Exemplo n.º 1
0
        /// <summary>
        /// Creates a temporary copy of a model portfolio.
        /// </summary>
        /// <param name="modelRow">The original model record.</param>
        /// <returns>A batch of commands that will create a copy of the original model.</returns>
        private static ModelBatch CopyModel(ClientMarketData.ModelRow modelRow)
        {
            // Create the batch and fill it in with the assembly and type needed for this function.
            ModelBatch     modelBatch     = new ModelBatch();
            RemoteAssembly remoteAssembly = modelBatch.Assemblies.Add("Service.Core");
            RemoteType     remoteType     = remoteAssembly.Types.Add("Shadows.WebService.Core.Model");

            // This method will insert a copy of the original model's header.
            RemoteMethod insertModel = remoteType.Methods.Add("Insert");

            insertModel.Parameters.Add("modelId", DataType.Int, Direction.ReturnValue);
            insertModel.Parameters.Add("rowVersion", DataType.Long, Direction.Output);
            insertModel.Parameters.Add("objectTypeCode", modelRow.ObjectRow.ObjectTypeCode);
            insertModel.Parameters.Add("name", String.Format("Copy of {0}", modelRow.ObjectRow.Name));
            insertModel.Parameters.Add("schemeId", modelRow.SchemeId);
            insertModel.Parameters.Add("algorithmId", modelRow.AlgorithmId);
            insertModel.Parameters.Add("temporary", true);
            insertModel.Parameters.Add("description", modelRow.ObjectRow.Description);

            // For a sector model, copy each of the sector level targets into the destination model.
            if (modelRow.ModelTypeCode == ModelType.Sector)
            {
                // The object Type for this operation.
                RemoteType sectorTargetType = remoteAssembly.Types.Add("Shadows.WebService.Core.SectorTarget");

                // Add the position level target to the model.
                foreach (ClientMarketData.SectorTargetRow sectorTargetRow in modelRow.GetSectorTargetRows())
                {
                    RemoteMethod insertSector = sectorTargetType.Methods.Add("Insert");
                    insertSector.Parameters.Add("modelId", insertModel.Parameters["modelId"]);
                    insertSector.Parameters.Add("sectorId", sectorTargetRow.SectorId);
                    insertSector.Parameters.Add("percent", sectorTargetRow.Percent);
                }
            }

            // For a position model, copy each of the position level targets into the destination model.
            if (modelRow.ModelTypeCode == ModelType.Security)
            {
                // The object Type for this operation.
                RemoteType positionTargetType = remoteAssembly.Types.Add("Shadows.WebService.Core.PositionTarget");

                // Add the position level target to the model.
                foreach (ClientMarketData.PositionTargetRow positionTargetRow in modelRow.GetPositionTargetRows())
                {
                    RemoteMethod insertSecurity = positionTargetType.Methods.Add("Insert");
                    insertSecurity.Parameters.Add("modelId", insertModel.Parameters["modelId"]);
                    insertSecurity.Parameters.Add("securityId", positionTargetRow.SecurityId);
                    insertSecurity.Parameters.Add("positionTypeCode", positionTargetRow.PositionTypeCode);
                    insertSecurity.Parameters.Add("percent", positionTargetRow.Percent);
                }
            }

            // Save the reference to the 'modelId' return parameter.
            modelBatch.ModelIdParameter = insertModel.Parameters["modelId"];

            // This batch will create a copy of the original model.
            return(modelBatch);
        }
Exemplo n.º 2
0
        /// <summary>
        /// Creates a temporary, empty model portfolio.
        /// </summary>
        /// <param name="accountRow">An account record.</param>
        /// <returns>A batch of commands that will create the empty model.</returns>
        private static ModelBatch CreateEmptyModel(ClientMarketData.AccountRow accountRow)
        {
            // Create the batch and fill it in with the assembly and type needed for this function.
            ModelBatch     modelBatch     = new ModelBatch();
            RemoteAssembly remoteAssembly = modelBatch.Assemblies.Add("Service.Core");
            RemoteType     remoteType     = remoteAssembly.Types.Add("Shadows.WebService.Core.Model");

