path: root/src/quick/scenegraph/qsgdefaultglyphnode_p.cpp

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#include "qsgdefaultglyphnode_p_p.h"
#include <private/qsgmaterialshader_p.h>

#include <qopenglshaderprogram.h>
#include <qopenglframebufferobject.h>

#include <QtGui/private/qguiapplication_p.h>
#include <qpa/qplatformintegration.h>
#include <private/qfontengine_p.h>
#include <private/qopenglextensions_p.h>

#include <QtQuick/qquickwindow.h>
#include <QtQuick/private/qsgtexture_p.h>
#include <QtQuick/private/qsgdefaultrendercontext_p.h>

#include <private/qrawfont_p.h>
#include <QtCore/qmath.h>

QT_BEGIN_NAMESPACE

#ifndef GL_FRAMEBUFFER_SRGB
#define GL_FRAMEBUFFER_SRGB 0x8DB9
#endif

#ifndef GL_FRAMEBUFFER_SRGB_CAPABLE
#define GL_FRAMEBUFFER_SRGB_CAPABLE 0x8DBA
#endif

static inline QVector4D qsg_premultiply(const QVector4D &c, float globalOpacity)
{
    float o = c.w() * globalOpacity;
    return QVector4D(c.x() * o, c.y() * o, c.z() * o, o);
}

static inline int qsg_device_pixel_ratio(QOpenGLContext *ctx)
{
    int devicePixelRatio = 1;
    if (ctx->surface()->surfaceClass() == QSurface::Window) {
        QWindow *w = static_cast<QWindow *>(ctx->surface());
        if (QQuickWindow *qw = qobject_cast<QQuickWindow *>(w))
            devicePixelRatio = qw->effectiveDevicePixelRatio();
        else
            devicePixelRatio = w->devicePixelRatio();
    } else {
        devicePixelRatio = ctx->screen() ? ctx->screen()->devicePixelRatio() : qGuiApp->devicePixelRatio();
    }
    return devicePixelRatio;
}

class QSGTextMaskShader : public QSGMaterialShader
{
public:
    QSGTextMaskShader(QFontEngine::GlyphFormat glyphFormat);

    virtual void updateState(const RenderState &state, QSGMaterial *newEffect, QSGMaterial *oldEffect);
    virtual char const *const *attributeNames() const;

protected:
    virtual void initialize();

    int m_matrix_id;
    int m_color_id;
    int m_textureScale_id;
    float m_devicePixelRatio;

    QFontEngine::GlyphFormat m_glyphFormat;
};

char const *const *QSGTextMaskShader::attributeNames() const
{
    static char const *const attr[] = { "vCoord", "tCoord", 0 };
    return attr;
}

QSGTextMaskShader::QSGTextMaskShader(QFontEngine::GlyphFormat glyphFormat)
    : QSGMaterialShader(*new QSGMaterialShaderPrivate)
    , m_matrix_id(-1)
    , m_color_id(-1)
    , m_textureScale_id(-1)
    , m_glyphFormat(glyphFormat)
{
    setShaderSourceFile(QOpenGLShader::Vertex, QStringLiteral(":/qt-project.org/scenegraph/shaders/textmask.vert"));
    setShaderSourceFile(QOpenGLShader::Fragment, QStringLiteral(":/qt-project.org/scenegraph/shaders/textmask.frag"));
}

static inline qreal fontSmoothingGamma()
{
    static qreal fontSmoothingGamma = QGuiApplicationPrivate::platformIntegration()->styleHint(QPlatformIntegration::FontSmoothingGamma).toReal();
    return fontSmoothingGamma;
}

void QSGTextMaskShader::initialize()
{
    m_matrix_id = program()->uniformLocation("matrix");
    m_color_id = program()->uniformLocation("color");
    m_textureScale_id = program()->uniformLocation("textureScale");
    m_devicePixelRatio = (float) qsg_device_pixel_ratio(QOpenGLContext::currentContext());
    program()->setUniformValue("dpr", m_devicePixelRatio);
}

