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1200 lines
54 KiB
1200 lines
54 KiB
/* This file is part of the KDE project
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Copyright (C) 2003-2007 Jaroslaw Staniek <js@iidea.pl>
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU Library General Public
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License as published by the Free Software Foundation; either
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version 2 of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Library General Public License for more details.
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You should have received a copy of the GNU Library General Public License
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along with this program; see the file COPYING. If not, write to
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the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
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* Boston, MA 02110-1301, USA.
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*/
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#ifndef KEXIDB_CONNECTION_H
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#define KEXIDB_CONNECTION_H
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#include <tqobject.h>
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#include <tqstringlist.h>
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#include <tqintdict.h>
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#include <tqdict.h>
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#include <tqptrdict.h>
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#include <tqvaluevector.h>
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#include <tqvaluelist.h>
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#include <tqvariant.h>
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#include <tqguardedptr.h>
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#include <kexidb/object.h>
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#include <kexidb/connectiondata.h>
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#include <kexidb/tableschema.h>
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#include <kexidb/queryschema.h>
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#include <kexidb/queryschemaparameter.h>
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#include <kexidb/transaction.h>
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#include <kexidb/driver.h>
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#include <kexidb/preparedstatement.h>
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#include <kexiutils/tristate.h>
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namespace KexiDB {
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//! structure for storing single record with type information
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typedef TQValueVector<TQVariant> RowData;
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class Cursor;
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class ConnectionPrivate;
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class RowEditBuffer;
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class DatabaseProperties;
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class AlterTableHandler;
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/*! @short Provides database connection, allowing queries and data modification.
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This class represents a database connection established within a data source.
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It supports data queries and modification by creating client-side database cursors.
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Database transactions are supported.
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*/
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class KEXI_DB_EXPORT Connection : public TQObject, public KexiDB::Object
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{
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TQ_OBJECT
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public:
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/*! Opened connection is automatically disconnected and removed
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from driver's connections list.
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Note for driver developers: you should call destroy()
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from you Connection's subclass destructor. */
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virtual ~Connection();
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/*! \return parameters that were used to create this connection. */
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ConnectionData* data() const;
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/*! \return the driver used for this connection. */
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inline Driver* driver() const { return m_driver; }
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/*!
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\brief Connects to driver with given parameters.
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\return true if successful. */
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bool connect();
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/*! \return true, if connection is properly established. */
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bool isConnected() const;
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/*! \return true, both if connection is properly established
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and any database within this connection is properly used
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with useDatabase(). */
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bool isDatabaseUsed() const;
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/*! \return true for read only connection. Used especially for file-based drivers.
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Can be reimplemented in a driver to provide real read-only flag of the connection
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(SQlite3 dirver does this). */
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virtual bool isReadOnly() const;
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/*! Reimplemented from Object: also clears sql string.
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@sa recentSQLString() */
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virtual void clearError();
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/*! \brief Disconnects from driver with given parameters.
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The database (if used) is closed, and any active transactions
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(if supported) are rolled back, so commit these before disconnecting,
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if you'd like to save your changes. */
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bool disconnect();
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/*! \return list of database names for opened connection.
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If \a also_system_db is true, the system database names are also returned. */
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TQStringList databaseNames(bool also_system_db = false);
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/*! \return true if database \a dbName exists.
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If \a ignoreErrors is true, error flag of connection
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won't be modified for any errors (it will quietly return),
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else (ignoreErrors == false) we can check why the database does
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not exist using error(), errorNum() and/or errorMsg(). */
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bool databaseExists( const TQString &dbName, bool ignoreErrors = true );
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/*! \brief Creates new database with name \a dbName, using this connection.
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If database with \a dbName already exists, or other error occurred,
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false is returned.
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For file-based drivers, \a dbName should be equal to the database
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filename (the same as specified for ConnectionData).
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See doc/dev/kexidb_issues.txt document, chapter "Table schema, query schema, etc. storage"
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for database schema documentation (detailed description of kexi__* 'system' tables).
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\sa useDatabase() */
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bool createDatabase( const TQString &dbName );
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/*!
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\brief Opens an existing database specified by \a dbName.
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If \a kexiCompatible is true (the default) initial checks will be performed
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to recognize database Kexi-specific format. Set \a kexiCompatible to false
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if you're using native database (one that have no Kexi System tables).
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For file-based drivers, \a dbName should be equal to filename
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(the same as specified for ConnectionData).
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\return true on success, false on failure.
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If user has cancelled this action and \a cancelled is not 0, *cancelled is set to true. */
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bool useDatabase( const TQString &dbName, bool kexiCompatible = true, bool *cancelled = 0,
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MessageHandler* msgHandler = 0 );
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/*!
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\brief Closes currently used database for this connection.
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Any active transactions (if supported) are rolled back,
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so commit these before closing, if you'd like to save your changes. */
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bool closeDatabase();
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/*! \brief Get the name of the current database
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\return name of currently used database for this connection or empty string
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if there is no used database */
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TQString currentDatabase() const;
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/*! \brief Drops database with name \a dbName.
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if dbName is not specified, currently used database name is used
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(it is closed before dropping).
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*/
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bool dropDatabase( const TQString &dbName = TQString() );
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/*! \return names of all the \a objecttype (see \a ObjectTypes in global.h)
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schemas stored in currently used database. KexiDB::AnyObjectType can be passed
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as \a objType to get names of objects of any type.
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If \a ok is not null then variable pointed by it will be set to the result.
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On error, the functions can return incomplete list. */
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TQStringList objectNames(int objType = KexiDB::AnyObjectType, bool* ok = 0);
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/*! \return names of all table schemas stored in currently
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used database. If \a also_system_tables is true,
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internal KexiDB system table names (kexi__*) are also returned.
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\sa kexiDBSystemTableNames() */
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TQStringList tableNames(bool also_system_tables = false);
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/*! \return list of internal KexiDB system table names
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(kexi__*). This does not mean that these tables can be found
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in currently opened database. Just static list of table
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names is returned.
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The list contents may depend on KexiDB library version;
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opened database can contain fewer 'system' tables than in current
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KexiDB implementation, if the current one is newer than the one used
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to build the database. */
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static const TQStringList& kexiDBSystemTableNames();
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/*! \return server version information for this connection.
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If database is not connected (i.e. isConnected() is false) 0 is returned. */
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KexiDB::ServerVersionInfo* serverVersion() const;
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/*! \return version information for this connection.
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If database is not used (i.e. isDatabaseUsed() is false) 0 is returned.
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It can be compared to drivers' and KexiDB library version to maintain
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backward/upward compatiblility. */
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KexiDB::DatabaseVersionInfo* databaseVersion() const;
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/*! \return DatabaseProperties object allowing to read and write global database properties
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for this connection. */
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DatabaseProperties& databaseProperties();
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/*! \return ids of all table schema names stored in currently
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used database. These ids can be later used as argument for tableSchema().
