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This example lets the user rotate, shear and scale text and graphics arbitrarily.
Implementation:
/**************************************************************************** ** $Id: qt/xform.cpp 3.3.8 edited Jan 11 14:37 $ ** ** Copyright (C) 1992-2007 Trolltech ASA. All rights reserved. ** ** This file is part of an example program for TQt. This example ** program may be used, distributed and modified without limitation. ** *****************************************************************************/ #include <ntqapplication.h> #include <ntqdialog.h> #include <ntqlabel.h> #include <ntqlineedit.h> #include <ntqpushbutton.h> #include <ntqcheckbox.h> #include <ntqradiobutton.h> #include <ntqbuttongroup.h> #include <ntqlcdnumber.h> #include <ntqslider.h> #include <ntqmenubar.h> #include <ntqfontdialog.h> #include <ntqlayout.h> #include <ntqvbox.h> #include <ntqwidgetstack.h> #include <ntqpainter.h> #include <ntqpixmap.h> #include <ntqpicture.h> #include <stdlib.h> class ModeNames { public: enum Mode { Text, Image, Picture }; }; class XFormControl : public TQVBox, public ModeNames { TQ_OBJECT public: XFormControl( const TQFont &initialFont, TQWidget *parent=0, const char *name=0 ); ~XFormControl() {} TQWMatrix matrix(); signals: void newMatrix( TQWMatrix ); void newText( const TQString& ); void newFont( const TQFont & ); void newMode( int ); private slots: void newMtx(); void newTxt(const TQString&); void selectFont(); void fontSelected( const TQFont & ); void changeMode(int); void timerEvent(TQTimerEvent*); private: Mode mode; TQSlider *rotS; // Rotation angle scroll bar TQSlider *shearS; // Shear value scroll bar TQSlider *magS; // Magnification value scroll bar TQLCDNumber *rotLCD; // Rotation angle LCD display TQLCDNumber *shearLCD; // Shear value LCD display TQLCDNumber *magLCD; // Magnification value LCD display TQCheckBox *mirror; // Checkbox for mirror image on/of TQWidgetStack* optionals; TQLineEdit *textEd; // Inp[ut field for xForm text TQPushButton *fpb; // Select font push button TQRadioButton *rb_txt; // Radio button for text TQRadioButton *rb_img; // Radio button for image TQRadioButton *rb_pic; // Radio button for picture TQFont currentFont; }; /* ShowXForm displays a text or a pixmap (TQPixmap) using a coordinate transformation matrix (TQWMatrix) */ class ShowXForm : public TQWidget, public ModeNames { TQ_OBJECT public: ShowXForm( const TQFont &f, TQWidget *parent=0, const char *name=0 ); ~ShowXForm() {} void showIt(); // (Re)displays text or pixmap Mode mode() const { return m; } public slots: void setText( const TQString& ); void setMatrix( TQWMatrix ); void setFont( const TQFont &f ); void setPixmap( TQPixmap ); void setPicture( const TQPicture& ); void setMode( int ); private: TQSizePolicy sizePolicy() const; TQSize sizeHint() const; void paintEvent( TQPaintEvent * ); void resizeEvent( TQResizeEvent * ); TQWMatrix mtx; // coordinate transform matrix TQString text; // text to be displayed TQPixmap pix; // pixmap to be displayed TQPicture picture; // text to be displayed TQRect eraseRect; // covers last displayed text/pixmap Mode m; }; XFormControl::XFormControl( const TQFont &initialFont, TQWidget *parent, const char *name ) : TQVBox( parent, name ) { setSpacing(6); setMargin(6); currentFont = initialFont; mode = Image; rotLCD = new TQLCDNumber( 4, this, "rotateLCD" ); rotS = new TQSlider( TQSlider::Horizontal, this, "rotateSlider" ); shearLCD = new TQLCDNumber( 5,this, "shearLCD" ); shearS = new TQSlider( TQSlider::Horizontal, this, "shearSlider" ); mirror = new TQCheckBox( this, "mirrorCheckBox" ); rb_txt = new TQRadioButton( this, "text" ); rb_img = new TQRadioButton( this, "image" ); rb_pic = new TQRadioButton( this, "picture" ); optionals = new TQWidgetStack(this); TQVBox* optionals_text = new TQVBox(optionals); optionals_text->setSpacing(6); TQVBox* optionals_other = new