void QSGTextMaskShader::updateState(const RenderState &state, QSGMaterial *newEffect, QSGMaterial *oldEffect)
{
    QSGTextMaskMaterial *material = static_cast<QSGTextMaskMaterial *>(newEffect);
    QSGTextMaskMaterial *oldMaterial = static_cast<QSGTextMaskMaterial *>(oldEffect);
    Q_ASSERT(oldEffect == 0 || newEffect->type() == oldEffect->type());
    bool updated = material->ensureUpToDate();
    Q_ASSERT(material->texture());

    Q_ASSERT(oldMaterial == 0 || oldMaterial->texture());
    if (updated
            || oldMaterial == 0
            || oldMaterial->texture()->textureId() != material->texture()->textureId()) {
        program()->setUniformValue(m_textureScale_id, QVector2D(1.0 / material->cacheTextureWidth(),
                                                               1.0 / material->cacheTextureHeight()));
        QOpenGLFunctions *funcs = QOpenGLContext::currentContext()->functions();
        funcs->glBindTexture(GL_TEXTURE_2D, material->texture()->textureId());

        // Set the mag/min filters to be nearest. We only need to do this when the texture
        // has been recreated.
        if (updated) {
            funcs->glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
            funcs->glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
        }
    }

    float devicePixelRatio = (float) qsg_device_pixel_ratio(QOpenGLContext::currentContext());
    if (m_devicePixelRatio != devicePixelRatio) {
        m_devicePixelRatio = devicePixelRatio;
        program()->setUniformValue("dpr", m_devicePixelRatio);
    }

    if (state.isMatrixDirty())
        program()->setUniformValue(m_matrix_id, state.combinedMatrix());
}

class QSG8BitTextMaskShader : public QSGTextMaskShader
{
public:
    QSG8BitTextMaskShader(QFontEngine::GlyphFormat glyphFormat)
        : QSGTextMaskShader(glyphFormat)
    {
        setShaderSourceFile(QOpenGLShader::Fragment, QStringLiteral(":/qt-project.org/scenegraph/shaders/8bittextmask.frag"));
    }

    virtual void updateState(const RenderState &state, QSGMaterial *newEffect, QSGMaterial *oldEffect);
};

void QSG8BitTextMaskShader::updateState(const RenderState &state, QSGMaterial *newEffect, QSGMaterial *oldEffect)
{
    QSGTextMaskShader::updateState(state, newEffect, oldEffect);
    QSGTextMaskMaterial *material = static_cast<QSGTextMaskMaterial *>(newEffect);
    QSGTextMaskMaterial *oldMaterial = static_cast<QSGTextMaskMaterial *>(oldEffect);

    if (oldMaterial == 0 || material->color() != oldMaterial->color() || state.isOpacityDirty()) {
        QVector4D color = qsg_premultiply(material->color(), state.opacity());
        program()->setUniformValue(m_color_id, color);
    }
}

class QSG24BitTextMaskShader : public QSGTextMaskShader
{
public:
    QSG24BitTextMaskShader(QFontEngine::GlyphFormat glyphFormat)
        : QSGTextMaskShader(glyphFormat)
        , m_useSRGB(false)
    {
        setShaderSourceFile(QOpenGLShader::Fragment, QStringLiteral(":/qt-project.org/scenegraph/shaders/24bittextmask.frag"));
    }

    virtual void updateState(const RenderState &state, QSGMaterial *newEffect, QSGMaterial *oldEffect);
    virtual void initialize();
    void activate();
    void deactivate();

    bool useSRGB() const;
    uint m_useSRGB : 1;
};