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This is a shortcut for objectIds(TableObjectType).
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If \a also_system_tables is true,
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Internal KexiDB system tables (kexi__*) are not available here
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because these have no identifiers assigned (more formally: id=-1). */
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TQValueList<int> tableIds();
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/*! \return ids of all database query schemas stored in currently
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used database. These ids can be later used as argument for querySchema().
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This is a shortcut for objectIds(TableObjectType). */
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TQValueList<int> queryIds();
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/*! \return names of all schemas of object with \a objType type
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that are stored in currently used database. */
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TQValueList<int> objectIds(int objType);
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/*! \brief Creates new transaction handle and starts a new transaction.
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\return KexiDB::Transaction object if transaction has been started
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successfully, otherwise null transaction.
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For drivers that allow single transaction per connection
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(Driver::features() && SingleTransactions) this method can be called one time,
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and then this single transaction will be default ( setDefaultTransaction() will
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be called).
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For drivers that allow multiple transactions per connection, no default transaction is
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set automatically in beginTransaction() method, you could do this by hand.
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\sa setDefaultTransaction(), defaultTransaction().
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*/
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Transaction beginTransaction();
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/*! \todo for nested transactions:
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Tansaction* beginTransaction(transaction *parent_transaction);
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*/
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/*! Commits transaction \a trans.
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If there is not \a trans argument passed, and there is default transaction
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(obtained from defaultTransaction()) defined, this one will be committed.
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If default is not present, false is returned (when ignore_inactive is
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false, the default), or true is returned (when ignore_inactive is true).
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On successful commit, \a trans object will be destroyed.
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If this was default transaction, there is no default transaction for now.
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*/
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bool commitTransaction( Transaction trans = Transaction::null,
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bool ignore_inactive = false );
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/*! Rollbacks transaction \a trans.
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If there is not \a trans argument passed, and there is default transaction
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(obtained from defaultTransaction()) defined, this one will be rolled back.
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If default is not present, false is returned (when ignore_inactive is
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false, the default), or true is returned (when ignore_inactive is true).
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or any error occurred, false is returned.
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On successful rollback, \a trans object will be destroyed.
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If this was default transaction, there is no default transaction for now.
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*/
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bool rollbackTransaction( Transaction trans = Transaction::null,
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bool ignore_inactive = false );
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/*! \return handle for default transaction for this connection
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or null transaction if there is no such a transaction defined.
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If transactions are supported: Any operation on database (e.g. inserts)
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that is started without specifying transaction context, will be performed
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in the context of this transaction.
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Returned null transaction doesn't mean that there is no transactions
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started at all.
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Default transaction can be defined automatically for some drivers --
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see beginTransaction().
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\sa KexiDB::Driver::transactionsSupported()
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*/
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Transaction& defaultTransaction() const;
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/*! Sets default transaction that will be used as context for operations
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on data in opened database for this connection. */
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void setDefaultTransaction(const Transaction& trans);
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/*! \return set of handles of currently active transactions.
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Note that in multithreading environment some of these
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transactions can be already inactive after calling this method.
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Use Transaction::active() to check that. Inactive transaction
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handle is useless and can be safely dropped.
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*/
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const TQValueList<Transaction>& transactions();
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/*! \return true if "auto commit" option is on.
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When auto commit is on (the default on for any new Connection object),
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every sql functional statement (statement that changes
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data in the database implicitly starts a new transaction.
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This transaction is automatically committed
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after successful statement execution or rolled back on error.
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For drivers that do not support transactions (see Driver::features())
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this method shouldn't be called because it does nothing ans always returns false.
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No internal KexiDB object should changes this option, although auto commit's
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behaviour depends on database engine's specifics. Engines that support only single
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transaction per connection (see Driver::SingleTransactions),
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use this single connection for autocommiting, so if there is already transaction
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started by the KexiDB user program (with beginTransaction()), this transaction
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is committed before any sql functional statement execution. In this situation
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default transaction is also affected (see defaultTransaction()).
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Only for drivers that support nested transactions (Driver::NestedTransactions),
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autocommiting works independently from previously started transaction,
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For other drivers set this option off if you need use transaction
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for grouping more statements together.
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NOTE: nested transactions are not yet implemented in KexiDB API.
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*/
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bool autoCommit() const;
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/*! Changes auto commit option. This does not affect currently started transactions.
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This option can be changed even when connection is not established.
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\sa autoCommit() */
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bool setAutoCommit(bool on);
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/*! driver-specific string escaping */
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//js: MOVED TO Driver virtual TQString escapeString(const TQString& str) const = 0;
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// virtual TQCString escapeString(const TQCString& str) const = 0;
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/*! Prepares SELECT query described by raw \a statement.
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\return opened cursor created for results of this query
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or NULL if there was any error. Cursor can have optionally applied \a cursor_options
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(one of more selected from KexiDB::Cursor::Options).
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Preparation means that returned cursor is created but not opened.
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Open this when you would like to do it with Cursor::open().
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Note for driver developers: you should initialize cursor engine-specific
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resources and return Cursor subclass' object
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(passing \a statement and \a cursor_options to it's constructor).
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*/
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virtual Cursor* prepareQuery( const TQString& statement, uint cursor_options = 0) = 0;
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/*! \overload prepareQuery( const TQString& statement = TQString(), uint cursor_options = 0)
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Prepares query described by \a query schema. \a params are values of parameters that
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will be inserted into places marked with [] before execution of the query.
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Note for driver developers: you should initialize cursor engine-specific
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resources and return Cursor subclass' object
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(passing \a query and \a cursor_options to it's constructor).
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Kexi SQL and driver-specific escaping is performed on table names.
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*/
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Cursor* prepareQuery( QuerySchema& query, const TQValueList<TQVariant>& params,
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uint cursor_options = 0 );
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/*! \overload prepareQuery( QuerySchema& query, const TQValueList<TQVariant>& params,
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uint cursor_options = 0 )
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Prepares query described by \a query schema without parameters.
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*/
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virtual Cursor* prepareQuery( QuerySchema& query, uint cursor_options = 0 ) = 0;
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/*! \overload prepareQuery( const TQString& statement = TQString(), uint cursor_options = 0)
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Statement is build from data provided by \a table schema,
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it is like "select * from table_name".*/
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Cursor* prepareQuery( TableSchema& table, uint cursor_options = 0);
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/*! Executes SELECT query described by \a statement.
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\return opened cursor created for results of this query
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or NULL if there was any error on the cursor creation or opening.
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Cursor can have optionally applied \a cursor_options
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(one of more selected from KexiDB::Cursor::Options).
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Identifiers in \a statement that are the same as keywords in Kexi
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SQL or the backend's SQL need to have been escaped.
