void RGB::task(void) { //return; switch (mode) { case FLASH: { if ((millis()-last_ms) >= mode_interval) { last_ms = millis(); _setColor((current_color == mode_color ? BLACK : mode_color)); } } break; case FADE: { if ((millis()-last_ms) >= mode_interval) { last_ms = millis(); _setColor(mode_color); } } break; case MANUAL: { } break; default: case OFF: { if (current_color != BLACK) _setColor(BLACK); } break; } }
QString ColorState::_setNanColor( int redValue, int greenValue, int blueValue){ QString result; const QString USER_ID = "Nan color"; bool greenChanged = _setColor( Util::GREEN, NAN_COLOR, USER_ID, greenValue, result ); bool redChanged = _setColor( Util::RED, NAN_COLOR, USER_ID, redValue, result ); bool blueChanged = _setColor( Util::BLUE, NAN_COLOR, USER_ID, blueValue, result ); if ( redChanged || blueChanged || greenChanged ){ emit colorStateChanged(); } return result; }
QString ColorState::_setBorderColor( int redValue, int greenValue, int blueValue){ QString result; const QString USER_ID = "Border background"; bool greenChanged = _setColor( Util::GREEN, BORDER_COLOR, USER_ID, greenValue, result ); bool redChanged = _setColor( Util::RED, BORDER_COLOR, USER_ID, redValue, result ); bool blueChanged = _setColor( Util::BLUE, BORDER_COLOR, USER_ID, blueValue, result ); if ( redChanged || blueChanged || greenChanged ){ emit colorStateChanged(); } return result; }
void RgbLed::setColor(RgbLedColor color){ if(!color.equals(OFF) && !color.equals(NONE)){ _currentColor = color; } if(_enabled){ _setColor(LED_BLUE_PIN, color.getBlue()); _setColor(LED_GREEN_PIN, color.getGreen()); _setColor(LED_RED_PIN, color.getRed()); } }
void KColorDialog::slotHtmlChanged( void ) { if (d->bRecursion || d->htmlName->text().isEmpty()) return; TQString strColor( d->htmlName->text() ); // Assume that a user does not want to type the # all the time if ( strColor[0] != '#' ) { bool signalsblocked = d->htmlName->signalsBlocked(); d->htmlName->blockSignals(true); strColor.prepend("#"); d->htmlName->setText(strColor); d->htmlName->blockSignals(signalsblocked); } const TQColor color( strColor ); if ( color.isValid() ) { KColor col( color ); d->bEditHtml = true; _setColor( col ); d->bEditHtml = false; } }
void KColorDialog::slotVChanged( int v ) { int h, s, _v; d->selColor.hsv(&h, &s, &_v); KColor col; col.setHsv( h, s, v ); _setColor( col ); }
void KColorDialog::slotColorDoubleClicked ( const TQColor & color, const TQString & name ) { _setColor(color, name); accept(); }
void KColorDialog::KColorDialogPrivate::slotColorDoubleClicked ( const QColor & color, const QString & name ) { _setColor(color, name); // q->accept(); }
void KColorDialog::slotHSChanged( int h, int s ) { int _h, _s, v; d->selColor.hsv(&_h, &_s, &v); if (v < 0) v = 0; KColor col; col.setHsv( h, s, v ); _setColor( col ); }
QString ColorState::_setBorderAlpha( int alphaValue ){ QString result; const QString USER_ID = "Border background"; bool alphaChanged = _setColor( Util::ALPHA, BORDER_COLOR, USER_ID, alphaValue, result ); if ( alphaChanged ){ m_state.flushState(); emit colorStateChanged(); } return result; }
qword sys_write(qword file, qword buffer, qword size, qword r8, qword r9){ char* charbuffer=(char*)buffer; if(file==1){ while(size--){ printChar(*charbuffer++); } }else if(file==2){ Color col={col.r=0xFF,col.b=00,col.g=00}; Color aux=getColor(); _setColor(col); while(size--){ printChar(*charbuffer++); } _setColor(aux); }else if(file>2 && file<8){ pipe_t pipe=(getMyProcessData())->fd[file-3]; writePipe(pipe,buffer,size); } return 1; }
