/**************************************************************************** ** ** Implementation of TQDataBrowser class ** ** Created : 2000-11-03 ** ** Copyright (C) 2005-2008 Trolltech ASA. All rights reserved. ** ** This file is part of the sql module of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.TQPL ** included in the packaging of this file. Licensees holding valid TQt ** Commercial licenses may use this file in accordance with the TQt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include "tqdatabrowser.h" #ifndef TQT_NO_STQL_VIEW_WIDGETS #include "tqsqlform.h" #include "tqsqlmanager_p.h" #include "tqsqlresult.h" class TQDataBrowserPrivate { public: TQDataBrowserPrivate() : boundaryCheck( TRUE ), readOnly( FALSE ) {} TQSqlCursorManager cur; TQSqlFormManager frm; TQDataManager dat; bool boundaryCheck; bool readOnly; }; /*! \class TQDataBrowser tqdatabrowser.h \brief The TQDataBrowser class provides data manipulation and navigation for data entry forms. \ingroup database \mainclass \module sql A high-level API is provided for navigating through data records in a cursor, for inserting, updating and deleting records, and for refreshing data in the display. If you want a read-only form to present database data use TQDataView; if you want a table-based presentation of your data use TQDataTable. A TQDataBrowser is used to associate a dataset with a form in much the same way as a TQDataTable associates a dataset with a table. Once the data browser has been constructed it can be associated with a dataset with setSqlCursor(), and with a form with setForm(). Boundary checking, sorting and filtering can be set with setBoundaryChecking(), setSort() and setFilter(), respectively. The insertCurrent() function reads the fields from the default form into the default cursor and performs the insert. The updateCurrent() and deleteCurrent() functions perform similarly to update and delete the current record respectively. The user can be asked to confirm all edits with setConfirmEdits(). For more precise control use setConfirmInsert(), setConfirmUpdate(), setConfirmDelete() and setConfirmCancels(). Use setAutoEdit() to control the behaviour of the form when the user edits a record and then navigates. The record set is navigated using first(), next(), prev(), last() and seek(). The form's display is updated with refresh(). When navigation takes place the firstRecordAvailable(), lastRecordAvailable(), nextRecordAvailable() and prevRecordAvailable() Q_SIGNALS are emitted. When the cursor record is changed due to navigation the cursorChanged() signal is emitted. If you want finer control of the insert, update and delete processes then you can use the lower level functions to perform these operations as described below. The form is populated with data from the database with readFields(). If the user is allowed to edit, (see setReadOnly()), write the form's data back to the cursor's edit buffer with writeFields(). You can clear the values in the form with clearValues(). Editing is performed as follows: \list \i \e insert When the data browser enters insertion mode it emits the primeInsert() signal which you can connect to, for example to pre-populate fields. Call writeFields() to write the user's edits to the cursor's edit buffer then call insert() to insert the record into the database. The beforeInsert() signal is emitted just before the cursor's edit buffer is inserted into the database; connect to this for example, to populate fields such as an auto-generated primary key. \i \e update For updates the primeUpdate() signal is emitted when the data browser enters update mode. After calling writeFields() call update() to update the record and connect to the beforeUpdate() signal to manipulate the user's data before the update takes place. \i \e delete For deletion the primeDelete() signal is emitted when the data browser enters deletion mode. After calling writeFields() call del() to delete the record and connect to the beforeDelete() signal, for example to record an audit of the deleted record. \endlist */ /*! \enum TQDataBrowser::Boundary This enum describes where the data browser is positioned. \value Unknown the boundary cannot be determined (usually because there is no default cursor, or the default cursor is not active). \value None the browser is not positioned on a boundary, but it is positioned on a record somewhere in the middle. \value BeforeBeginning