/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtQuick module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 3 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL3 included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 3 requirements ** will be met: https://www.gnu.org/licenses/lgpl-3.0.html. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 2.0 or (at your option) the GNU General ** Public license version 3 or any later version approved by the KDE Free ** Qt Foundation. The licenses are as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL2 and LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "qquickcontext2dtexture_p.h" #include "qquickcontext2dtile_p.h" #include "qquickcanvasitem_p.h" #include #include #include "qquickcontext2dcommandbuffer_p.h" #include #if QT_CONFIG(opengl) #include #include #include #include #endif #include #include QT_BEGIN_NAMESPACE Q_LOGGING_CATEGORY(lcCanvas, "qt.quick.canvas") #if QT_CONFIG(opengl) #define QT_MINIMUM_FBO_SIZE 64 static inline int qt_next_power_of_two(int v) { v--; v |= v >> 1; v |= v >> 2; v |= v >> 4; v |= v >> 8; v |= v >> 16; ++v; return v; } struct GLAcquireContext { GLAcquireContext(QOpenGLContext *c, QSurface *s):ctx(c) { if (ctx) { Q_ASSERT(s); if (!ctx->isValid()) ctx->create(); if (!ctx->isValid()) qWarning() << "Unable to create GL context"; else if (!ctx->makeCurrent(s)) qWarning() << "Can't make current GL context"; } } ~GLAcquireContext() { if (ctx) ctx->doneCurrent(); } QOpenGLContext *ctx; }; class QSGPlainTextureWithSubRect : public QSGPlainTexture { public: QSGPlainTextureWithSubRect(const QRectF &subRect) : m_subRect(subRect) {} QRectF normalizedTextureSubRect() const override { return m_subRect; } private: QRectF m_subRect; }; #endif QQuickContext2DTexture::QQuickContext2DTexture() : m_context(0) #if QT_CONFIG(opengl) , m_gl(0) #endif , m_surface(0) , m_item(0) , m_canvasDevicePixelRatio(1) , m_canvasWindowChanged(false) , m_dirtyTexture(false) , m_smooth(true) , m_antialiasing(false) , m_tiledCanvas(false) , m_painting(false) { } QQuickContext2DTexture::~QQuickContext2DTexture() { clearTiles(); } void QQuickContext2DTexture::markDirtyTexture() { if (m_onCustomThread) m_mutex.lock(); m_dirtyTexture = true; emit textureChanged(); if (m_onCustomThread) m_mutex.unlock(); } bool QQuickContext2DTexture::setCanvasSize(const QSize &size) { if (m_canvasSize != size) { m_canvasSize = size; return true; } return false; } bool QQuickContext2DTexture::setTileSize(const QSize &size) { if (m_tileSize != size) { m_tileSize = size; return true; } return false; } void QQuickContext2DTexture::setSmooth(bool smooth) { m_smooth = smooth; } void QQuickContext2DTexture::setAntialiasing(bool antialiasing) { m_antialiasing = antialiasing; } void QQuickContext2DTexture::setItem(QQuickCanvasItem* item) { m_item = item; if (m_item) { m_context = (QQuickContext2D*) item->rawContext(); // FIXME m_state = m_context->state; } else { m_context = 0; } } bool QQuickContext2DTexture::setCanvasWindow(const QRect& r) { qreal canvasDevicePixelRatio = (m_item && m_item->window()) ? m_item->window()->effectiveDevicePixelRatio() : qApp->devicePixelRatio(); if (!qFuzzyCompare(m_canvasDevicePixelRatio, canvasDevicePixelRatio)) { qCDebug(lcCanvas, "%s device pixel ratio %.1lf -> %.1lf", (m_item->objectName().isEmpty() ? "Canvas" : qPrintable(m_item->objectName())), m_canvasDevicePixelRatio, canvasDevicePixelRatio); m_canvasDevicePixelRatio = canvasDevicePixelRatio; m_canvasWindowChanged = true; } if (m_canvasWindow != r) { m_canvasWindow = r; m_canvasWindowChanged = true; } return m_canvasWindowChanged; } bool QQuickContext2DTexture::setDirtyRect(const QRect &r) { bool doDirty = false; if (m_tiledCanvas) { for (QQuickContext2DTile* t : qAsConst(m_tiles)) { bool dirty = t->rect().intersected(r).isValid(); t->markDirty(dirty); if (dirty) doDirty = true; } } else { doDirty = m_canvasWindow.intersected(r).isValid(); } return doDirty; } void