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tdemultimedia/noatun/modules/kaiman/style.cpp

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/*
Copyright (c) 2000 Stefan Schimanski (1Stein@gmx.de)
1999-2000 Christian Esken (esken@kde.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 program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
#include <tdeapplication.h>
#include <kstandarddirs.h>
#include <tdemessagebox.h>
#include <tqfile.h>
#include <tqtextstream.h>
#include <tqpainter.h>
#include <tqdropsite.h>
#include <kdebug.h>
#include <tdelocale.h>
#include <kurldrag.h>
#include <tqtimer.h>
#include <stdlib.h>
#include <unistd.h>
#include "style.h"
#include "userinterface.h"
#include <noatun/app.h>
#include <noatun/stdaction.h>
const bool KaimanStyleSlider::optionVertical = 1;
const bool KaimanStyleSlider::optionReversed = 2;
const bool KaimanStyleText::optionExtended = 1;
KaimanStyleElement::KaimanStyleElement(TQWidget *parent, const char *name)
: TQWidget(parent, name)
{
// Initialize everything to default values
filename = "";
element = "";
upperLeft.setX(0);
upperLeft.setY(0);
dimension.setWidth(0);
dimension.setHeight(0);
optionPrelight = optionStatuslight = false;
options[0] = options[1] = options[2] = false;
_currentPixmap = 0;
digits = -1;
pixmapLines = 1;
pixmapColumns = 1;
setAcceptDrops(true);
pixmaps.setAutoDelete(true);
setBackgroundMode( NoBackground );
}
KaimanStyleElement::~KaimanStyleElement()
{
}
void KaimanStyleElement::loadPixmaps(TQString &val_s_filename)
{
TQPixmap pixmap;
bool i_b_ret = pixmap.load(val_s_filename);
pixmapNum = pixmapLines*pixmapColumns;
pixmaps.resize(pixmapNum);
if ( i_b_ret ) {
if(pixmapNum) {
int firstWidth, firstHeight, width, height, sourcex = 0, sourcey = 0;
// first bitmap may be with different size
if ( dimension.width()!=0 )
{
firstWidth = dimension.width();
if ( pixmapColumns>1 )
width = (pixmap.width()-firstWidth) / (pixmapColumns-1);
else
width = 0;
} else
firstWidth = width = pixmap.width() / pixmapColumns;
if ( dimension.height()!=0 )
{
firstHeight = dimension.height();
if ( pixmapLines>1 )
height = (pixmap.height()-firstHeight) / (pixmapLines-1);
else
height = 0;
} else
firstHeight = height = pixmap.height() / pixmapLines;
// create single pixmaps
int i=0;
sourcey = 0;
for( int y=0; y<pixmapLines; y++ )
{
int h = (y==0) ? firstHeight : height;
sourcex = 0;
for( int x=0; x<pixmapColumns; x++ )
{
int w = (x==0) ? firstWidth : width;
TQPixmap *part = new TQPixmap(w,h,pixmap.depth());
part->fill(TQt::black);
bitBlt(part,0,0,&pixmap,sourcex,sourcey,w,h);
pixmaps.insert(i,part);
if(pixmap.mask())
{
TQBitmap maskpart(w,h);
bitBlt(&maskpart,0,0,pixmap.mask(),sourcex,sourcey,w,h);
part->setMask(maskpart);
}
i++;
sourcex += w;
}
sourcey += h;
}
}
} else {
kdDebug() << "Cannot load pixmap " << val_s_filename << endl;
for ( int i=0; i<pixmapNum; i++ )
{
TQPixmap *pm = new TQPixmap(10, 10);
pm->fill(TQt::black);
pixmaps.insert( i, pm );
}
}
if ( dimension.width()==0 ) dimension.setWidth( pixmaps[0]->width() );
if ( dimension.height()==0 ) dimension.setHeight( pixmaps[0]->height() );
setGeometry( TQRect(upperLeft, dimension) );
}
void KaimanStyleElement::setPixmap( int num )
{
if ( num!=_currentPixmap )
{
if ( num>pixmapNum-1 ) num = pixmapNum-1;
if ( num<0 ) num = 0;
_currentPixmap = num;
repaint( FALSE );
}
}
void KaimanStyleElement::paintEvent ( TQPaintEvent */*qpe*/ )
{
TQPixmap *pm = pixmaps[_currentPixmap];
if ( pm )
bitBlt(this, 0, 0, pm );
else
kdDebug() << "Invalid pixmap" << endl;
/* TQPainter p( this );
p.setBrush( NoBrush );
p.setPen( TQColor(255,255,255) );
p.drawRect( 0, 0, width(), height() );
p.drawText( 2, 16, name() ); */
}
void KaimanStyleElement::dragEnterEvent( TQDragEnterEvent *event )
{
event->accept( KURLDrag::canDecode(event) );
}
void KaimanStyleElement::dropEvent( TQDropEvent *event )
{
((Kaiman*)(parentWidget()->parentWidget()))->doDropEvent(event);
}
/***************************************************************************/
KaimanStyleButton::KaimanStyleButton(TQWidget *parent, const char *name)
: KaimanStyleMasked(parent, name)
{
i_b_lit = i_b_prelit = i_b_down = false;
i_i_currentState = NormalUp;
I_pmIndex.resize( StateListEND );
for (int i=0; i<StateListEND; i++) {
// Set pixmap index of all states to 0 (the default pixmap)
I_pmIndex.insert( i, new int(0));
}
}
KaimanStyleButton::~KaimanStyleButton()
{
}
void KaimanStyleButton::mousePressEvent(TQMouseEvent *qme)
{
// We deactivate prelight, because the user presses the button.