the browser is positioned before the first available record. \value Beginning the browser is positioned at the first record. \value End the browser is positioned at the last record. \value AfterEnd the browser is positioned after the last available record. */ /*! Constructs a data browser which is a child of \a tqparent, with the name \a name and widget flags set to \a fl. */ TQDataBrowser::TQDataBrowser( TQWidget *tqparent, const char *name, WFlags fl ) : TQWidget( tqparent, name, fl ) { d = new TQDataBrowserPrivate(); d->dat.setMode( TQSql::Update ); } /*! Destroys the object and frees any allocated resources. */ TQDataBrowser::~TQDataBrowser() { delete d; } /*! Returns an enum indicating the boundary status of the browser. This is achieved by moving the default cursor and checking the position, however the current default form values will not be altered. After checking for the boundary, the cursor is moved back to its former position. See \l TQDataBrowser::Boundary. \sa Boundary */ TQDataBrowser::Boundary TQDataBrowser::boundary() { TQSqlCursor* cur = d->cur.cursor(); if ( !cur || !cur->isActive() ) return Unknown; if ( !cur->isValid() ) { if ( cur->at() == TQSql::BeforeFirst ) return BeforeBeginning; if ( cur->at() == TQSql::AfterLast ) return AfterEnd; return Unknown; } if ( cur->at() == 0 ) return Beginning; int currentAt = cur->at(); Boundary b = None; if ( !cur->prev() ) b = Beginning; else cur->seek( currentAt ); if ( b == None && !cur->next() ) b = End; cur->seek( currentAt ); return b; } /*! \property TQDataBrowser::boundaryChecking \brief whether boundary checking is active When boundary checking is active (the default), Q_SIGNALS are emitted indicating the current position of the default cursor. \sa boundary() */ void TQDataBrowser::setBoundaryChecking( bool active ) { d->boundaryCheck = active; } bool TQDataBrowser::boundaryChecking() const { return d->boundaryCheck; } /*! \property TQDataBrowser::sort \brief the data browser's sort The data browser's sort affects the order in which records are viewed in the browser. Call refresh() to apply the new sort. When retrieving the sort property, a string list is returned in the form 'fieldname order', e.g. 'id ASC', 'surname DESC'. There is no default sort. Note that if you want to iterate over the list, you should iterate over a copy, e.g. \code TQStringList list = myDataBrowser.sort(); TQStringList::Iterator it = list.begin(); while( it != list.end() ) { myProcessing( *it ); ++it; } \endcode */ void TQDataBrowser::setSort( const TQStringList& sort ) { d->cur.setSort( sort ); } /*! \overload Sets the data browser's sort to the TQSqlIndex \a sort. To apply the new sort, use refresh(). */ void TQDataBrowser::setSort( const TQSqlIndex& sort ) { d->cur.setSort( sort ); } TQStringList TQDataBrowser::sort() const { return d->cur.sort(); } /*! \property TQDataBrowser::filter \brief the data browser's filter The filter applies to the data shown in the browser. Call refresh() to apply the new filter. A filter is a string containing a SQL WHERE clause without the WHERE keyword, e.g. "id>1000", "name LIKE 'A%'", etc. There is no default filter. \sa sort() */ void TQDataBrowser::setFilter( const TQString& filter ) { d->cur.setFilter( filter ); } TQString TQDataBrowser::filter() const { return d->cur.filter(); } /*! Sets the default cursor used by the data browser to \a cursor. If \a autoDelete is TRUE (the default is FALSE), the data browser takes ownership of the \a cursor pointer, which will be deleted when the browser is destroyed, or when setSqlCursor() is called again. To activate the \a cursor use refresh(). The cursor's edit buffer is used in the default form to browse and edit records. \sa sqlCursor() form() setForm() */ void TQDataBrowser::setSqlCursor( TQSqlCursor* cursor, bool autoDelete ) { if ( !cursor ) return; d->cur.setCursor( cursor, autoDelete ); d->frm.setRecord( cursor->editBuffer() ); if ( cursor->isReadOnly() ) setReadOnly( TRUE ); } /*! Returns the default cursor used for navigation, or 0 if there is no default cursor. \sa setSqlCursor() */ TQSqlCursor* TQDataBrowser::sqlCursor() const { return d->cur.cursor(); } /*! Sets the browser's default form to \a form. The cursor and all navigation and data manipulation functions that the browser provides become available to the \a form. */ void TQDataBrowser::setForm( TQSqlForm* form ) { d->frm.setForm( form ); } /*! Returns the data browser's