void QSG24BitTextMaskShader::initialize()
{
    QSGTextMaskShader::initialize();
    // 0.25 was found to be acceptable error margin by experimentation. On Mac, the gamma is 2.0,
    // but using sRGB looks okay.
    if (QOpenGLContext::currentContext()->hasExtension(QByteArrayLiteral("GL_ARB_framebuffer_sRGB"))
            && m_glyphFormat == QFontEngine::Format_A32
            && qAbs(fontSmoothingGamma() - 2.2) < 0.25) {
        QOpenGLFunctions *funcs = QOpenGLContext::currentContext()->functions();
        GLint srgbCapable = 0;
        funcs->glGetIntegerv(GL_FRAMEBUFFER_SRGB_CAPABLE, &srgbCapable);
        if (srgbCapable)
            m_useSRGB = true;
    }
}

bool QSG24BitTextMaskShader::useSRGB() const
{
#ifdef Q_OS_MACOS
    if (!m_useSRGB)
        return false;

    // m_useSRGB is true, but if some QOGLFBO was bound check it's texture format:
    QOpenGLContext *ctx = QOpenGLContext::currentContext();
    QOpenGLFramebufferObject *qfbo = QOpenGLContextPrivate::get(ctx)->qgl_current_fbo;
    bool fboInvalid = QOpenGLContextPrivate::get(ctx)->qgl_current_fbo_invalid;
    return !qfbo || fboInvalid || qfbo->format().internalTextureFormat() == GL_SRGB8_ALPHA8_EXT;
#else
    return m_useSRGB;
#endif
}

void QSG24BitTextMaskShader::activate()
{
    QOpenGLFunctions *funcs = QOpenGLContext::currentContext()->functions();
    funcs->glBlendFunc(GL_CONSTANT_COLOR, GL_ONE_MINUS_SRC_COLOR);
    if (useSRGB())
        funcs->glEnable(GL_FRAMEBUFFER_SRGB);
}

void QSG24BitTextMaskShader::deactivate()
{
    QOpenGLFunctions *funcs = QOpenGLContext::currentContext()->functions();
    funcs->glBlendFunc(GL_ONE, GL_ONE_MINUS_SRC_ALPHA);
    if (useSRGB())
        funcs->glDisable(GL_FRAMEBUFFER_SRGB);
}

static inline qreal qt_sRGB_to_linear_RGB(qreal f)
{
    return f > 0.04045 ? qPow((f + 0.055) / 1.055, 2.4) : f / 12.92;
}

static inline QVector4D qt_sRGB_to_linear_RGB(const QVector4D &color)
{
    return QVector4D(qt_sRGB_to_linear_RGB(color.x()),
                     qt_sRGB_to_linear_RGB(color.y()),
                     qt_sRGB_to_linear_RGB(color.z()),
                     color.w());
}

void QSG24BitTextMaskShader::updateState(const RenderState &state, QSGMaterial *newEffect, QSGMaterial *oldEffect)
{
    QSGTextMaskShader::updateState(state, newEffect, oldEffect);
    QSGTextMaskMaterial *material = static_cast<QSGTextMaskMaterial *>(newEffect);
    QSGTextMaskMaterial *oldMaterial = static_cast<QSGTextMaskMaterial *>(oldEffect);

    if (oldMaterial == 0 || material->color() != oldMaterial->color() || state.isOpacityDirty()) {
        QVector4D color = material->color();
        if (useSRGB())
            color = qt_sRGB_to_linear_RGB(color);
        QOpenGLContext::currentContext()->functions()->glBlendColor(color.x(), color.y(), color.z(), color.w());
        color = qsg_premultiply(color, state.opacity());
        program()->setUniformValue(m_color_id, color.w());
    }
}

class QSG32BitColorTextShader : public QSGTextMaskShader
{
public:
    QSG32BitColorTextShader(QFontEngine::GlyphFormat glyphFormat)
        : QSGTextMaskShader(glyphFormat)
    {
        setShaderSourceFile(QOpenGLShader::Fragment, QStringLiteral(":/qt-project.org/scenegraph/shaders/32bitcolortext.frag"));
    }