TQVBox(optionals); optionals_other->setSpacing(6); optionals->addWidget(optionals_text,0); optionals->addWidget(optionals_other,1); fpb = new TQPushButton( optionals_text, "text" ); textEd = new TQLineEdit( optionals_text, "text" ); textEd->setFocus(); rotLCD->display( " 0'" ); rotS->setRange( -180, 180 ); rotS->setValue( 0 ); connect( rotS, TQ_SIGNAL(valueChanged(int)), TQ_SLOT(newMtx()) ); shearLCD->display( "0.00" ); shearS->setRange( -25, 25 ); shearS->setValue( 0 ); connect( shearS, TQ_SIGNAL(valueChanged(int)), TQ_SLOT(newMtx()) ); mirror->setText( tr("Mirror") ); connect( mirror, TQ_SIGNAL(clicked()), TQ_SLOT(newMtx()) ); TQButtonGroup *bg = new TQButtonGroup(this); bg->hide(); bg->insert(rb_txt,0); bg->insert(rb_img,1); bg->insert(rb_pic,2); rb_txt->setText( tr("Text") ); rb_img->setText( tr("Image") ); rb_img->setChecked(TRUE); rb_pic->setText( tr("Picture") ); connect( bg, TQ_SIGNAL(clicked(int)), TQ_SLOT(changeMode(int)) ); fpb->setText( tr("Select font...") ); connect( fpb, TQ_SIGNAL(clicked()), TQ_SLOT(selectFont()) ); textEd->setText( "Troll" ); connect( textEd, TQ_SIGNAL(textChanged(const TQString&)), TQ_SLOT(newTxt(const TQString&)) ); magLCD = new TQLCDNumber( 4,optionals_other, "magLCD" ); magLCD->display( "100" ); magS = new TQSlider( TQSlider::Horizontal, optionals_other, "magnifySlider" ); magS->setRange( 0, 800 ); connect( magS, TQ_SIGNAL(valueChanged(int)), TQ_SLOT(newMtx()) ); magS->setValue( 0 ); connect( magS, TQ_SIGNAL(valueChanged(int)), magLCD, TQ_SLOT(display(int))); optionals_text->adjustSize(); optionals_other->adjustSize(); changeMode(Image); startTimer(20); // start an initial animation } void XFormControl::timerEvent(TQTimerEvent*) { int v = magS->value(); v = (v+2)+v/10; if ( v >= 200 ) { v = 200; killTimers(); } magS->setValue(v); } /* Called whenever the user has changed one of the matrix parameters (i.e. rotate, shear or magnification) */ void XFormControl::newMtx() { emit newMatrix( matrix() ); } void XFormControl::newTxt(const TQString& s) { emit newText(s); changeMode(Text); } /* Calculates the matrix appropriate for the current controls, and updates the displays. */ TQWMatrix XFormControl::matrix() { TQWMatrix m; if (mode != Text) { double magVal = 1.0*magS->value()/100; m.scale( magVal, magVal ); } double shearVal = 1.0*shearS->value()/25; m.shear( shearVal, shearVal ); m.rotate( rotS->value() ); if ( mirror->isChecked() ) { m.scale( 1, -1 ); m.rotate( 180 ); } TQString tmp; tmp.sprintf( "%1.2f", shearVal ); if ( shearVal >= 0 ) tmp.insert( 0, " " ); shearLCD->display( tmp ); int rot = rotS->value(); if ( rot < 0 ) rot = rot + 360; tmp.sprintf( "%3i'", rot ); rotLCD->display( tmp ); return m; } void XFormControl::selectFont() { bool ok; TQFont f = TQFontDialog::getFont( &ok, currentFont ); if ( ok ) { currentFont = f; fontSelected( f ); } } void XFormControl::fontSelected( const TQFont &font ) { emit newFont( font ); changeMode(Text); } /* Sets the mode - Text, Image, or Picture. */ void XFormControl::changeMode(int m) { mode = (Mode)m; emit newMode( m ); newMtx(); if ( mode == Text ) { optionals->raiseWidget(0); rb_txt->setChecked(TRUE); } else { optionals->raiseWidget(1); if ( mode == Image ) rb_img->setChecked(TRUE); else rb_pic->setChecked(TRUE); } tqApp->flushX(); } ShowXForm::ShowXForm( const TQFont &initialFont, TQWidget *parent, const char *name ) : TQWidget( parent, name, WResizeNoErase ) { setFont( initialFont ); setBackgroundColor( white ); m = Text; eraseRect = TQRect( 0, 0, 0, 0 ); } TQSizePolicy ShowXForm::sizePolicy() const { return TQSizePolicy( TQSizePolicy::Expanding, TQSizePolicy::Expanding ); } TQSize ShowXForm::sizeHint() const { return TQSize(400,400); } void ShowXForm::paintEvent( TQPaintEvent * ) { showIt(); } void ShowXForm::resizeEvent( TQResizeEvent * ) { eraseRect = TQRect( width()/2, height()/2, 0, 0 ); repaint(rect()); } void ShowXForm::setText( const TQString& s ) { text = s; showIt(); } void ShowXForm::setMatrix( TQWMatrix w ) { mtx = w; showIt(); } void ShowXForm::setFont( const