default form or 0 if no form has been set. */ TQSqlForm* TQDataBrowser::form() { return d->frm.form(); } /*! \property TQDataBrowser::readOnly \brief whether the browser is read-only The default is FALSE, i.e. data can be edited. If the data browser is read-only, no database edits will be allowed. */ void TQDataBrowser::setReadOnly( bool active ) { d->readOnly = active; } bool TQDataBrowser::isReadOnly() const { return d->readOnly; } void TQDataBrowser::setConfirmEdits( bool confirm ) { d->dat.setConfirmEdits( confirm ); } /*! \property TQDataBrowser::confirmInsert \brief whether the data browser confirms insertions If this property is TRUE, the browser confirms insertions, otherwise insertions happen immediately. \sa confirmCancels() confirmEdits() confirmUpdate() confirmDelete() confirmEdit() */ void TQDataBrowser::setConfirmInsert( bool confirm ) { d->dat.setConfirmInsert( confirm ); } /*! \property TQDataBrowser::confirmUpdate \brief whether the browser confirms updates If this property is TRUE, the browser confirms updates, otherwise updates happen immediately. \sa confirmCancels() confirmEdits() confirmInsert() confirmDelete() confirmEdit() */ void TQDataBrowser::setConfirmUpdate( bool confirm ) { d->dat.setConfirmUpdate( confirm ); } /*! \property TQDataBrowser::confirmDelete \brief whether the browser confirms deletions If this property is TRUE, the browser confirms deletions, otherwise deletions happen immediately. \sa confirmCancels() confirmEdits() confirmUpdate() confirmInsert() confirmEdit() */ void TQDataBrowser::setConfirmDelete( bool confirm ) { d->dat.setConfirmDelete( confirm ); } /*! \property TQDataBrowser::confirmEdits \brief whether the browser confirms edits If this property is TRUE, the browser confirms all edit operations (insertions, updates and deletions), otherwise all edit operations happen immediately. Confirmation is achieved by presenting the user with a message box -- this behavior can be changed by reimplementing the confirmEdit() function, \sa confirmEdit() confirmCancels() confirmInsert() confirmUpdate() confirmDelete() */ bool TQDataBrowser::confirmEdits() const { return ( d->dat.confirmEdits() ); } bool TQDataBrowser::confirmInsert() const { return ( d->dat.confirmInsert() ); } bool TQDataBrowser::confirmUpdate() const { return ( d->dat.confirmUpdate() ); } bool TQDataBrowser::confirmDelete() const { return ( d->dat.confirmDelete() ); } /*! \property TQDataBrowser::confirmCancels \brief whether the browser confirms cancel operations If this property is TRUE, all cancels must be confirmed by the user through a message box (this behavior can be changed by overriding the confirmCancel() function), otherwise all cancels occur immediately. The default is FALSE. \sa confirmEdits() confirmCancel() */ void TQDataBrowser::setConfirmCancels( bool confirm ) { d->dat.setConfirmCancels( confirm ); } bool TQDataBrowser::confirmCancels() const { return d->dat.confirmCancels(); } /*! \property TQDataBrowser::autoEdit \brief whether the browser automatically applies edits The default value for this property is TRUE. When the user begins an insertion or an update on a form there are two possible outcomes when they navigate to another record: \list \i the insert or update is is performed -- this occurs if autoEdit is TRUE \i the insert or update is discarded -- this occurs if autoEdit is FALSE \endlist */ void TQDataBrowser::setAutoEdit( bool autoEdit ) { d->dat.setAutoEdit( autoEdit ); } bool TQDataBrowser::autoEdit() const { return d->dat.autoEdit(); } /*! \fn void TQDataBrowser::firstRecordAvailable( bool available ) This signal is emitted whenever the position of the cursor changes. The \a available parameter indicates whether or not the first record in the default cursor is available. */ /*! \fn void TQDataBrowser::lastRecordAvailable( bool available ) This signal is emitted whenever the position of the cursor changes. The \a available parameter indicates whether or not the last record in the default cursor is available. */ /*! \fn void TQDataBrowser::nextRecordAvailable( bool available ) This signal is emitted whenever the position of the cursor changes. The \a available parameter indicates whether or not the next record in the default cursor is available. */ /*! \fn void TQDataBrowser::prevRecordAvailable( bool available ) This signal is emitted whenever the position of the cursor changes. The \a available parameter indicates whether