    void updateState(const RenderState &state, QSGMaterial *newEffect, QSGMaterial *oldEffect) Q_DECL_OVERRIDE;
};

void QSG32BitColorTextShader::updateState(const RenderState &state, QSGMaterial *newEffect, QSGMaterial *oldEffect)
{
    QSGTextMaskShader::updateState(state, newEffect, oldEffect);
    QSGTextMaskMaterial *material = static_cast<QSGTextMaskMaterial *>(newEffect);
    QSGTextMaskMaterial *oldMaterial = static_cast<QSGTextMaskMaterial *>(oldEffect);

    if (oldMaterial == Q_NULLPTR || material->color() != oldMaterial->color() || state.isOpacityDirty()) {
        float opacity = material->color().w() * state.opacity();
        program()->setUniformValue(m_color_id, opacity);
    }
}

class QSGStyledTextShader : public QSG8BitTextMaskShader
{
public:
    QSGStyledTextShader(QFontEngine::GlyphFormat glyphFormat)
        : QSG8BitTextMaskShader(glyphFormat)
    {
        setShaderSourceFile(QOpenGLShader::Vertex, QStringLiteral(":/qt-project.org/scenegraph/shaders/styledtext.vert"));
        setShaderSourceFile(QOpenGLShader::Fragment, QStringLiteral(":/qt-project.org/scenegraph/shaders/styledtext.frag"));
    }

    virtual void updateState(const RenderState &state, QSGMaterial *newEffect, QSGMaterial *oldEffect);

private:
    virtual void initialize();

    int m_shift_id;
    int m_styleColor_id;
};

void QSGStyledTextShader::initialize()
{
    QSG8BitTextMaskShader::initialize();
    m_shift_id = program()->uniformLocation("shift");
    m_styleColor_id = program()->uniformLocation("styleColor");
}

void QSGStyledTextShader::updateState(const RenderState &state,
                                      QSGMaterial *newEffect,
                                      QSGMaterial *oldEffect)
{
    Q_ASSERT(oldEffect == 0 || newEffect->type() == oldEffect->type());

    QSGStyledTextMaterial *material = static_cast<QSGStyledTextMaterial *>(newEffect);
    QSGStyledTextMaterial *oldMaterial = static_cast<QSGStyledTextMaterial *>(oldEffect);

    if (oldMaterial == 0 || oldMaterial->styleShift() != material->styleShift())
        program()->setUniformValue(m_shift_id, material->styleShift());

    if (oldMaterial == 0 || material->color() != oldMaterial->color() || state.isOpacityDirty()) {
        QVector4D color = qsg_premultiply(material->color(), state.opacity());
        program()->setUniformValue(m_color_id, color);
    }

    if (oldMaterial == 0 || material->styleColor() != oldMaterial->styleColor() || state.isOpacityDirty()) {
        QVector4D styleColor = qsg_premultiply(material->styleColor(), state.opacity());
        program()->setUniformValue(m_styleColor_id, styleColor);
    }

    bool updated = material->ensureUpToDate();
    Q_ASSERT(material->texture());

    Q_ASSERT(oldMaterial == 0 || oldMaterial->texture());
    if (updated
            || oldMaterial == 0
            || oldMaterial->texture()->textureId() != material->texture()->textureId()) {
        program()->setUniformValue(m_textureScale_id, QVector2D(1.0 / material->cacheTextureWidth(),
                                                                1.0 / material->cacheTextureHeight()));
        QOpenGLFunctions *funcs = QOpenGLContext::currentContext()->functions();
        funcs->glBindTexture(GL_TEXTURE_2D, material->texture()->textureId());