            // This method will insert a generic, empty, security level model.
            RemoteMethod insertModel = remoteType.Methods.Add("Insert");

            insertModel.Parameters.Add("modelId", DataType.Int, Direction.ReturnValue);
            insertModel.Parameters.Add("rowVersion", DataType.Long, Direction.Output);
            insertModel.Parameters.Add("modelTypeCode", ModelType.Security);
            insertModel.Parameters.Add("name", "Untitled");
            insertModel.Parameters.Add("schemeId", accountRow.SchemeId);
            insertModel.Parameters.Add("algorithmId", Algorithm.SecurityRebalancer);
            insertModel.Parameters.Add("temporary", true);

            // Save the reference to the 'modelId' return parameter.
            modelBatch.ModelIdParameter = insertModel.Parameters["modelId"];

            // This batch will create an empty, position based model.
            return(modelBatch);
        }
Exemplo n.º 3
0
        /// <summary>
        /// Chooses or creates a model for the appraisal.
        /// </summary>
        /// <param name="accountId">The account used to select a model.</param>
        public static int SelectModel(int accountId)
        {
            // The logic in this method will determine if a temporary model is needed and built it.  If a temporary model is
            // required, it will be built using this command batch.  In all cases, the appropriate model for the given account will
            // be returned to the caller.  In some cases, a model will be constructed on the fly from the existing values in the
            // account.  These temporary models will use most of the position and trading tables
            ModelBatch modelBatch = null;

            try
            {
                // Lock the tables
                Debug.Assert(!ClientMarketData.AreLocksHeld);
                ClientMarketData.AccountLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.AllocationLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.CurrencyLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.DebtLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.EquityLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.ModelLock.AcquireWriterLock(CommonTimeout.LockWait);
                ClientMarketData.SectorTargetLock.AcquireWriterLock(CommonTimeout.LockWait);
                ClientMarketData.PositionTargetLock.AcquireWriterLock(CommonTimeout.LockWait);
                ClientMarketData.ObjectLock.AcquireWriterLock(CommonTimeout.LockWait);
                ClientMarketData.ObjectTreeLock.AcquireWriterLock(CommonTimeout.LockWait);
                ClientMarketData.OrderLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.PriceLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.ProposedOrderLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.SchemeLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.SectorLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.SecurityLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.TaxLotLock.AcquireReaderLock(CommonTimeout.LockWait);
                ClientMarketData.TransactionTypeLock.AcquireReaderLock(CommonTimeout.LockWait);

                // Find the account record that is being opened.
                ClientMarketData.AccountRow accountRow = ClientMarketData.Account.FindByAccountId(accountId);
                if (accountRow == null)
                {
                    throw new Exception(String.Format("Account {0} has been deleted", accountId));
                }

                // The objective is to find out whether a 'Self' model must be created from the existing positions, or whether a
                // an empty or a copy of a model is required to view an account appraisal.  The first test is to see whether any model
                // has been assigned to the account.
                if (accountRow.IsModelIdNull())
                {
                    // This will create an empty position model for the appraisal.
                    modelBatch = Models.CreateEmptyModel(accountRow);
                }
                else
                {
                    // At this point, a model has been assigned to the account.  Get the model and find out if a temporary copy
                    // needs to be made.
                    ClientMarketData.ModelRow modelRow = ClientMarketData.Model.FindByModelId(accountRow.ModelId);
                    if (modelRow == null)
                    {
                        throw new Exception(String.Format("Model {0} has been deleted", accountRow.ModelId));
                    }

                    // A 'self' model is one that requires a calculation of the current positions.
                    if (!modelRow.SectorSelf && !modelRow.SecuritySelf)
                    {
                        // Currently, the existing model is used on an appraisal.  Any changes to the model in the appraisal view
                        // will be stored in the persistent model.  It may be useful sometime in the future to make a copy of the
                        // model and prompt the user to save it when the appraisal is closed.
                        return(modelRow.ModelId);
                    }
                    else
                    {
                        // Make sure that the account has been assigned a scheme before attempting to build a model from it.
                        if (accountRow.IsSchemeIdNull())
                        {
                            throw new Exception(String.Format("No scheme has been assigned to account {0}.", accountRow));
                        }

