// *************************************************************************** } // // Delphi MVC Framework // // Copyright (c) 2010-2019 Daniele Teti and the DMVCFramework Team // // https://github.com/danieleteti/delphimvcframework // // *************************************************************************** // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // // *************************************************************************** unit MVCFramework.ActiveRecord; interface uses System.Generics.Defaults, System.Generics.Collections, System.RTTI, FireDAC.DApt, Data.DB, FireDAC.Comp.Client, FireDAC.Stan.Param, System.SysUtils, MVCFramework, MVCFramework.Commons, MVCFramework.RQL.Parser, MVCFramework.Serializer.Intf; type EMVCActiveRecord = class(EMVCException) public constructor Create(const AMsg: string); reintroduce; { do not override!! } end; EMVCActiveRecordNotFound = class(EMVCActiveRecord) end; TMVCActiveRecordClass = class of TMVCActiveRecord; TMVCActiveRecordFieldOption = (foPrimaryKey, foAutoGenerated, foTransient); TMVCActiveRecordFieldOptions = set of TMVCActiveRecordFieldOption; TMVCEntityAction = (eaCreate, eaRetrieve, eaUpdate, eaDelete); TMVCEntityActions = set of TMVCEntityAction; TMVCActiveRecordLoadOption = (loIgnoreNotExistentFields); TMVCActiveRecordLoadOptions = set of TMVCActiveRecordLoadOption; IMVCEntityProcessor = interface ['{E7CD11E6-9FF9-46D2-B7B0-DA5B38EAA14E}'] procedure GetEntities(const Context: TWebContext; const Renderer: TMVCRenderer; const entityname: string; var Handled: Boolean); procedure GetEntity(const Context: TWebContext; const Renderer: TMVCRenderer; const entityname: string; const id: Integer; var Handled: Boolean); procedure CreateEntity(const Context: TWebContext; const Renderer: TMVCRenderer; const entityname: string; var Handled: Boolean); procedure UpdateEntity(const Context: TWebContext; const Renderer: TMVCRenderer; const entityname: string; const id: Integer; var Handled: Boolean); procedure DeleteEntity(const Context: TWebContext; const Renderer: TMVCRenderer; const entityname: string; const id: Integer; var Handled: Boolean); end; MVCActiveRecordCustomAttribute = class(TCustomAttribute) end; MVCTableAttribute = class(MVCActiveRecordCustomAttribute) public Name: string; constructor Create(aName: string); end; MVCTableFieldAttribute = class(MVCActiveRecordCustomAttribute) public FieldName: string; FieldOptions: TMVCActiveRecordFieldOptions; constructor Create(const aFieldName: string; const aFieldOptions: TMVCActiveRecordFieldOptions); overload; constructor Create(aFieldName: string); overload; end; MVCPrimaryKeyAttribute = MVCTableFieldAttribute deprecated '(ERROR) Use MVCTableFieldAttribute'; MVCEntityActionsAttribute = class(MVCActiveRecordCustomAttribute) private EntityAllowedActions: TMVCEntityActions; public constructor Create(const aEntityAllowedActions: TMVCEntityActions); end; TMVCActiveRecord = class; TMVCSQLGenerator = class; TMVCActiveRecordList = class(TObjectList) public constructor Create; virtual; end; TMVCActiveRecord = class private fConn: TFDConnection; fSQLGenerator: TMVCSQLGenerator; fPrimaryKeyFieldName: string; fPrimaryKeyOptions: TMVCActiveRecordFieldOptions; fEntityAllowedActions: TMVCEntityActions; fRQL2SQL: TRQL2SQL; procedure MapColumnToTValue(const aFieldName: string; const aField: TField; const aRTTIField: TRttiField); procedure MapTValueToParam(const aValue: TValue; const aParam: TFDParam); protected fRTTIType: TRttiType; fProps: TArray; fObjAttributes: TArray; fPropsAttributes: TArray; fTableName: string; fMap: TDictionary; fMapNonTransientFields: TDictionary; fPrimaryKey: TRttiField; fBackendDriver: string; fMapping: TMVCFieldsMapping; function GetBackEnd: string; function SelfConnection: TFDConnection; procedure InitTableInfo; class function ExecQuery(const SQL: string; const Values: array of Variant): TDataSet; overload; class function ExecQuery(const SQL: string; const Values: array of Variant; const Connection: TFDConnection) : TDataSet; overload; // class function ExecNonQuery(const SQL: string; const Values: array of Variant): int64; overload; // class function ExecNonQuery(const SQL: string; const Values: array of Variant; const Connection: TFDConnection): int64; overload; function ExecNonQuery(const SQL: string; RefreshAutoGenerated: Boolean = false): int64; overload; // load events /// /// Called everywhere before persist object into database /// procedure OnValidation; virtual; /// /// Called just after load the object state from database /// procedure OnAfterLoad; virtual; /// /// Called before load the object state from database /// procedure OnBeforeLoad; virtual; /// /// Called before insert the object state to database /// procedure OnBeforeInsert; virtual; /// /// Called after insert the object state to database /// procedure OnAfterInsert; virtual; /// /// Called before update the object state to database /// procedure OnBeforeUpdate; virtual; /// /// Called after update the object state to database /// procedure OnAfterUpdate; virtual; /// /// Called before delete object from database /// procedure OnBeforeDelete; virtual; /// /// Called after delete object from database /// procedure OnAfterDelete; virtual; /// /// Called before insert or update the object to the database /// procedure OnBeforeInsertOrUpdate; virtual; /// /// Called before execute sql /// procedure OnBeforeExecuteSQL(var SQL:String); virtual; /// /// Called after insert or update the object to the database /// procedure OnAfterInsertOrUpdate; virtual; function GenerateSelectSQL: string; function SQLGenerator: TMVCSQLGenerator; public constructor Create(aLazyLoadConnection: Boolean); overload; { cannot be virtual! } constructor Create; overload; virtual; destructor Destroy; override; function CheckAction(const aEntityAction: TMVCEntityAction; const aRaiseException: Boolean = True): Boolean; procedure Insert; function