// So it is now down, but there is no PrelitDown icon (BTW: would
// make no real sense anyhow).
setPrelight(false);
setDown(true);
grabMouse();
KaimanStyleMasked::mousePressEvent( qme );
}
void KaimanStyleButton::mouseReleaseEvent(TQMouseEvent *qme)
{
releaseMouse ();
if (down())
{
setDown(false);
emit clicked();
}
KaimanStyleMasked::mouseReleaseEvent( qme );
}
/* paint prelight */
void KaimanStyleButton::enterEvent ( TQEvent * e )
{
if ( !down() )
setPrelight(true);
KaimanStyleMasked::enterEvent( e );
}
/* unpaint prelight */
void KaimanStyleButton::leaveEvent ( TQEvent * e )
{
if (!down())
setPrelight(false);
KaimanStyleMasked::leaveEvent( e );
}
bool KaimanStyleButton::lit()
{
return i_b_lit;
}
void KaimanStyleButton::setLit(bool val_b_lit)
{
i_b_lit = val_b_lit;
updateButtonState();
}
bool KaimanStyleButton::prelit()
{
return i_b_prelit;
}
void KaimanStyleButton::setPrelight(bool val_b_prelit)
{
i_b_prelit = val_b_prelit;
updateButtonState();
}
bool KaimanStyleButton::down()
{
return i_b_down;
}
void KaimanStyleButton::setDown(bool val_b_down)
{
i_b_down = val_b_down;
updateButtonState();
}
void KaimanStyleButton::updateButtonState() {
if ( i_b_prelit ) {
if ( i_b_lit ) {
// Prelit and Lit
i_i_currentState = PrelightLitUp;
}
else {
// Prelit and not Lit
i_i_currentState = PrelightUp;
}
}
else if ( i_b_lit ) {
if ( i_b_down ) {
// Lit and Down
i_i_currentState = LitDown;
} else {
// Lit and not Down
i_i_currentState = LitUp;
}
}
else {
if ( i_b_down ) {
// Normal and Down
i_i_currentState = NormalDown;
}
else {
// Normal and not Down
i_i_currentState = NormalUp;
}
}
setPixmap( *I_pmIndex[i_i_currentState] );
repaint();
}
/***********************************************************************/
KaimanStyleSlider::KaimanStyleSlider(int min, int max, TQWidget *parent, const char *name)
: KaimanStyleMasked( parent, name )
{
_min = min;
_max = max;
_down = false;
_lit = false;
setValue( _min );
}
KaimanStyleSlider::~KaimanStyleSlider()
{
}
void KaimanStyleSlider::setValue( int value )
{
if (value>_max) value=_max;
if (value<_min) value=_min;
_value = value;
repaint();
}
void KaimanStyleSlider::setValue( int value, int min, int max )
{
if ( value!=_value || min!=_min || max!=_max ) {
_min = min;
_max = max;
setValue( value );
repaint();
}
}
int KaimanStyleSlider::pos2value( int x, int y )
{
int p;
int v;
if ( options[optionVertical] ) {
p = y;
v = p*(_max-_min)/height();
} else {
p = x;
v = p*(_max-_min)/width();
}
if ( options[optionReversed] ) v = (_max-_min) - v;
return _min + v;
}
void KaimanStyleSlider::mouseMoveEvent(TQMouseEvent *qme)
{
KaimanStyleMasked::mouseMoveEvent( qme );
if ( _down )
{
setValue( pos2value(qme->x(), qme->y()) );
emit newValue( value() );
}
}
void KaimanStyleSlider::mousePressEvent(TQMouseEvent *qme)
{
if ( !_down )
{
grabMouse();
_down = true;
setValue( pos2value(qme->x(), qme->y()) );
emit newValueDrag( value() );
emit newValue( value() );
}
KaimanStyleMasked::mousePressEvent( qme );
}
void KaimanStyleSlider::mouseReleaseEvent(TQMouseEvent *qme)
{
if ( _down )
{
_down = false;
releaseMouse();
repaint();
setValue( pos2value(qme->x(), qme->y()) );
emit newValue( value() );
emit newValueDrop( value() );
}
KaimanStyleMasked::mouseReleaseEvent( qme );
}
void KaimanStyleSlider::paintEvent(TQPaintEvent */*qpe*/)
{
// draw background
bitBlt( this, 0, 0, pixmaps[0] );
// draw optional handle
TQPixmap *handle;
if ( _down )
handle = pixmaps[2];
else
{
if ( _lit && optionPrelight )
handle = pixmaps[3];
else
handle = pixmaps[1];
}
if ( handle && handle->width() )
{
int x = 0;
int y = 0;
if ( _max-_min ) {
int v = _value-_min;
if ( options[optionReversed] ) v = (_max-_min) - v;
if ( options[optionVertical] )
y = ( height()-handle->height() ) * v / (_max-_min);
else
x = ( width()-handle->width() ) * v / (_max-_min);
}
bitBlt( this, x, y, handle );
}
}
void KaimanStyleSlider::enterEvent ( TQEvent * e )
{
if ( !_lit && optionPrelight )
{
_lit = true;
repaint();
}
KaimanStyleMasked::enterEvent( e );
}
void KaimanStyleSlider::leaveEvent ( TQEvent * e )
{
if ( _lit )
{
_lit = false;