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*/
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Cursor* executeQuery( const TQString& statement, uint cursor_options = 0 );
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/*! \overload executeQuery( const TQString& statement, uint cursor_options = 0 )
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\a params are values of parameters that
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will be inserted into places marked with [] before execution of the query.
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Statement is build from data provided by \a query schema.
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Kexi SQL and driver-specific escaping is performed on table names. */
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Cursor* executeQuery( QuerySchema& query, const TQValueList<TQVariant>& params,
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uint cursor_options = 0 );
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/*! \overload executeQuery( QuerySchema& query, const TQValueList<TQVariant>& params,
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uint cursor_options = 0 ) */
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Cursor* executeQuery( QuerySchema& query, uint cursor_options = 0 );
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/*! \overload executeQuery( const TQString& statement, uint cursor_options = 0 )
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Executes query described by \a query schema without parameters.
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Statement is build from data provided by \a table schema,
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it is like "select * from table_name".*/
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Cursor* executeQuery( TableSchema& table, uint cursor_options = 0 );
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/*! Deletes cursor \a cursor previously created by functions like executeQuery()
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for this connection.
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There is an attempt to close the cursor with Cursor::close() if it was opened.
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Anyway, at last cursor is deleted.
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\return true if cursor is properly closed before deletion. */
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bool deleteCursor(Cursor *cursor);
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/*! \return schema of a table pointed by \a tableId, retrieved from currently
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used database. The schema is cached inside connection,
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so retrieval is performed only once, on demand. */
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TableSchema* tableSchema( int tableId );
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/*! \return schema of a table pointed by \a tableName, retrieved from currently
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used database. KexiDB system table schema can be also retrieved.
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\sa tableSchema( int tableId ) */
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TableSchema* tableSchema( const TQString& tableName );
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/*! \return schema of a query pointed by \a queryId, retrieved from currently
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used database. The schema is cached inside connection,
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so retrieval is performed only once, on demand. */
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QuerySchema* querySchema( int queryId );
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/*! \return schema of a query pointed by \a queryName, retrieved from currently
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used database. \sa querySchema( int queryId ) */
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QuerySchema* querySchema( const TQString& queryName );
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/*! Sets \a queryName query obsolete by moving it out of the query sets, so it will not be
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accessible by querySchema( const TQString& queryName ). The existing query object is not
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destroyed, to avoid problems when it's referenced. In this case,
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a new query schema will be retrieved directly from the backend.
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For now it's used in KexiQueryDesignerGuiEditor::storeLayout().
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This solves the problem when user has changed a query schema but already form still uses
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previously instantiated query schema.
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\return true if there is such query. Otherwise the method does nothing. */
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bool setQuerySchemaObsolete( const TQString& queryName );
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//js: MOVED TO Driver TQString valueToSQL( const Field::Type ftype, const TQVariant& v ) const;
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// TQString valueToSQL( const Field *field, const TQVariant& v ) const;
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/*! Executes \a sql query and stores first record's data inside \a data.
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This is convenient method when we need only first record from query result,
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or when we know that query result has only one record.
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If \a addLimitTo1 is true (the default), adds a LIMIT clause to the query,
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so \a sql should not include one already.
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\return true if query was successfully executed and first record has been found,
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false on data retrieving failure, and cancelled if there's no single record available. */
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tristate querySingleRecord(const TQString& sql, RowData &data, bool addLimitTo1 = true);
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/*! Like tristate querySingleRecord(const TQString& sql, RowData &data)
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but uses QuerySchema object.
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If \a addLimitTo1 is true (the default), adds a LIMIT clause to the query. */
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tristate querySingleRecord(QuerySchema& query, RowData &data, bool addLimitTo1 = true);
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/*! Executes \a sql query and stores first record's field's (number \a column) string value
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inside \a value. For efficiency it's recommended that a query defined by \a sql
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should have just one field (SELECT one_field FROM ....).
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If \a addLimitTo1 is true (the default), adds a LIMIT clause to the query,
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so \a sql should not include one already.
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\return true if query was successfully executed and first record has been found,
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false on data retrieving failure, and cancelled if there's no single record available.
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\sa queryStringList() */
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tristate querySingleString(const TQString& sql, TQString &value, uint column = 0,
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bool addLimitTo1 = true);
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/*! Convenience function: executes \a sql query and stores first
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record's field's (number \a column) value inside \a number. \sa querySingleString().
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Note: "LIMIT 1" is appended to \a sql statement if \a addLimitTo1 is true (the default).
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\return true if query was successfully executed and first record has been found,
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false on data retrieving failure, and cancelled if there's no single record available. */
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tristate querySingleNumber(const TQString& sql, int &number, uint column = 0,
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bool addLimitTo1 = true);
|
|
|
|
/*! Executes \a sql query and stores Nth field's string value of every record
|
|
inside \a list, where N is equal to \a column. The list is initially cleared.
|
|
For efficiency it's recommended that a query defined by \a sql
|
|
should have just one field (SELECT one_field FROM ....).
|
|
\return true if all values were fetched successfuly,
|
|
false on data retrieving failure. Returning empty list can be still a valid result.
|
|
On errors, the list is not cleared, it may contain a few retrieved values. */
|
|
bool queryStringList(const TQString& sql, TQStringList& list, uint column = 0);
|
|
|
|
/*! \return true if there is at least one record returned in \a sql query.
|
|
Does not fetch any records. \a success will be set to false
|
|
on query execution errors (true otherwise), so you can see a difference between
|
|
"no results" and "query execution error" states.
|
|
Note: real executed query is: "SELECT 1 FROM (\a sql) LIMIT 1"
|
|
if \a addLimitTo1 is true (the default). */
|
|
bool resultExists(const TQString& sql, bool &success, bool addLimitTo1 = true);
|
|
|
|
/*! \return true if there is at least one record in \a table. */
|
|
bool isEmpty( TableSchema& table, bool &success );
|
|
|
|
//! @todo perhaps use TQ_ULLONG here?
|
|
/*! \return number of records in \a sql query.
|
|
Does not fetch any records. -1 is returned on query execution errors (>0 otherwise).