or not the previous record in the default cursor is available. */ /*! \fn void TQDataBrowser::currentChanged( const TQSqlRecord* record ) This signal is emitted whenever the current cursor position changes. The \a record parameter points to the contents of the current cursor's record. */ /*! \fn void TQDataBrowser::primeInsert( TQSqlRecord* buf ) This signal is emitted when the data browser enters insertion mode. The \a buf parameter points to the record buffer that is to be inserted. Connect to this signal to, for example, prime the record buffer with default data values, auto-numbered fields etc. (Note that TQSqlCursor::primeInsert() is \e not called on the default cursor, as this would corrupt values in the form.) \sa insert() */ /*! \fn void TQDataBrowser::primeUpdate( TQSqlRecord* buf ) This signal is emitted when the data browser enters update mode. Note that during navigation (first(), last(), next(), prev()), each record that is shown in the default form is primed for update. The \a buf parameter points to the record buffer being updated. (Note that TQSqlCursor::primeUpdate() is \e not called on the default cursor, as this would corrupt values in the form.) Connect to this signal in order to, for example, keep track of which records have been updated, perhaps for auditing purposes. \sa update() */ /*! \fn void TQDataBrowser::primeDelete( TQSqlRecord* buf ) This signal is emitted when the data browser enters deletion mode. The \a buf parameter points to the record buffer being deleted. (Note that TQSqlCursor::primeDelete() is \e not called on the default cursor, as this would corrupt values in the form.) Connect to this signal in order to, for example, save a copy of the deleted record for auditing purposes. \sa del() */ /*! \fn void TQDataBrowser::cursorChanged( TQSqlCursor::Mode mode ) This signal is emitted whenever the cursor record was changed due to navigation. The \a mode parameter is the edit that just took place, e.g. Insert, Update or Delete. See \l TQSqlCursor::Mode. */ /*! Refreshes the data browser's data using the default cursor. The browser's current filter and sort are applied if they have been set. \sa setFilter() setSort() */ void TQDataBrowser::refresh() { d->cur.refresh(); } /*! Performs an insert operation on the data browser's cursor. If there is no default cursor or no default form, nothing happens. If auto-editing is on (see setAutoEdit()), the following happens: \list \i If the browser is already actively inserting a record, the current form's data is inserted into the database. \i If the browser is not inserting a record, but the current record was changed by the user, the record is updated in the database with the current form's data (i.e. with the changes). \endlist If there is an error handling any of the above auto-edit actions, handleError() is called and no insert or update is performed. If no error occurred, or auto-editing is not enabled, the data browser begins actively inserting a record into the database by performing the following actions: \list \i The default cursor is primed for insert using TQSqlCursor::primeInsert(). \i The primeInsert() signal is emitted. \i The form is updated with the values in the default cursor's. edit buffer so that the user can fill in the values to be inserted. \endlist */ void TQDataBrowser::insert() { TQSqlRecord* buf = d->frm.record(); TQSqlCursor* cur = d->cur.cursor(); if ( !buf || !cur ) return; bool doIns = TRUE; TQSql::Confirm conf = TQSql::Yes; switch ( d->dat.mode() ) { case TQSql::Insert: if ( autoEdit() ) { if ( confirmInsert() ) conf = confirmEdit( TQSql::Insert ); switch ( conf ) { case TQSql::Yes: insertCurrent(); break; case TQSql::No: break; case TQSql::Cancel: doIns = FALSE; break; } } break; default: if ( autoEdit() && currentEdited() ) { if ( confirmUpdate() ) conf = confirmEdit( TQSql::Update ); switch ( conf ) { case TQSql::Yes: updateCurrent(); break; case TQSql::No: break; case TQSql::Cancel: doIns = FALSE; break; } } break; } if ( doIns ) { d->dat.setMode( TQSql::Insert ); sqlCursor()->primeInsert(); emit primeInsert( d->frm.record() ); readFields(); } } /*! Performs an update operation on the data browser's cursor. If there is no default cursor or no default form, nothing happens. Otherwise, the following happens: If the data browser is actively inserting a record (see insert()), that record is inserted into the database using insertCurrent(). Otherwise, the