repaint();
}
KaimanStyleMasked::leaveEvent( e );
}
/***********************************************************************/
KaimanStyleBackground::KaimanStyleBackground(TQWidget *parent, const char *name)
: KaimanStyleMasked( parent, name )
{
i_b_move = false;
}
KaimanStyleBackground::~KaimanStyleBackground()
{
}
void KaimanStyleBackground::mouseReleaseEvent(TQMouseEvent *qme)
{
i_b_move = false;
KaimanStyleMasked::mouseReleaseEvent( qme );
}
void KaimanStyleBackground::mouseMoveEvent(TQMouseEvent *qme)
{
TQPoint diff = qme->globalPos() - i_point_lastPos;
if ( abs(diff.x()) > 10 || abs(diff.y()) > 10) {
// Moving starts only, when passing a drag border
i_b_move = true;
}
if ( i_b_move ) {
TQWidget *p = parentWidget()->parentWidget();
if ( !p ) p = parentWidget();
p->move( qme->globalPos() - i_point_dragStart );
}
KaimanStyleMasked::mouseMoveEvent( qme );
}
void KaimanStyleBackground::mousePressEvent(TQMouseEvent *qme)
{
// On the background we move the shaped toplevel around
if (!i_b_move) {
i_point_dragStart = qme->pos();
i_point_lastPos = qme->globalPos();
}
KaimanStyleMasked::mousePressEvent( qme );
}
/***********************************************************************/
KaimanStyleValue::KaimanStyleValue(int min, int max, TQWidget *parent, const char *name)
: KaimanStyleMasked( parent, name )
{
_min = min;
_max = max;
_value = _min;
setPixmap( 0 );
}
KaimanStyleValue::~KaimanStyleValue()
{
}
void KaimanStyleValue::setValue( int value )
{
if (value>_max) value=_max;
if (value<_min) value=_min;
_value = value;
int len = _max-_min;
if ( len )
setPixmap( (_value-_min)*pixmapNum/len );
else
setPixmap( 0 );
}
void KaimanStyleValue::setValue( int value, int min, int max )
{
_min = min;
_max = max;
setValue( value );
}
/***********************************************************************/
KaimanStyleNumber::KaimanStyleNumber(TQWidget *parent, const char *name)
: KaimanStyleElement( parent, name )
{
//kdDebug(66666) << k_funcinfo << "name = '" << name << "'" << endl;
_value = 0;
if (TQCString(name) == "In_Rate_Number")
digits = 3;
else
digits = 2;
}
KaimanStyleNumber::~KaimanStyleNumber()
{
}
void KaimanStyleNumber::loadPixmaps(TQString &val_s_filename)
{
KaimanStyleElement::loadPixmaps( val_s_filename );
resize( digits*pixmaps[0]->width(),pixmaps[0]->height() );
}
void KaimanStyleNumber::setValue( int value )
{
if ( _value!=value )
{
_value = value;
repaint();
}
}
void KaimanStyleNumber::paintEvent(TQPaintEvent */*qpe*/)
{
// check for overflow
int v = _value;
for ( int i=digits; i>0 && v>0; i-- )
v /= 10;
if ( v!=0 )
v = 999999999; // overflow
else
v = _value;
// draw number
int x = width();
do {
x -= pixmaps[0]->width();
bitBlt(this, x, 0, pixmaps[v%10] );
v /= 10;
} while ( v>0 );
// draw right free space
while ( x>0 )
{
x -= pixmaps[0]->width();
bitBlt(this, x, 0, pixmaps[0] );
}
/*
TQPainter p( this );
p.setBrush( NoBrush );
p.setPen( TQColor(255,255,255) );
p.drawRect( 0, 0, width(), height() );
p.drawText( 2, 16, name() );*/
}
/***********************************************************************/
KaimanStyleText::KaimanStyleText(TQWidget *parent, const char *name)
: KaimanStyleElement( parent, name )
{
_pos = 0;
_timer = new TQTimer( this );
_delay = 500;
connect( _timer, TQT_SIGNAL(timeout()), this, TQT_SLOT(timeout()) );
}
KaimanStyleText::~KaimanStyleText()
{
}
void KaimanStyleText::loadPixmaps(TQString &val_s_filename)
{
KaimanStyleElement::loadPixmaps( val_s_filename );
resize( digits*pixmaps[0]->width(), pixmaps[0]->height() );
}
void KaimanStyleText::setValue( TQString value )
{
if ( value!=_value ) {
_pos = 0;
_direction = 1;
_value = value;
repaint();
}
}
void KaimanStyleText::startAnimation( int delay )
{
_pos = 0;
_direction = 1;
_delay = delay;
_timer->start( _delay, TRUE );
}
void KaimanStyleText::stopAnimation()
{
_pos = 0;
_timer->stop();
}
void KaimanStyleText::timeout()
{
// reflect
if ( _pos+_direction<0 || (int)_value.length()-(_pos+_direction)<digits ) {
_direction = -_direction;
_timer->start( _delay*5, TRUE );
} else {
// check new position
