime GetDateTime(int i) { ThrowExceptionIfNotAvailable(); return(ObjectConverter.ToType <DateTime>(GetValue(i))); }
/// <summary> /// Gets the char value from the defined property index. /// </summary> /// <param name="i">The index of the property.</param> /// <returns>The value from the property index.</returns> public override char GetChar(int i) { ThrowExceptionIfNotAvailable(); return(ObjectConverter.ToType <char>(GetValue(i))); }
/// <summary> /// Gets the boolean value from the defined property index. /// </summary> /// <param name="i">The index of the property.</param> /// <returns>The value from the property index.</returns> public override bool GetBoolean(int i) { ThrowExceptionIfNotAvailable(); return(ObjectConverter.ToType <bool>(GetValue(i))); }