qskinny/src/common/QskGradient.cpp

/******************************************************************************
 * QSkinny - Copyright (C) 2016 Uwe Rathmann
 * This file may be used under the terms of the QSkinny License, Version 1.0
 *****************************************************************************/

#include "QskGradient.h"
#include "QskRgbValue.h"
#include <QVariant>
#include <QDebug>

#include <qhashfunctions.h>

static void qskRegisterGradient()
{
    qRegisterMetaType< QskGradient >();
}

Q_CONSTRUCTOR_FUNCTION( qskRegisterGradient )

static inline bool qskIsGradientValid( const QVector< QskGradientStop >& stops )
{
    if ( stops.size() < 2 )
        return false;

    if ( stops.first().position() != 0.0 ||
        stops.last().position() != 1.0 )
    {
        return false;
    }

    if ( !stops.first().color().isValid() )
        return false;

    for ( int i = 1; i < stops.size(); i++ )
    {
        if ( stops[i].position() < stops[i - 1].position() )
            return false;

        if ( !stops[i].color().isValid() )
            return false;
    }

    return true;
}

static inline bool qskIsMonochrome( const QVector< QskGradientStop >& stops )
{
    for ( int i = 1; i < stops.size(); i++ )
    {
        if ( stops[i].color() != stops[0].color() )
            return false;
    }

    return true;
}

static inline QColor qskInterpolated(
    const QskGradientStop& s1, const QskGradientStop& s2, qreal pos )
{
    if ( s1.color() == s2.color() )
        return s1.color();

    const qreal ratio = ( pos - s1.position() ) / ( s2.position() - s1.position() );
    return QskRgbValue::interpolated( s1.color(), s2.color(), ratio );
}

static inline bool qskComparePositions(
    const QVector< QskGradientStop >& s1, const QVector< QskGradientStop >& s2 )
{
    if ( s1.count() != s2.count() )
        return false;

    // the first is always at 0.0, the last at 1.0
    for ( int i = 1; i < s1.count() - 1; i++ )
    {
        if ( s1[i].position() != s2[i].position() )
            return false;
    }

    return true;
}

static inline QVector< QskGradientStop > qskExpandedStops(
    const QVector< QskGradientStop >& s1, const QVector< QskGradientStop >& s2 )
{
    // expand s1 by stops matching to the positions from s2

    if ( qskComparePositions( s1, s2 ) )
        return s1;

    QVector< QskGradientStop > stops;

    stops += s1.first();

    int i = 1, j = 1;
    while( ( i < s1.count() - 1 ) || ( j < s2.count() - 1 ) )
    {
        if ( s1[i].position() < s2[j].position() )
        {
            stops += s1[i++];
        }
        else
        {
            const qreal pos = s2[j++].position();
            stops += QskGradientStop( pos, qskInterpolated( s1[i - 1], s1[i], pos ) );
        }
    }

    stops += s1.last();

    return stops;
}

QskGradientStop::QskGradientStop():
    m_position( -1.0 )
{
}

QskGradientStop::QskGradientStop( qreal position, const QColor& color ):
    m_position( position ),
    m_color( color )
{
}

void QskGradientStop::setPosition( qreal position )
{
    m_position = position;
}

void QskGradientStop::resetPosition()
{
    m_position = -1.0;
}

void QskGradientStop::setColor( const QColor& color )
{
    m_color = color;
}

void QskGradientStop::resetColor()
{
    m_color = QColor();
}

uint QskGradientStop::hash( uint seed ) const
{
    uint hash = qHashBits( &m_position, sizeof( m_position ), seed );
    return qHashBits( &m_color, sizeof( m_color ), hash );
}

QColor QskGradientStop::interpolated(
    const QskGradientStop& s1, const QskGradientStop& s2, qreal position )
{
    if ( s1.color() == s2.color() )
        return s1.color();

    auto min = &s1;
    auto max = &s2;

    if ( min->position() > max->position() )
        std::swap( min, max );

    if ( position <= min->position() )
        return min->color();

    if ( position >= max->position() )
        return max->color();

    const qreal r = ( position - min->position() ) / ( max->position() - min->position() );
    return QskRgbValue::interpolated( min->color(), max->color(), r );
}

QskGradient::QskGradient():
    m_orientation( Vertical )
{
}

QskGradient::QskGradient( const QColor& color ):
    m_orientation( Vertical )
{
    setColor( color );
}

QskGradient::QskGradient( Orientation orientation,
        const QColor& startColor, const QColor& stopColor ):
    m_orientation( orientation )
{
    setColors( startColor, stopColor );
}

QskGradient::QskGradient( Orientation orientation,
    const QVector< QskGradientStop >& stops ):
    m_orientation( orientation ),
    m_stops( stops )
{
}

QskGradient::~QskGradient()
{
}

bool QskGradient::isValid() const
{
    return qskIsGradientValid( m_stops );
}

void QskGradient::invalidate()
{
    m_stops.clear();
}

bool QskGradient::isMonochrome() const
{
    if ( !qskIsGradientValid( m_stops ) )
        return true;

    return qskIsMonochrome( m_stops );
}

bool QskGradient::isVisible() const
{
    if ( isValid() )
    {
        for ( const auto& stop : m_stops )
        {
            const auto& c = stop.color();
            if ( c.isValid() && c.alpha() > 0 )
                return true;
        }
    }

    return false;
}

void QskGradient::setOrientation( Orientation orientation )
{
    m_orientation = orientation;
}