void KColorDialog::slotHSVChanged( void ) { if (d->bRecursion) return; int hue = d->hedit->value(); int sat = d->sedit->value(); int val = d->vedit->value(); if ( hue > 359 || hue < 0 ) return; if ( sat > 255 || sat < 0 ) return; if ( val > 255 || val < 0 ) return; KColor col; col.setHsv( hue, sat, val ); d->bEditHsv = true; _setColor( col ); d->bEditHsv = false; }
void KColorDialog::KColorDialogPrivate::slotHSVChanged(void) { if (bRecursion) return; int hue = hedit->value(); int sat = sedit->value(); int val = vedit->value(); if (hue > 359 || hue < 0) return; if (sat > 255 || sat < 0) return; if (val > 255 || val < 0) return; QColor col; col.setHsv(hue, sat, val); bEditHsv = true; _setColor(col); bEditHsv = false; }
void KColorDialog::mouseReleaseEvent( TQMouseEvent *e ) { if (d->bColorPicking) { d->bColorPicking = false; #ifdef Q_WS_X11 tqt_set_x11_event_filter(d->oldfilter); d->oldfilter = 0; #endif releaseMouse(); releaseKeyboard(); _setColor( grabColor( e->globalPos() ) ); return; } KDialogBase::mouseReleaseEvent( e ); }
void KColorDialog::KColorDialogPrivate::slotRGBChanged(void) { if (bRecursion) return; int red = redit->value(); int grn = gedit->value(); int blu = bedit->value(); if (red > 255 || red < 0) return; if (grn > 255 || grn < 0) return; if (blu > 255 || blu < 0) return; QColor col; col.setRgb(red, grn, blu); bEditRgb = true; _setColor(col); bEditRgb = false; }
void KColorDialog::slotRGBChanged( void ) { if (d->bRecursion) return; int red = d->redit->value(); int grn = d->gedit->value(); int blu = d->bedit->value(); if ( red > 255 || red < 0 ) return; if ( grn > 255 || grn < 0 ) return; if ( blu > 255 || blu < 0 ) return; KColor col; col.setRgb( red, grn, blu ); d->bEditRgb = true; _setColor( col ); d->bEditRgb = false; }
void SoucoupeLightSphere::_render(void) { GLfloat off[] = {0.0, 0.0, 0.0, 0.0}; GLfloat white[] = {1.0, 1.0, 1.0, 1.0}; GLfloat red[] = {1.0, 0.0, 0.0, 1.0}; GLfloat deep_blue[] = {0.1, 0.5, 0.8, 1.0}; GLfloat shiny[] = {10.0}; GLfloat dull[] = {0.0}; GLfloat mat_specular[] = {1.0f, 1.0f, 1.0f, 1.0f}; // Enable Light glEnable(_lightNumber); // Create light components _setLights(); // Light Emission // Assign created components to GL_LIGHT0 glMaterialfv(GL_FRONT_AND_BACK, GL_AMBIENT_AND_DIFFUSE, red); glMaterialfv(GL_FRONT_AND_BACK, GL_SPECULAR, mat_specular); glMaterialfv(GL_FRONT_AND_BACK, GL_SHININESS, shiny); glMaterialfv(GL_FRONT_AND_BACK, GL_EMISSION, red); // Render Sphere _setColor(); glutSolidSphere(0.6 , 15 , 15 ); // Disable Light //glDisable(_lightNumber); glMaterialfv(GL_FRONT_AND_BACK, GL_AMBIENT_AND_DIFFUSE, white); glMaterialfv(GL_FRONT_AND_BACK, GL_SPECULAR, off); glMaterialfv(GL_FRONT_AND_BACK, GL_SHININESS, off); glMaterialfv(GL_FRONT_AND_BACK, GL_EMISSION, off); }
void KColorDialog::KColorDialogPrivate::slotVChanged(int v) { int _h, _s, _v, _r, _g, _b; _h = selColor.hue(); _s = selColor.saturation(); _v = selColor.value(); _r = selColor.red(); _g = selColor.green(); _b = selColor.blue(); QColor col; switch (chooserMode()) { case ChooserHue: col.setHsv(v, _s, _v); break; case ChooserSaturation: col.setHsv(_h, v, _v); break; case ChooserRed: col.setRgb(v, _g, _b); break; case ChooserGreen: col.setRgb(_r, v, _b); break; case ChooserBlue: col.setRgb(_r, _g, v); break; case ChooserValue: default: col.setHsv(_h, _s, v); break; } _setColor(col); }
void KColorDialog::setColor( const TQColor &col ) { _setColor( col ); }
void KColorDialog::KColorDialogPrivate::slotColorSelected(const QColor &color, const QString &name) { _setColor(color, name); }
void KColorDialog::KColorDialogPrivate::slotColorSelected(const QColor &color) { _setColor(color); }
void KColorDialog::slotColorSelected( const TQColor &color ) { _setColor( color ); }