if ( _pos+_direction>=0 && (int)_value.length()-(_pos+_direction)>=digits ) {
_pos += _direction;
repaint();
}
_timer->start( _delay, TRUE );
}
}
void KaimanStyleText::paintEvent(TQPaintEvent */*qpe*/)
{
// draw number
int p;
for (p=0; p<digits && p<(int)_value.length()-_pos; p++ )
{
int pmNum = _value[p+_pos].latin1() - ' ' ;
if ( pmNum>=96 ) pmNum = '?' - ' ';
if ( pmNum<0 ) pmNum = '?' - ' ';
TQPixmap *pm = pixmaps[pmNum];
if ( pm ) bitBlt(this, p*pixmaps[0]->width(), 0, pm );
}
TQPixmap *pm = pixmaps[0];
for ( ; p<digits; p++ )
bitBlt(this, p*pixmaps[0]->width(), 0, pm );
/* TQPainter pnt( this );
pnt.setBrush( NoBrush );
pnt.setPen( TQColor(255,255,255) );
pnt.drawRect( 0, 0, width(), height() );
pnt.drawText( 2, 16, name() );*/
}
/***********************************************************************/
KaimanStyleAnimation::KaimanStyleAnimation(int delay, TQWidget *parent, const char *name)
: KaimanStyleMasked( parent, name )
{
_delay = delay;
_frame = 0;
_timer = new TQTimer( this );
connect( _timer, TQT_SIGNAL(timeout()), this, TQT_SLOT(timeout()) );
}
KaimanStyleAnimation::~KaimanStyleAnimation()
{
}
void KaimanStyleAnimation::start()
{
_timer->start( _delay, FALSE );
}
void KaimanStyleAnimation::pause()
{
_timer->stop();
}
void KaimanStyleAnimation::stop()
{
_timer->stop();
_frame = 0;
setPixmap( _frame );
}
void KaimanStyleAnimation::timeout()
{
_frame++;
if ( _frame>=pixmapNum ) _frame = 1;
setPixmap( _frame );
}
/***********************************************************************/
KaimanStyleState::KaimanStyleState(TQWidget *parent, const char *name)
: KaimanStyleMasked( parent, name )
{
_value = 0;
}
KaimanStyleState::~KaimanStyleState()
{
}
void KaimanStyleState::setValue( int value )
{
_value = value;
setPixmap( _value );
}
void KaimanStyleState::mousePressEvent(TQMouseEvent *qme)
{
emit clicked();
KaimanStyleMasked::mouseReleaseEvent( qme );
}
/***********************************************************************/
KaimanStyle::KaimanStyle( TQWidget *parent, const char *name )
: TQWidget( parent, name )
{
i_qw_parent = parent;
i_eventSemaphore = false;
}
KaimanStyle::~KaimanStyle()
{
}
int KaimanStyle::parseStyleFile(TQString &l_s_tmpName)
{
int l_i_ret = false;
TQStringList l_s_tokens;
TQFile l_fd(l_s_tmpName);
if ( l_fd.open(IO_ReadOnly) ) {
// file opened successfully
TQTextStream l_ts_line( &l_fd );
TQString l_s_textLine, l_s_token;
while ( !l_ts_line.eof() ) {
// Clear list of tokens (we are going to fill them now)
l_s_tokens.clear();
// Read a line
l_s_textLine = l_ts_line.readLine();
l_s_textLine = l_s_textLine.simplifyWhiteSpace();
if ( l_s_textLine.left(1) != "#" ) {
// OK, this is not a comment line
if ( l_s_textLine.isNull())
l_s_textLine = "";
while ( !l_s_textLine.isEmpty() ) {
l_s_token = getToken(l_s_textLine, ' ');
if ( ! l_s_token.isEmpty() ) {
// OK. There is a useful token. It is not NULL
if ( l_s_token.right(1) == ":" )
l_s_tokens.append(l_s_token.left(l_s_token.length() -1 ));
else
l_s_tokens.append(l_s_token);
} // -<- if it is a not-empty token
} // -<- while there are tokens available
interpretTokens(l_s_tokens);
} // -<- if is not comment line
} // -<- While not EOF on file
l_i_ret = 0;
} // -<- if file could be opened
else {
l_i_ret = KaimanStyle::FileNotFound;
}
return l_i_ret;
}
/*
This function gets a list of tokens and inserts a new
KaimanStyleElement in I_styleElem. */
void KaimanStyle::interpretTokens(TQStringList& ref_s_tokens)
{
if ( ref_s_tokens.count() < 1 ) {
// A list with less than 1 item is useless to us
return;
}
TQString l_s_tokenTypes;
const TQString &l_s_elem = ref_s_tokens.first();
bool l_vertPixmaps = false;
int l_i_pmIndex[KaimanStyleButton::StateListEND];
for (int i=0; i<KaimanStyleButton::StateListEND; i++) l_i_pmIndex[i]=0;
enum { UnknownElement, BackgroundElement, MaskElement, ButtonElement, SliderElement,
ValueElement, AnimationElement, StateElement, DigitElement, NumberElement,
TextElement } l_elementType = UnknownElement;
// Now determine the meaning of the following tokens
// l_s_tokenTypes stores the meaning (e.g. x-Position, filename, ...)
