/* * This file is part of KOffice * * Copyright (c) 1999 Matthias Elter (me@kde.org) * Copyright (c) 2001-2002 Igor Jansen (rm@kde.org) * Copyright (c) 2005 Tim Beaulen (tbscope@gmail.com) * * 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 of the License, 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 "ko_cmyk_widget.h" #include #include #include #include #include #include #include #include #include #include #include #include #include KoCMYKWidget::KoCMYKWidget(TQWidget *parent, const char *name) : super(parent, name) { m_ColorButton = new KDualColorButton(this); m_ColorButton -> setFixedSize(m_ColorButton->sizeHint()); TQGridLayout *mGrid = new TQGridLayout(this, 4, 5, 5, 2); /* setup color sliders */ mCSlider = new KoColorSlider(this); mCSlider->setMaximumHeight(20); mCSlider->slotSetRange(0, 255); mCSlider->setFocusPolicy( TQWidget::ClickFocus ); mMSlider = new KoColorSlider(this); mMSlider->setMaximumHeight(20); mMSlider->slotSetRange(0, 255); mMSlider->setFocusPolicy( TQWidget::ClickFocus ); mYSlider = new KoColorSlider(this); mYSlider->setMaximumHeight(20); mYSlider->slotSetRange(0, 255); mYSlider->setFocusPolicy( TQWidget::ClickFocus ); mKSlider = new KoColorSlider(this); mKSlider->setMaximumHeight(20); mKSlider->slotSetRange(0, 255); mKSlider->setFocusPolicy( TQWidget::ClickFocus ); /* setup slider labels */ mCLabel = new TQLabel("C", this); mCLabel->setFixedWidth(12); mCLabel->setFixedHeight(20); mMLabel = new TQLabel("M", this); mMLabel->setFixedWidth(12); mMLabel->setFixedHeight(20); mYLabel = new TQLabel("Y", this); mYLabel->setFixedWidth(12); mYLabel->setFixedHeight(20); mKLabel = new TQLabel("K", this); mKLabel->setFixedWidth(12); mKLabel->setFixedHeight(20); /* setup spin box */ mCIn = new TQSpinBox(0, 255, 1, this); mCIn->setFixedWidth(50); mCIn->setFixedHeight(20); mCIn->setFocusPolicy( TQWidget::ClickFocus ); TQToolTip::add( mCIn, i18n( "Cyan" ) ); mMIn = new TQSpinBox(0, 255, 1, this); mMIn->setFixedWidth(50); mMIn->setFixedHeight(20); mMIn->setFocusPolicy( TQWidget::ClickFocus ); TQToolTip::add( mMIn, i18n( "Magenta" ) ); mYIn = new TQSpinBox(0, 255, 1, this); mYIn->setFixedWidth(50); mYIn->setFixedHeight(20); mYIn->setFocusPolicy( TQWidget::ClickFocus ); TQToolTip::add( mYIn, i18n( "Yellow" ) ); mKIn = new TQSpinBox(0, 255, 1, this); mKIn->setFixedWidth(50); mKIn->setFixedHeight(20); mKIn->setFocusPolicy( TQWidget::ClickFocus ); TQToolTip::add( mKIn, i18n( "Black" ) ); mGrid->addMultiCellWidget(m_ColorButton, 0, 4, 0, 0, TQt::AlignTop); mGrid->addWidget(mCLabel, 0, 1); mGrid->addWidget(mMLabel, 1, 1); mGrid->addWidget(mYLabel, 2, 1); mGrid->addWidget(mKLabel, 3, 1); mGrid->addMultiCellWidget(mCSlider, 0, 0, 2, 3); mGrid->addMultiCellWidget(mMSlider, 1, 1, 2, 3); mGrid->addMultiCellWidget(mYSlider, 2, 2, 2, 3); mGrid->addMultiCellWidget(mKSlider, 3, 3, 2, 3); mGrid->addWidget(mCIn, 0, 4); mGrid->addWidget(mMIn, 1, 4); mGrid->addWidget(mYIn, 2, 4); mGrid->addWidget(mKIn, 3, 4); connect(m_ColorButton, TQ_SIGNAL(fgChanged(const TQColor &)), this, TQ_SLOT(slotFGColorSelected(const TQColor &))); connect(m_ColorButton, TQ_SIGNAL(bgChanged(const TQColor &)), this, TQ_SLOT(slotBGColorSelected(const TQColor &))); /* connect color sliders */ connect(mCSlider, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(slotCChanged(int))); connect(mMSlider, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(slotMChanged(int))); connect(mYSlider, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(slotYChanged(int))); connect(mKSlider, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(slotKChanged(int))); /* connect spin box */ connect(mCIn, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(slotCChanged(int))); connect(mMIn, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(slotMChanged(int))); connect(mYIn, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(slotYChanged(int))); connect(mKIn, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(slotKChanged(int))); } void KoCMYKWidget::slotCChanged(int c) { if (m_ColorButton->current() == KDualColorButton::Foreground){ CMYKColor col = RgbToCmyk(m_fgColor); col.C = c / 255.0; m_fgColor = CmykToRgb(col); m_ColorButton->setCurrent(KDualColorButton::Foreground); emit sigFgColorChanged(m_fgColor); } else{ CMYKColor col = RgbToCmyk(m_bgColor); col.C = c / 255.0; m_bgColor = CmykToRgb(col); m_ColorButton->setCurrent(KDualColorButton::Background); emit sigBgColorChanged(m_bgColor); } } void KoCMYKWidget::slotMChanged(int m) { if (m_ColorButton->current() == KDualColorButton::Foreground){ CMYKColor col = RgbToCmyk(m_fgColor); col.M = m / 255.0; m_fgColor = CmykToRgb(col); m_ColorButton->setCurrent(KDualColorButton::Foreground); emit sigFgColorChanged(m_fgColor); } else{ CMYKColor col = RgbToCmyk(m_bgColor); col.M = m / 255.0; m_bgColor = CmykToRgb(col); m_ColorButton->setCurrent(KDualColorButton::Background); emit sigBgColorChanged(m_bgColor); } } void KoCMYKWidget::slotYChanged(int y) { if (m_ColorButton->current() == KDualColorButton::Foreground){ CMYKColor col = RgbToCmyk(m_fgColor); col.Y = y / 255.0; m_fgColor = CmykToRgb(col); m_ColorButton->setCurrent(KDualColorButton::Foreground); emit sigFgColorChanged(m_fgColor); } else{ CMYKColor col = RgbToCmyk(m_bgColor); col.Y = y / 255.0; m_bgColor = CmykToRgb(col); m_ColorButton->setCurrent(KDualColorButton::Background); emit sigBgColorChanged(m_bgColor); } } void KoCMYKWidget::slotKChanged(int k) { if (m_ColorButton->current() == KDualColorButton::Foreground){ CMYKColor col = RgbToCmyk(m_fgColor); col.K = k / 255.0; m_fgColor = CmykToRgb(col); m_ColorButton->setCurrent(KDualColorButton::Foreground); emit sigFgColorChanged(m_fgColor); } else{ CMYKColor col = RgbToCmyk(m_bgColor); col.K = k / 255.0; m_bgColor = CmykToRgb(col); m_ColorButton->setCurrent(KDualColorButton::Background); emit sigBgColorChanged(m_bgColor); } } void KoCMYKWidget::setFgColor(const TQColor & c) { update(c, m_bgColor); } void KoCMYKWidget::setBgColor(const TQColor & c) { update(m_fgColor, c); } void KoCMYKWidget::update(const TQColor fgColor, const TQColor bgColor) { m_fgColor = fgColor; m_bgColor = bgColor; TQColor color = (m_ColorButton->current() == KDualColorButton::Foreground)? m_fgColor : m_bgColor; CMYKColor col = RgbToCmyk(color); disconnect(m_ColorButton, TQ_SIGNAL(fgChanged(const TQColor &)), this, TQ_SLOT(slotFGColorSelected(const TQColor &))); disconnect(m_ColorButton, TQ_SIGNAL(bgChanged(const TQColor &)), this, TQ_SLOT(slotBGColorSelected(const TQColor &))); m_ColorButton->setForeground( m_fgColor ); m_ColorButton->setBackground( m_bgColor ); connect(m_ColorButton, TQ_SIGNAL(fgChanged(const TQColor &)), this, TQ_SLOT(slotFGColorSelected(const TQColor &))); connect(m_ColorButton, TQ_SIGNAL(bgChanged(const TQColor &)), this, TQ_SLOT(slotBGColorSelected(const TQColor &))); mCSlider->blockSignals(true); mCIn->blockSignals(true); mMSlider->blockSignals(true); mMIn->blockSignals(true); mYSlider->blockSignals(true); mYIn->blockSignals(true); mKSlider->blockSignals(true); mKIn->blockSignals(true); CMYKColor minC = col; minC.C = 0.0; CMYKColor maxC = col; maxC.C = 1.0; mCSlider->slotSetColor1(CmykToRgb(minC)); mCSlider->slotSetColor2(CmykToRgb(maxC)); mCSlider->slotSetValue(int(col.C * 255)); mCIn->setValue(int(col.C * 255)); CMYKColor minM = col; minM.M = 0.0; CMYKColor