                        // If the account has a default scheme, make sure it still exists.
                        ClientMarketData.SchemeRow schemeRow = ClientMarketData.Scheme.FindBySchemeId(accountRow.SchemeId);
                        if (schemeRow == null)
                        {
                            throw new ArgumentException("This scheme has been deleted", accountRow.SchemeId.ToString());
                        }

                        // Create a model based on the current sector totals.
                        if (modelRow.SectorSelf)
                        {
                            modelBatch = Models.CreateSectorSelfModel(accountRow, schemeRow);
                        }

                        // Create a model based on the current position totals.
                        if (modelRow.SecuritySelf)
                        {
                            modelBatch = Models.CreatePositionSelfModel(accountRow, schemeRow);
                        }
                    }
                }
            }
            finally
            {
                // Release the table locks.
                if (ClientMarketData.AccountLock.IsReaderLockHeld)
                {
                    ClientMarketData.AccountLock.ReleaseReaderLock();
                }
                if (ClientMarketData.AllocationLock.IsReaderLockHeld)
                {
                    ClientMarketData.AllocationLock.ReleaseReaderLock();
                }
                if (ClientMarketData.CurrencyLock.IsReaderLockHeld)
                {
                    ClientMarketData.CurrencyLock.ReleaseReaderLock();
                }
                if (ClientMarketData.DebtLock.IsReaderLockHeld)
                {
                    ClientMarketData.DebtLock.ReleaseReaderLock();
                }
                if (ClientMarketData.EquityLock.IsReaderLockHeld)
                {
                    ClientMarketData.EquityLock.ReleaseReaderLock();
                }
                if (ClientMarketData.ModelLock.IsWriterLockHeld)
                {
                    ClientMarketData.ModelLock.ReleaseWriterLock();
                }
                if (ClientMarketData.SectorTargetLock.IsWriterLockHeld)
                {
                    ClientMarketData.SectorTargetLock.ReleaseWriterLock();
                }
                if (ClientMarketData.PositionTargetLock.IsWriterLockHeld)
                {
                    ClientMarketData.PositionTargetLock.ReleaseWriterLock();
                }
                if (ClientMarketData.ObjectLock.IsWriterLockHeld)
                {
                    ClientMarketData.ObjectLock.ReleaseWriterLock();
                }
                if (ClientMarketData.ObjectTreeLock.IsWriterLockHeld)
                {
                    ClientMarketData.ObjectTreeLock.ReleaseWriterLock();
                }
                if (ClientMarketData.OrderLock.IsReaderLockHeld)
                {
                    ClientMarketData.OrderLock.ReleaseReaderLock();
                }
                if (ClientMarketData.PriceLock.IsReaderLockHeld)
                {
                    ClientMarketData.PriceLock.ReleaseReaderLock();
                }
                if (ClientMarketData.ProposedOrderLock.IsReaderLockHeld)
                {
                    ClientMarketData.ProposedOrderLock.ReleaseReaderLock();
                }
                if (ClientMarketData.SchemeLock.IsReaderLockHeld)
                {
                    ClientMarketData.SchemeLock.ReleaseReaderLock();
                }
                if (ClientMarketData.SectorLock.IsReaderLockHeld)
                {
                    ClientMarketData.SectorLock.ReleaseReaderLock();
                }
                if (ClientMarketData.SecurityLock.IsReaderLockHeld)
                {
                    ClientMarketData.SecurityLock.ReleaseReaderLock();
                }
                if (ClientMarketData.TaxLotLock.IsReaderLockHeld)
                {
                    ClientMarketData.TaxLotLock.ReleaseReaderLock();
                }
                if (ClientMarketData.TransactionTypeLock.IsReaderLockHeld)
                {
                    ClientMarketData.TransactionTypeLock.ReleaseReaderLock();
                }
                Debug.Assert(!ClientMarketData.AreLocksHeld);
            }

            // At this point, a batch is ready to be sent that will create the model and populate it with target values.  The data
            // structure is an overloaded version of the 'RemoteBatch' class.  The 'ModelBatch' contains a member which references
            // the 'modelId' return value from the creation of the model.  This value will be returned to the caller as a reference
            // to the temporary model.
            ClientMarketData.Send(modelBatch);