database is updated with the current form's data using updateCurrent(). If there is an error handling either action, handleError() is called. */ void TQDataBrowser::update() { TQSqlRecord* buf = d->frm.record(); TQSqlCursor* cur = d->cur.cursor(); if ( !buf || !cur ) return; TQSql::Confirm conf = TQSql::Yes; switch ( d->dat.mode() ){ case TQSql::Insert: if ( confirmInsert() ) conf = confirmEdit( TQSql::Insert ); switch ( conf ) { case TQSql::Yes: if ( insertCurrent() ) d->dat.setMode( TQSql::Update ); break; case TQSql::No: d->dat.setMode( TQSql::Update ); cur->editBuffer( TRUE ); readFields(); break; case TQSql::Cancel: break; } break; default: d->dat.setMode( TQSql::Update ); if ( confirmUpdate() ) conf = confirmEdit( TQSql::Update ); switch ( conf ) { case TQSql::Yes: updateCurrent(); break; case TQSql::No: case TQSql::Cancel: break; } break; } } /*! Performs a delete operation on the data browser's cursor. If there is no default cursor or no default form, nothing happens. Otherwise, the following happens: The current form's record is deleted from the database, providing that the data browser is not in insert mode. If the data browser is actively inserting a record (see insert()), the insert action is canceled, and the browser navigates to the last valid record that was current. If there is an error, handleError() is called. */ void TQDataBrowser::del() { TQSqlRecord* buf = d->frm.record(); TQSqlCursor* cur = d->cur.cursor(); if ( !buf || !cur ) return; TQSql::Confirm conf = TQSql::Yes; switch ( d->dat.mode() ){ case TQSql::Insert: if ( confirmCancels() ) conf = confirmCancel( TQSql::Insert ); if ( conf == TQSql::Yes ) { cur->editBuffer( TRUE ); /* restore from cursor */ readFields(); d->dat.setMode( TQSql::Update ); } else d->dat.setMode( TQSql::Insert ); break; default: if ( confirmDelete() ) conf = confirmEdit( TQSql::Delete ); switch ( conf ) { case TQSql::Yes: emit primeDelete( buf ); deleteCurrent(); break; case TQSql::No: case TQSql::Cancel: break; } d->dat.setMode( TQSql::Update ); break; } } /*! Moves the default cursor to the record specified by the index \a i and refreshes the default form to display this record. If there is no default form or no default cursor, nothing happens. If \a relative is TRUE (the default is FALSE), the cursor is moved relative to its current position. If the data browser successfully navigated to the desired record, the default cursor is primed for update and the primeUpdate() signal is emitted. If the browser is already positioned on the desired record nothing happens. */ bool TQDataBrowser::seek( int i, bool relative ) { int b = 0; TQSqlCursor* cur = d->cur.cursor(); if ( !cur ) return FALSE; if ( preNav() ) b = cur->seek( i, relative ); postNav( b ); return b; } /*! Moves the default cursor to the first record and refreshes the default form to display this record. If there is no default form or no default cursor, nothing happens. If the data browser successfully navigated to the first record, the default cursor is primed for update and the primeUpdate() signal is emitted. If the browser is already positioned on the first record nothing happens. */ void TQDataBrowser::first() { nav( &TQSqlCursor::first ); } /*! Moves the default cursor to the last record and refreshes the default form to display this record. If there is no default form or no default cursor, nothing happens. If the data browser successfully navigated to the last record, the default cursor is primed for update and the primeUpdate() signal is emitted. If the browser is already positioned on the last record nothing happens. */ void TQDataBrowser::last() { nav( &TQSqlCursor::last ); } /*! Moves the default cursor to the next record and refreshes the default form to display this record. If there is no default form or no default cursor, nothing happens. If the data browser successfully navigated to the next record, the default cursor is primed for update and the primeUpdate() signal is emitted. If the browser is positioned on the last record nothing happens. */ void TQDataBrowser::next() { nav( &TQSqlCursor::next ); } /*! Moves the default cursor to the previous record and refreshes the default form to display this record. If there is no default form or no default cursor, nothing happens. If the data browser successfully navigated to the previous record, the default cursor is primed for update and the primeUpdate() signal is emitted. If the browser is