/* * $Id$ */ /* -------------------------------------------------------------------- */ /* WARNING: Automatically generated source file. DO NOT EDIT! */ /* Instead, edit corresponding .qth file, */ /* or the generator tool itself, and run regenarate. */ /* -------------------------------------------------------------------- */ /* * Harbour Project source code: * QT wrapper main header * * Copyright 2009-2010 Pritpal Bedi * * Copyright 2009 Marcos Antonio Gambeta * www - http://www.harbour-project.org * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this software; see the file COPYING. If not, write to * the Free Software Foundation, Inc., 59 Temple Place, Suite 330, * Boston, MA 02111-1307 USA (or visit the web site http://www.gnu.org/). * * As a special exception, the Harbour Project gives permission for * additional uses of the text contained in its release of Harbour. * * The exception is that, if you link the Harbour libraries with other * files to produce an executable, this does not by itself cause the * resulting executable to be covered by the GNU General Public License. * Your use of that executable is in no way restricted on account of * linking the Harbour library code into it. * * This exception does not however invalidate any other reasons why * the executable file might be covered by the GNU General Public License. * * This exception applies only to the code released by the Harbour * Project under the name Harbour. If you copy code from other * Harbour Project or Free Software Foundation releases into a copy of * Harbour, as the General Public License permits, the exception does * not apply to the code that you add in this way. To avoid misleading * anyone as to the status of such modified files, you must delete * this exception notice from them. * * If you write modifications of your own for Harbour, it is your choice * whether to permit this exception to apply to your modifications. * If you do not wish that, delete this exception notice. * */ /*----------------------------------------------------------------------*/ #include "../hbqt.h" /*----------------------------------------------------------------------*/ #if QT_VERSION >= 0x040500 /*----------------------------------------------------------------------*/ #include #include #include /* QMatrix () * QMatrix ( qreal m11, qreal m12, qreal m21, qreal m22, qreal dx, qreal dy ) * QMatrix ( const QMatrix & matrix ) */ typedef struct { QMatrix * ph; bool bNew; QT_G_FUNC_PTR func; } QGC_POINTER_QMatrix; QT_G_FUNC( hbqt_gcRelease_QMatrix ) { QGC_POINTER * p = ( QGC_POINTER * ) Cargo; if( p && p->bNew ) { if( p->ph ) { HB_TRACE( HB_TR_DEBUG, ( "ph=%p _rel_QMatrix /.\\", p->ph ) ); delete ( ( QMatrix * ) p->ph ); HB_TRACE( HB_TR_DEBUG, ( "ph=%p YES_rel_QMatrix \\./", p->ph ) ); p->ph = NULL; } else { HB_TRACE( HB_TR_DEBUG, ( "ph=%p DEL_rel_QMatrix : Object already deleted!", p->ph ) ); p->ph = NULL; } } else { HB_TRACE( HB_TR_DEBUG, ( "ph=%p PTR_rel_QMatrix : Object not created with new=true", p->ph ) ); p->ph = NULL; } } void * hbqt_gcAllocate_QMatrix( void * pObj, bool bNew ) { QGC_POINTER * p = ( QGC_POINTER * ) hb_gcAllocate( sizeof( QGC_POINTER ), hbqt_gcFuncs() ); p->ph = ( QMatrix * ) pObj; p->bNew = bNew; p->func = hbqt_gcRelease_QMatrix; if( bNew ) { HB_TRACE( HB_TR_DEBUG, ( "ph=%p _new_QMatrix", pObj ) ); } else { HB_TRACE( HB_TR_DEBUG, ( "ph=%p NOT_new_QMatrix", pObj ) ); } return p; } HB_FUNC( QT_QMATRIX ) { QMatrix * pObj = NULL; pObj = new QMatrix() ; hb_retptrGC( hbqt_gcAllocate_QMatrix( ( void * ) pObj, true ) ); } /* * qreal m11 () const */ HB_FUNC( QT_QMATRIX_M11 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retnd( ( p )->m11() ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_M11 FP=hb_retnd( ( p )->m11() ); p is NULL" ) ); } } /* * qreal m12 () const */ HB_FUNC( QT_QMATRIX_M12 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retnd( ( p )->m12() ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_M12 FP=hb_retnd( ( p )->m12() ); p is NULL" ) ); } } /* * qreal m21 () const */ HB_FUNC( QT_QMATRIX_M21 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retnd( ( p )->m21() ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_M21 FP=hb_retnd( ( p )->m21() ); p is NULL" ) ); } } /* * qreal m22 () const */ HB_FUNC( QT_QMATRIX_M22 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retnd( ( p )->m22() ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_M22 FP=hb_retnd( ( p )->m22() ); p is NULL" ) ); } } /* * qreal det () const */ HB_FUNC( QT_QMATRIX_DET ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retnd( ( p )->det() ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_DET FP=hb_retnd( ( p )->det() ); p is NULL" ) ); } } /* * qreal dx () const */ HB_FUNC( QT_QMATRIX_DX ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retnd( ( p )->dx() ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_DX FP=hb_retnd( ( p )->dx() ); p is NULL" ) ); } } /* * qreal dy () const */ HB_FUNC( QT_QMATRIX_DY ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retnd( ( p )->dy() ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_DY FP=hb_retnd( ( p )->dy() ); p is NULL" ) ); } } /* * QMatrix inverted ( bool * invertible = 0 ) const */ HB_FUNC( QT_QMATRIX_INVERTED ) { QMatrix * p = hbqt_par_QMatrix( 1 ); bool iInvertible = 0; if( p ) hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->inverted( &iInvertible ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_INVERTED FP=hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->inverted( &iInvertible ) ), true ) ); p is NULL" ) ); } hb_stornl( iInvertible, 2 ); } /* * bool isIdentity () const */ HB_FUNC( QT_QMATRIX_ISIDENTITY ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retl( ( p )->isIdentity() ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_ISIDENTITY FP=hb_retl( ( p )->isIdentity() ); p is NULL" ) ); } } /* * bool isInvertible () const */ HB_FUNC( QT_QMATRIX_ISINVERTIBLE ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retl( ( p )->isInvertible() ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_ISINVERTIBLE FP=hb_retl( ( p )->isInvertible() ); p is NULL" ) ); } } /* * void map ( qreal x, qreal y, qreal * tx, qreal * ty ) const */ HB_FUNC( QT_QMATRIX_MAP ) { QMatrix * p = hbqt_par_QMatrix( 1 ); qreal qrTx = 0; qreal qrTy = 0; if( p ) ( p )->map( hb_parnd( 2 ), hb_parnd( 3 ), &qrTx, &qrTy ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP FP=( p )->map( hb_parnd( 2 ), hb_parnd( 3 ), &qrTx, &qrTy ); p is NULL" ) ); } hb_stornd( qrTx, 4 ); hb_stornd( qrTy, 5 ); } /* * void map ( int x, int y, int * tx, int * ty ) const */ HB_FUNC( QT_QMATRIX_MAP_1 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); int iTx = 0; int iTy = 0; if( p ) ( p )->map( hb_parni( 2 ), hb_parni( 3 ), &iTx, &iTy ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP_1 FP=( p )->map( hb_parni( 2 ), hb_parni( 3 ), &iTx, &iTy ); p is NULL" ) ); } hb_storni( iTx, 4 ); hb_storni( iTy, 5 ); } /* * QPointF map ( const QPointF & point ) const */ HB_FUNC( QT_QMATRIX_MAP_2 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QPointF( new QPointF( ( p )->map( *hbqt_par_QPointF( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP_2 FP=hb_retptrGC( hbqt_gcAllocate_QPointF( new QPointF( ( p )->map( *hbqt_par_QPointF( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QPoint map ( const QPoint & point ) const */ HB_FUNC( QT_QMATRIX_MAP_3 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QPoint( new QPoint( ( p )->map( *hbqt_par_QPoint( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP_3 FP=hb_retptrGC( hbqt_gcAllocate_QPoint( new QPoint( ( p )->map( *hbqt_par_QPoint( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QLineF map ( const QLineF & line ) const */ HB_FUNC( QT_QMATRIX_MAP_4 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QLineF( new QLineF( ( p )->map( *hbqt_par_QLineF( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP_4 FP=hb_retptrGC( hbqt_gcAllocate_QLineF( new QLineF( ( p )->map( *hbqt_par_QLineF( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QLine map ( const QLine & line ) const */ HB_FUNC( QT_QMATRIX_MAP_5 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QLine( new QLine( ( p )->map( *hbqt_par_QLine( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP_5 FP=hb_retptrGC( hbqt_gcAllocate_QLine( new QLine( ( p )->map( *hbqt_par_QLine( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QPolygonF map ( const QPolygonF & polygon ) const */ HB_FUNC( QT_QMATRIX_MAP_6 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QPolygonF( new QPolygonF( ( p )->map( *hbqt_par_QPolygonF( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP_6 FP=hb_retptrGC( hbqt_gcAllocate_QPolygonF( new QPolygonF( ( p )->map( *hbqt_par_QPolygonF( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QPolygon map ( const QPolygon & polygon ) const */ HB_FUNC( QT_QMATRIX_MAP_7 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QPolygon( new QPolygon( ( p )->map( *hbqt_par_QPolygon( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP_7 