TQFont &f ) { m = Text; TQWidget::setFont( f ); } void ShowXForm::setPixmap( TQPixmap pm ) { pix = pm; m = Image; showIt(); } void ShowXForm::setPicture( const TQPicture& p ) { picture = p; m = Picture; showIt(); } void ShowXForm::setMode( int mode ) { m = (Mode)mode; } void ShowXForm::showIt() { TQPainter p; TQRect r; // rectangle covering new text/pixmap in virtual coordinates TQWMatrix um; // copy user specified transform int textYPos = 0; // distance from boundingRect y pos to baseline int textXPos = 0; // distance from boundingRect x pos to text start TQRect br; TQFontMetrics fm( fontMetrics() ); // get widget font metrics switch ( mode() ) { case Text: br = fm.boundingRect( text ); // rectangle covering text r = br; textYPos = -r.y(); textXPos = -r.x(); br.moveTopLeft( TQPoint( -br.width()/2, -br.height()/2 ) ); break; case Image: r = TQRect(0, 0, pix.width()+1, pix.height()+1); break; case Picture: // ### need TQPicture::boundingRect() r = TQRect(0,0,1000,1000); break; } r.moveTopLeft( TQPoint(-r.width()/2, -r.height()/2) ); r.moveBy( -1, -1 ); // add border for matrix round off r.setSize( TQSize( r.width() + 2,r.height() + 2 ) ); // compute union of new and old rect // the resulting rectangle will cover what is already displayed // and have room for the new text/pixmap eraseRect = eraseRect.unite( mtx.mapRect(r) ); int pw = TQMIN(eraseRect.width(),width()); int ph = TQMIN(eraseRect.height(),height()); TQPixmap pm( pw, ph ); // off-screen drawing pixmap pm.fill( backgroundColor() ); p.begin( &pm ); um.translate( pw/2, ph/2 ); // 0,0 is center um = mtx * um; p.setWorldMatrix( um ); switch ( mode() ) { case Text: p.setFont( font() ); // use widget font p.drawText( r.left() + textXPos, r.top() + textYPos, text ); #if 0 p.setPen( red ); p.drawRect( br ); #endif break; case Image: p.drawPixmap( -pix.width()/2, -pix.height()/2, pix ); break; case Picture: // ### need TQPicture::boundingRect() p.scale(0.25,0.25); p.translate(-230,-180); p.drawPicture( picture ); } p.end(); int xpos = width()/2 - pw/2; int ypos = height()/2 - ph/2; bitBlt( this, xpos, ypos, // copy pixmap to widget &pm, 0, 0, -1, -1 ); eraseRect = mtx.map( r ); } /* Grand unifying widget, putting ShowXForm and XFormControl together. */ class XFormCenter : public TQHBox, public ModeNames { TQ_OBJECT public: XFormCenter( TQWidget *parent=0, const char *name=0 ); public slots: void setFont( const TQFont &f ) { sx->setFont( f ); } void newMode( int ); private: ShowXForm *sx; XFormControl *xc; }; void XFormCenter::newMode( int m ) { static bool first_i = TRUE; static bool first_p = TRUE; if ( sx->mode() == m ) return; if ( m == Image && first_i ) { first_i = FALSE; TQPixmap pm; if ( pm.load( "image.any" ) ) sx->setPixmap( pm ); return; } if ( m == Picture && first_p ) { first_p = FALSE; TQPicture p; if (p.load( "picture.any" )) sx->setPicture( p ); return; } sx->setMode(m); } XFormCenter::XFormCenter( TQWidget *parent, const char *name ) : TQHBox( parent, name ) { TQFont f( "Charter", 36, TQFont::Bold ); xc = new XFormControl( f, this ); sx = new ShowXForm( f, this ); setStretchFactor(sx,1); xc->setFrameStyle( TQFrame::Panel | TQFrame::Raised ); xc->setLineWidth( 2 ); connect( xc, TQ_SIGNAL(newText(const TQString&)), sx, TQ_SLOT(setText(const TQString&)) ); connect( xc, TQ_SIGNAL(newMatrix(TQWMatrix)), sx, TQ_SLOT(setMatrix(TQWMatrix)) ); connect( xc, TQ_SIGNAL(newFont(const TQFont&)), sx, TQ_SLOT(setFont(const TQFont&)) ); connect( xc, TQ_SIGNAL(newMode(int)), TQ_SLOT(newMode(int)) ); sx->setText( "Troll" ); newMode( Image ); sx->setMatrix(xc->matrix()); } int main( int argc, char **argv ) { TQApplication a( argc, argv ); XFormCenter *xfc = new XFormCenter; a.setMainWidget( xfc ); xfc->setCaption("TQt Example - XForm"); xfc->show(); return a.exec(); } #include "xform.moc" // include metadata generated by the moc
See also Examples.
Copyright © 2007 Trolltech | Trademarks | TQt 3.3.8
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