|
|
Note: real executed query is: "SELECT COUNT() FROM (\a sql) LIMIT 1"
|
|
(using querySingleNumber()) */
|
|
int resultCount(const TQString& sql);
|
|
|
|
//PROTOTYPE:
|
|
#define A , const TQVariant&
|
|
#define H_INS_REC(args) bool insertRecord(TableSchema &tableSchema args)
|
|
#define H_INS_REC_ALL \
|
|
H_INS_REC(A); \
|
|
H_INS_REC(A A); \
|
|
H_INS_REC(A A A); \
|
|
H_INS_REC(A A A A); \
|
|
H_INS_REC(A A A A A); \
|
|
H_INS_REC(A A A A A A); \
|
|
H_INS_REC(A A A A A A A); \
|
|
H_INS_REC(A A A A A A A A)
|
|
H_INS_REC_ALL;
|
|
|
|
#undef H_INS_REC
|
|
#define H_INS_REC(args) bool insertRecord(FieldList& fields args)
|
|
|
|
H_INS_REC_ALL;
|
|
#undef H_INS_REC_ALL
|
|
#undef H_INS_REC
|
|
#undef A
|
|
|
|
bool insertRecord(TableSchema &tableSchema, TQValueList<TQVariant>& values);
|
|
|
|
bool insertRecord(FieldList& fields, TQValueList<TQVariant>& values);
|
|
|
|
/*! Creates table defined by \a tableSchema.
|
|
Schema information is also added into kexi system tables, for later reuse.
|
|
\return true on success - \a tableSchema object is then
|
|
inserted to Connection structures - it is owned by Connection object now,
|
|
so you shouldn't destroy the tableSchema object by hand
|
|
(or declare it as local-scope variable).
|
|
|
|
If \a replaceExisting is false (the default) and table with the same name
|
|
(as tableSchema->name()) exists, false is returned.
|
|
If \a replaceExisting is true, a table schema with the same name (if exists)
|
|
is overwritten, then a new table schema gets the same identifier
|
|
as existing table schema's identifier.
|
|
|
|
Note that on error:
|
|
- \a tableSchema is not inserted into Connection's structures,
|
|
so you are still owner of this object
|
|
- existing table schema object is not destroyed (i.e. it is still available
|
|
e.g. using Connection::tableSchema(const TQString& ), even if the table
|
|
was physically dropped.
|
|
*/
|
|
bool createTable( TableSchema* tableSchema, bool replaceExisting = false );
|
|
|
|
/*! Drops a table defined by \a tableSchema (both table object as well as physically).
|
|
If true is returned, schema information \a tableSchema is destoyed
|
|
(because it's owned), so don't keep this anymore!
|
|
No error is raised if the table does not exist physically
|
|
- its schema is removed even in this case.
|
|
*/
|
|
//! @todo (js): update any structure (e.g. query) that depend on this table!
|
|
tristate dropTable( TableSchema* tableSchema );
|
|
|
|
/*! It is a convenience function, does exactly the same as
|
|
bool dropTable( KexiDB::TableSchema* tableSchema ) */
|
|
tristate dropTable( const TQString& table );
|
|
|
|
/*! Alters \a tableSchema using \a newTableSchema in memory and on the db backend.
|
|
\return true on success, cancelled if altering was cancelled. */
|
|
//! @todo (js): implement real altering
|
|
//! @todo (js): update any structure (e.g. query) that depend on this table!
|
|
tristate alterTable( TableSchema& tableSchema, TableSchema& newTableSchema);
|
|
|
|
/*! Alters name of table described by \a tableSchema to \a newName.
|
|
If \a replace is true, destination table is completely dropped and replaced
|
|
by \a tableSchema, if present. In this case, identifier of
|
|
\a tableSchema becomes equal to the dropped table's id, what can be useful
|
|
if \a tableSchema was created with a temporary name and ID (used in AlterTableHandler).
|
|
|
|
If \a replace is false (the default) and destination table is present
|
|
-- false is returned and ERR_OBJECT_EXISTS error is set.
|
|
The schema of \a tableSchema is updated on success.
|
|
\return true on success. */
|
|
bool alterTableName(TableSchema& tableSchema, const TQString& newName, bool replace = false);
|
|
|
|
/*! Drops a query defined by \a querySchema.
|
|
If true is returned, schema information \a querySchema is destoyed
|
|
(because it's owned), so don't keep this anymore!
|
|
*/
|
|
bool dropQuery( QuerySchema* querySchema );
|
|
|
|
/*! It is a convenience function, does exactly the same as
|
|
bool dropQuery( KexiDB::QuerySchema* querySchema ) */
|
|
bool dropQuery( const TQString& query );
|
|
|
|
/*! Removes information about object with \a objId
|
|
from internal "kexi__object" and "kexi__objectdata" tables.
|
|
\return true on success. */
|
|
bool removeObject( uint objId );
|
|
|
|
/*! \return first field from \a fieldlist that has system name,
|
|
null if there are no such field.
|
|
For checking Driver::isSystemFieldName() is used, so this check can
|
|
be driver-dependent. */
|
|
Field* findSystemFieldName(FieldList *fieldlist);
|
|
|
|
/*! \return name of any (e.g. first found) database for this connection.
|
|
This method does not close or open this connection. The method can be used
|
|
(it is also internally used, e.g. for database dropping) when we need
|
|
a database name before we can connect and execute any SQL statement
|
|
(e.g. DROP DATABASE).
|
|
|
|
The method can return nul lstring, but in this situation no automatic (implicit)
|
|
connections could be made, what is useful by e.g. dropDatabase().
|
|
|
|
Note for driver developers: return here a name of database which you are sure
|
|
is existing.
|
|
Default implementation returns:
|
|
- value that previously had been set using setAvailableDatabaseName() for
|
|
this connection, if it is not empty
|
|
- else (2nd priority): value of DriverBehaviour::ALWAYS_AVAILABLE_DATABASE_NAME
|
|
if it is not empty.
|
|
|
|
See decription of DriverBehaviour::ALWAYS_AVAILABLE_DATABASE_NAME member.
|
|
You may want to reimplement this method only when you need to depend on
|
|
this connection specifics
|
|
(e.g. you need to check something remotely).
|
|
*/
|
|
virtual TQString anyAvailableDatabaseName();
|
|
|
|
/*! Sets \a dbName as name of a database that can be accessible.
|
|
This is option that e.g. application that make use of KexiDB library can set
|
|
to tune connection's behaviour when it needs to temporary connect to any database
|
|
in the server to do some work.
|
|
You can pass empty dbName - then anyAvailableDatabaseName() will try return
|
|
DriverBehaviour::ALWAYS_AVAILABLE_DATABASE_NAME (the default) value
|
|
instead of the one previously set with setAvailableDatabaseName().
|
|
|
|
\sa anyAvailableDatabaseName()
|
|
*/
|
|
void setAvailableDatabaseName(const TQString& dbName);
|
|
|
|
/*! Because some engines need to have opened any database before
|
|
executing administrative sql statements like "create database" or "drop database",
|
|
this method is used to use appropriate, existing database for this connection.
|
|
For file-based db drivers this always return true and does not set tmpdbName
|
|
to any value. For other db drivers: this sets tmpdbName to db name computed
|
|
using anyAvailableDatabaseName(), and if the name computed is empty, false
|
|
is returned; if it is not empty, useDatabase() is called.
|
|
False is returned also when useDatabase() fails.