if ( l_s_elem == "Background" ) {
l_s_tokenTypes = "f";
l_elementType = BackgroundElement;
}
// ---
else if ( l_s_elem == "Mask" ) {
l_s_tokenTypes = "f";
l_elementType = MaskElement;
} else if ( l_s_elem=="Digit_Small" || l_s_elem=="Digit_Small_Default" ) {
i_smallFont = ref_s_tokens[1];
return;
} else if ( l_s_elem=="Digit_Large" || l_s_elem=="Digit_Large_Default" ) {
i_largeFont = ref_s_tokens[1];
return;
}
// ---
else if ( l_s_elem == "Title" ||
l_s_elem == "Album" ||
l_s_elem == "Artist" ||
l_s_elem == "Genre" ) {
// You can have an OPTIONAL argument, so lets see if it is there.
if (ref_s_tokens.count() == 6 )
l_s_tokenTypes = "fd1xy";
else
l_s_tokenTypes = "fdxy";
l_elementType = TextElement;
}
// ---
else if ( l_s_elem == "Play_Button" ||
l_s_elem == "Pause_Button" ||
l_s_elem == "Stop_Button" ||
l_s_elem == "Shuffle_Button" ||
l_s_elem == "Repeat_Button" ) {
l_s_tokenTypes = "fPSxy";
l_i_pmIndex[KaimanStyleButton::NormalUp] = 0;
l_i_pmIndex[KaimanStyleButton::NormalDown] = 1;
l_i_pmIndex[KaimanStyleButton::LitUp] = 2;
l_i_pmIndex[KaimanStyleButton::LitDown] = 3;
l_i_pmIndex[KaimanStyleButton::PrelightUp] = 4;
l_i_pmIndex[KaimanStyleButton::PrelightLitUp] = 5;
l_elementType = ButtonElement;
}
// ---
else if ( l_s_elem == "Next_Button" ||
l_s_elem == "Prev_Button" ||
l_s_elem == "FF" ||
l_s_elem == "RW" ||
l_s_elem == "Playlist_Button" ||
l_s_elem == "Config_Button" ||
l_s_elem == "Iconify_Button" ||
l_s_elem == "Mixer_Button" ||
l_s_elem == "Exit_Button" ||
l_s_elem == "Alt_Skin_Button" ||
l_s_elem == "Volume_Up_Button" ||
l_s_elem == "Volume_Down_Button" ||
l_s_elem == "Balance_Left_Button" ||
l_s_elem == "Balance_Right_Button" ) {
l_i_pmIndex[KaimanStyleButton::NormalUp] = 0;
l_i_pmIndex[KaimanStyleButton::NormalDown] = 1;
l_i_pmIndex[KaimanStyleButton::PrelightUp] = 2;
l_s_tokenTypes = "fPxy";
l_elementType = ButtonElement;
}
// ---
else if ( l_s_elem == "Stereo_Item" ||
l_s_elem == "Shuffle_Item" ||
l_s_elem == "Repeat_Item" ||
l_s_elem == "Mpegversion_Item" ||
l_s_elem == "Mpeglayer_Item" ||
l_s_elem == "Mpegmode_Item" ||
l_s_elem == "Status_Item" ) {
l_s_tokenTypes = "Vfxy";
l_elementType = StateElement;
}
// ---
else if ( l_s_elem == "Hour_Number" ||
l_s_elem == "Minute_Number" ||
l_s_elem == "Second_Number" ||
l_s_elem == "Song_Number" ||
l_s_elem == "Total_Number" ||
l_s_elem == "In_Rate_Number" ||
l_s_elem == "In_Hz_Number" ||
l_s_elem == "Out_Bits" ||
l_s_elem == "Out_Hz" ||
l_s_elem == "Song_Minute" ||
l_s_elem == "Song_Second" ||
l_s_elem == "Frame" ||
l_s_elem == "Frame_Total" ||
l_s_elem == "CPU_Number" ||
l_s_elem == "Hour_Total" ||
l_s_elem == "Minute_Total" ||
l_s_elem == "Second_Total_Number" ) {
// You can have an OPTIONAL argument, so lets see if it is there.
if (ref_s_tokens.count() == 6 )
l_s_tokenTypes = "fd1xy";
else if (ref_s_tokens.count() == 5 )
l_s_tokenTypes = "fdxy";
else
l_s_tokenTypes = "fxy";
l_elementType = NumberElement;
}
// ---
else if ( l_s_elem == "Position_Item" ||
l_s_elem == "Volume_Item" ||
l_s_elem == "Balance_Item" ) {
l_s_tokenTypes = "Vflxy";
l_elementType = ValueElement;
}
// ---
else if ( l_s_elem == "Load_Item" ) {
l_s_tokenTypes = "Vflxy";
l_elementType = AnimationElement;
}
// ---
else if ( l_s_elem == "Position_Slider" ||
l_s_elem == "Volume_Slider" ||
l_s_elem == "Balance_Slider" ) {
if ( ref_s_tokens.count()==10 )
l_s_tokenTypes = "VfP12wxyh";
else
l_s_tokenTypes = "VfP12sxy";
l_elementType = SliderElement;
}
else {
kdDebug() << l_s_elem << " not handled yet." << endl;
l_s_tokenTypes = "f";
}
/* The above lines decode the meanings of the tokens. The rules for
this are the SKIN-SPECS. So the decoder implements a syntactic
analyser (parser).