GetMapping: TMVCFieldsMapping; function LoadByPK(id: int64): Boolean; virtual; procedure Update; procedure Delete; function TableInfo: string; procedure LoadByDataset(const aDataSet: TDataSet; const aOptions: TMVCActiveRecordLoadOptions = []); procedure SetPK(const aValue: TValue); function GetPK: TValue; class function GetByPK(const aValue: int64): T; overload; class function GetByPK(const aClass: TMVCActiveRecordClass; const aValue: int64): TMVCActiveRecord; overload; class function GetScalar(const SQL: string; const Params: array of Variant): Variant; class function Select(const SQL: string; const Params: array of Variant; const Options: TMVCActiveRecordLoadOptions = []): TObjectList; overload; class function Select(const aClass: TMVCActiveRecordClass; const SQL: string; const Params: array of Variant) : TMVCActiveRecordList; overload; class function Select(const aClass: TMVCActiveRecordClass; const SQL: string; const Params: array of Variant; const Connection: TFDConnection): TMVCActiveRecordList; overload; class function SelectRQL(const aClass: TMVCActiveRecordClass; const RQL: string; const MaxRecordCount: Integer) : TMVCActiveRecordList; overload; class function DeleteRQL(const aClass: TMVCActiveRecordClass; const RQL: string): int64; class function SelectRQL(const RQL: string; const MaxRecordCount: Integer) : TObjectList; overload; function SelectRQL(const RQL: string; const MaxRecordCount: Integer): TMVCActiveRecordList; overload; class function Where(const SQLWhere: string; const Params: array of Variant) : TObjectList; overload; class function GetOneByWhere(const SQLWhere: string; const Params: array of Variant; const RaiseExceptionIfNotFound: Boolean = True): T; class function GetFirstByWhere(const SQLWhere: string; const Params: array of Variant; const RaiseExceptionIfNotFound: Boolean = True): T; class function Where(const aClass: TMVCActiveRecordClass; const SQLWhere: string; const Params: array of Variant) : TMVCActiveRecordList; overload; class function Where(const aClass: TMVCActiveRecordClass; const SQLWhere: string; const Params: array of Variant; const Connection: TFDConnection): TMVCActiveRecordList; overload; class function All: TObjectList; overload; class function All(const aClass: TMVCActiveRecordClass): TObjectList; overload; class function DeleteAll(const aClass: TMVCActiveRecordClass): int64; overload; function Count: int64; overload; class function Count: int64; overload; class function Count(const aClass: TMVCActiveRecordClass): int64; overload; class function SelectDataSet(const SQL: string; const Params: array of Variant): TDataSet; class function CurrentConnection: TFDConnection; end; IMVCEntitiesRegistry = interface ['{BB227BEB-A74A-4637-8897-B13BA938C07B}'] procedure AddEntity(const aURLSegment: string; const aActiveRecordClass: TMVCActiveRecordClass); procedure AddEntityProcessor(const aURLSegment: string; const aEntityProcessor: IMVCEntityProcessor); function FindEntityClassByURLSegment(const aURLSegment: string; out aMVCActiveRecordClass: TMVCActiveRecordClass): Boolean; function FindProcessorByURLSegment(const aURLSegment: string; out aMVCEntityProcessor: IMVCEntityProcessor) : Boolean; end; TMVCEntitiesRegistry = class(TInterfacedObject, IMVCEntitiesRegistry) private fEntitiesDict: TDictionary; fProcessorsDict: TDictionary; public constructor Create; virtual; destructor Destroy; override; protected procedure AddEntityProcessor(const aURLSegment: string; const aEntityProcessor: IMVCEntityProcessor); procedure AddEntity(const aURLSegment: string; const aActiveRecordClass: TMVCActiveRecordClass); function FindEntityClassByURLSegment(const aURLSegment: string; out aMVCActiveRecordClass: TMVCActiveRecordClass): Boolean; function FindProcessorByURLSegment(const aURLSegment: string; out aMVCEntityProcessor: IMVCEntityProcessor) : Boolean; end; IMVCActiveRecordConnections = interface ['{7B87473C-1784-489F-A838-925E7DDD0DE2}'] procedure AddConnection(const aName: string; const aConnection: TFDConnection; const Owns: Boolean = false); procedure RemoveConnection(const aName: string); procedure SetCurrent(const aName: string); function GetCurrent: TFDConnection; function GetCurrentBackend: string; end; TMVCConnectionsRepository = class(TInterfacedObject, IMVCActiveRecordConnections) private type TConnHolder = class public Connection: TFDConnection; OwnsConnection: Boolean; destructor Destroy; override; end; var fMREW: TMultiReadExclusiveWriteSynchronizer; fConnectionsDict: TDictionary; fCurrentConnectionsByThread: TDictionary; function GetKeyName(const aName: string): string; public constructor Create; virtual; destructor Destroy; override; procedure AddConnection(const aName: string; const aConnection: TFDConnection; const aOwns: Boolean = false); procedure RemoveConnection(const aName: string); procedure SetCurrent(const aName: string); function GetCurrent: TFDConnection; function GetByName(const aName: string): TFDConnection; function GetCurrentBackend: string; end; TMVCSQLGenerator = class abstract private fMapping: TMVCFieldsMapping; fCompiler: TRQLCompiler; fRQL2SQL: TRQL2SQL; protected function GetRQLParser: TRQL2SQL; function GetCompiler: TRQLCompiler; function GetCompilerClass: TRQLCompilerClass; virtual; abstract; function GetMapping: TMVCFieldsMapping; function TableFieldsDelimited(const Map: TDictionary; const PKFieldName: string; const Delimiter: string): string; public constructor Create(Mapping: TMVCFieldsMapping); virtual; destructor Destroy; override; function CreateSQLWhereByRQL(const RQL: string; const Mapping: TMVCFieldsMapping; const UseArtificialLimit: Boolean = True): string; virtual; abstract; function CreateSelectSQL(const TableName: string; const Map: TDictionary; const PKFieldName: string; const PKOptions: TMVCActiveRecordFieldOptions): string; virtual; abstract; function CreateSelectByPKSQL(const TableName: string; const Map: TDictionary; const PKFieldName: string; const PKOptions: TMVCActiveRecordFieldOptions; const PrimaryKeyValue: int64): string; virtual; abstract; function CreateInsertSQL(const TableName: string; const Map: TDictionary; const PKFieldName: string; const PKOptions: TMVCActiveRecordFieldOptions): string; virtual; abstract; function CreateUpdateSQL(const TableName: string; const Map: TDictionary; const PKFieldName: string; const PKOptions: TMVCActiveRecordFieldOptions): string; virtual; abstract; function CreateDeleteSQL(const TableName: string; const Map: TDictionary; const PKFieldName: string; const PKOptions: TMVCActiveRecordFieldOptions; const PrimaryKeyValue: int64): string; virtual; abstract; function CreateDeleteAllSQL(const TableName: string): string; virtual; abstract; function CreateSelectCount(const TableName: String): String; virtual; abstract; end; TMVCSQLGeneratorClass = class of TMVCSQLGenerator; TMVCSQLGeneratorRegistry = class sealed private class var cInstance: TMVCSQLGeneratorRegistry; class var cLock: TObject; fSQLGenerators: TDictionary; protected constructor Create; public destructor Destroy; override; class function Instance: TMVCSQLGeneratorRegistry; class destructor Destroy; class constructor Create; procedure RegisterSQLGenerator(const aBackend: string; const aRQLBackendClass: TMVCSQLGeneratorClass); procedure UnRegisterSQLGenerator(const aBackend: string); function GetSQLGenerator(const aBackend: string): TMVCSQLGeneratorClass; end; function ActiveRecordConnectionsRegistry: IMVCActiveRecordConnections; function ActiveRecordMappingRegistry: IMVCEntitiesRegistry; function GetBackEndByConnection(aConnection: TFDConnection): string; implementation uses System.TypInfo, System.IOUtils, System.Classes, MVCFramework.DataSet.Utils, MVCFramework.Logger, FireDAC.Stan.Option, Data.FmtBcd; var gCtx: TRttiContext; gEntitiesRegistry: IMVCEntitiesRegistry; gConnections: IMVCActiveRecordConnections; gLock: TObject; function GetBackEndByConnection(aConnection: TFDConnection): string; begin case aConnection.RDBMSKind of 0: Exit('unknown'); 1: Exit('oracle'); 2: Exit('mssql'); 3: Exit('msaccess'); 4: Exit('mysql'); 5: Exit('db2'); 6: Exit('sqlanywhere'); 7: Exit('advantage'); 8: Exit('interbase'); 9: Exit('firebird'); 10: Exit('sqlite'); 11: Exit('postgresql'); 12: Exit('nexusdb'); 13: Exit('dataSnap'); 14: Exit('informix'); 15: Exit('teradata'); 16: Exit('mongodb'); 17: Exit('other'); else raise EMVCActiveRecord.Create('Unknown RDBMS Kind'); end; end; function ActiveRecordConnectionsRegistry: IMVCActiveRecordConnections; begin if gConnections = nil then // double check here begin TMonitor.Enter(gLock); try if gConnections = nil then begin gConnections := TMVCConnectionsRepository.Create; end; finally TMonitor.Exit(gLock); end; end; Result := gConnections; end; { TConnectionsRepository } procedure TMVCConnectionsRepository.AddConnection(const aName: string; const aConnection: TFDConnection; const aOwns: Boolean = false); var lName: string; lConnKeyName: string; lConnHolder: TConnHolder; begin lName := aName.ToLower; lConnKeyName := GetKeyName(lName); fMREW.BeginWrite; try lConnHolder := TConnHolder.Create; lConnHolder.Connection := aConnection; lConnHolder.OwnsConnection := aOwns; fConnectionsDict.Add(lConnKeyName, lConnHolder); // raise exception on duplicates if (lName = 'default') and (not fCurrentConnectionsByThread.ContainsKey(TThread.CurrentThread.ThreadID)) then begin fCurrentConnectionsByThread.AddOrSetValue(TThread.CurrentThread.ThreadID, lName); end; finally fMREW.EndWrite; end; end; constructor TMVCConnectionsRepository.Create; begin inherited; fMREW := TMultiReadExclusiveWriteSynchronizer.Create; fConnectionsDict := TDictionary.Create; fCurrentConnectionsByThread := TDictionary.Create; end; destructor TMVCConnectionsRepository.Destroy; begin fConnectionsDict.Free; fCurrentConnectionsByThread.Free; fMREW.Free; inherited; end; function TMVCConnectionsRepository.GetByName(const aName: string): TFDConnection; var lKeyName: string; lConnHolder: TConnHolder; begin lKeyName := GetKeyName(aName.ToLower); fMREW.BeginRead; try if not fConnectionsDict.TryGetValue(lKeyName, lConnHolder) then raise Exception.CreateFmt('Unknown connection %s', [aName]); Result := lConnHolder.Connection; finally fMREW.EndRead; end; end; function TMVCConnectionsRepository.GetCurrent: TFDConnection; var lName: string; begin fMREW.BeginRead; try if fCurrentConnectionsByThread.TryGetValue(TThread.Current.ThreadID, lName) then begin Result := GetByName(lName); end else begin raise EMVCActiveRecord.Create('No current connection for thread'); end; finally fMREW.EndRead; end; end; function TMVCConnectionsRepository.GetCurrentBackend: string; begin Result := GetBackEndByConnection(GetCurrent); end; function TMVCConnectionsRepository.GetKeyName(const aName: string): string; begin Result := Format('%10.10d::%s', [TThread.Current.ThreadID, aName]); end; procedure TMVCConnectionsRepository.RemoveConnection(const aName: string); var lName: string; lKeyName: string; lConnHolder: TConnHolder; begin lName := aName.ToLower; lKeyName := GetKeyName(lName); fMREW.BeginWrite; try if not fConnectionsDict.TryGetValue(lKeyName, lConnHolder) then raise Exception.CreateFmt('Unknown connection %s', [aName]); fConnectionsDict.Remove(lKeyName); try FreeAndNil(lConnHolder); except on E: Exception do begin LogE('ActiveRecord: ' + E.ClassName + ' > ' + E.Message); raise; end; end; finally fMREW.EndWrite; end; end; procedure TMVCConnectionsRepository.SetCurrent(const aName: string); var lName: string; lKeyName: string; begin lName := aName.ToLower; lKeyName := GetKeyName(lName); fMREW.BeginWrite; try if not fConnectionsDict.ContainsKey(lKeyName) then raise Exception.CreateFmt('Unknown connection %s', [aName]); fCurrentConnectionsByThread.AddOrSetValue(TThread.Current.ThreadID, lName); finally fMREW.EndWrite; end; end; function ActiveRecordMappingRegistry: IMVCEntitiesRegistry; begin if gEntitiesRegistry = nil then begin TMonitor.Enter(gLock); try if gEntitiesRegistry = nil then begin gEntitiesRegistry := TMVCEntitiesRegistry.Create; end; finally TMonitor.Exit(gLock); end; end; Result := gEntitiesRegistry; end; { TableFieldAttribute } constructor MVCTableFieldAttribute.Create(aFieldName: string); begin Create(aFieldName, []); end; { TableAttribute } constructor MVCTableAttribute.Create(aName: string); begin inherited Create; name := aName; end; { TActiveRecord } destructor TMVCActiveRecord.Destroy; begin fMap.Free; fMapNonTransientFields.Free; fSQLGenerator.Free; fRQL2SQL.Free; fConn := nil; // do not free it!! inherited; end; function TMVCActiveRecord.ExecNonQuery(const SQL: string; RefreshAutoGenerated: Boolean = false): int64; var lQry: TFDQuery; lPar: TFDParam; lPair: TPair; lValue: TValue; lSQL : String; begin lQry := TFDQuery.Create(nil); try lQry.Connection := fConn; lSQL := SQL; OnBeforeExecuteSQL(lSQL); lQry.SQL.Text := lSQL; // lQry.Prepare; for lPair in fMap do begin lPar := lQry.FindParam(lPair.value); if lPar <> nil then begin lValue := lPair.Key.GetValue(Self); MapTValueToParam(lValue, lPar); end end; // check if it's the primary key lPar := lQry.FindParam(fPrimaryKeyFieldName); if lPar <> nil then begin if lPar.DataType = ftUnknown then begin { TODO -oDanieleT -cGeneral : Let's find a smarter way to do this if the engine cannot recognize parameter's datatype } lPar.DataType := ftLargeint; end; MapTValueToParam(fPrimaryKey.GetValue(Self), lPar); end; if RefreshAutoGenerated and (TMVCActiveRecordFieldOption.foAutoGenerated in fPrimaryKeyOptions) then begin lQry.Open; fPrimaryKey.SetValue(Self, lQry.FieldByName(fPrimaryKeyFieldName).AsInteger); OnAfterLoad; end else begin lQry.ExecSQL(lSQL); end; Result := lQry.RowsAffected; finally lQry.Free; end; end; // class function TMVCActiveRecord.ExecNonQuery(const SQL: string; // const Values: array of Variant; const Connection: TFDConnection): int64; // var // lQry: TFDQuery; // begin // lQry := TFDQuery.Create(nil); // try // lQry.FetchOptions.Unidirectional := True; // if Connection = nil then // begin // lQry.Connection := ActiveRecordConnectionsRegistry.GetCurrent; // end // else // begin // lQry.Connection := Connection; // end; // lQry.SQL.Text := SQL; // lQry.Prepare; // lQry.ExecSQL(SQL, Values); // Result := lQry.RowsAffected; // except // lQry.Free; // raise; // end; // end; // // class function TMVCActiveRecord.ExecNonQuery(const SQL: string; // const Values: array of Variant): int64; // begin // Result := ExecNonQuery(SQL, Values, nil); // end; class function TMVCActiveRecord.ExecQuery(const SQL: string; const Values: array of Variant; const Connection: TFDConnection): TDataSet; var lQry: TFDQuery; begin lQry := TFDQuery.Create(nil); try lQry.FetchOptions.Unidirectional := False; //True; if Connection = nil then begin lQry.Connection := ActiveRecordConnectionsRegistry.GetCurrent; end else begin lQry.Connection := Connection; end; lQry.SQL.Text := SQL; // lQry.Prepare; lQry.Open(SQL, Values); Result := lQry; except lQry.Free; raise; end; end; class function TMVCActiveRecord.ExecQuery(const SQL: string; const Values: array of Variant): TDataSet; begin Result := ExecQuery(SQL, Values, nil); end; procedure TMVCActiveRecord.InitTableInfo; var lAttribute: TCustomAttribute; lRTTIField: TRttiField; begin fEntityAllowedActions := [TMVCEntityAction.eaCreate, TMVCEntityAction.eaRetrieve, TMVCEntityAction.eaUpdate, TMVCEntityAction.eaDelete]; fTableName := ''; fRTTIType := gCtx.GetType(Self.ClassInfo); fObjAttributes := fRTTIType.GetAttributes; for lAttribute in fObjAttributes do begin if lAttribute is MVCTableAttribute then begin fTableName := MVCTableAttribute(lAttribute).Name; continue; end; if lAttribute is MVCEntityActionsAttribute then begin fEntityAllowedActions := MVCEntityActionsAttribute(lAttribute).EntityAllowedActions; Break; end; end; if fTableName = '' then raise Exception.Create('Cannot find TableNameAttribute'); fProps := fRTTIType.GetFields; for lRTTIField in fProps do begin fPropsAttributes := lRTTIField.GetAttributes; if Length(fPropsAttributes) = 0 then continue; for lAttribute in fPropsAttributes do begin if lAttribute is MVCTableFieldAttribute then begin if foPrimaryKey in MVCTableFieldAttribute(lAttribute).FieldOptions then begin fPrimaryKey := lRTTIField; fPrimaryKeyFieldName := MVCTableFieldAttribute(lAttribute).FieldName; fPrimaryKeyOptions := MVCTableFieldAttribute(lAttribute).FieldOptions; continue; end; fMap.Add(lRTTIField, { fTableName + '.' + } MVCTableFieldAttribute(lAttribute).FieldName); if not(foTransient in MVCTableFieldAttribute(lAttribute).FieldOptions) then fMapNonTransientFields.Add(lRTTIField, MVCTableFieldAttribute(lAttribute).FieldName); end; // else if lAttribute is MVCPrimaryKeyAttribute then // begin // fPrimaryKey := lRTTIField; // fPrimaryKeyFieldName := MVCPrimaryKeyAttribute(lAttribute).FieldName; // fPrimaryKeyOptions := MVCPrimaryKeyAttribute(lAttribute).FieldOptions; // end; end; end; end; procedure TMVCActiveRecord.Insert; var SQL: string; begin CheckAction(TMVCEntityAction.eaCreate); OnValidation; OnBeforeInsert; OnBeforeInsertOrUpdate; if fMapNonTransientFields.Count = 0 then begin raise EMVCActiveRecord.CreateFmt ('Cannot insert an entity if all fields are transient. Class [%s] mapped on table [%s]', [ClassName, fTableName]); end; SQL := SQLGenerator.CreateInsertSQL(fTableName, fMapNonTransientFields, fPrimaryKeyFieldName, fPrimaryKeyOptions); ExecNonQuery(SQL, True); OnAfterInsert; OnAfterInsertOrUpdate; end; constructor TMVCActiveRecord.Create(aLazyLoadConnection: Boolean); begin inherited Create; fConn := nil; SetLength(fMapping, 0); { TODO -oDanieleT -cGeneral : Consider lazyconnection } // if not aLazyLoadConnection then // begin SelfConnection; // end; fMap := TDictionary.Create; fMapNonTransientFields := TDictionary.Create; InitTableInfo; end; function TMVCActiveRecord.GenerateSelectSQL: string; begin Result := SQLGenerator.CreateSelectSQL(fTableName, fMap, fPrimaryKeyFieldName, fPrimaryKeyOptions); end; function TMVCActiveRecord.GetBackEnd: string; begin if fBackendDriver.IsEmpty then begin fBackendDriver := GetBackEndByConnection(fConn); end; Result := fBackendDriver; end; class function TMVCActiveRecord.GetByPK(const aClass: TMVCActiveRecordClass; const aValue: int64): TMVCActiveRecord; begin Result := aClass.Create; if not Result.LoadByPK(aValue) then begin Result.Free; raise EMVCActiveRecordNotFound.Create('Record not found'); end; end; class function TMVCActiveRecord.GetByPK(const aValue: int64): T; var lActiveRecord: TMVCActiveRecord; begin Result := T.Create; lActiveRecord := TMVCActiveRecord(Result); if not lActiveRecord.LoadByPK(aValue) then begin Result.Free; raise EMVCActiveRecordNotFound.Create('Record not found'); end; end; class function TMVCActiveRecord.GetFirstByWhere(const SQLWhere: string; const Params: array of Variant; const RaiseExceptionIfNotFound: Boolean): T; var lList: TObjectList; begin lList := Where(SQLWhere, Params); try if lList.Count = 0 then begin if RaiseExceptionIfNotFound then raise EMVCActiveRecord.Create('Got 0 rows'); Exit(nil); end; lList.OwnsObjects := false; Result := lList.First; finally lList.Free; end; end; function TMVCActiveRecord.GetMapping: TMVCFieldsMapping; var lPair: TPair; i: Integer; begin if Length(fMapping) = 0 then begin if not fPrimaryKeyFieldName.IsEmpty then begin SetLength(fMapping, fMap.Count + 1); fMapping[0].InstanceFieldName := fPrimaryKey.Name.Substring(1).ToLower; fMapping[0].DatabaseFieldName := fPrimaryKeyFieldName; i := 1; end else begin SetLength(fMapping, fMap.Count); i := 0; end; for lPair in fMap do begin fMapping[i].InstanceFieldName := lPair.Key.Name.Substring(1).ToLower; fMapping[i].DatabaseFieldName := lPair.value; inc(i); end; end; Result := fMapping; end; class function TMVCActiveRecord.GetOneByWhere(const SQLWhere: string; const Params: array of Variant; const RaiseExceptionIfNotFound: Boolean): T; begin Result := GetFirstByWhere(SQLWhere, Params, false); if Result = nil then begin if RaiseExceptionIfNotFound then raise EMVCActiveRecord.Create('Got 0 rows when exactly 1 was expected'); end; end; function TMVCActiveRecord.GetPK: TValue; begin if fPrimaryKeyFieldName.IsEmpty then raise Exception.Create('No primary key defined'); Result := fPrimaryKey.GetValue(Self); end; class function TMVCActiveRecord.GetScalar(const SQL: string; const Params: array of Variant): Variant; begin Result := CurrentConnection.ExecSQLScalar(SQL, Params); end; function TMVCActiveRecord.CheckAction(const aEntityAction: TMVCEntityAction; const aRaiseException: Boolean): Boolean; begin Result := aEntityAction in fEntityAllowedActions; if (not Result) and aRaiseException then raise EMVCActiveRecord.CreateFmt('Action not allowed on "%s"', [ClassName]); end; class function TMVCActiveRecord.Count(const aClass: TMVCActiveRecordClass): int64; var lAR: TMVCActiveRecord; begin lAR := aClass.Create; try Result := lAR.Count; finally lAR.Free; end; end; function TMVCActiveRecord.Count: int64; begin Result := GetScalar(Self.SQLGenerator.CreateSelectCount(fTableName), []); end; class function TMVCActiveRecord.Count: int64; begin Result := Count(TMVCActiveRecordClass(T)); end; class function TMVCActiveRecord.CurrentConnection: TFDConnection; begin Result := ActiveRecordConnectionsRegistry.GetCurrent; end; function TMVCActiveRecord.SelfConnection: TFDConnection; begin if fConn = nil then begin fConn := ActiveRecordConnectionsRegistry.GetCurrent; end; Result := fConn; end; constructor TMVCActiveRecord.Create; begin Create(false); end; procedure TMVCActiveRecord.Delete; var SQL: string; begin OnBeforeDelete; if not Assigned(fPrimaryKey) then raise Exception.CreateFmt('Cannot delete %s without a primary key', [ClassName]); SQL := SQLGenerator.CreateDeleteSQL(fTableName, fMap, fPrimaryKeyFieldName, fPrimaryKeyOptions, fPrimaryKey.GetValue(Self).AsInt64); ExecNonQuery(SQL, false); OnAfterDelete; end; class function TMVCActiveRecord.DeleteAll(const aClass: TMVCActiveRecordClass): int64; var lAR: TMVCActiveRecord; begin lAR := aClass.Create; try Result := lAR.ExecNonQuery(lAR.SQLGenerator.CreateDeleteAllSQL(lAR.fTableName)); finally lAR.Free; end; end; class function TMVCActiveRecord.DeleteRQL(const aClass: TMVCActiveRecordClass; const RQL: string): int64; var lAR: TMVCActiveRecord; begin lAR := aClass.Create(True); try Result := lAR.ExecNonQuery(lAR.SQLGenerator.CreateDeleteAllSQL(lAR.fTableName) + lAR.SQLGenerator.CreateSQLWhereByRQL(RQL, lAR.GetMapping, false)); finally lAR.Free; end; end; procedure TMVCActiveRecord.MapColumnToTValue(const aFieldName: string; const aField: TField; const aRTTIField: TRttiField); var lInternalStream: TStream; lSStream: TStringStream; begin case aField.DataType of ftString, ftWideString: begin aRTTIField.SetValue(Self, aField.AsString); end; ftLargeint, ftAutoInc: begin aRTTIField.SetValue(Self, aField.AsLargeInt); end; ftInteger, ftSmallint, ftShortint: begin aRTTIField.SetValue(Self, aField.AsInteger); end; ftLongWord, ftWord: begin aRTTIField.SetValue(Self, aField.AsLongWord); end; ftFMTBcd: begin aRTTIField.SetValue(Self, BCDtoCurrency(aField.AsBCD)); end; ftDate: begin aRTTIField.SetValue(Self, Trunc(aField.AsDateTime)); end; ftDateTime: begin aRTTIField.SetValue(Self, aField.AsDateTime); end; ftTimeStamp: begin aRTTIField.SetValue(Self, aField.AsDateTime); end; ftBoolean: begin aRTTIField.SetValue(Self, aField.AsBoolean); end; ftMemo, ftWideMemo: begin if aRTTIField.FieldType.TypeKind in [tkString, tkUString, tkWideString] then begin // In case you want to map a "TEXT" blob into a Delphi String lSStream := TStringStream.Create('', TEncoding.Unicode); try TBlobField(aField).SaveToStream(lSStream); aRTTIField.SetValue(Self, lSStream.DataString); finally