path: root/src/effects/HueSaturation.qml

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import QtQuick 2.0
import "private"

/*!
    \qmltype HueSaturation
    \inqmlmodule QtGraphicalEffects 1.0
    \since QtGraphicalEffects 1.0
    \inherits QtQuick2::Item
    \ingroup qtgraphicaleffects-color
    \brief Alters the source item colors in the HSL color space.

    HueSaturation is similar to the \l{QtGraphicalEffects1::Colorize}{Colorize}
    effect, but the hue and saturation property values are handled differently.
    The HueSaturation effect always shifts the hue, saturation, and lightness
    from the original, instead of setting them.

    \table
    \header
        \li Source
        \li Effect applied
    \row
        \li \image Original_bug.png
        \li \image HueSaturation_bug.png
    \endtable

    \section1 Example

    The following example shows how to apply the effect.
    \snippet HueSaturation-example.qml example

*/
Item {
    id: rootItem

    /*!
        This property defines the source item that provides the source pixels
        for the effect.
    */
    property variant source: 0

    /*!
        This property defines the hue value which is added to the source hue
        value.

        The value ranges from -1.0 (decrease) to 1.0 (increase). By default, the
        property is set to \c 0.0 (no change).

        \table
        \header
        \li Output examples with different hue values
        \li
        \li
        \row
            \li \image HueSaturation_hue1.png
            \li \image HueSaturation_hue2.png
            \li \image HueSaturation_hue3.png
        \row
            \li \b { hue: -0.3 }
            \li \b { hue: 0.0 }
            \li \b { hue: 0.3 }
        \row
            \li \l saturation: 0
            \li \l saturation: 0
            \li \l saturation: 0
        \row
            \li \l lightness: 0
            \li \l lightness: 0
            \li \l lightness: 0
        \endtable

    */
    property real hue: 0.0

    /*!
        This property defines the saturation value value which is added to the
        source saturation value.

        The value ranges from -1.0 (decrease) to 1.0 (increase). By default, the
        property is set to \c 0.0 (no change).

        \table
        \header
        \li Output examples with different saturation values
        \li
        \li
        \row
            \li \image HueSaturation_saturation1.png
            \li \image HueSaturation_saturation2.png
            \li \image HueSaturation_saturation3.png
        \row
            \li \b { saturation: -0.8 }
            \li \b { saturation: 0.0 }
            \li \b { saturation: 1.0 }
        \row
            \li \l hue: 0
            \li \l hue: 0
            \li \l hue: 0
        \row
            \li \l lightness: 0
            \li \l lightness: 0
            \li \l lightness: 0
        \endtable

    */
    property real saturation: 0.0

    /*!
        This property defines the lightness value which is added to the source
        saturation value.

        The value ranges from -1.0 (decrease) to 1.0 (increase). By default, the
        property is set to \c 0.0 (no change).

        \table
        \header
        \li Output examples with different lightness values
        \li
        \li
        \row
            \li \image HueSaturation_lightness1.png
            \li \image HueSaturation_lightness2.png
            \li \image HueSaturation_lightness3.png
        \row
            \li \b { lightness: -0.5 }
            \li \b { lightness: 0.0 }
            \li \b { lightness: 0.5 }
        \row
            \li \l hue: 0
            \li \l hue: 0
            \li \l hue: 0
        \row
            \li \l saturation: 0
            \li \l saturation: 0
            \li \l saturation: 0
        \endtable

    */
    property real lightness: 0.0

    /*!
        This property allows the effect output pixels to be cached in order to
        improve the rendering performance.

        Every time the source or effect properties are changed, the pixels in
        the cache must be updated. Memory consumption is increased, because an
        extra buffer of memory is required for storing the effect output.

        It is recommended to disable the cache when the source or the effect
        properties are animated.

        By default, the property is set to \c false.
    */
    property bool cached: false

    SourceProxy {
        id: sourceProxy
        input: rootItem.source
    }

    ShaderEffectSource {
        id: cacheItem
        anchors.fill: parent
        visible: rootItem.cached
        smooth: true
        sourceItem: shaderItem
        live: true
        hideSource: visible
    }

    ShaderEffect {
        id: shaderItem
        property variant source: sourceProxy.output
        property variant hsl: Qt.vector3d(rootItem.hue, rootItem.saturation, rootItem.lightness)

        anchors.fill: parent

        fragmentShader: "
            varying highp vec2 qt_TexCoord0;
            uniform highp float qt_Opacity;
            uniform highp sampler2D source;
            uniform highp vec3 hsl;

            highp vec3 RGBtoHSL(highp vec3 color) {
                highp float cmin = min(color.r, min(color.g, color.b));
                highp float cmax = max(color.r, max(color.g, color.b));
                highp float h = 0.0;
                highp float s = 0.0;
                highp float l = (cmin + cmax) / 2.0;
                highp float diff = cmax - cmin;

                if (diff > 1.0 / 256.0) {
                    if (l < 0.5)
                        s = diff / (cmin + cmax);
                    else
                        s = diff / (2.0 - (cmin + cmax));

                    if (color.r == cmax)
                        h = (color.g - color.b) / diff;
                    else if (color.g == cmax)
                        h = 2.0 + (color.b - color.r) / diff;
                    else
                        h = 4.0 + (color.r - color.g) / diff;

                    h /= 6.0;
                }
                return vec3(h, s, l);
            }

            highp float hueToIntensity(highp float v1, highp float v2, highp float h) {
                h = fract(h);
                if (h < 1.0 / 6.0)
                    return v1 + (v2 - v1) * 6.0 * h;
                else if (h < 1.0 / 2.0)
                    return v2;
                else if (h < 2.0 / 3.0)
                    return v1 + (v2 - v1) * 6.0 * (2.0 / 3.0 - h);

                return v1;
            }

            highp vec3 HSLtoRGB(highp vec3 color) {
                highp float h = color.x;
                highp float l = color.z;
                highp float s = color.y;

                if (s < 1.0 / 256.0)
                    return vec3(l);

                highp float v1;
                highp float v2;
                if (l < 0.5)
                    v2 = l * (1.0 + s);
                else
                    v2 = (l + s) - (s * l);

                v1 = 2.0 * l - v2;

                highp float d = 1.0 / 3.0;
                highp float r = hueToIntensity(v1, v2, h + d);
                highp float g = hueToIntensity(v1, v2, h);
                highp float b = hueToIntensity(v1, v2, h - d);
                return vec3(r, g, b);
            }

            void main() {
                lowp vec4 sample = texture2D(source, qt_TexCoord0);
                sample = vec4(sample.rgb / max(1.0/256.0, sample.a), sample.a);
                sample.rgb = mix(vec3(dot(sample.rgb, vec3(0.2125, 0.7154, 0.0721))), sample.rgb, 1.0 + hsl.y);
                sample.xyz = RGBtoHSL(sample.rgb);
                sample.rgb = HSLtoRGB(vec3(sample.x + hsl.x, sample.y, sample.z));
                highp float c = step(0.0, hsl.z);
                sample.rgb = mix(sample.rgb, vec3(c), abs(hsl.z));
                gl_FragColor = vec4(sample.rgb * sample.a, sample.a) * qt_Opacity;
            }
        "
    }
}