I now do know the type of each tokens, whether it represents a
filename, the prelight parameter, the x position or what else. This
information resides in l_s_tokenTypes, and will help in creating
the kaiman style elements.
I will now do two things:
1) Create a new KaimanStyle*, that is inserted into I_styleElem.
2) Fill the KaimanStyleElement structure, by interpreting the tokens.
*/
TQStringList::Iterator li_s_tokens = ref_s_tokens.begin();
++ li_s_tokens; // Skip the name of the element
// 1) Create a new KaimanStyleElement, that is inserted into I_styleElem.
KaimanStyleElement *l_kse_elem = 0;
KaimanStyleButton *but = 0;
switch ( l_elementType )
{
case BackgroundElement:
l_kse_elem = new KaimanStyleBackground(this, l_s_elem.latin1());
l_kse_elem->show();
break;
case MaskElement:
l_kse_elem = new KaimanStyleElement(this, l_s_elem.latin1());
l_kse_elem->hide();
break;
case ButtonElement:
l_kse_elem = new KaimanStyleButton(this, l_s_elem.latin1());
but = static_cast<KaimanStyleButton*>(l_kse_elem);
l_kse_elem->show();
break;
case SliderElement:
l_kse_elem = new KaimanStyleSlider(0, 100, this, l_s_elem.latin1());
i_sliders.append(l_kse_elem);
l_kse_elem->show();
break;
case ValueElement:
l_kse_elem = new KaimanStyleValue(0, 100, this, l_s_elem.latin1());
break;
case AnimationElement:
l_kse_elem = new KaimanStyleAnimation(30, this, l_s_elem.latin1());
break;
case StateElement:
l_kse_elem = new KaimanStyleState(this, l_s_elem.latin1());
break;
case NumberElement:
l_kse_elem = new KaimanStyleNumber(this, l_s_elem.latin1());
break;
case TextElement:
l_kse_elem = new KaimanStyleText(this, l_s_elem.latin1());
break;
default:
break;
}
if ( !l_kse_elem )
{
kdDebug() << "Ignoring style element " << l_s_elem << endl;
return;
}
// insert element into element list
uint l_i_size = I_styleElem.size();
I_styleElem.resize(l_i_size + 1);
I_styleElem.insert(l_i_size, l_kse_elem);
l_kse_elem->installEventFilter( this );
// initialize element parameters
l_kse_elem->element = l_s_elem;
if ( l_s_tokenTypes.left(1) == "V" ) {
// Vertical flag
l_vertPixmaps = true;
l_s_tokenTypes = l_s_tokenTypes.mid(1);
}
// initialize button parameters
if ( but )
{
for (int i=0; i<KaimanStyleButton::StateListEND; i++)
but->I_pmIndex.insert(i, new int(l_i_pmIndex[i]) );
}
// 2) Fill the KaimanStyleElement structure, by interpreting the tokens.
while ( l_s_tokenTypes.length() != 0 ) {
/* The skindata format allows omitting arguments if the parser
can reconstruct without problems what you mean. This is taken
into account when writing the l_s_tokenTypes sting.
Unfortunately, several skins do ship with a broken skindata file.
Most common problem is that width and height is also given.
Even worse examples leave out specified parametes and add others.
For instance, the pause line is specified as "fPSxy". But in k9
the line looks like
Pause_Button: pause.jpg FALSE 91 148 116 173
So the actual parameters are fPxywh. The parser has to be pretty
smart now. It should "see" that S (status light) is not present,
since that should be either TRUE or FALSE, and distribute the
others accordingly. */
bool skipOne;
do {
skipOne = false;
// Take the first item from the l_s_tokenTypes;
char l_c_type = (l_s_tokenTypes[0]).latin1();
l_s_tokenTypes = l_s_tokenTypes.mid(1);
TQString l_s_token = *li_s_tokens;
switch(l_c_type) {
case 'f':
// filename
l_kse_elem->filename = l_s_token;
break;
case 'P':
// Prelight
if ( l_s_token.upper() == "TRUE" )
l_kse_elem->optionPrelight = true;
else
{
l_kse_elem->optionPrelight = false;
// was that token really there?
skipOne = ( l_s_token.upper() != "FALSE" );
}
break;
case 'S':
// Statuslight
if ( l_s_token.upper() == "TRUE" )
l_kse_elem->optionStatuslight = true;
else
{
l_kse_elem->optionStatuslight = false;
// was that token really there?
skipOne = ( l_s_token.upper() != "FALSE" );
}
break;
case '1':
// parameter 1
if ( l_s_token.upper() == "TRUE" )
l_kse_elem->options[0] = true;
else
{
l_kse_elem->options[0] = false;
// was that token really there?
skipOne = ( l_s_token.upper() != "FALSE" );
}
break;
case '2':
// parameter 2
if ( l_s_token.upper() == "TRUE" )
l_kse_elem->options[1] = true;
else
{
l_kse_elem->options[1] = false;
// was that token really there?
skipOne = ( l_s_token.upper() != "FALSE" );
}
break;
case '3':
// parameter 3
if ( l_s_token.upper() == "TRUE" )
l_kse_elem->options[2] = true;
else
{
l_kse_elem->options[2] = false;
// was that token really there?