lSStream.Free; end; end else begin // In case you want to map a bynary blob into a Delphi Stream lInternalStream := aRTTIField.GetValue(Self).AsObject as TStream; if lInternalStream = nil then begin raise EMVCActiveRecord.CreateFmt('Property target for %s field is nil', [aFieldName]); end; lInternalStream.Position := 0; TBlobField(aField).SaveToStream(lInternalStream); lInternalStream.Position := 0; end; end; ftBCD: begin aRTTIField.SetValue(Self, BCDtoCurrency(aField.AsBCD)); end; ftFloat: begin aRTTIField.SetValue(Self, aField.AsFloat); end; ftBlob: begin lInternalStream := aRTTIField.GetValue(Self).AsObject as TStream; if lInternalStream = nil then begin raise EMVCActiveRecord.CreateFmt('Property target for %s field is nil', [aFieldName]); end; lInternalStream.Position := 0; TBlobField(aField).SaveToStream(lInternalStream); lInternalStream.Position := 0; end; ftGuid: begin aRTTIField.SetValue(Self, TValue.From(aField.AsGuid)); end; else raise EMVCActiveRecord.CreateFmt('Unsupported FieldType (%d) for field %s', [Ord(aField.DataType), aFieldName]); end; end; procedure TMVCActiveRecord.MapTValueToParam(const aValue: TValue; const aParam: TFDParam); var lStream: TStream; lName: String; begin {$IFDEF NEXTGEN} lName := aValue.TypeInfo.NameFld.ToString; {$ELSE} lName := String(aValue.TypeInfo.Name); {$ENDIF} case aValue.TypeInfo.Kind of // tkUnknown: // begin // { aParam.DataType could be pkUndefined for some RDBMS (es. MySQL), so we rely on Variant } // if (aValue.TypeInfo.Kind = tkClass) then // begin // if not aValue.IsInstanceOf(TStream) then // raise EMVCActiveRecord.CreateFmt('Unsupported type for param %s', [aParam.Name]); // lStream := aValue.AsType(false); // if Assigned(lStream) then // begin // lStream.Position := 0; // aParam.LoadFromStream(lStream, ftBlob); // end // else // begin // aParam.Clear; // end; // // end // else // begin // aParam.value := aValue.AsVariant; // end; // end; tkString, tkUString: begin aParam.AsString := aValue.AsString; end; tkWideString: begin aParam.AsWideString := aValue.AsString; end; tkInt64: begin aParam.AsLargeInt := aValue.AsInt64; end; tkInteger: begin aParam.AsInteger := aValue.AsInteger; end; tkEnumeration: begin if aValue.TypeInfo = TypeInfo(System.Boolean) then begin aParam.AsBoolean := aValue.AsBoolean; end else begin aParam.AsInteger := Ord(aValue.AsInteger); end; end; tkFloat: begin if lName = 'TDate' then begin aParam.AsDate := Trunc(aValue.AsExtended); end else if lName = 'TDateTime' then begin aParam.AsDateTime := aValue.AsExtended; end else if lName = 'Currency' then begin aParam.AsCurrency := aValue.AsCurrency; end else begin aParam.AsFloat := aValue.AsExtended; end; end; tkClass: begin if not aValue.IsInstanceOf(TStream) then raise EMVCActiveRecord.CreateFmt('Unsupported reference type for param %s: %s', [aParam.Name, aValue.AsObject.ClassName]); lStream := aValue.AsType(false); if Assigned(lStream) then begin lStream.Position := 0; aParam.LoadFromStream(lStream, ftBlob); end else begin aParam.Clear; end; end; tkRecord: begin if aValue.IsType(TypeInfo(TGUID)) then begin aParam.AsGuid := aValue.AsType; end else begin raise Exception.CreateFmt('Unsupported Record TypeKind (%d) for param %s', [Ord(aValue.TypeInfo.Kind), aParam.Name]); end; end; // ftBoolean: // begin // aParam.AsBoolean := aValue.AsBoolean; // end; // ftMemo: // begin // aParam.AsMemo := AnsiString(aValue.AsString); // end; // ftWideMemo: // begin // aParam.AsWideMemo := aValue.AsString; // end; // ftBCD: // begin // aParam.AsBCD := aValue.AsCurrency; // end; // ftBlob: // begin // lStream := aValue.AsType(false); // if Assigned(lStream) then // begin // lStream.Position := 0; // aParam.LoadFromStream(lStream, ftBlob); // end // else // begin // aParam.Clear; // end; // end; else raise Exception.CreateFmt('Unsupported TypeKind (%d) for param %s', [Ord(aValue.TypeInfo.Kind), aParam.Name]); end; // case aParam.DataType of // ftUnknown: // begin // { aParam.DataType could be pkUndefined for some RDBMS (es. MySQL), so we rely on Variant } // if (aValue.TypeInfo.Kind = tkClass) then // begin // if not aValue.IsInstanceOf(TStream) then // raise EMVCActiveRecord.CreateFmt('Unsupported type for param %s', [aParam.Name]); // lStream := aValue.AsType(false); // if Assigned(lStream) then // begin // lStream.Position := 0; // aParam.LoadFromStream(lStream, ftBlob); // end // else // begin // aParam.Clear; // end; // // end // else // begin // aParam.value := aValue.AsVariant; // end; // end; // ftString: // begin // aParam.AsString := aValue.AsString; // end; // ftWideString: // begin // aParam.AsWideString := aValue.AsString; // end; // ftLargeint: // begin // aParam.AsLargeInt := aValue.AsInt64; // end; // ftSmallint: // begin // aParam.AsSmallInt := aValue.AsInteger; // end; // ftInteger: // begin // aParam.AsInteger := aValue.AsInteger; // end; // ftLongWord: // begin // aParam.AsLongWord := aValue.AsInteger; // end; // ftWord: // begin // aParam.AsWord := aValue.AsInteger; // end; // ftDate: // begin // aParam.AsDate := Trunc(aValue.AsExtended); // end; // ftDateTime: // begin // aParam.AsDateTime := aValue.AsExtended; // end; // ftBoolean: // begin // aParam.AsBoolean := aValue.AsBoolean; // end; // ftMemo: // begin // aParam.AsMemo := AnsiString(aValue.AsString); // end; // ftWideMemo: // begin // aParam.AsWideMemo := aValue.AsString; // end; // ftBCD: // begin // aParam.AsBCD := aValue.AsCurrency; // end; // ftBlob: // begin // lStream := aValue.AsType(false); // if Assigned(lStream) then // begin // lStream.Position := 0; // aParam.LoadFromStream(lStream, ftBlob); // end // else // begin // aParam.Clear; // end; // end; // else // raise Exception.CreateFmt('Unsupported FieldType (%d) for param %s', [Ord(aParam.DataType), aParam.Name]); // end; end; procedure TMVCActiveRecord.LoadByDataset(const aDataSet: TDataSet; const aOptions: TMVCActiveRecordLoadOptions); var