        // Set the mag/min filters to be linear. We only need to do this when the texture
        // has been recreated.
        if (updated) {
            funcs->glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_NEAREST);
            funcs->glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_NEAREST);
        }
    }

    if (state.isMatrixDirty())
        program()->setUniformValue(m_matrix_id, state.combinedMatrix());
}

class QSGOutlinedTextShader : public QSGStyledTextShader
{
public:
    QSGOutlinedTextShader(QFontEngine::GlyphFormat glyphFormat)
        : QSGStyledTextShader(glyphFormat)
    {
        setShaderSourceFile(QOpenGLShader::Vertex, QStringLiteral(":/qt-project.org/scenegraph/shaders/outlinedtext.vert"));
        setShaderSourceFile(QOpenGLShader::Fragment, QStringLiteral(":/qt-project.org/scenegraph/shaders/outlinedtext.frag"));
    }
};

QSGTextMaskMaterial::QSGTextMaskMaterial(const QRawFont &font, QFontEngine::GlyphFormat glyphFormat)
    : m_texture(0)
    , m_glyphCache(0)
    , m_font(font)
{
    init(glyphFormat);
}

QSGTextMaskMaterial::~QSGTextMaskMaterial()
{
    delete m_texture;
}

void QSGTextMaskMaterial::init(QFontEngine::GlyphFormat glyphFormat)
{
    Q_ASSERT(m_font.isValid());

    setFlag(Blending, true);

    QOpenGLContext *ctx = const_cast<QOpenGLContext *>(QOpenGLContext::currentContext());
    Q_ASSERT(ctx != 0);

    // The following piece of code will read/write to the font engine's caches,
    // potentially from different threads. However, this is safe because this
    // code is only called from QQuickItem::updatePaintNode() which is called
    // only when the GUI is blocked, and multiple threads will call it in
    // sequence. See also QSGRenderContext::invalidate

    QRawFontPrivate *fontD = QRawFontPrivate::get(m_font);
    if (QFontEngine *fontEngine = fontD->fontEngine) {
        if (glyphFormat == QFontEngine::Format_None) {
            glyphFormat = fontEngine->glyphFormat != QFontEngine::Format_None
                        ? fontEngine->glyphFormat
                        : QFontEngine::Format_A32;
        }

        qreal devicePixelRatio = qsg_device_pixel_ratio(ctx);


        QTransform glyphCacheTransform = QTransform::fromScale(devicePixelRatio, devicePixelRatio);
        if (!fontEngine->supportsTransformation(glyphCacheTransform))
            glyphCacheTransform = QTransform();

        m_glyphCache = fontEngine->glyphCache(ctx, glyphFormat, glyphCacheTransform);
        if (!m_glyphCache || int(m_glyphCache->glyphFormat()) != glyphFormat) {
            m_glyphCache = new QOpenGLTextureGlyphCache(glyphFormat, glyphCacheTransform);
            fontEngine->setGlyphCache(ctx, m_glyphCache.data());
            auto sg = QSGDefaultRenderContext::from(ctx);
            Q_ASSERT(sg);
            sg->registerFontengineForCleanup(fontEngine);
        }
    }
}

void QSGTextMaskMaterial::populate(const QPointF &p,
                                   const QVector<quint32> &glyphIndexes,
                                   const QVector<QPointF> &glyphPositions,
                                   QSGGeometry *geometry,
                                   QRectF *boundingRect,
                                   QPointF *baseLine,
                                   const QMargins &margins)
{
    Q_ASSERT(m_font.isValid());
    QVector<QFixedPoint> fixedPointPositions;
    const int glyphPositionsSize = glyphPositions.size();
    fixedPointPositions.reserve(glyphPositionsSize);
    for (int i=0; i < glyphPositionsSize; ++i)
        fixedPointPositions.append(QFixedPoint::fromPointF(glyphPositions.at(i)));

    QTextureGlyphCache *cache = glyphCache();