|
|
You can call this method from your application's level if you really want to perform
|
|
tasks that require any used database. In such a case don't forget
|
|
to closeDatabase() if returned tmpdbName is not empty.
|
|
|
|
Note: This method has nothing to do with creating or using temporary databases
|
|
in such meaning that these database are not persistent
|
|
*/
|
|
bool useTemporaryDatabaseIfNeeded(TQString &tmpdbName);
|
|
|
|
/*! \return autoincrement field's \a aiFieldName value
|
|
of last inserted record. This refers \a tableName table.
|
|
|
|
Simply, method internally fetches last inserted record and returns selected
|
|
field's value. Requirements: field must be of integer type, there must be a
|
|
record inserted in current database session (whatever this means).
|
|
On error (TQ_ULLONG)-1 is returned.
|
|
Last inserted record is identified by magical row identifier, usually called
|
|
ROWID (PostgreSQL has it as well as SQLite;
|
|
see DriverBehaviour::ROW_ID_FIELD_RETURNS_LAST_AUTOINCREMENTED_VALUE).
|
|
ROWID's value will be assigned back to \a ROWID if this pointer is not null.
|
|
*/
|
|
TQ_ULLONG lastInsertedAutoIncValue(const TQString& aiFieldName, const TQString& tableName,
|
|
TQ_ULLONG* ROWID = 0);
|
|
|
|
/*! \overload int lastInsertedAutoIncValue(const TQString&, const TQString&, TQ_ULLONG*)
|
|
*/
|
|
TQ_ULLONG lastInsertedAutoIncValue(const TQString& aiFieldName,
|
|
const TableSchema& table, TQ_ULLONG* ROWID = 0);
|
|
|
|
/*! Executes query \a statement, but without returning resulting
|
|
rows (used mostly for functional queries).
|
|
Only use this method if you really need. */
|
|
bool executeSQL( const TQString& statement );
|
|
|
|
//! @short options used in selectStatement()
|
|
class KEXI_DB_EXPORT SelectStatementOptions
|
|
{
|
|
public:
|
|
SelectStatementOptions();
|
|
~SelectStatementOptions();
|
|
|
|
//! A mode for escaping identifier, Driver::EscapeDriver|Driver::EscapeAsNecessary by default
|
|
int identifierEscaping;
|
|
|
|
//! True if ROWID should be also retrieved. False by default.
|
|
bool alsoRetrieveROWID : 1;
|
|
|
|
/*! True if relations (LEFT OUTER JOIN) for visible lookup columns should be added.
|
|
True by default. This is set to false when user-visible statement is generated
|
|
e.g. for the Query Designer. */
|
|
bool addVisibleLookupColumns : 1;
|
|
};
|
|
|
|
/*! \return "SELECT ..." statement's string needed for executing query
|
|
defined by \a querySchema and \a params. */
|
|
TQString selectStatement( QuerySchema& querySchema,
|
|
const TQValueList<TQVariant>& params,
|
|
const SelectStatementOptions& options = SelectStatementOptions() ) const;
|
|
|
|
/*! \overload TQString selectStatement( QuerySchema& querySchema,
|
|
TQValueList<TQVariant> params = TQValueList<TQVariant>(),
|
|
const SelectStatementOptions& options = SelectStatementOptions() ) const;
|
|
\return "SELECT ..." statement's string needed for executing query
|
|
defined by \a querySchema. */
|
|
inline TQString selectStatement( QuerySchema& querySchema,
|
|
const SelectStatementOptions& options = SelectStatementOptions() ) const
|
|
{
|
|
return selectStatement(querySchema, TQValueList<TQVariant>(), options);
|
|
}
|
|
|
|
/*! Stores object's schema data (id, name, caption, help text)
|
|
described by \a sdata on the backend.
|
|
If \a newObject is true, new entry is created,
|
|
and (when sdata.id() was <=0), new, unique object identifier
|
|
is obtained and assigned to \a sdata (see SchemaData::id()).
|
|
|
|
If \a newObject is false, it's expected that entry on the
|
|
backend already exists, so it's updated (changes to identifier are not allowed).
|
|
\return true on success. */
|
|
bool storeObjectSchemaData( SchemaData &sdata, bool newObject );
|
|
|
|
/*! Added for convenience.
|
|
\sa setupObjectSchemaData( const KexiDB::RowData &data, SchemaData &sdata ).
|
|
\return true on success, false on failure and cancelled when such object couldn't */
|
|
tristate loadObjectSchemaData( int objectID, SchemaData &sdata );
|
|
|
|
/*! Finds object schema data for object of type \a objectType and name \a objectName.
|
|
If the object is found, resulted schema is stored in \a sdata and true is returned,
|
|
otherwise false is returned. */
|
|
tristate loadObjectSchemaData( int objectType, const TQString& objectName, SchemaData &sdata );
|
|
|
|
/*! Loads (potentially large) data block (e.g. xml form's representation), referenced by objectID
|
|
and puts it to \a dataString. The can be block indexed with optional \a dataID.
|
|
\return true on success, false on failure and cancelled when there is no such data block
|
|
\sa storeDataBlock(). */
|
|
tristate loadDataBlock( int objectID, TQString &dataString, const TQString& dataID );
|
|
|
|
/*! Stores (potentially large) data block \a dataString (e.g. xml form's representation),
|
|
referenced by objectID. Block will be stored in "kexi__objectdata" table and
|
|
an optional \a dataID identifier.
|
|
If there is already such record in the table, it's simply overwritten.
|
|
\return true on success
|
|
\sa loadDataBlock(). */
|
|
bool storeDataBlock( int objectID, const TQString &dataString, const TQString& dataID = TQString() );
|
|
|
|
/*! Removes (potentially large) string data (e.g. xml form's representation),
|
|
referenced by objectID, and pointed by optional \a dataID.
|
|
\return true on success. Does not fail if the block does not exist.
|
|
Note that if \a dataID is not specified, all data blocks for this dialog will be removed.