void RGB::setColor(uint32_t color) { mode = MANUAL; _setColor(color); }
void KColorDialog::slotColorSelected( const TQColor &color, const TQString &name ) { _setColor( color, name); }
KColorDialog::KColorDialog( TQWidget *parent, const char *name, bool modal ) :KDialogBase( parent, name, modal, i18n("Select Color"), modal ? Ok|Cancel : Close, Ok, true ) { d = new KColorDialogPrivate; d->bRecursion = true; d->bColorPicking = false; #ifdef Q_WS_X11 d->oldfilter = 0; #endif d->cbDefaultColor = 0L; connect( this, TQT_SIGNAL(okClicked(void)),this,TQT_SLOT(slotWriteSettings(void))); connect( this, TQT_SIGNAL(closeClicked(void)),this,TQT_SLOT(slotWriteSettings(void))); TQLabel *label; // // Create the top level page and its layout // TQWidget *page = new TQWidget( this ); setMainWidget( page ); TQGridLayout *tl_layout = new TQGridLayout( page, 3, 3, 0, spacingHint() ); d->tl_layout = tl_layout; tl_layout->addColSpacing( 1, spacingHint() * 2 ); // // the more complicated part: the left side // add a V-box // TQVBoxLayout *l_left = new TQVBoxLayout(); tl_layout->addLayout(l_left, 0, 0); // // add a H-Box for the XY-Selector and a grid for the // entry fields // TQHBoxLayout *l_ltop = new TQHBoxLayout(); l_left->addLayout(l_ltop); // a little space between l_left->addSpacing(10); TQGridLayout *l_lbot = new TQGridLayout(3, 6); l_left->addLayout(TQT_TQLAYOUT(l_lbot)); // // the palette and value selector go into the H-box // d->hsSelector = new KHSSelector( page ); d->hsSelector->setMinimumSize(140, 70); l_ltop->addWidget(d->hsSelector, 8); connect( d->hsSelector, TQT_SIGNAL( valueChanged( int, int ) ), TQT_SLOT( slotHSChanged( int, int ) ) ); d->valuePal = new KValueSelector( page ); d->valuePal->setMinimumSize(26, 70); l_ltop->addWidget(d->valuePal, 1); connect( d->valuePal, TQT_SIGNAL( valueChanged( int ) ), TQT_SLOT( slotVChanged( int ) ) ); // // add the HSV fields // label = new TQLabel( i18n("H:"), page ); label->setAlignment(AlignRight | AlignVCenter); l_lbot->addWidget(label, 0, 2); d->hedit = new KColorSpinBox( 0, 359, 1, page ); d->hedit->setValidator( new TQIntValidator( TQT_TQOBJECT(d->hedit) ) ); l_lbot->addWidget(d->hedit, 0, 3); connect( d->hedit, TQT_SIGNAL( valueChanged(int) ), TQT_SLOT( slotHSVChanged() ) ); label = new TQLabel( i18n("S:"), page ); label->setAlignment(AlignRight | AlignVCenter); l_lbot->addWidget(label, 1, 2); d->sedit = new KColorSpinBox( 0, 255, 1, page ); d->sedit->setValidator( new TQIntValidator( TQT_TQOBJECT(d->sedit) ) ); l_lbot->addWidget(d->sedit, 1, 3); connect( d->sedit, TQT_SIGNAL( valueChanged(int) ), TQT_SLOT( slotHSVChanged() ) ); label = new TQLabel( i18n("V:"), page ); label->setAlignment(AlignRight | AlignVCenter); l_lbot->addWidget(label, 2, 2); d->vedit = new KColorSpinBox( 0, 255, 1, page ); d->vedit->setValidator( new TQIntValidator( TQT_TQOBJECT(d->vedit) ) ); l_lbot->addWidget(d->vedit, 2, 3); connect( d->vedit, TQT_SIGNAL( valueChanged(int) ), TQT_SLOT( slotHSVChanged() ) ); // // add the RGB fields // label = new TQLabel( i18n("R:"), page ); label->setAlignment(AlignRight | AlignVCenter); l_lbot->addWidget(label, 0, 4); d->redit = new KColorSpinBox( 0, 255, 1, page ); d->redit->setValidator( new TQIntValidator( TQT_TQOBJECT(d->redit) ) ); l_lbot->addWidget(d->redit, 0, 5); connect( d->redit, TQT_SIGNAL( valueChanged(int) ), TQT_SLOT( slotRGBChanged() ) ); label = new TQLabel( i18n("G:"), page ); label->setAlignment(AlignRight | AlignVCenter); l_lbot->addWidget( label, 1, 4); d->gedit = new KColorSpinBox( 0, 255,1, page ); d->gedit->setValidator( new TQIntValidator( TQT_TQOBJECT(d->gedit) ) ); l_lbot->addWidget(d->gedit, 