/****************************************************************************** * QSkinny - Copyright (C) 2016 Uwe Rathmann * This file may be used under the terms of the QSkinny License, Version 1.0 *****************************************************************************/ #include "QskRgbValue.h" namespace { inline int value( int from, int to, qreal ratio ) { return int( from + ( to - from ) * ratio ); } inline qreal valueF( qreal from, qreal to, qreal ratio ) { return int( from + ( to - from ) * ratio ); } } static inline QColor qskInterpolatedColor( const QColor& c1, const QColor& c2, qreal ratio ) { switch ( c1.spec() ) { case QColor::Rgb: { const int r = value( c1.red(), c2.red(), ratio ); const int g = value( c1.green(), c2.green(), ratio ); const int b = value( c1.blue(), c2.blue(), ratio ); const int a = value( c1.alpha(), c2.alpha(), ratio ); return QColor::fromRgb( r, g, b, a ); } case QColor::Hsv: { const int h = value( c1.hue(), c2.hue(), ratio ); const int s = value( c1.saturation(), c2.saturation(), ratio ); const int v = value( c1.value(), c2.value(), ratio ); const int a = value( c1.alpha(), c2.alpha(), ratio ); return QColor::fromHsv( h, s, v, a ); } case QColor::Cmyk: { const int c = value( c1.cyan(), c2.cyan(), ratio ); const int m = value( c1.magenta(), c2.magenta(), ratio ); const int y = value( c1.yellow(), c2.yellow(), ratio ); const int k = value( c1.black(), c2.black(), ratio ); const int a = value( c1.alpha(), c2.alpha(), ratio ); return QColor::fromCmykF( c, m, y, k, a ); } case QColor::Hsl: { const int h = value( c1.hue(), c2.hue(), ratio ); const int s = value( c1.saturation(), c2.saturation(), ratio ); const int l = value( c1.lightness(), c2.lightness(), ratio ); const int a = value( c1.alpha(), c2.alpha(), ratio ); return QColor::fromHsl( h, s, l, a ); } #if QT_VERSION >= QT_VERSION_CHECK( 5, 14, 0 ) case QColor::ExtendedRgb: { const qreal r = valueF( c1.redF(), c2.redF(), ratio ); const qreal g = valueF( c1.greenF(), c2.greenF(), ratio ); const qreal b = valueF( c1.blueF(), c2.blueF(), ratio ); const qreal a = valueF( c1.alphaF(), c2.alphaF(), ratio ); return QColor::fromRgbF( r, g, b, a ); } #endif case QColor::Invalid: break; } return c2; } QRgb QskRgbValue::interpolated( QRgb rgb1, QRgb rgb2, qreal ratio ) { // interpolating in HSV usually provides better results !! if ( rgb1 == rgb2 ) return rgb1; const int r = value( qRed( rgb1 ), qRed( rgb2 ), ratio ); const int g = value( qGreen( rgb1 ), qGreen( rgb2 ), ratio ); const int b = value( qBlue( rgb1 ), qBlue( rgb2 ), ratio ); const int a = value( qAlpha( rgb1 ), qAlpha( rgb2 ), ratio ); return qRgba( r, g, b, a ); } QColor QskRgbValue::interpolated( const QColor& c1, const QColor& c2, qreal ratio ) { if ( c1 == c2 ) return c2; /* If one of the colors is invalid we treat it like a transparent version of the other color */ if ( !c1.isValid() ) { QColor c = c2; c.setAlpha( ratio * c2.alpha() ); return c; } if ( !c2.isValid() ) { QColor c = c1; c.setAlpha( ( 1.0 - ratio ) * c1.alpha() ); return c; } if ( c1.spec() == c2.spec() ) return qskInterpolatedColor( c1, c2, ratio ); else return qskInterpolatedColor( c1.convertTo( c2.spec() ), c2, ratio ); } QRgb QskRgbValue::rgb( Qt::GlobalColor color ) { using namespace QskRgbValue; static constexpr QRgb rgbValues[] = { White, // Qt::color0 Black, // Qt::color1 Black, // Qt::black White, // Qt::white Grey, // Qt::darkGray qRgb( 160, 160, 164 ), // Qt::gray Silver, // Qt::lightGray Red, // Qt::red Lime, // Qt::green Blue, // Qt::blue Cyan, // Qt::cyan Magenta, // Qt::magenta Yellow, // Qt::yellow Maroon, // Qt::darkRed Green, // Qt::darkGreen Navy, // Qt::darkBlue Teal, // Qt::darkCyan Purple, // Qt::darkMagenta Olive, // Qt::darkYellow Transparent // Qt::transparent }; return rgbValues[ color ]; }