maxM = col; maxM.M = 1.0; mMSlider->slotSetColor1(CmykToRgb(minM)); mMSlider->slotSetColor2(CmykToRgb(maxM)); mMSlider->slotSetValue(int(col.M * 255)); mMIn->setValue(int(col.M * 255)); CMYKColor minY = col; minY.Y = 0.0; CMYKColor maxY = col; maxY.Y = 1.0; mYSlider->slotSetColor1(CmykToRgb(minY)); mYSlider->slotSetColor2(CmykToRgb(maxY)); mYSlider->slotSetValue(int(col.Y * 255)); mYIn->setValue(int(col.Y * 255)); CMYKColor minK = col; minK.K = 0.0; CMYKColor maxK = col; maxK.K = 1.0; mKSlider->slotSetColor1(CmykToRgb(minK)); mKSlider->slotSetColor2(CmykToRgb(maxK)); mKSlider->slotSetValue(int(col.K * 255)); mKIn->setValue(int(col.K * 255)); mCSlider->blockSignals(false); mCIn->blockSignals(false); mMSlider->blockSignals(false); mMIn->blockSignals(false); mYSlider->blockSignals(false); mYIn->blockSignals(false); mKSlider->blockSignals(false); mKIn->blockSignals(false); } void KoCMYKWidget::slotFGColorSelected(const TQColor& c) { m_fgColor = TQColor(c); emit sigFgColorChanged(m_fgColor); } void KoCMYKWidget::slotBGColorSelected(const TQColor& c) { m_bgColor = TQColor(c); emit sigBgColorChanged(m_bgColor); } CMYKColor KoCMYKWidget::RgbToCmyk(const TQColor& col) { kdDebug() << "--[ KoCMYKWidget::RgbToCmyk ]--------------------------------------" << endl; kdDebug() << endl; // RGB to CMY float r = col.red() / 255.0; float g = col.green() / 255.0; float b = col.blue() / 255.0; kdDebug() << "float r = col.red() / 255.0;" << endl; kdDebug() << " r = " << col.red() << " / 255.0 = " << r << endl; kdDebug() << "float g = col.green() / 255.0;" << endl; kdDebug() << " g = " << col.green() << " / 255.0 = " << g << endl; kdDebug() << "float b = col.blue() / 255.0;" << endl; kdDebug() << " b = " << col.blue() << " / 255.0 = " << b << endl; kdDebug() << endl; float ac = 1.0 - r; float am = 1.0 - g; float ay = 1.0 - b; kdDebug() << "float ac = 1.0 - r;" << endl; kdDebug() << " ac = 1.0 - " << r << " = " << ac << endl; kdDebug() << "float am = 1.0 - g;" << endl; kdDebug() << " am = 1.0 - " << g << " = " << am << endl; kdDebug() << "float ay = 1.0 - b;" << endl; kdDebug() << " ay = 1.0 - " << b << " = " << ay << endl; kdDebug() << endl; // CMY to CMYK float c = 0.0; float m = 0.0; float y = 0.0; float k = 0.0; if ((r == 0.0) && (g == 0.0) && (b == 0.0)) { kdDebug() << "r = g = b = 0.0: Therefor k = 1.0" << endl; k = 1.0; } else { kdDebug() << "r = g = b != 0.0: Therefor k = min(ac,am,ay)" << endl; if (kMin(ac,am) == ac) k = kMin(ac,ay); else k = kMin(am,ay); c = (ac - k) / (1.0 - k); m = (am - k) / (1.0 - k); y = (ay - k) / (1.0 - k); } kdDebug() << "float k = " << k << endl; kdDebug() << endl; kdDebug() << "float c = (ac - k) / (1.0 - k);" << endl; kdDebug() << " c = (" << ac << " - " << k << ") / (1.0 - " << k << ") = " << c << endl; kdDebug() << "float m = (am - k) / (1.0 - k);" << endl; kdDebug() << " m = (" << am << " - " << k << ") / (1.0 - " << k << ") = " << m << endl; kdDebug() << "float y = (ay - k) / (1.0 - k);" << endl; kdDebug() << " y = (" << ay << " - " << k << ") / (1.0 - " << k << ") = " << y << endl; kdDebug() << endl; CMYKColor color; color.C = c; color.M = m; color.Y = y; color.K = k; kdDebug() << "===================================================================" << endl; return color; } TQColor KoCMYKWidget::CmykToRgb(const CMYKColor& c) { // CMYK to CMY float ac = kMin(1.0, c.C * (1.0 - c.K) + c.K); float am = kMin(1.0, c.M * (1.0 - c.K) + c.K); float ay = kMin(1.0, c.Y * (1.0 - c.K) + c.K); // CMY to RGB int r = int((1.0 - ac) * 255.0); int g = int((1.0 - am) * 255.0); int b = int((1.0 - ay) * 255.0); TQColor color; color.setRgb(r,g,b); return color; } #include "ko_cmyk_widget.moc"