    QRawFontPrivate *fontD = QRawFontPrivate::get(m_font);
    cache->populate(fontD->fontEngine, glyphIndexes.size(), glyphIndexes.constData(),
                    fixedPointPositions.data());
    cache->fillInPendingGlyphs();

    int margin = fontD->fontEngine->glyphMargin(cache->glyphFormat());

    qreal glyphCacheScaleX = cache->transform().m11();
    qreal glyphCacheScaleY = cache->transform().m22();
    qreal glyphCacheInverseScaleX = 1.0 / glyphCacheScaleX;
    qreal glyphCacheInverseScaleY = 1.0 / glyphCacheScaleY;

    Q_ASSERT(geometry->indexType() == GL_UNSIGNED_SHORT);
    geometry->allocate(glyphIndexes.size() * 4, glyphIndexes.size() * 6);
    QVector4D *vp = (QVector4D *)geometry->vertexDataAsTexturedPoint2D();
    Q_ASSERT(geometry->sizeOfVertex() == sizeof(QVector4D));
    ushort *ip = geometry->indexDataAsUShort();

    QPointF position(p.x(), p.y() - m_font.ascent());
    bool supportsSubPixelPositions = fontD->fontEngine->supportsSubPixelPositions();
    for (int i=0; i<glyphIndexes.size(); ++i) {
         QFixed subPixelPosition;
         if (supportsSubPixelPositions)
             subPixelPosition = fontD->fontEngine->subPixelPositionForX(QFixed::fromReal(glyphPositions.at(i).x()));

         QTextureGlyphCache::GlyphAndSubPixelPosition glyph(glyphIndexes.at(i), subPixelPosition);
         const QTextureGlyphCache::Coord &c = cache->coords.value(glyph);

         QPointF glyphPosition = glyphPositions.at(i) + position;

         // On a retina screen the glyph positions are not pre-scaled (as opposed to
         // eg. the raster paint engine). To ensure that we get the same behavior as
         // the raster engine (and CoreText itself) when it comes to rounding of the
         // coordinates, we need to apply the scale factor before rounding, and then
         // apply the inverse scale to get back to the coordinate system of the node.

         qreal x = (qFloor(glyphPosition.x() * glyphCacheScaleX) * glyphCacheInverseScaleX) +
                        (c.baseLineX * glyphCacheInverseScaleX) - margin;
         qreal y = (qRound(glyphPosition.y() * glyphCacheScaleY) * glyphCacheInverseScaleY) -
                        (c.baseLineY * glyphCacheInverseScaleY) - margin;

         qreal w = c.w * glyphCacheInverseScaleX;
         qreal h = c.h * glyphCacheInverseScaleY;

         *boundingRect |= QRectF(x + margin, y + margin, w, h);

         float cx1 = x - margins.left();
         float cx2 = x + w + margins.right();
         float cy1 = y - margins.top();
         float cy2 = y + h + margins.bottom();

         float tx1 = c.x - margins.left();
         float tx2 = c.x + c.w + margins.right();
         float ty1 = c.y - margins.top();
         float ty2 = c.y + c.h + margins.bottom();

         if (baseLine->isNull())
             *baseLine = glyphPosition;

         vp[4 * i + 0] = QVector4D(cx1, cy1, tx1, ty1);
         vp[4 * i + 1] = QVector4D(cx2, cy1, tx2, ty1);
         vp[4 * i + 2] = QVector4D(cx1, cy2, tx1, ty2);
         vp[4 * i + 3] = QVector4D(cx2, cy2, tx2, ty2);

         int o = i * 4;
         ip[6 * i + 0] = o + 0;
         ip[6 * i + 1] = o + 2;
         ip[6 * i + 2] = o + 3;
         ip[6 * i + 3] = o + 3;
         ip[6 * i + 4] = o + 1;
         ip[6 * i + 5] = o + 0;
    }
}

QSGMaterialType *QSGTextMaskMaterial::type() const
{
    static QSGMaterialType argb, rgb, gray;
    switch (glyphCache()->glyphFormat()) {
    case QFontEngine::Format_ARGB:
        return &argb;
    case QFontEngine::Format_A32:
        return &rgb;
    case QFontEngine::Format_A8:
    default:
        return &gray;
    }
}