1, 5); connect( d->gedit, TQT_SIGNAL( valueChanged(int) ), TQT_SLOT( slotRGBChanged() ) ); label = new TQLabel( i18n("B:"), page ); label->setAlignment(AlignRight | AlignVCenter); l_lbot->addWidget(label, 2, 4); d->bedit = new KColorSpinBox( 0, 255, 1, page ); d->bedit->setValidator( new TQIntValidator( TQT_TQOBJECT(d->bedit) ) ); l_lbot->addWidget(d->bedit, 2, 5); connect( d->bedit, TQT_SIGNAL( valueChanged(int) ), TQT_SLOT( slotRGBChanged() ) ); // // the entry fields should be wide enough to hold 8888888 // int w = d->hedit->fontMetrics().width("8888888"); d->hedit->setFixedWidth(w); d->sedit->setFixedWidth(w); d->vedit->setFixedWidth(w); d->redit->setFixedWidth(w); d->gedit->setFixedWidth(w); d->bedit->setFixedWidth(w); // // add a layout for the right side // d->l_right = new TQVBoxLayout; tl_layout->addLayout(d->l_right, 0, 2); // // Add the palette table // d->table = new KPaletteTable( page ); d->l_right->addWidget(d->table, 10); connect( d->table, TQT_SIGNAL( colorSelected( const TQColor &, const TQString & ) ), TQT_SLOT( slotColorSelected( const TQColor &, const TQString & ) ) ); connect( d->table, TQT_SIGNAL( colorDoubleClicked( const TQColor &, const TQString & ) ), TQT_SLOT( slotColorDoubleClicked( const TQColor &, const TQString & ) ) ); // Store the default value for saving time. d->originalPalette = d->table->palette(); // // a little space between // d->l_right->addSpacing(10); TQHBoxLayout *l_hbox = new TQHBoxLayout( d->l_right ); // // The add to custom colors button // TQPushButton *button = new TQPushButton( page ); button->setText(i18n("&Add to Custom Colors")); l_hbox->addWidget(button, 0, AlignLeft); connect( button, TQT_SIGNAL( clicked()), TQT_SLOT( slotAddToCustomColors())); // // The color picker button // button = new TQPushButton( page ); button->setPixmap( BarIcon("colorpicker")); l_hbox->addWidget(button, 0, AlignHCenter ); connect( button, TQT_SIGNAL( clicked()), TQT_SLOT( slotColorPicker())); // // a little space between // d->l_right->addSpacing(10); // // and now the entry fields and the patch (=colored box) // TQGridLayout *l_grid = new TQGridLayout( d->l_right, 2, 3); l_grid->setColStretch(2, 1); label = new TQLabel( page ); label->setText(i18n("Name:")); l_grid->addWidget(TQT_TQWIDGET(label), 0, 1, Qt::AlignLeft); d->colorName = new TQLabel( page ); l_grid->addWidget(TQT_TQWIDGET(d->colorName), 0, 2, Qt::AlignLeft); label = new TQLabel( page ); label->setText(i18n("HTML:")); l_grid->addWidget(TQT_TQWIDGET(label), 1, 1, Qt::AlignLeft); d->htmlName = new KLineEdit( page ); d->htmlName->setMaxLength( 13 ); // Qt's TQColor allows 12 hexa-digits d->htmlName->setText("#FFFFFF"); // But HTML uses only 6, so do not worry about the size w = d->htmlName->fontMetrics().width(TQString::fromLatin1("#DDDDDDD")); d->htmlName->setFixedWidth(w); l_grid->addWidget(TQT_TQWIDGET(d->htmlName), 1, 2, Qt::AlignLeft); connect( d->htmlName, TQT_SIGNAL( textChanged(const TQString &) ), TQT_SLOT( slotHtmlChanged() ) ); d->patch = new KColorPatch( page ); d->patch->setFixedSize(48, 48); l_grid->addMultiCellWidget(TQT_TQWIDGET(d->patch), 0, 1, 0, 0, Qt::AlignHCenter | Qt::AlignVCenter); connect( d->patch, TQT_SIGNAL( colorChanged( const TQColor&)), TQT_SLOT( setColor( const TQColor&))); tl_layout->activate(); page->setMinimumSize( page->sizeHint() ); readSettings(); d->bRecursion = false; d->bEditHsv = false; d->bEditRgb = false; d->bEditHtml = false; disableResize(); KColor col; col.setHsv( 0, 0, 255 ); _setColor( col ); d->htmlName->installEventFilter(this); d->hsSelector->installEventFilter(this); d->hsSelector->setAcceptDrops(true); }