|
|
\sa loadDataBlock() storeDataBlock(). */
|
|
bool removeDataBlock( int objectID, const TQString& dataID = TQString());
|
|
|
|
class KEXI_DB_EXPORT TableSchemaChangeListenerInterface
|
|
{
|
|
public:
|
|
TableSchemaChangeListenerInterface() {}
|
|
virtual ~TableSchemaChangeListenerInterface() {}
|
|
/*! Closes listening object so it will be deleted and thus no longer use
|
|
a conflicting table schema. */
|
|
virtual tristate closeListener() = 0;
|
|
|
|
/*! i18n'd string that can be displayed for user to inform about
|
|
e.g. conflicting listeners. */
|
|
TQString listenerInfoString;
|
|
};
|
|
//TMP// TODO: will be more generic
|
|
/** Register \a listener for receiving (listening) information about changes
|
|
in TableSchema object. Changes could be: altering and removing. */
|
|
void registerForTableSchemaChanges(TableSchemaChangeListenerInterface& listener,
|
|
TableSchema& schema);
|
|
|
|
void unregisterForTableSchemaChanges(TableSchemaChangeListenerInterface& listener,
|
|
TableSchema &schema);
|
|
|
|
void unregisterForTablesSchemaChanges(TableSchemaChangeListenerInterface& listener);
|
|
|
|
TQPtrList<Connection::TableSchemaChangeListenerInterface>*
|
|
tableSchemaChangeListeners(TableSchema& tableSchema) const;
|
|
|
|
tristate closeAllTableSchemaChangeListeners(TableSchema& tableSchema);
|
|
|
|
/*! @internal Removes \a tableSchema from internal structures and
|
|
destroys it. Does not make any change at the backend. */
|
|
void removeTableSchemaInternal(KexiDB::TableSchema *tableSchema);
|
|
|
|
/*! @internal. Inserts internal table to Connection's structures, so it can be found by name.
|
|
This method is used for example in KexiProject to insert information about "kexi__blobs"
|
|
table schema. Use createTable() to physically create table. After createTable()
|
|
calling insertInternalTableSchema() is not required.
|
|
Also used internally by newKexiDBSystemTableSchema(const TQString& tsname) */
|
|
void insertInternalTableSchema(TableSchema *tableSchema);
|
|
|
|
//! @todo move this somewhere to low level class (MIGRATION?)
|
|
/*! LOW LEVEL METHOD. For reimplemenation: returns true if table
|
|
with name \a tableName exists in the database.
|
|
\return false if it does not exist or error occurred.
|
|
The lookup is case insensitive. */
|
|
virtual bool drv_containsTable( const TQString &tableName ) = 0;
|
|
|
|
/*! Creates table using \a tableSchema information.
|
|
\return true on success. Default implementation
|
|
builds a statement using createTableStatement() and calls drv_executeSQL()
|
|
Note for driver developers: reimplement this only if you want do to
|
|
this in other way.
|
|
|
|
Moved to public for KexiMigrate.
|
|
@todo fix this after refactoring
|
|
*/
|
|
virtual bool drv_createTable( const TableSchema& tableSchema );
|
|
|
|
/*! Alters table's described \a tableSchema name to \a newName.
|
|
This is the default implementation, using "ALTER TABLE <oldname> RENAME TO <newname>",
|
|
what's supported by SQLite >= 3.2, PostgreSQL, MySQL.
|
|
Backends lacking ALTER TABLE, for example SQLite2, reimplement this with by an inefficient
|
|
data copying to a new table. In any case, renaming is performed at the backend.
|
|
It's good idea to keep the operation within a transaction.
|
|
\return true on success.
|
|
|
|
Moved to public for KexiProject.
|
|
@todo fix this after refactoring
|
|
*/
|
|
virtual bool drv_alterTableName(TableSchema& tableSchema, const TQString& newName);
|
|
|
|
/*! Physically drops table named with \a name.
|
|
Default impelmentation executes "DROP TABLE.." command,
|
|
so you rarely want to change this.
|
|
|
|
Moved to public for KexiMigrate
|
|
@todo fix this after refatoring
|
|
*/
|
|
virtual bool drv_dropTable( const TQString& name );
|
|
|
|
/*! Prepare a SQL statement and return a \a PreparedStatement instance. */
|
|
virtual PreparedStatement::Ptr prepareStatement(PreparedStatement::StatementType type,
|
|
FieldList& fields) = 0;
|
|
|
|
bool isInternalTableSchema(const TQString& tableName);
|
|
|
|
/*! Setups schema data for object that owns sdata (e.g. table, query)
|
|
using \a cursor opened on 'kexi__objects' table, pointing to a record
|
|
corresponding to given object.
|
|
|
|
Moved to public for KexiMigrate
|
|
@todo fix this after refatoring
|
|
*/
|
|
bool setupObjectSchemaData( const RowData &data, SchemaData &sdata );
|
|
|
|
/*! \return a new field table schema for a table retrieved from \a data.
|
|
Used internally by tableSchema().
|
|
|
|
Moved to public for KexiMigrate
|
|
@todo fix this after refatoring
|
|
*/
|
|
KexiDB::Field* setupField( const RowData &data );
|
|
|
|
protected:
|
|
/*! Used by Driver */
|
|
Connection( Driver *driver, ConnectionData &conn_data );
|
|
|
|
/*! Method to be called form Connection's subclass destructor.
|
|
\sa ~Connection() */
|
|
void destroy();
|
|
|
|
/*! @internal drops table \a tableSchema physically, but destroys
|
|
\a tableSchema object only if \a alsoRemoveSchema is true.
|
|
Used (alsoRemoveSchema==false) on table altering:
|
|
if recreating table can failed we're giving up and keeping
|
|
the original table schema (even if it is no longer points to any real data). */
|
|
tristate dropTable( KexiDB::TableSchema* tableSchema, bool alsoRemoveSchema);
|
|
|
|
/*! For reimplemenation: connects to database. \a version should be set to real
|
|
server's version.
|
|
\return true on success. */
|
|
virtual bool drv_connect(KexiDB::ServerVersionInfo& version) = 0;
|
|
|
|
/*! For reimplemenation: disconnects database
|
|
\return true on success. */
|
|
virtual bool drv_disconnect() = 0;
|
|
|
|
/*! Executes query \a statement, but without returning resulting
|
|
rows (used mostly for functional queries).
|
|
Only use this method if you really need. */
|
|
virtual bool drv_executeSQL( const TQString& statement ) = 0;
|
|
|
|
/*! For reimplemenation: loads list of databases' names available for this connection
|
|
and adds these names to \a list. If your server is not able to offer such a list,
|
|
consider reimplementing drv_databaseExists() instead.
|
|
The method should return true only if there was no error on getting database names
|
|
list from the server.
|
|
Default implementation puts empty list into \a list and returns true. */
|
|
virtual bool drv_getDatabasesList( TQStringList &list );
|
|
|
|
//! @todo move this somewhere to low level class (MIGRATION?)
|
|
/*! LOW LEVEL METHOD. For reimplemenation: loads low-level list of table names
|
|
available for this connection. The names are in lower case.
|
|
The method should return true only if there was no error on getting database names
|
|
list from the server. */
|
|
virtual bool drv_getTablesList( TQStringList &list ) = 0;
|
|
|
|
/*! For optional reimplemenation: asks server if database \a dbName exists.
|
|
This method is used internally in databaseExists(). The default implementation
|
|
calls databaseNames and checks if that list contains \a dbName. If you need to
|
|
ask the server specifically if a database exists, eg. if you can't retrieve a list
|
|
of all available database names, please reimplement this method and do all
|
|
needed checks.
|
|
|
|
See databaseExists() description for details about ignoreErrors argument.
|
|
You should use this appropriately in your implementation.
|
|
|
|
Note: This method should also work if there is already database used (with useDatabase());
|
|
in this situation no changes should be made in current database selection. */
|
|
virtual bool drv_databaseExists( const TQString &dbName, bool ignoreErrors = true );
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/*! For reimplemenation: creates new database using connection */
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virtual bool drv_createDatabase( const TQString &dbName = TQString() ) = 0;
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/*! For reimplemenation: opens existing database using connection
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\return true on success, false on failure and cancelled if user has cancelled this action. */
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virtual bool drv_useDatabase( const TQString &dbName = TQString(), bool *cancelled = 0,
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MessageHandler* msgHandler = 0 ) = 0;
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/*! For reimplemenation: closes previously opened database
|
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using connection. */
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virtual bool drv_closeDatabase() = 0;
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/*! \return true if internal driver's structure is still in opened/connected
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state and database is used.