QOpenGLTextureGlyphCache *QSGTextMaskMaterial::glyphCache() const
{
    return static_cast<QOpenGLTextureGlyphCache*>(m_glyphCache.data());
}

QSGMaterialShader *QSGTextMaskMaterial::createShader() const
{
    switch (QFontEngine::GlyphFormat glyphFormat = glyphCache()->glyphFormat()) {
    case QFontEngine::Format_ARGB:
        return new QSG32BitColorTextShader(glyphFormat);
    case QFontEngine::Format_A32:
        return new QSG24BitTextMaskShader(glyphFormat);
    case QFontEngine::Format_A8:
    default:
        return new QSG8BitTextMaskShader(glyphFormat);
    }
}

static inline int qsg_colorDiff(const QVector4D &a, const QVector4D &b)
{
    if (a.x() != b.x())
        return a.x() > b.x() ? 1 : -1;
    if (a.y() != b.y())
        return a.y() > b.y() ? 1 : -1;
    if (a.z() != b.z())
        return a.z() > b.z() ? 1 : -1;
    if (a.w() != b.w())
        return a.w() > b.w() ? 1 : -1;
    return 0;
}

int QSGTextMaskMaterial::compare(const QSGMaterial *o) const
{
    Q_ASSERT(o && type() == o->type());
    const QSGTextMaskMaterial *other = static_cast<const QSGTextMaskMaterial *>(o);
    if (m_glyphCache != other->m_glyphCache)
        return m_glyphCache.data() < other->m_glyphCache.data() ? -1 : 1;
    return qsg_colorDiff(m_color, other->m_color);
}

bool QSGTextMaskMaterial::ensureUpToDate()
{
    QSize glyphCacheSize(glyphCache()->width(), glyphCache()->height());
    if (glyphCacheSize != m_size) {
        if (m_texture)
            delete m_texture;
        m_texture = new QSGPlainTexture();
        m_texture->setTextureId(glyphCache()->texture());
        m_texture->setTextureSize(QSize(glyphCache()->width(), glyphCache()->height()));
        m_texture->setOwnsTexture(false);

        m_size = glyphCacheSize;

        return true;
    } else {
        return false;
    }
}

int QSGTextMaskMaterial::cacheTextureWidth() const
{
    return glyphCache()->width();
}

int QSGTextMaskMaterial::cacheTextureHeight() const
{
    return glyphCache()->height();
}


QSGStyledTextMaterial::QSGStyledTextMaterial(const QRawFont &font)
    : QSGTextMaskMaterial(font, QFontEngine::Format_A8)
{
}

QSGMaterialType *QSGStyledTextMaterial::type() const
{
    static QSGMaterialType type;
    return &type;
}

QSGMaterialShader *QSGStyledTextMaterial::createShader() const
{
    return new QSGStyledTextShader(glyphCache()->glyphFormat());
}

int QSGStyledTextMaterial::compare(const QSGMaterial *o) const
{
    const QSGStyledTextMaterial *other = static_cast<const QSGStyledTextMaterial *>(o);

    if (m_styleShift != other->m_styleShift)
        return m_styleShift.y() - other->m_styleShift.y();

    int diff = qsg_colorDiff(m_styleColor, other->m_styleColor);
    if (diff == 0)
        return QSGTextMaskMaterial::compare(o);
    return diff;
}


QSGOutlinedTextMaterial::QSGOutlinedTextMaterial(const QRawFont &font)
    : QSGStyledTextMaterial(font)
{
}

QSGMaterialType *QSGOutlinedTextMaterial::type() const
{
    static QSGMaterialType type;
    return &type;
}

QSGMaterialShader *QSGOutlinedTextMaterial::createShader() const
{
    return new QSGOutlinedTextShader(glyphCache()->glyphFormat());
}

QT_END_NAMESPACE