FP=hb_retptrGC( hbqt_gcAllocate_QPolygon( new QPolygon( ( p )->map( *hbqt_par_QPolygon( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QRegion map ( const QRegion & region ) const */ HB_FUNC( QT_QMATRIX_MAP_8 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QRegion( new QRegion( ( p )->map( *hbqt_par_QRegion( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP_8 FP=hb_retptrGC( hbqt_gcAllocate_QRegion( new QRegion( ( p )->map( *hbqt_par_QRegion( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QPainterPath map ( const QPainterPath & path ) const */ HB_FUNC( QT_QMATRIX_MAP_9 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QPainterPath( new QPainterPath( ( p )->map( *hbqt_par_QPainterPath( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAP_9 FP=hb_retptrGC( hbqt_gcAllocate_QPainterPath( new QPainterPath( ( p )->map( *hbqt_par_QPainterPath( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QRectF mapRect ( const QRectF & rectangle ) const */ HB_FUNC( QT_QMATRIX_MAPRECT ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QRectF( new QRectF( ( p )->mapRect( *hbqt_par_QRectF( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAPRECT FP=hb_retptrGC( hbqt_gcAllocate_QRectF( new QRectF( ( p )->mapRect( *hbqt_par_QRectF( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QRect mapRect ( const QRect & rectangle ) const */ HB_FUNC( QT_QMATRIX_MAPRECT_1 ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QRect( new QRect( ( p )->mapRect( *hbqt_par_QRect( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAPRECT_1 FP=hb_retptrGC( hbqt_gcAllocate_QRect( new QRect( ( p )->mapRect( *hbqt_par_QRect( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QPolygon mapToPolygon ( const QRect & rectangle ) const */ HB_FUNC( QT_QMATRIX_MAPTOPOLYGON ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QPolygon( new QPolygon( ( p )->mapToPolygon( *hbqt_par_QRect( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_MAPTOPOLYGON FP=hb_retptrGC( hbqt_gcAllocate_QPolygon( new QPolygon( ( p )->mapToPolygon( *hbqt_par_QRect( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * void reset () */ HB_FUNC( QT_QMATRIX_RESET ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) ( p )->reset(); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_RESET FP=( p )->reset(); p is NULL" ) ); } } /* * QMatrix & rotate ( qreal degrees ) */ HB_FUNC( QT_QMATRIX_ROTATE ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->rotate( hb_parnd( 2 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_ROTATE FP=hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->rotate( hb_parnd( 2 ) ) ), true ) ); p is NULL" ) ); } } /* * QMatrix & scale ( qreal sx, qreal sy ) */ HB_FUNC( QT_QMATRIX_SCALE ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->scale( hb_parnd( 2 ), hb_parnd( 3 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_SCALE FP=hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->scale( hb_parnd( 2 ), hb_parnd( 3 ) ) ), true ) ); p is NULL" ) ); } } /* * void setMatrix ( qreal m11, qreal m12, qreal m21, qreal m22, qreal dx, qreal dy ) */ HB_FUNC( QT_QMATRIX_SETMATRIX ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) ( p )->setMatrix( hb_parnd( 2 ), hb_parnd( 3 ), hb_parnd( 4 ), hb_parnd( 5 ), hb_parnd( 6 ), hb_parnd( 7 ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_SETMATRIX FP=( p )->setMatrix( hb_parnd( 2 ), hb_parnd( 3 ), hb_parnd( 4 ), hb_parnd( 5 ), hb_parnd( 6 ), hb_parnd( 7 ) ); p is NULL" ) ); } } /* * QMatrix & shear ( qreal sh, qreal sv ) */ HB_FUNC( QT_QMATRIX_SHEAR ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->shear( hb_parnd( 2 ), hb_parnd( 3 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_SHEAR FP=hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->shear( hb_parnd( 2 ), hb_parnd( 3 ) ) ), true ) ); p is NULL" ) ); } } /* * QMatrix & translate ( qreal dx, qreal dy ) */ HB_FUNC( QT_QMATRIX_TRANSLATE ) { QMatrix * p = hbqt_par_QMatrix( 1 ); if( p ) hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->translate( hb_parnd( 2 ), hb_parnd( 3 ) ) ), true ) ); else { HB_TRACE( HB_TR_DEBUG, ( "............................... F=QT_QMATRIX_TRANSLATE FP=hb_retptrGC( hbqt_gcAllocate_QMatrix( new QMatrix( ( p )->translate( hb_parnd( 2 ), hb_parnd( 3 ) ) ), true ) ); p is NULL" ) ); } } /*----------------------------------------------------------------------*/ #endif /* #if QT_VERSION >= 0x040500 */ /*----------------------------------------------------------------------*/