lItem: TPair; lField: TField; begin CheckAction(TMVCEntityAction.eaRetrieve); OnBeforeLoad; for lItem in fMap do begin lField := aDataSet.FindField(lItem.value); if lField = nil then begin if TMVCActiveRecordLoadOption.loIgnoreNotExistentFields in aOptions then continue else raise EMVCActiveRecord.CreateFmt ('Field [%s] not found in dataset. [HINT] If you dont need it, use loIgnoreNotExistentFields', [lItem.value]); end; MapColumnToTValue(lItem.value, lField, lItem.Key); end; if not fPrimaryKeyFieldName.IsEmpty then begin MapColumnToTValue(fPrimaryKeyFieldName, aDataSet.FieldByName(fPrimaryKeyFieldName), fPrimaryKey); end; OnAfterLoad; end; function TMVCActiveRecord.LoadByPK(id: int64): Boolean; var SQL: string; lDataSet: TDataSet; begin CheckAction(TMVCEntityAction.eaRetrieve); SQL := SQLGenerator.CreateSelectByPKSQL(fTableName, fMap, fPrimaryKeyFieldName, fPrimaryKeyOptions, id); lDataSet := ExecQuery(SQL, [id], fConn); try Result := not lDataSet.Eof; if Result then begin LoadByDataset(lDataSet); end; finally lDataSet.Free; end; end; procedure TMVCActiveRecord.OnAfterDelete; begin // do nothing end; procedure TMVCActiveRecord.OnAfterInsert; begin // do nothing end; procedure TMVCActiveRecord.OnAfterInsertOrUpdate; begin // do nothing end; procedure TMVCActiveRecord.OnAfterLoad; begin // do nothing end; procedure TMVCActiveRecord.OnAfterUpdate; begin // do nothing end; procedure TMVCActiveRecord.OnBeforeDelete; begin // do nothing end; procedure TMVCActiveRecord.OnBeforeExecuteSQL(var SQL:String); begin // do nothing end; procedure TMVCActiveRecord.OnBeforeInsert; begin // do nothing end; procedure TMVCActiveRecord.OnBeforeInsertOrUpdate; begin // do nothing end; procedure TMVCActiveRecord.OnBeforeLoad; begin // do nothing end; procedure TMVCActiveRecord.OnBeforeUpdate; begin // do nothing end; procedure TMVCActiveRecord.OnValidation; begin // do nothing end; class function TMVCActiveRecord.Select(const aClass: TMVCActiveRecordClass; const SQL: string; const Params: array of Variant): TMVCActiveRecordList; begin Result := Select(aClass, SQL, Params, nil); end; class function TMVCActiveRecord.Select(const aClass: TMVCActiveRecordClass; const SQL: string; const Params: array of Variant; const Connection: TFDConnection): TMVCActiveRecordList; var lDataSet: TDataSet; lAR: TMVCActiveRecord; begin Result := TMVCActiveRecordList.Create; try lDataSet := ExecQuery(SQL, Params, Connection); try while not lDataSet.Eof do begin lAR := aClass.Create; Result.Add(lAR); lAR.LoadByDataset(lDataSet); lDataSet.Next; end; // lDataSet.First; // TFile.WriteAllText('output.json', lDataSet.AsJSONArray); finally lDataSet.Free; end; except Result.Free; raise; end; end; class function TMVCActiveRecord.Select(const SQL: string; const Params: array of Variant; const Options: TMVCActiveRecordLoadOptions): TObjectList; var lDataSet: TDataSet; lAR: TMVCActiveRecord; begin Result := TObjectList.Create(True); try lDataSet := ExecQuery(SQL, Params); try while not lDataSet.Eof do begin lAR := T.Create; Result.Add(lAR); lAR.LoadByDataset(lDataSet, Options); lDataSet.Next; end; finally lDataSet.Free; end; except Result.Free; raise; end; end; class function TMVCActiveRecord.SelectDataSet(const SQL: string; const Params: array of Variant): TDataSet; begin Result := TMVCActiveRecord.ExecQuery(SQL, Params); end; function TMVCActiveRecord.SelectRQL(const RQL: string; const MaxRecordCount: Integer): TMVCActiveRecordList; var lSQL: string; begin lSQL := SQLGenerator.CreateSQLWhereByRQL(RQL, GetMapping); LogD(Format('RQL [%s] => SQL [%s]', [RQL, lSQL])); Result := Where(TMVCActiveRecordClass(Self.ClassType), lSQL, []); end; class function TMVCActiveRecord.SelectRQL(const RQL: string; const MaxRecordCount: Integer): TObjectList; var lAR: TMVCActiveRecord; lSQL: string; begin lAR := T.Create; try lSQL := lAR.SQLGenerator.CreateSQLWhereByRQL(RQL, lAR.GetMapping).Trim; // LogD(Format('RQL [%s] => SQL [%s]', [RQL, lSQL])); if lSQL.StartsWith('where', True) then lSQL := lSQL.Remove(0, 5).Trim; Result := Where(lSQL, []); finally lAR.Free; end; end; class function TMVCActiveRecord.SelectRQL(const aClass: TMVCActiveRecordClass; const RQL: string; const MaxRecordCount: Integer): TMVCActiveRecordList; var lAR: TMVCActiveRecord; begin lAR := aClass.Create(True); try Result := lAR.SelectRQL(RQL, MaxRecordCount); finally lAR.Free; end; end; procedure TMVCActiveRecord.SetPK(const aValue: TValue); begin if fPrimaryKeyFieldName.IsEmpty then raise Exception.Create('No primary key defined'); fPrimaryKey.SetValue(Self, aValue); end; function TMVCActiveRecord.SQLGenerator: TMVCSQLGenerator; begin if not Assigned(fSQLGenerator) then begin fConn.Connected := True; fSQLGenerator := TMVCSQLGeneratorRegistry.Instance.GetSQLGenerator(GetBackEnd).Create(GetMapping); end; Result := fSQLGenerator; end; function TMVCActiveRecord.TableInfo: string; var keyvalue: TPair; begin Result := 'Table Name: ' + fTableName; for keyvalue in fMap do Result := Result + sLineBreak + #9 + keyvalue.Key.Name + ' = ' + keyvalue.value; end; procedure TMVCActiveRecord.Update; var SQL: string; begin CheckAction(TMVCEntityAction.eaUpdate); OnValidation; OnBeforeUpdate; OnBeforeInsertOrUpdate; if fMapNonTransientFields.Count = 0 then begin raise EMVCActiveRecord.CreateFmt ('Cannot update an entity if all fields are transient. Class [%s] mapped on table [%s]', [ClassName, fTableName]); end; SQL := SQLGenerator.CreateUpdateSQL(fTableName, fMapNonTransientFields, fPrimaryKeyFieldName, fPrimaryKeyOptions); ExecNonQuery(SQL, false); OnAfterUpdate; OnAfterInsertOrUpdate; end; class function TMVCActiveRecord.All(const aClass: TMVCActiveRecordClass): TObjectList; var lAR: TMVCActiveRecord; begin lAR := aClass.Create; try Result := Select(aClass, lAR.GenerateSelectSQL, []); finally lAR.Free; end; end; class function TMVCActiveRecord.All: TObjectList; var lAR: TMVCActiveRecord; begin lAR := T.Create; try