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Note for driver developers: Put here every test that you can do using your
|
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internal engine's database API,
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eg (a bit schematic): my_connection_struct->isConnected()==true.
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Do not check things like Connection::isDatabaseUsed() here or other things
|
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that "KexiDB already knows" at its level.
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If you cannot test anything, just leave default implementation (that returns true).
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Result of this method is used as an addtional chance to check for isDatabaseUsed().
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Do not call this method from your driver's code, it should be used at KexiDB
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level only.
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*/
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virtual bool drv_isDatabaseUsed() const { return true; }
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/*! For reimplemenation: drops database from the server
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using connection. After drop, database shouldn't be accessible
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anymore. */
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virtual bool drv_dropDatabase( const TQString &dbName = TQString() ) = 0;
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/*! \return "CREATE TABLE ..." statement string needed for \a tableSchema
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creation in the database.
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Note: The statement string can be specific for this connection's driver database,
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and thus not reusable in general.
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*/
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TQString createTableStatement( const TableSchema& tableSchema ) const;
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/*! \return "SELECT ..." statement's string needed for executing query
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defined by "select * from table_name" where <i>table_name</i> is \a tableSchema's name.
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This method's variant can be useful when there is no appropriate QuerySchema defined.
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Note: The statement string can be specific for this connection's driver database,
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and thus not reusable in general.
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*/
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TQString selectStatement( TableSchema& tableSchema,
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const SelectStatementOptions& options = SelectStatementOptions() ) const;
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/*!
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Creates table named by \a tableSchemaName. Schema object must be on
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schema tables' list before calling this method (otherwise false if returned).
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Just uses drv_createTable( const KexiDB::TableSchema& tableSchema ).
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Used internally, e.g. in createDatabase().
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\return true on success
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*/
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virtual bool drv_createTable( const TQString& tableSchemaName );
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// /*! Executes query \a statement and returns resulting rows
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// (used mostly for SELECT query). */
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// virtual bool drv_executeQuery( const TQString& statement ) = 0;
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/*! \return unique identifier of last inserted row.
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Typically this is just primary key value.
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This identifier could be reused when we want to reference
|
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just inserted row.
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Note for driver developers: contact js (at) iidea.pl
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if your engine do not offers this information. */
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virtual TQ_ULLONG drv_lastInsertRowID() = 0;
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/*! Note for driver developers: begins new transaction
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and returns handle to it. Default implementation just
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executes "BEGIN" sql statement and returns just empty data (TransactionData object).
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|
Drivers that do not support transactions (see Driver::features())
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do never call this method.
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Reimplement this method if you need to do something more
|
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(e.g. if you driver will support multiple transactions per connection).
|
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Make subclass of TransactionData (declared in transaction.h)
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and return object of this subclass.
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You should return NULL if any error occurred.
|
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Do not check anything in connection (isConnected(), etc.) - all is already done.
|
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*/
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virtual TransactionData* drv_beginTransaction();
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/*! Note for driver developers: begins new transaction
|
|
and returns handle to it. Default implementation just
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executes "COMMIT" sql statement and returns true on success.
|
|
|
|
\sa drv_beginTransaction()
|
|
*/
|
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virtual bool drv_commitTransaction(TransactionData* trans);
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|
|
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/*! Note for driver developers: begins new transaction
|
|
and returns handle to it. Default implementation just
|
|
executes "ROLLBACK" sql statement and returns true on success.
|
|
|
|
\sa drv_beginTransaction()
|
|
*/
|
|
virtual bool drv_rollbackTransaction(TransactionData* trans);
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|
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/*! Changes autocommiting option for established connection.
|
|
\return true on success.
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|
|
|
Note for driver developers: reimplement this only if your engine
|
|
allows to set special auto commit option (like "SET AUTOCOMMIT=.." in MySQL).
|
|
If not, auto commit behaviour will be simulated if at least single
|
|
transactions per connection are supported by the engine.
|
|
Do not set any internal flags for autocommiting -- it is already done inside
|
|
setAutoCommit().
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|
|
|
Default implementation does nothing with connection, just returns true.
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|
|
|
\sa drv_beginTransaction(), autoCommit(), setAutoCommit()
|
|
*/
|
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virtual bool drv_setAutoCommit(bool on);
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|
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/*! Internal, for handling autocommited transactions:
|
|
begins transaction if one is supported.
|
|
\return true if new transaction started
|
|
successfully or no transactions are supported at all by the driver
|
|
or if autocommit option is turned off.
|
|
A handle to a newly created transaction (or null on error) is passed
|
|
to \a tg parameter.
|
|
|
|
Special case when used database driver has only single transaction support
|
|
(Driver::SingleTransactions):
|
|
and there is already transaction started, it is committed before
|
|
starting a new one, but only if this transaction has been started inside Connection object.
|
|
(i.e. by beginAutoCommitTransaction()). Otherwise, a new transaction will not be started,
|
|
but true will be returned immediately.
|
|
*/
|
|
bool beginAutoCommitTransaction(TransactionGuard& tg);
|
|
|
|
/*! Internal, for handling autocommited transactions:
|
|
Commits transaction prevoiusly started with beginAutoCommitTransaction().
|
|
\return true on success or when no transactions are supported
|
|
at all by the driver.
|
|
|
|
Special case when used database driver has only single transaction support
|
|
(Driver::SingleTransactions): if \a trans has been started outside Connection object
|
|
(i.e. not by beginAutoCommitTransaction()), the transaction will not be committed.
|
|
*/
|
|
bool commitAutoCommitTransaction(const Transaction& trans);
|
|
|
|
/*! Internal, for handling autocommited transactions:
|
|
Rollbacks transaction prevoiusly started with beginAutoCommitTransaction().
|
|
\return true on success or when no transactions are supported
|
|
at all by the driver.