            // Rethrow a generic error message for the failed model.
            if (modelBatch.HasExceptions)
            {
                throw new Exception("Can't create model.");
            }

            // Return the model identifier generated by the server.
            return((int)modelBatch.ModelIdParameter.Value);
        }
Exemplo n.º 4
0
        /// <summary>
        /// Creates a temporary model based on the current position level targets.
        /// </summary>
        /// <param name="accountRow">An account used as a basis for the targets.</param>
        /// <param name="schemeRow">The scheme used to select sector targets.</param>
        /// <returns>A batch of commands that will create a model containing the current position weights of the account.</returns>
        private static ModelBatch CreatePositionSelfModel(ClientMarketData.AccountRow accountRow, ClientMarketData.SchemeRow schemeRow)
        {
            // Create the batch and fill it in with the assembly and type needed for this function.
            ModelBatch        modelBatch        = new ModelBatch();
            RemoteTransaction remoteTransaction = modelBatch.Transactions.Add();
            RemoteAssembly    remoteAssembly    = modelBatch.Assemblies.Add("Service.Core");
            RemoteType        remoteType        = remoteAssembly.Types.Add("Shadows.WebService.Core.Model");

            // Create the temporary, position model based on the scheme used by the original account.
            RemoteMethod insertModel = remoteType.Methods.Add("Insert");

            insertModel.Parameters.Add("modelId", DataType.Int, Direction.ReturnValue);
            insertModel.Parameters.Add("rowVersion", DataType.Long, Direction.Output);
            insertModel.Parameters.Add("modelTypeCode", ModelType.Security);
            insertModel.Parameters.Add("name", "Untitled");
            insertModel.Parameters.Add("schemeId", schemeRow.SchemeId);
            insertModel.Parameters.Add("algorithmId", Algorithm.SecurityRebalancer);
            insertModel.Parameters.Add("temporary", true);

            // The 'Self Security' model uses the market value of all the positions, regardless of account or sub-account, when
            // calculating the denominator for the percentages.
            decimal accountMarketValue = MarketValue.Calculate(accountRow.CurrencyRow, accountRow,
                                                               MarketValueFlags.EntirePosition | MarketValueFlags.IncludeChildAccounts);

            // If the account market value is zero, we can't do much more to create a model.
            if (accountMarketValue != 0.0M)
            {
                // Create a new outline for the model to follow.  This will collect the tax lots, proposed orders orders and
                // allocations into positions that can be used for calculating percentages.
                Common.Appraisal appraisal = new Common.Appraisal(accountRow, true);

                // Run through each of the positions, starting with the security.
                foreach (AppraisalSet.SecurityRow driverSecurity in appraisal.Security)
                {
                    // This is a position is the destination for the market value calculation.
                    ClientMarketData.SecurityRow securityRow =
                        ClientMarketData.Security.FindBySecurityId(driverSecurity.SecurityId);

                    // The object Type for this operation.
                    RemoteType positionTargetType = remoteAssembly.Types.Add("Shadows.WebService.Core.PositionTarget");

                    // Run through each of the positions in the appraisal calculating the market value of each position. The ratio
                    // of this market value to the account's market value is the model percentage.
                    foreach (AppraisalSet.PositionRow positionRow in driverSecurity.GetPositionRows())
                    {
                        // Calculate the market value of the given position.
                        decimal securityMarketValue = MarketValue.Calculate(accountRow.CurrencyRow, accountRow,
                                                                            securityRow, positionRow.PositionTypeCode,
                                                                            MarketValueFlags.EntirePosition | MarketValueFlags.EntirePosition);

                        // Add the position level target to the model.
                        RemoteMethod insertPosition = positionTargetType.Methods.Add("Insert");
                        insertPosition.Parameters.Add("modelId", insertModel.Parameters["modelId"]);
                        insertPosition.Parameters.Add("securityId", securityRow.SecurityId);
                        insertPosition.Parameters.Add("positionTypeCode", positionRow.PositionTypeCode);
                        insertPosition.Parameters.Add("percent", securityMarketValue / accountMarketValue);
                    }
                }
            }

            // Save the reference to the 'modelId' return parameter.
            modelBatch.ModelIdParameter = insertModel.Parameters["modelId"];