skipOne = ( l_s_token.upper() != "FALSE" );
}
break;
case 'l':
// length
if ( l_vertPixmaps )
l_kse_elem->pixmapLines = l_s_token.toInt();
else
l_kse_elem->pixmapColumns = l_s_token.toInt();
break;
case 'x':
// x Position
l_kse_elem->upperLeft.setX(l_s_token.toInt());
break;
case 'y':
// y Position
l_kse_elem->upperLeft.setY(l_s_token.toInt());
break;
case 's':
// dimension
if ( l_kse_elem->options[KaimanStyleSlider::optionVertical] )
l_kse_elem->dimension.setHeight(l_s_token.toInt());
else
l_kse_elem->dimension.setWidth(l_s_token.toInt());
break;
case 'w':
// width
l_kse_elem->dimension.setWidth(l_s_token.toInt());
break;
case 'h':
// height
l_kse_elem->dimension.setHeight(l_s_token.toInt());
break;
case 'd':
// number of digits
l_kse_elem->digits = l_s_token.toInt();
break;
default:
kdDebug() << "Element type '" << l_c_type << "' unknown" << endl;
}
if(skipOne) {
kdDebug() << "Skipped one element '" << l_c_type << "'" << endl;
}
} while(skipOne && l_s_tokenTypes.length() != 0);
// Next token.
++li_s_tokens;
if (li_s_tokens == ref_s_tokens.end() ) {
// End of token list
break;
}
}
/* Do some post-processing */
if( l_elementType==ButtonElement ) {
// <Normal button>
if(but->optionPrelight) {
// --- Has Prelight ---
if(but->optionStatuslight)
but->pixmapColumns = 6;
else {
but->pixmapColumns = 3;
but->I_pmIndex.insert( KaimanStyleButton::LitUp,
new int( *(but->I_pmIndex[KaimanStyleButton::NormalUp])));
but->I_pmIndex.insert( KaimanStyleButton::LitDown,
new int( *(but->I_pmIndex[KaimanStyleButton::NormalDown])));
}
} else {
// --- Has No Prelight ---
but->I_pmIndex.insert( KaimanStyleButton::PrelightUp,
new int( *(but->I_pmIndex[KaimanStyleButton::NormalUp])));
but->I_pmIndex.insert( KaimanStyleButton::PrelightLitUp,
new int( *(but->I_pmIndex[KaimanStyleButton::LitUp])));
if(l_kse_elem->optionStatuslight)
but->pixmapColumns = 4;
else {
but->pixmapColumns = 2;
but->I_pmIndex.insert( KaimanStyleButton::LitUp,
new int( *(but->I_pmIndex[KaimanStyleButton::NormalUp])));
but->I_pmIndex.insert( KaimanStyleButton::LitDown,
new int( *(but->I_pmIndex[KaimanStyleButton::NormalDown])));
but->I_pmIndex.insert( KaimanStyleButton::PrelightLitUp,
new int( *(but->I_pmIndex[KaimanStyleButton::NormalUp])));
}
}
} else if( l_elementType==NumberElement ) {
// number items
l_kse_elem->pixmapColumns = 11;
if ( l_kse_elem->filename=="Small" ) l_kse_elem->filename = i_smallFont;
else if ( l_kse_elem->filename=="Large" ) l_kse_elem->filename = i_largeFont;
} else if( l_elementType==SliderElement ) {
// slider items
if ( l_kse_elem->options[KaimanStyleSlider::optionVertical] )
l_kse_elem->pixmapLines = l_kse_elem->optionPrelight ? 4 : 3;
else
l_kse_elem->pixmapColumns = l_kse_elem->optionPrelight ? 4 : 3;
} else if( l_elementType==TextElement ) {
// text items
l_kse_elem->pixmapColumns = 32;
l_kse_elem->pixmapLines = l_kse_elem->options[KaimanStyleText::optionExtended] ? 6 : 3;
} else {
// <Not standard element>
if(l_s_elem == "Stereo_Item")
l_kse_elem->pixmapLines = 3;
else if(l_s_elem == "Shuffle_Item")
l_kse_elem->pixmapLines = 2;
else if(l_s_elem == "Repeat_Item")
l_kse_elem->pixmapLines = 2;
else if(l_s_elem == "Mpegversion_Item")
l_kse_elem->pixmapLines = 3;
else if(l_s_elem == "Mpegversion_Item")
l_kse_elem->pixmapLines = 4;
else if(l_s_elem == "Mpegmode_Item")
l_kse_elem->pixmapLines = 5;
else if(l_s_elem == "Status_Item")
l_kse_elem->pixmapLines = 3;
} // </Not normal button>
}
TQString KaimanStyle::getToken(TQString &val_s_string, char val_c_separator)
{
int l_i_pos;
TQString l_s_token;
// Find the first occurrence of the separator
l_i_pos = val_s_string.find(val_c_separator, 0, false);
if ( l_i_pos == -1 ) {
// No sparator! Then the whole string is the token
l_s_token = val_s_string;
val_s_string = "";
}
else {
// Separator found: Split the string at the separator position
l_s_token = val_s_string.left(l_i_pos);
val_s_string.remove(0,l_i_pos);
}
val_s_string = val_s_string.simplifyWhiteSpace();
// Return the first token
return l_s_token;
}
bool KaimanStyle::loadStyle(const TQString &styleName, const TQString &descFile)
{
bool l_b_ret = true;
int l_i_ret = 0;
TQString l_s_tmpName;
i_skinName = styleName;
this->i_s_styleName = styleName;
i_s_styleBase = TQString("skins/kaiman/") + i_s_styleName + TQString("/");
l_s_tmpName = locate("appdata", i_s_styleBase + descFile );
if ( l_s_tmpName.isNull() ) {
l_b_ret = false;
}
if ( l_b_ret) {
// Skin description found. Now parse StyleFile.