QskGradient::Orientation QskGradient::orientation() const
{
    return m_orientation;
}

void QskGradient::setColor( const QColor& color )
{
    setColors( color, color );
}

void QskGradient::setColors( const QColor& startColor, const QColor& stopColor )
{
    m_stops.resize( 2 );
    m_stops[0].setPosition( 0.0 );
    m_stops[0].setColor( startColor );
    m_stops[1].setPosition( 1.0 );
    m_stops[1].setColor( stopColor );
}

void QskGradient::setStops( const QVector< QskGradientStop >& stops )
{
    if ( !qskIsGradientValid( stops ) )
    {
        qWarning( "Invalid gradient stops" );
        invalidate();
        return;
    }

    m_stops = stops;
}

QVector< QskGradientStop > QskGradient::stops() const
{
    return m_stops;
}

void QskGradient::setStopAt( int index, qreal stop )
{
    if ( stop < 0.0 || stop > 1.0 )
    {
        qWarning( "Invalid gradient stop: %g, must be in the range [0,1]", stop );
        return;
    }

    if ( index >= m_stops.size() )
        m_stops.resize( index + 1 );

    m_stops[index].setPosition( stop );
}

qreal QskGradient::stopAt( int index ) const
{
    if ( index >= m_stops.size() )
        return -1.0;

    return m_stops[index].position();
}

void QskGradient::setColorAt( int index, const QColor& color )
{
    if ( !color.isValid() )
    {
        qWarning( "Invalid gradient color" );
        return;
    }

    if ( index >= m_stops.size() )
        m_stops.resize( index + 1 );

    m_stops[index].setColor( color );
}

QColor QskGradient::colorAt( int index ) const
{
    if ( index >= m_stops.size() )
        return QColor();

    return m_stops[index].color();
}

void QskGradient::setAlpha( int alpha )
{
    for ( auto& stop : m_stops )
    {
        QColor c = stop.color();
        if ( c.isValid() && c.alpha() )
        {
            c.setAlpha( alpha );
            stop.setColor( c );
        }
    }
}

bool QskGradient::hasStopAt( qreal value ) const
{
    // better use binary search TODO ...
    for ( auto& stop : m_stops )
    {
        if ( stop.position() == value )
            return true;

        if ( stop.position() > value )
            break;
    }

    return false;
}

uint QskGradient::hash( uint seed ) const
{
    const int count = m_stops.size();
    if ( count == 0 )
        return seed;

    uint hash = qHashBits( &m_orientation, sizeof( m_orientation ), seed );
    for ( const auto& stop : m_stops )
        hash = stop.hash( hash );

    return hash;
}

QskGradient QskGradient::interpolated(
    const QskGradient& to, qreal value ) const
{
    if ( !( isValid() && to.isValid() ) )
        return to;

    if ( qskIsMonochrome( m_stops ) )
    {
        // we can ignore our stops

        const QColor c = m_stops[0].color();

        QVector< QskGradientStop > s2 = to.m_stops;
        for ( int i = 0; i < s2.count(); i++ )
        {
            const QColor c2 = QskRgbValue::interpolated(
                c, s2[i].color(), value );

            s2[i].setColor( c2 );
        }

        return QskGradient( to.m_orientation, s2 );
    }

    if ( qskIsMonochrome( to.m_stops ) )
    {
        // we can ignore the stops of to

        const QColor c = to.m_stops[0].color();

        QVector< QskGradientStop > s2 = m_stops;
        for ( int i = 0; i < s2.count(); i++ )
        {
            const QColor c2 = QskRgbValue::interpolated(
                s2[i].color(), c, value );

            s2[i].setColor( c2 );
        }

        return QskGradient( m_orientation, s2 );
    }

    if ( m_orientation == to.m_orientation )
    {
        /*
            we need to have the same number of stops
            at the same positions
         */

        const QVector< QskGradientStop > s1 = qskExpandedStops( m_stops, to.m_stops );
        QVector< QskGradientStop > s2 = qskExpandedStops( to.m_stops, m_stops );

        for ( int i = 0; i < s1.count(); i++ )
        {
            const QColor c2 = QskRgbValue::interpolated(
                s1[i].color(), s2[i].color(), value );

            s2[i].setColor( c2 );
        }

        return QskGradient( m_orientation, s2 );
    }
    else
    {
        /*
            The interpolation is devided into 2 steps. First we
            interpolate into a monochrome gradient and ten change
            the orientation before we continue in direction of the
            final gradient.
         */

        const QColor c = m_stops[0].color();

        if ( value <= 0.5 )
        {
            QVector< QskGradientStop > s2 = m_stops;

            for ( int i = 0; i < s2.count(); i++ )
            {
                const QColor c2 = QskRgbValue::interpolated(
                    s2[i].color(), c, 2 * value );

                s2[i].setColor( c2 );
            }

            return QskGradient( m_orientation, s2 );
        }
        else
        {
            QVector< QskGradientStop > s2 = to.m_stops;

            for ( int i = 0; i < s2.count(); i++ )
            {
                const QColor c2 = QskRgbValue::interpolated(
                    c, s2[i].color(), 2 * ( value - 0.5 ) );

                s2[i].setColor( c2 );
            }

            return QskGradient( to.m_orientation, s2 );
        }
    }
}

QVariant QskGradient::interpolate(
    const QskGradient& from, const QskGradient& to, qreal progress )
{
    return QVariant::fromValue( from.interpolated( to, progress ) );
}


#ifndef QT_NO_DEBUG_STREAM

QDebug operator<<( QDebug debug, const QskGradientStop& stop )
{
    debug << "GR:" << stop.position() << stop.color();
    return debug;
}

QDebug operator<<( QDebug debug, const QskGradient& gradient )
{
    debug << "GR:" << gradient.orientation() << gradient.stops().count();
    return debug;
}

#endif

#include "moc_QskGradient.cpp"