|
|
|
|
Special case when used database driver has only single transaction support
|
|
(Driver::SingleTransactions): \a trans will not be rolled back
|
|
if it has been started outside this Connection object.
|
|
*/
|
|
bool rollbackAutoCommitTransaction(const Transaction& trans);
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|
|
|
/*! Creates cursor data and initializes cursor
|
|
using \a statement for later data retrieval. */
|
|
// virtual CursorData* drv_createCursor( const TQString& statement ) = 0;
|
|
/*! Closes and deletes cursor data. */
|
|
// virtual bool drv_deleteCursor( CursorData *data ) = 0;
|
|
|
|
/*! Helper: checks if connection is established;
|
|
if not: error message is set up and false returned */
|
|
bool checkConnected();
|
|
|
|
/*! Helper: checks both if connection is established and database any is used;
|
|
if not: error message is set up and false returned */
|
|
bool checkIsDatabaseUsed();
|
|
|
|
/*! \return a full table schema for a table retrieved using 'kexi__*' system tables.
|
|
Used internally by tableSchema() methods. */
|
|
TableSchema* setupTableSchema( const RowData &data );
|
|
|
|
/*! \return a full query schema for a query using 'kexi__*' system tables.
|
|
Used internally by querySchema() methods. */
|
|
QuerySchema* setupQuerySchema( const RowData &data );
|
|
|
|
/*! Update a row. */
|
|
bool updateRow(QuerySchema &query, RowData& data, RowEditBuffer& buf, bool useROWID = false);
|
|
/*! Insert a new row. */
|
|
bool insertRow(QuerySchema &query, RowData& data, RowEditBuffer& buf, bool getROWID = false);
|
|
/*! Delete an existing row. */
|
|
bool deleteRow(QuerySchema &query, RowData& data, bool useROWID = false);
|
|
/*! Delete all existing rows. */
|
|
bool deleteAllRows(QuerySchema &query);
|
|
|
|
/*! Allocates all needed table KexiDB system objects for kexi__* KexiDB liblary's
|
|
system tables schema.
|
|
These objects are used internally in this connection
|
|
and are added to list of tables (by name,
|
|
not by id because these have no ids).
|
|
*/
|
|
bool setupKexiDBSystemSchema();
|
|
|
|
/*! used internally by setupKexiDBSystemSchema():
|
|
Allocates single table KexiDB system object named \a tsname
|
|
and adds this to list of such objects (for later removal on closeDatabase()).
|
|
*/
|
|
TableSchema* newKexiDBSystemTableSchema(const TQString& tsname);
|
|
|
|
//! Identifier escaping function in the associated Driver.
|
|
/*! Calls the identifier escaping function in the associated Driver to
|
|
escape table and column names. This should be used when explicitly
|
|
constructing SQL strings (e.g. "FROM " + escapeIdentifier(tablename)).
|
|
It should not be used for other functions (e.g. don't do
|
|
useDatabase(escapeIdentifier(database))), because the identifier will
|
|
be escaped when the called function generates, for example, "USE " +
|
|
escapeIdentifier(database).
|
|
|
|
For efficiency, kexi__* system tables and columns therein are not escaped
|
|
- we assume these are valid identifiers for all drivers.
|
|
*/
|
|
inline TQString escapeIdentifier(const TQString& id,
|
|
int escaping = Driver::EscapeDriver|Driver::EscapeAsNecessary ) const {
|
|
return m_driver->escapeIdentifier(id, escaping);
|
|
}
|
|
|
|
/*! Called by TableSchema -- signals destruction to Connection object
|
|
To avoid having deleted table object on its list. */
|
|
void removeMe(TableSchema *ts);
|
|
|
|
/*! @internal
|
|
\return true if the cursor \a cursor contains column \a column,
|
|
else, sets appropriate error with a message and returns false. */
|
|
bool checkIfColumnExists(Cursor *cursor, uint column);
|
|
|
|
/*! @internal used by querySingleRecord() methods.
|
|
Note: "LIMIT 1" is appended to \a sql statement if \a addLimitTo1 is true (the default). */
|
|
tristate querySingleRecordInternal(RowData &data, const TQString* sql,
|
|
QuerySchema* query, bool addLimitTo1 = true);
|
|
|
|
/*! @internal used by Driver::createConnection().
|
|
Only works if connection is not yet established. */
|
|
void setReadOnly(bool set);
|
|
|
|
/*! Loads extended schema information for table \a tableSchema,
|
|
if present (see ExtendedTableSchemaInformation in Kexi Wiki).
|
|
\return true on success */
|
|
bool loadExtendedTableSchemaData(TableSchema& tableSchema);
|
|
|
|
/*! Stores extended schema information for table \a tableSchema,
|
|
(see ExtendedTableSchemaInformation in Kexi Wiki).
|
|
The action is performed within the current transaction,
|
|
so it's up to you to commit.
|
|
Used, e.g. by createTable(), within its transaction.
|
|
\return true on success */
|
|
bool storeExtendedTableSchemaData(TableSchema& tableSchema);
|
|
|
|
/*! @internal
|
|
Stores main field's schema information for field \a field.
|
|
Used in table altering code when information in kexi__fields has to be updated.
|
|
\return true on success and false on failure. */
|
|
bool storeMainFieldSchema(Field *field);
|
|
|
|
//- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
|
|
|
|
/*! This is a part of alter table interface implementing lower-level operations
|
|
used to perform table schema altering. Used by AlterTableHandler.
|
|
|
|
Changes value of field property.
|
|
\return true on success, false on failure, cancelled if the action has been cancelled.
|
|
|
|
Note for driver developers: implement this if the driver has to support the altering. */
|
|
virtual tristate drv_changeFieldProperty(TableSchema &table, Field& field,
|
|
const TQString& propertyName, const TQVariant& value) {
|
|
Q_UNUSED(table); Q_UNUSED(field); Q_UNUSED(propertyName); Q_UNUSED(value);
|
|
return cancelled; }
|
|
|
|
//! cursors created for this connection
|
|
TQPtrDict<KexiDB::Cursor> m_cursors;
|
|
|
|
private:
|
|
ConnectionPrivate* d; //!< @internal d-pointer class.
|
|
Driver* const m_driver; //!< The driver this \a Connection instance uses.
|
|
bool m_destructor_started : 1; //!< helper: true if destructor is started.
|
|
|
|
friend class KexiDB::Driver;
|
|
friend class KexiDB::Cursor;
|
|
friend class KexiDB::TableSchema; //!< for removeMe()
|
|
friend class KexiDB::DatabaseProperties; //!< for setError()
|
|
friend class ConnectionPrivate;
|
|
friend class KexiDB::AlterTableHandler;
|
|
};
|
|
|
|
} //namespace KexiDB
|
|
|
|
#endif
|
|
|