/* Copyright (c) 2003,2004,2005 Clarence Dang All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #define DEBUG_KP_EFFECT_BALANCE 0 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if DEBUG_KP_EFFECT_BALANCE #include #endif kpEffectBalanceCommand::kpEffectBalanceCommand (int channels, int brightness, int contrast, int gamma, bool actOnSelection, kpMainWindow *mainWindow) : kpColorEffectCommand (i18n ("Balance"), actOnSelection, mainWindow), m_channels (channels), m_brightness (brightness), m_contrast (contrast), m_gamma (gamma) { } kpEffectBalanceCommand::~kpEffectBalanceCommand () { } static inline int between0And255 (int val) { if (val < 0) return 0; else if (val > 255) return 255; else return val; } static inline int brightness (int base, int strength) { return between0And255 (base + strength * 255 / 50); } static inline int contrast (int base, int strength) { return between0And255 ((base - 127) * (strength + 50) / 50 + 127); } static inline int gamma (int base, int strength) { return between0And255 (tqRound (255.0 * pow (base / 255.0, 1.0 / pow (10, strength / 50.0)))); } static inline int brightnessContrastGamma (int base, int newBrightness, int newContrast, int newGamma) { return gamma (contrast (brightness (base, newBrightness), newContrast), newGamma); } static inline TQRgb brightnessContrastGammaForRGB (TQRgb rgb, int channels, int brightness, int contrast, int gamma) { int red = tqRed (rgb); int green = tqGreen (rgb); int blue = tqBlue (rgb); if (channels & kpEffectBalanceCommand::Red) red = brightnessContrastGamma (red, brightness, contrast, gamma); if (channels & kpEffectBalanceCommand::Green) green = brightnessContrastGamma (green, brightness, contrast, gamma); if (channels & kpEffectBalanceCommand::Blue) blue = brightnessContrastGamma (blue, brightness, contrast, gamma); return tqRgba (red, green, blue, tqAlpha (rgb)); } // public static TQPixmap kpEffectBalanceCommand::applyColorEffect (const TQPixmap &pixmap, int channels, int brightness, int contrast, int gamma) { #if DEBUG_KP_EFFECT_BALANCE kdDebug () << "kpEffectBalanceCommand::applyColorEffect(" << "channels=" << channels << ",brightness=" << brightness << ",contrast=" << contrast << ",gamma=" << gamma << ")" << endl; TQTime timer; timer.start (); #endif TQImage image = kpPixmapFX::convertToImage (pixmap); #if DEBUG_KP_EFFECT_BALANCE kdDebug () << "\tconvertToImage=" << timer.restart () << endl; #endif TQ_UINT8 transformRed [256], transformGreen [256], transformBlue [256]; for (int i = 0; i < 256; i++) { TQ_UINT8 applied = (TQ_UINT8) brightnessContrastGamma (i, brightness, contrast, gamma); if (channels & kpEffectBalanceCommand::Red) transformRed [i] = applied; else transformRed [i] = i; if (channels & kpEffectBalanceCommand::Green) transformGreen [i] = applied; else transformGreen [i] = i; if (channels & kpEffectBalanceCommand::Blue) transformBlue [i] = applied; else transformBlue [i] = i; } #if DEBUG_KP_EFFECT_BALANCE kdDebug () << "\tbuild lookup=" << timer.restart () << endl; #endif if (image.depth () > 8) { for (int y = 0; y < image.height (); y++) { for (int x = 0; x < image.width (); x++) { const TQRgb rgb = image.pixel (x, y); const TQ_UINT8 red = (TQ_UINT8) tqRed (rgb); const TQ_UINT8 green = (TQ_UINT8) tqGreen (rgb); const TQ_UINT8 blue = (TQ_UINT8) tqBlue (rgb); const TQ_UINT8 alpha = (TQ_UINT8) tqAlpha (rgb); image.setPixel (x, y, tqRgba (transformRed [red], transformGreen [green], transformBlue [blue], alpha)); #if 0 image.setPixel (x, y, brightnessContrastGammaForRGB (image.pixel (x, y), channels, brightness, contrast, gamma)); #endif } } } else { for (int i = 0; i < image.numColors (); i++) { const TQRgb rgb = image.color (i); const TQ_UINT8 red = (TQ_UINT8) tqRed (rgb); const TQ_UINT8 green = (TQ_UINT8) tqGreen (rgb); const TQ_UINT8 blue = (TQ_UINT8) tqBlue (rgb); const TQ_UINT8 alpha = (TQ_UINT8) tqAlpha (rgb); image.setColor (i, tqRgba (transformRed [red], transformGreen [green], transformBlue [blue], alpha)); #if 0 image.setColor (i, brightnessContrastGammaForRGB (image.color (i), channels, brightness, contrast, gamma)); #endif } } #if DEBUG_KP_EFFECT_BALANCE kdDebug () << "\teffect=" << timer.restart () << endl; #endif const TQPixmap retPixmap = kpPixmapFX::convertToPixmap (image); #if DEBUG_KP_EFFECT_BALANCE kdDebug () << "\tconvertToPixmap=" << timer.restart () << endl; #endif return retPixmap; } // protected virtual [base kpColorEffectCommand] TQPixmap kpEffectBalanceCommand::applyColorEffect (const TQPixmap &pixmap) { return applyColorEffect (pixmap, m_channels, m_brightness, m_contrast, m_gamma); } kpEffectBalanceWidget::kpEffectBalanceWidget (bool actOnSelection, kpMainWindow *mainWindow, TQWidget *parent, const char *name) : kpColorEffectWidget (actOnSelection, mainWindow, parent, name) { TQGridLayout *lay = new TQGridLayout (this, 5, 5, marginHint (), spacingHint ()); TQLabel *brightnessLabel = new TQLabel (i18n ("&Brightness:"), this); m_brightnessInput = new KIntNumInput (0/*value*/, this); m_brightnessInput->setRange (-50, 50, 1/*step*/, true/*slider*/); TQPushButton *brightnessResetPushButton = new TQPushButton (i18n ("Re&set"), this); TQLabel *contrastLabel = new TQLabel (i18n ("Co&ntrast:"), this); m_contrastInput = new KIntNumInput (0/*value*/, this); m_contrastInput->setRange (-50, 50, 1/*step*/, true/*slider*/); TQPushButton *contrastResetPushButton = new TQPushButton (i18n ("&Reset"), this); TQLabel *gammaLabel = new TQLabel (i18n ("&Gamma:"), this); m_gammaInput = new KIntNumInput (0/*value*/, this); m_gammaInput->setRange (-50, 50, 1/*step*/, true/*slider*/); // TODO: This is what should be shown in the m_gammaInput spinbox m_gammaLabel = new TQLabel (this); // TODO: This doesn't seem to be wide enough with some fonts so the // whole tqlayout moves when we drag the gamma slider. m_gammaLabel->setMinimumWidth (m_gammaLabel->fontMetrics ().width (" 10.00 ")); m_gammaLabel->setAlignment (m_gammaLabel->alignment () | TQt::AlignRight); TQPushButton *gammaResetPushButton = new TQPushButton (i18n ("Rese&t"), this); TQWidget *spaceWidget = new TQLabel (this); spaceWidget->setFixedSize (1, spacingHint ()); TQLabel *channelLabel = new TQLabel (i18n ("C&hannels:"), this); m_channelsComboBox = new KComboBox (this); m_channelsComboBox->insertItem (i18n ("All")); m_channelsComboBox->insertItem (i18n ("Red")); m_channelsComboBox->insertItem (i18n ("Green")); m_channelsComboBox->insertItem (i18n ("Blue")); TQPushButton *resetPushButton = new TQPushButton (i18n ("Reset &All Values"), this); brightnessLabel->setBuddy (m_brightnessInput); contrastLabel->setBuddy (m_contrastInput); gammaLabel->setBuddy (m_gammaInput); channelLabel->setBuddy (m_channelsComboBox); lay->addWidget (brightnessLabel, 0, 0); lay->addMultiCellWidget (m_brightnessInput, 0, 0, 1, 2); lay->addWidget (brightnessResetPushButton, 0, 4); lay->addWidget (contrastLabel, 1, 0); lay->addMultiCellWidget (m_contrastInput, 1, 1, 1, 2); lay->addWidget (contrastResetPushButton, 1, 4); lay->addWidget (gammaLabel, 2, 0); lay->addMultiCellWidget (m_gammaInput, 2, 2, 1, 2); lay->addWidget (m_gammaLabel, 2, 3); lay->addWidget (gammaResetPushButton, 2, 4); lay->addMultiCellWidget (spaceWidget, 3, 3, 0, 4); lay->addMultiCellWidget (resetPushButton, 4, 4, 2, 4, TQt::AlignRight); lay->addWidget (channelLabel, 4, 0); lay->addWidget (m_channelsComboBox, 4, 1, TQt::AlignLeft); //lay->addWidget (resetPushButton, 4, 2, TQt::AlignRight); lay->setColStretch (1, 1); // (no need for settingsChangedDelayed() since BCG effect is so fast :)) connect (m_brightnessInput, TQT_SIGNAL (valueChanged (int)), this, TQT_SIGNAL (settingsChangedNoWaitCursor ())); connect (m_contrastInput, TQT_SIGNAL (valueChanged (int)), this, TQT_SIGNAL (settingsChangedNoWaitCursor ())); connect (m_gammaInput, TQT_SIGNAL (valueChanged (int)), this, TQT_SLOT (recalculateGammaLabel ())); connect (m_gammaInput, TQT_SIGNAL (valueChanged (int)), this, TQT_SIGNAL (settingsChangedNoWaitCursor ())); connect (m_channelsComboBox, TQT_SIGNAL (activated (int)), this, TQT_SIGNAL (settingsChanged ())); connect (brightnessResetPushButton, TQT_SIGNAL (clicked ()), this, TQT_SLOT (resetBrightness ())); connect (contrastResetPushButton, TQT_SIGNAL (clicked ()), this, TQT_SLOT (resetContrast ())); connect (gammaResetPushButton, TQT_SIGNAL (clicked ()), this, TQT_SLOT (resetGamma ())); connect (resetPushButton, TQT_SIGNAL (clicked ()), this, TQT_SLOT (resetAll ())); recalculateGammaLabel (); } kpEffectBalanceWidget::~kpEffectBalanceWidget () { } // public virtual [base kpColorEffectWidget] TQString kpEffectBalanceWidget::caption () const { return i18n ("Settings"); } // public virtual [base kpColorEffectWidget] bool kpEffectBalanceWidget::isNoOp () const { return (brightness () == 0 && contrast () == 0 && gamma () == 0); } // public virtual [base kpColorEffectWidget] TQPixmap kpEffectBalanceWidget::applyColorEffect (const TQPixmap &pixmap) { return kpEffectBalanceCommand::applyColorEffect (pixmap, channels (), brightness (), contrast (), gamma ()); } // public virtual [base kpColorEffectWidget] kpColorEffectCommand *kpEffectBalanceWidget::createCommand () const { return new kpEffectBalanceCommand (channels (), brightness (), contrast (), gamma (), m_actOnSelection, m_mainWindow); } // protected int kpEffectBalanceWidget::channels () const { switch (m_channelsComboBox->currentItem ()) { default: case 0: return kpEffectBalanceCommand::RGB; case 1: return kpEffectBalanceCommand::Red; case 2: return kpEffectBalanceCommand::Green; case 3: return kpEffectBalanceCommand::Blue; } } // protected int kpEffectBalanceWidget::brightness () const { return m_brightnessInput->value (); } // protected int kpEffectBalanceWidget::contrast () const { return m_contrastInput->value (); } // protected int kpEffectBalanceWidget::gamma () const { return m_gammaInput->value (); } // protected slot void kpEffectBalanceWidget::recalculateGammaLabel () { m_gammaLabel->setText ( " " + TQString::number (pow (10, gamma () / 50.0), 'f'/*[-]9.9*/, 2/*precision*/) + " "); m_gammaLabel->repaint (); } // protected slot void kpEffectBalanceWidget::resetBrightness () { if (brightness () == 0) return; bool sb = signalsBlocked (); if (!sb) blockSignals (true); m_brightnessInput->setValue (0); if (!sb) blockSignals (false); // Immediate update (if signals aren't blocked) emit settingsChanged (); } // protected slot void kpEffectBalanceWidget::resetContrast () { if (contrast () == 0) return; bool sb = signalsBlocked (); if (!sb) blockSignals (true); m_contrastInput->setValue (0); if (!sb) blockSignals (false); // Immediate update (if signals aren't blocked) emit settingsChanged (); } // protected slot void kpEffectBalanceWidget::resetGamma () { if (gamma () == 0) return; bool sb = signalsBlocked (); if (!sb) blockSignals (true); m_gammaInput->setValue (0); recalculateGammaLabel (); if (!sb) blockSignals (false); // Immediate update (if signals aren't blocked) emit settingsChanged (); } // protected slot void kpEffectBalanceWidget::resetAll () { if (isNoOp ()) return; // Prevent multiple settingsChanged() which would normally result in // redundant, expensive preview repaints blockSignals (true); resetBrightness (); resetContrast (); resetGamma (); recalculateGammaLabel (); blockSignals (false); emit settingsChanged (); } #include