l_i_ret = parseStyleFile(l_s_tmpName);
if (l_i_ret == 0) {
// If parsiing OK, load the referenced pixmaps
l_b_ret = loadPixmaps();
kdDebug(66666) << "Found " << I_styleElem.count() << " elements." << endl;
}
else {
if ( l_i_ret == KaimanStyle::FileNotFound ) {
// File not found
KMessageBox::error( 0, i18n("Cannot load style. Style not installed.") );
}
else {
// Parsing not OK: Notify user
KMessageBox::error( 0, i18n("Cannot load style. Unsupported or faulty style description.") );
}
}
}
return l_b_ret;
}
bool KaimanStyle::eventFilter( TQObject *o, TQEvent *e )
{
/* HACK! HACK! HACK! */
if ( !i_eventSemaphore )
if ( e->type()==TQEvent::MouseMove || e->type()==TQEvent::MouseButtonPress ||
e->type()==TQEvent::MouseButtonRelease )
{
TQMouseEvent *m = (TQMouseEvent*)e;
// handle noatun context menu
if (m->button()==Qt::RightButton) {
NoatunStdAction::ContextMenu::showContextMenu();
return true;
}
TQPoint mousePos( m->x()+TQT_TQWIDGET(o)->x(),
m->y()+TQT_TQWIDGET(o)->y() );
TQWidget *slider = 0;
/* find slider that is under the mouse position */
for ( TQWidget *s = i_sliders.first(); s!=0; s=i_sliders.next() )
{
TQRect sliderRect( s->pos(), s->size() );
if ( sliderRect.contains(mousePos) ) slider = s;
}
/* the slider the mouse events instead of the visible widget */
if ( slider )
{
TQMouseEvent newMouseEvent( m->type(), mousePos-slider->pos(),
m->globalPos(), m->button(), m->state() );
i_eventSemaphore = true;
bool ret = TQApplication::sendEvent( slider, &newMouseEvent );
i_eventSemaphore = false;
return ret;
}
}
return TQWidget::eventFilter( o, e ); // standard event processing
}
bool KaimanStyle::loadPixmaps()
{
TQString l_s_tmpName;
TQPixmap *l_pixmap_Background = 0, *l_pixmap_Mask = 0;
KaimanStyleElement *l_kse_elem;
for ( uint l_i_elem = 0; l_i_elem<I_styleElem.count(); l_i_elem++) {
l_kse_elem = I_styleElem[l_i_elem];
l_s_tmpName = locate("appdata", i_s_styleBase + l_kse_elem->filename );
l_kse_elem->loadPixmaps(l_s_tmpName);
}
l_kse_elem = this->find("Background");
if ( l_kse_elem != 0 ) {
l_pixmap_Background = l_kse_elem->pixmaps[0];
}
l_kse_elem = this->find("Mask");
if ( l_kse_elem != 0 ) {
l_pixmap_Mask = l_kse_elem->pixmaps[0];
}
if ( (l_pixmap_Background != 0) && (l_pixmap_Mask != 0) ) {
// OK, background and mask are defined. So now I can calculate the shape
int l_i_width_Mask = l_pixmap_Mask->width();
int l_i_height_Mask = l_pixmap_Mask->height();
TQImage l_image_MaskOrig = l_pixmap_Mask->convertToImage();
TQImage l_image_Mask(l_i_width_Mask,l_i_height_Mask, 1, 2, TQImage::LittleEndian);
l_image_Mask.setColor( 0, 0x00ffffff );
l_image_Mask.setColor( 1, 0 );
l_image_Mask.fill( 0xff );
uchar *l_c_pixel;
uint l_qcol_white = tqRgb(255,255,255);
for (int l_i_x=0; l_i_x<l_i_width_Mask; l_i_x++) {
for (int l_i_y=0; l_i_y < l_i_height_Mask; l_i_y++) {
if ( ((*((TQRgb*) l_image_MaskOrig.scanLine(l_i_y)+l_i_x) & 0x00ffffff)) != (l_qcol_white & 0x00ffffff) ) {
l_c_pixel = (uchar *)l_image_Mask.scanLine(l_i_y);
*(l_c_pixel + (l_i_x>>3) ) &= ~(1 << (l_i_x & 7));
}
}
}
i_bitmap_Mask.convertFromImage(l_image_Mask);
// l_pixmap_Background.setMask(i_bitmap_Mask);
}
return true;
}
TQBitmap* KaimanStyle::Mask()
{
return &i_bitmap_Mask;
}
KaimanStyleElement* KaimanStyle::find(const char *val_s_elemName)
{
for (uint i=0; i< I_styleElem.count(); i++) {
if ( I_styleElem[i]->element == TQString(val_s_elemName)) {
return I_styleElem[i];
}
}
return 0;
}
#include "style.moc"