Result := Select(lAR.GenerateSelectSQL, []); finally lAR.Free; end; end; class function TMVCActiveRecord.Where(const aClass: TMVCActiveRecordClass; const SQLWhere: string; const Params: array of Variant): TMVCActiveRecordList; begin Result := Where(aClass, SQLWhere, Params, nil); end; class function TMVCActiveRecord.Where(const aClass: TMVCActiveRecordClass; const SQLWhere: string; const Params: array of Variant; const Connection: TFDConnection): TMVCActiveRecordList; var lAR: TMVCActiveRecord; begin lAR := aClass.Create; try Result := Select(aClass, lAR.GenerateSelectSQL + SQLWhere, Params, Connection); finally lAR.Free; end; end; class function TMVCActiveRecord.Where(const SQLWhere: string; const Params: array of Variant): TObjectList; var lAR: TMVCActiveRecord; begin lAR := T.Create; try if SQLWhere.Trim.IsEmpty() or SQLWhere.Trim.StartsWith('/*limit*/') or SQLWhere.Trim.StartsWith('/*sort*/') then begin Result := Select(lAR.GenerateSelectSQL + SQLWhere, Params); end else begin Result := Select(lAR.GenerateSelectSQL + ' WHERE ' + SQLWhere, Params); end; finally lAR.Free; end; end; { PrimaryKeyAttribute } // constructor MVCPrimaryKeyAttribute.Create(const aFieldName: string); // begin // Create(aFieldName, []); // end; // // constructor MVCPrimaryKeyAttribute.Create(const aFieldName: string; const aFieldOptions: TMVCActiveRecordFieldOptions); // begin // inherited Create; // FieldName := aFieldName; // FieldOptions := aFieldOptions; // end; { TMVCEntitiesRegistry } procedure TMVCEntitiesRegistry.AddEntity(const aURLSegment: string; const aActiveRecordClass: TMVCActiveRecordClass); begin fEntitiesDict.AddOrSetValue(aURLSegment.ToLower, aActiveRecordClass); end; procedure TMVCEntitiesRegistry.AddEntityProcessor(const aURLSegment: string; const aEntityProcessor: IMVCEntityProcessor); begin fProcessorsDict.Add(aURLSegment, aEntityProcessor); end; constructor TMVCEntitiesRegistry.Create; begin inherited; fEntitiesDict := TDictionary.Create; fProcessorsDict := TDictionary.Create; end; destructor TMVCEntitiesRegistry.Destroy; begin fEntitiesDict.Free; fProcessorsDict.Free; inherited; end; function TMVCEntitiesRegistry.FindEntityClassByURLSegment(const aURLSegment: string; out aMVCActiveRecordClass: TMVCActiveRecordClass): Boolean; begin Result := fEntitiesDict.TryGetValue(aURLSegment.ToLower, aMVCActiveRecordClass); end; function TMVCEntitiesRegistry.FindProcessorByURLSegment(const aURLSegment: string; out aMVCEntityProcessor: IMVCEntityProcessor): Boolean; begin Result := fProcessorsDict.TryGetValue(aURLSegment.ToLower, aMVCEntityProcessor); end; { EMVCActiveRecord } constructor EMVCActiveRecord.Create(const AMsg: string); begin inherited Create(http_status.BadRequest, AMsg); end; { EntityActionsAttribute } constructor MVCEntityActionsAttribute.Create(const aEntityAllowedActions: TMVCEntityActions); begin inherited Create; EntityAllowedActions := aEntityAllowedActions; end; { TMVCActiveRecordList } constructor TMVCActiveRecordList.Create; begin inherited Create(True); end; { TMVCSQLGeneratorRegistry } constructor TMVCSQLGeneratorRegistry.Create; begin inherited; fSQLGenerators := TDictionary.Create; end; class constructor TMVCSQLGeneratorRegistry.Create; begin cLock := TObject.Create; end; class destructor TMVCSQLGeneratorRegistry.Destroy; begin cLock.Free; cInstance.Free; end; destructor TMVCSQLGeneratorRegistry.Destroy; begin fSQLGenerators.Free; inherited; end; function TMVCSQLGeneratorRegistry.GetSQLGenerator(const aBackend: string): TMVCSQLGeneratorClass; begin if not fSQLGenerators.TryGetValue(aBackend, Result) then begin raise ERQLCompilerNotFound.CreateFmt('SQLGenerator not found for "%s"', [aBackend]); end; end; class function TMVCSQLGeneratorRegistry.Instance: TMVCSQLGeneratorRegistry; begin if not Assigned(cInstance) then begin TMonitor.Enter(cLock); try if not Assigned(cInstance) then begin cInstance := TMVCSQLGeneratorRegistry.Create; end; finally TMonitor.Exit(cLock); end; end; Result := cInstance; end; procedure TMVCSQLGeneratorRegistry.RegisterSQLGenerator(const aBackend: string; const aRQLBackendClass: TMVCSQLGeneratorClass); begin fSQLGenerators.AddOrSetValue(aBackend, aRQLBackendClass); end; procedure TMVCSQLGeneratorRegistry.UnRegisterSQLGenerator(const aBackend: string); begin fSQLGenerators.Remove(aBackend); end; { TMVCSQLGenerator } constructor TMVCSQLGenerator.Create(Mapping: TMVCFieldsMapping); begin inherited Create; fMapping := Mapping; end; function TMVCSQLGenerator.GetMapping: TMVCFieldsMapping; begin Result := fMapping; end; destructor TMVCSQLGenerator.Destroy; begin fCompiler.Free; fRQL2SQL.Free; inherited; end; function TMVCSQLGenerator.GetCompiler: TRQLCompiler; begin if fCompiler = nil then begin fCompiler := GetCompilerClass.Create(fMapping); end; Result := fCompiler; end; function TMVCSQLGenerator.GetRQLParser: TRQL2SQL; begin if fRQL2SQL = nil then begin fRQL2SQL := TRQL2SQL.Create;//(20); end; Result := fRQL2SQL; end; function TMVCSQLGenerator.TableFieldsDelimited(const Map: TDictionary; const PKFieldName: string; const Delimiter: string): string; var lPair: TPair; begin for lPair in Map do begin Result := Result + lPair.value + Delimiter; end; Result := Copy(Result, 1, Length(Result) - Length(Delimiter)); if not PKFieldName.IsEmpty then begin Result := PKFieldName + ',' + Result; end; end; { TMVCConnectionsRepository.TConnHolder } destructor TMVCConnectionsRepository.TConnHolder.Destroy; begin if OwnsConnection then Begin if Connection.connected then Connection.connected := False; FreeAndNil(Connection); End; inherited; end; constructor MVCTableFieldAttribute.Create(const aFieldName: string; const aFieldOptions: TMVCActiveRecordFieldOptions); begin inherited Create; FieldName := aFieldName; FieldOptions := aFieldOptions; end; initialization gLock := TObject.Create; gCtx := TRttiContext.Create; gCtx.FindType(''); finalization gCtx.Free; gLock.Free; end.