positioned on the first record nothing happens. */ void TQDataBrowser::prev() { nav( &TQSqlCursor::prev ); } /*! Reads the fields from the default cursor's edit buffer and displays them in the form. If there is no default cursor or no default form, nothing happens. */ void TQDataBrowser::readFields() { d->frm.readFields(); } /*! Writes the form's data to the default cursor's edit buffer. If there is no default cursor or no default form, nothing happens. */ void TQDataBrowser::writeFields() { d->frm.writeFields(); } /*! Clears all the values in the form. All the edit buffer field values are set to their 'zero state', e.g. 0 for numeric fields and "" for string fields. Then the widgets are updated using the property map. For example, a combobox that is property-mapped to integers would scroll to the first item. See the \l TQSqlPropertyMap constructor for the default mappings of widgets to properties. */ void TQDataBrowser::clearValues() { d->frm.clearValues(); } /*! Reads the fields from the default form into the default cursor and performs an insert on the default cursor. If there is no default form or no default cursor, nothing happens. If an error occurred during the insert into the database, handleError() is called and FALSE is returned. If the insert was successfull, the cursor is refreshed and relocated to the newly inserted record, the cursorChanged() signal is emitted, and TRUE is returned. \sa cursorChanged() sqlCursor() form() handleError() */ bool TQDataBrowser::insertCurrent() { if ( isReadOnly() ) return FALSE; TQSqlRecord* buf = d->frm.record(); TQSqlCursor* cur = d->cur.cursor(); if ( !buf || !cur ) return FALSE; writeFields(); emit beforeInsert( buf ); int ar = cur->insert(); if ( !ar || !cur->isActive() ) { handleError( cur->lastError() ); refresh(); updateBoundary(); } else { refresh(); d->cur.tqfindBuffer( cur->primaryIndex() ); updateBoundary(); cursorChanged( TQSqlCursor::Insert ); return TRUE; } return FALSE; } /*! Reads the fields from the default form into the default cursor and performs an update on the default cursor. If there is no default form or no default cursor, nothing happens. If an error occurred during the update on the database, handleError() is called and FALSE is returned. If the update was successfull, the cursor is refreshed and relocated to the updated record, the cursorChanged() signal is emitted, and TRUE is returned. \sa cursor() form() handleError() */ bool TQDataBrowser::updateCurrent() { if ( isReadOnly() ) return FALSE; TQSqlRecord* buf = d->frm.record(); TQSqlCursor* cur = d->cur.cursor(); if ( !buf || !cur ) return FALSE; writeFields(); emit beforeUpdate( buf ); int ar = cur->update(); if ( !ar || !cur->isActive() ) { handleError( cur->lastError() ); refresh(); updateBoundary(); } else { refresh(); d->cur.tqfindBuffer( cur->primaryIndex() ); updateBoundary(); cur->editBuffer( TRUE ); cursorChanged( TQSqlCursor::Update ); readFields(); return TRUE; } return FALSE; } /*! Performs a delete on the default cursor using the values from the default form and updates the default form. If there is no default form or no default cursor, nothing happens. If the deletion was successful, the cursor is repositioned to the nearest record and TRUE is returned. The nearest record is the next record if there is one otherwise the previous record if there is one. If an error occurred during the deletion from the database, handleError() is called and FALSE is returned. \sa cursor() form() handleError() */ bool TQDataBrowser::deleteCurrent() { if ( isReadOnly() ) return FALSE; TQSqlRecord* buf = d->frm.record(); TQSqlCursor* cur = d->cur.cursor(); if ( !buf || !cur ) return FALSE; writeFields(); int n = cur->at(); emit beforeDelete( buf ); int ar = cur->del(); if ( ar ) { refresh(); updateBoundary(); cursorChanged( TQSqlCursor::Delete ); if ( !cur->seek( n ) ) last(); if ( cur->isValid() ) { cur->editBuffer( TRUE ); readFields(); } else { clearValues(); } return TRUE; } else { if ( !cur->isActive() ) { handleError( cur->lastError() ); refresh(); updateBoundary(); } } return FALSE; } /*! Returns TRUE if the form's edit buffer differs from the current cursor buffer; otherwise returns FALSE. */ bool TQDataBrowser::currentEdited() { TQSqlRecord* buf = d->frm.record(); TQSqlCursor* cur = d->cur.cursor(); if ( !buf || !cur ) return FALSE; if ( !cur->isActive() || !cur->isValid() ) return FALSE; writeFields(); for ( uint i = 0; i < cur->count(); ++i ) { if ( cur->value(i) != buf->value(i) ) return TRUE; } return FALSE; } /*! \internal Pre-navigation checking. */ bool TQDataBrowser::preNav() { TQSqlRecord* buf = d->frm.record(); TQSqlCursor* cur = d->cur.cursor(); if ( !buf || !cur ) return FALSE; if ( !isReadOnly() && autoEdit() && currentEdited() ) { bool ok = TRUE; TQSql::Confirm conf = TQSql::Yes; switch ( d->dat.mode() ){ case TQSql::Insert: if ( confirmInsert() ) conf = confirmEdit( TQSql::Insert ); switch ( conf ) { case TQSql::Yes: ok = insertCurrent(); d->dat.setMode( TQSql::Update ); break; case TQSql::No: d->dat.setMode( TQSql::Update ); break; case TQSql::Cancel: return FALSE; } break; default: if ( confirmUpdate() ) conf = confirmEdit( TQSql::Update ); switch ( conf ) { case TQSql::Yes: ok = updateCurrent(); break; case TQSql::No: break; case TQSql::Cancel: return FALSE; } } return ok; } return TRUE; } /*! \internal Handles post-navigation according to \a primeUpd. */ void TQDataBrowser::postNav( bool primeUpd ) { if ( primeUpd ) { TQSqlRecord* buf = d->frm.record(); TQSqlCursor* cur = d->cur.cursor(); if ( !buf || !cur ) return; currentChanged( cur ); cur->primeUpdate(); emit primeUpdate( buf ); readFields(); } updateBoundary(); } /*! \internal Navigate default cursor according to \a nav. Handles autoEdit. */ void TQDataBrowser::nav( Nav nav ) { int b = 0; TQSqlCursor* cur = d->cur.cursor(); if ( !cur ) return; if ( preNav() ) b = (cur->*nav)(); postNav( b ); } /*! If boundaryChecking() is TRUE, checks the boundary of the current default cursor and emits Q_SIGNALS which indicate the position of the cursor. */ void TQDataBrowser::updateBoundary() { if ( d->boundaryCheck ) { Boundary bound = boundary(); switch ( bound ) { case Unknown: case None: emit firstRecordAvailable( TRUE ); emit prevRecordAvailable( TRUE ); emit nextRecordAvailable( TRUE ); emit lastRecordAvailable( TRUE ); break; case BeforeBeginning: emit firstRecordAvailable( FALSE ); emit prevRecordAvailable( FALSE ); emit nextRecordAvailable( TRUE ); emit lastRecordAvailable( TRUE ); break; case Beginning: emit firstRecordAvailable( FALSE ); emit prevRecordAvailable( FALSE ); emit nextRecordAvailable( TRUE ); emit lastRecordAvailable( TRUE ); break; case End: emit firstRecordAvailable( TRUE ); emit prevRecordAvailable( TRUE ); emit nextRecordAvailable( FALSE ); emit lastRecordAvailable( FALSE ); break; case AfterEnd: emit firstRecordAvailable( TRUE ); emit prevRecordAvailable( TRUE ); emit nextRecordAvailable( FALSE ); emit lastRecordAvailable( FALSE ); break; } } } /*! Virtual function which handles the error \a error. The default implementation warns the user with a message box. */ void TQDataBrowser::handleError( const TQSqlError& error ) { d->dat.handleError( this, error ); } /*! Protected virtual function which returns a confirmation for an edit of mode \a m. Derived classes can reimplement this function and provide their own confirmation dialog. The default implementation uses a message box which prompts the user to confirm the edit action. */ TQSql::Confirm TQDataBrowser::confirmEdit( TQSql::Op m ) { return d->dat.confirmEdit( this, m ); } /*! Protected virtual function which returns a confirmation for cancelling an edit mode \a m. Derived classes can reimplement this function and provide their own confirmation dialog. The default implementation uses a message box which prompts the user to confirm the edit action. */ TQSql::Confirm TQDataBrowser::confirmCancel( TQSql::Op m ) { return d->dat.confirmCancel( this, m ); } /*! \fn void TQDataBrowser::beforeInsert( TQSqlRecord* buf ) This signal is emitted just before the cursor's edit buffer is inserted into the database. The \a buf parameter points to the edit buffer being inserted. You might connect to this signal to populate a generated primary key for example. */ /*! \fn void TQDataBrowser::beforeUpdate( TQSqlRecord* buf ) This signal is emitted just before the cursor's edit buffer is updated in the database. The \a buf parameter points to the edit buffer being updated. You might connect to this signal to capture some auditing information about the update. */ /*! \fn void TQDataBrowser::beforeDelete( TQSqlRecord* buf ) This signal is emitted just before the cursor's edit buffer is deleted from the database. The \a buf parameter points to the edit buffer being deleted. You might connect to this signal to capture some auditing information about the deletion. */ #endif