            // This batch will create a temporary model based on the position totals of the original account.
            return(modelBatch);
        }
Exemplo n.º 5
0
        /// <summary>
        /// Creates a temporary model based on the current sector level targets.
        /// </summary>
        /// <param name="accountRow">An account used as a basis for the targets.</param>
        /// <param name="schemeRow">The scheme used to select sector targets.</param>
        /// <returns>A batch of commands that will create a model containing the current sector weights of the account.</returns>
        private static ModelBatch CreateSectorSelfModel(ClientMarketData.AccountRow accountRow, ClientMarketData.SchemeRow schemeRow)
        {
            // This command batch will create a temporary model and populate it with the current position level percentages as the
            // target values.
            ModelBatch        modelBatch        = new ModelBatch();
            RemoteTransaction remoteTransaction = modelBatch.Transactions.Add();
            RemoteAssembly    remoteAssembly    = modelBatch.Assemblies.Add("Service.Core");
            RemoteType        remoteType        = remoteAssembly.Types.Add("Shadows.WebService.Core.Model");

            // Create the temporary model.
            RemoteMethod insertModel = remoteType.Methods.Add("Insert");

            insertModel.Parameters.Add("modelId", DataType.Int, Direction.ReturnValue);
            insertModel.Parameters.Add("rowVersion", DataType.Long, Direction.Output);
            insertModel.Parameters.Add("modelTypeCode", ModelType.Sector);
            insertModel.Parameters.Add("name", "Untitled");
            insertModel.Parameters.Add("schemeId", schemeRow.SchemeId);
            insertModel.Parameters.Add("algorithmId", Algorithm.SectorMergeRebalancer);
            insertModel.Parameters.Add("temporary", true);

            // The 'Self Sector' uses the market value of all the account and sub-account.
            decimal accountMarketValue = MarketValue.Calculate(accountRow.CurrencyRow, accountRow,
                                                               MarketValueFlags.EntirePosition | MarketValueFlags.IncludeChildAccounts);

            // No need to construct a model if the account market value is zero.
            if (accountMarketValue != 0.0M)
            {
                // Create a new outline for the model to follow.  This will collect the tax lots, proposed orders, orders
                // and allocations into industry classification sectors.
                Common.Appraisal appraisal = new Common.Appraisal(accountRow, schemeRow, true);

                // The object Type for this operation.
                RemoteType sectorTargetType = remoteAssembly.Types.Add("Shadows.WebService.Core.SectorTarget");

                // Now that we have an outline to follow, we are going to run through each of the sectors, calculate the market
                // value, and create an entry in the temporary model for that sector and it's current weight of the overall market
                // value.
                foreach (AppraisalSet.SchemeRow driverScheme in appraisal.Scheme)
                {
                    foreach (AppraisalSet.ObjectTreeRow driverTree in
                             driverScheme.ObjectRow.GetObjectTreeRowsByFKObjectObjectTreeParentId())
                    {
                        foreach (AppraisalSet.SectorRow driverSector in
                                 driverTree.ObjectRowByFKObjectObjectTreeChildId.GetSectorRows())
                        {
                            // This sector is the destination for the market value calculation.
                            ClientMarketData.SectorRow sectorRow = ClientMarketData.Sector.FindBySectorId(driverSector.SectorId);

                            // Calculate the market value of all the securities held by all the accounts in the current sector.
                            decimal sectorMarketValue = MarketValue.Calculate(accountRow.CurrencyRow, accountRow, sectorRow,
                                                                              MarketValueFlags.EntirePosition | MarketValueFlags.IncludeChildAccounts);

                            // Add the position level target to the model.
                            RemoteMethod insertSector = sectorTargetType.Methods.Add("Insert");
                            insertSector.Parameters.Add("modelId", insertModel.Parameters["modelId"]);
                            insertSector.Parameters.Add("sectorId", sectorRow.SectorId);
                            insertSector.Parameters.Add("percent", sectorMarketValue / accountMarketValue);
                        }
                    }
                }
            }

            // Save the reference to the 'modelId' return parameter.
            modelBatch.ModelIdParameter = insertModel.Parameters["modelId"];

            // This batch will create a temporary model based on the sector totals of the original account.
            return(modelBatch);
        }