QQuickContext2DTexture::canvasChanged(const QSize& canvasSize, const QSize& tileSize, const QRect& canvasWindow, const QRect& dirtyRect, bool smooth, bool antialiasing) { QSize ts = tileSize; if (ts.width() > canvasSize.width()) ts.setWidth(canvasSize.width()); if (ts.height() > canvasSize.height()) ts.setHeight(canvasSize.height()); setCanvasSize(canvasSize); setTileSize(ts); setCanvasWindow(canvasWindow); if (canvasSize == canvasWindow.size()) { m_tiledCanvas = false; } else { m_tiledCanvas = true; } if (dirtyRect.isValid()) setDirtyRect(dirtyRect); setSmooth(smooth); setAntialiasing(antialiasing); } void QQuickContext2DTexture::paintWithoutTiles(QQuickContext2DCommandBuffer *ccb) { if (!ccb || ccb->isEmpty()) return; QPaintDevice* device = beginPainting(); if (!device) { endPainting(); return; } QPainter p; p.begin(device); if (m_antialiasing) p.setRenderHints(QPainter::Antialiasing | QPainter::HighQualityAntialiasing | QPainter::TextAntialiasing, true); else p.setRenderHints(QPainter::Antialiasing | QPainter::HighQualityAntialiasing | QPainter::TextAntialiasing, false); if (m_smooth) p.setRenderHint(QPainter::SmoothPixmapTransform, true); else p.setRenderHint(QPainter::SmoothPixmapTransform, false); p.setCompositionMode(QPainter::CompositionMode_SourceOver); ccb->replay(&p, m_state, scaleFactor()); endPainting(); markDirtyTexture(); } bool QQuickContext2DTexture::canvasDestroyed() { return m_item == 0; } void QQuickContext2DTexture::paint(QQuickContext2DCommandBuffer *ccb) { QQuickContext2D::mutex.lock(); if (canvasDestroyed()) { delete ccb; QQuickContext2D::mutex.unlock(); return; } QQuickContext2D::mutex.unlock(); #if QT_CONFIG(opengl) GLAcquireContext currentContext(m_gl, m_surface); #endif if (!m_tiledCanvas) { paintWithoutTiles(ccb); delete ccb; return; } QRect tiledRegion = createTiles(m_canvasWindow.intersected(QRect(QPoint(0, 0), m_canvasSize))); if (!tiledRegion.isEmpty()) { QRect dirtyRect; for (QQuickContext2DTile* tile : qAsConst(m_tiles)) { if (tile->dirty()) { if (dirtyRect.isEmpty()) dirtyRect = tile->rect(); else dirtyRect |= tile->rect(); } } if (beginPainting()) { QQuickContext2D::State oldState = m_state; for (QQuickContext2DTile* tile : qAsConst(m_tiles)) { if (tile->dirty()) { ccb->replay(tile->createPainter(m_smooth, m_antialiasing), oldState, scaleFactor()); tile->drawFinished(); tile->markDirty(false); } compositeTile(tile); } endPainting(); m_state = oldState; markDirtyTexture(); } } delete ccb; } QRect QQuickContext2DTexture::tiledRect(const QRectF& window, const QSize& tileSize) { if (window.isEmpty()) return QRect(); const int tw = tileSize.width(); const int th = tileSize.height(); const int h1 = window.left() / tw; const int v1 = window.top() / th; const int htiles = ((window.right() - h1 * tw) + tw - 1)/tw; const int vtiles = ((window.bottom() - v1 * th) + th - 1)/th; return QRect(h1 * tw, v1 * th, htiles * tw, vtiles * th); } QRect QQuickContext2DTexture::createTiles(const QRect& window) { QList oldTiles = m_tiles; m_tiles.clear(); if (window.isEmpty()) { return QRect(); } QRect r = tiledRect(window, adjustedTileSize(m_tileSize)); const int tw = m_tileSize.width(); const int th = m_tileSize.height(); const int h1 = window.left() / tw; const int v1 = window.top() / th; const int htiles = r.width() / tw; const int vtiles = r.height() / th; for (int yy = 0; yy < vtiles; ++yy) { for (int xx = 0; xx < htiles; ++xx) { int ht = xx + h1; int vt = yy + v1; QQuickContext2DTile* tile = 0; QPoint pos(ht * tw, vt * th); QRect rect(pos, m_tileSize); for (int i = 0; i < oldTiles.size(); i++) { if (oldTiles[i]->rect() == rect) { tile = oldTiles.takeAt(i); break; } } if (!tile) tile = createTile(); tile->setRect(rect); m_tiles.append(tile); } } qDeleteAll(oldTiles); return r; } void QQuickContext2DTexture::clearTiles() { qDeleteAll(m_tiles); m_tiles.clear(); } QSize QQuickContext2DTexture::adjustedTileSize(const QSize &ts) { return ts; } bool QQuickContext2DTexture::event(QEvent *e) { if ((int) e->type() == QEvent::User + 1) { PaintEvent *pe = static_cast(e); paint(pe->buffer); return true; } else if ((int) e->type() == QEvent::User + 2) { CanvasChangeEvent *ce = static_cast(e); canvasChanged(ce->canvasSize, ce->tileSize, ce->canvasWindow, ce->dirtyRect, ce->smooth, ce->antialiasing); return true; } return QObject::event(e); } #if QT_CONFIG(opengl) static inline QSize npotAdjustedSize(const QSize &size) { static bool checked = false; static bool npotSupported = false; if (!checked) { npotSupported = QOpenGLContext::currentContext()->functions()->hasOpenGLFeature(QOpenGLFunctions::NPOTTextures); checked = true; } if (npotSupported) { return QSize(qMax(QT_MINIMUM_FBO_SIZE, size.width()), qMax(QT_MINIMUM_FBO_SIZE, size.height())); } return QSize(qMax(QT_MINIMUM_FBO_SIZE, qt_next_power_of_two(size.width())), qMax(QT_MINIMUM_FBO_SIZE, qt_next_power_of_two(size.height()))); } QQuickContext2DFBOTexture::QQuickContext2DFBOTexture() : QQuickContext2DTexture() , m_fbo(0) , m_multisampledFbo(0) , m_paint_device(0) { m_displayTextures[0] = 0; m_displayTextures[1] = 0; m_displayTexture = -1; } QQuickContext2DFBOTexture::~QQuickContext2DFBOTexture() { if (m_multisampledFbo) m_multisampledFbo->release(); else if (m_fbo) m_fbo->release(); delete m_fbo; delete m_multisampledFbo; delete m_paint_device; if (QOpenGLContext::currentContext()) QOpenGLContext::currentContext()->functions()->glDeleteTextures(2, m_displayTextures); } QVector2D QQuickContext2DFBOTexture::scaleFactor() const { if (!m_fbo) return QVector2D(1, 1); return QVector2D(m_fbo->width() / m_fboSize.width(), m_fbo->height() / m_fboSize.height()); } QSGTexture *QQuickContext2DFBOTexture::textureForNextFrame(QSGTexture *lastTexture, QQuickWindow *) { QSGPlainTextureWithSubRect *texture = static_cast(lastTexture); if (m_onCustomThread) m_mutex.lock(); if (m_fbo) { if (!texture) { // Since the FBO might be have a POT size, we need to set a sub rect qreal normalizedCanvasWidth = m_canvasDevicePixelRatio * qreal(m_canvasSize.width()) / m_fbo->size().width(); qreal normalizedCanvasHeight = m_canvasDevicePixelRatio * qreal(m_canvasSize.height()) / m_fbo->size().height(); texture = new QSGPlainTextureWithSubRect(QRectF(0, 0, normalizedCanvasWidth, normalizedCanvasHeight)); texture->setHasAlphaChannel(true); texture->setOwnsTexture(false); m_dirtyTexture = true; } if (m_dirtyTexture) { if (!m_gl) { // on a rendering thread, use the fbo directly... texture->setTextureId(m_fbo->texture()); } else { // on GUI or custom thread, use display textures... m_displayTexture = m_displayTexture == 0 ? 1 : 0; texture->setTextureId(m_displayTextures[m_displayTexture]); } texture->setTextureSize(m_fbo->size()); m_dirtyTexture = false; } } if (m_onCustomThread) { m_condition.wakeOne(); m_mutex.unlock(); } return texture; } QSize QQuickContext2DFBOTexture::adjustedTileSize(const QSize &ts) { return npotAdjustedSize(ts); } QRectF QQuickContext2DFBOTexture::normalizedTextureSubRect() const { return QRectF(0 , 0 , qreal(m_canvasWindow.width()) / m_fboSize.width() , qreal(m_canvasWindow.height()) / m_fboSize.height()); } QQuickContext2DTile* QQuickContext2DFBOTexture::createTile() const { return new QQuickContext2DFBOTile(); } bool QQuickContext2DFBOTexture::doMultisampling() const { static bool extensionsChecked = false; static bool multisamplingSupported = false; if (!extensionsChecked) { QOpenGLExtensions *e = static_cast(QOpenGLContext::currentContext()->functions()); multisamplingSupported = e->hasOpenGLExtension(QOpenGLExtensions::FramebufferMultisample) && e->hasOpenGLExtension(QOpenGLExtensions::FramebufferBlit); extensionsChecked = true; } return multisamplingSupported && m_antialiasing; } void QQuickContext2DFBOTexture::grabImage(const QRectF& rf) { Q_ASSERT(rf.isValid()); QQuickContext2D::mutex.lock(); if (m_context) { if (!m_fbo) { m_context->setGrabbedImage(QImage()); } else { QImage grabbed; GLAcquireContext ctx(m_gl, m_surface); grabbed = m_fbo->toImage().scaled(m_fboSize, Qt::IgnoreAspectRatio, Qt::SmoothTransformation).mirrored().copy(rf.toRect()); m_context->setGrabbedImage(grabbed); } } QQuickContext2D::mutex.unlock(); } void QQuickContext2DFBOTexture::compositeTile(QQuickContext2DTile* tile) { QQuickContext2DFBOTile* t = static_cast(tile); QRect target = t->rect().intersected(m_canvasWindow); if (target.isValid()) { QRect source = target; source.moveTo(source.topLeft() - t->rect().topLeft()); target.moveTo(target.topLeft() - m_canvasWindow.topLeft()); QOpenGLFramebufferObject::blitFramebuffer(m_fbo, target, t->fbo(), source); } } QQuickCanvasItem::RenderTarget QQuickContext2DFBOTexture::renderTarget() const { return QQuickCanvasItem::FramebufferObject; } QPaintDevice* QQuickContext2DFBOTexture::beginPainting() { QQuickContext2DTexture::beginPainting(); if (m_canvasWindow.size().isEmpty()) { delete m_fbo; delete m_multisampledFbo; delete m_paint_device; m_fbo = 0; m_multisampledFbo = 0; m_paint_device = 0; return 0; } else if (!m_fbo || m_canvasWindowChanged) { delete m_fbo; delete m_multisampledFbo; delete m_paint_device; m_paint_device = 0; m_fboSize = npotAdjustedSize(m_canvasWindow.size() * m_canvasDevicePixelRatio); m_canvasWindowChanged = false; if (doMultisampling()) { { QOpenGLFramebufferObjectFormat format; format.setAttachment(QOpenGLFramebufferObject::CombinedDepthStencil); format.setSamples(8); m_multisampledFbo = new QOpenGLFramebufferObject(m_fboSize, format); } { QOpenGLFramebufferObjectFormat format; format.setAttachment(QOpenGLFramebufferObject::NoAttachment); m_fbo = new QOpenGLFramebufferObject(m_fboSize, format); } } else { QOpenGLFramebufferObjectFormat format; format.setAttachment(QOpenGLFramebufferObject::CombinedDepthStencil); QSize s = m_fboSize; if (m_antialiasing) { // do supersampling since multisampling is not available GLint max; QOpenGLContext::currentContext()->functions()->glGetIntegerv(GL_MAX_TEXTURE_SIZE, &max); if (s.width() * 2 <= max && s.height() * 2 <= max) s = s * 2; } m_fbo = new QOpenGLFramebufferObject(s, format); } } if (doMultisampling()) m_multisampledFbo->bind(); else m_fbo->bind(); if (!m_paint_device) { QOpenGLPaintDevice *gl_device = new QOpenGLPaintDevice(m_fbo->size()); gl_device->setPaintFlipped(true); gl_device->setSize(m_fbo->size()); gl_device->setDevicePixelRatio(m_canvasDevicePixelRatio); qCDebug(lcCanvas, "%s size %.1lf x %.1lf painting with size %d x %d DPR %.1lf", (m_item->objectName().isEmpty() ? "Canvas" : qPrintable(m_item->objectName())), m_item->width(), m_item->height(), m_fbo->size().width(), m_fbo->size().height(), m_canvasDevicePixelRatio); m_paint_device = gl_device; } return m_paint_device; } void QQuickContext2DFBOTexture::endPainting() { QQuickContext2DTexture::endPainting(); // There may not be an FBO due to zero width or height. if (!m_fbo) return; if (m_multisampledFbo) QOpenGLFramebufferObject::blitFramebuffer(m_fbo, m_multisampledFbo); if (m_gl) { /* When rendering happens on the render thread, the fbo's texture is * used directly for display. If we are on the GUI thread or a * dedicated Canvas render thread, we need to decouple the FBO from * the texture we are displaying in the SG rendering thread to avoid * stalls and read/write issues in the GL pipeline as the FBO's texture * could then potentially be used in different threads. * * We could have gotten away with only one display texture, but this * would have implied that beginPainting would have to wait for SG * to release that texture. */ if (m_onCustomThread) m_mutex.lock(); QOpenGLFunctions *funcs = QOpenGLContext::currentContext()->functions(); if (m_displayTextures[0] == 0) { m_displayTexture = 1; funcs->glGenTextures(2, m_displayTextures); } m_fbo->bind(); GLuint target = m_displayTexture == 0 ? 1 : 0; funcs->glBindTexture(GL_TEXTURE_2D, m_displayTextures[target]); funcs->glCopyTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, 0, 0, m_fbo->width(), m_fbo->height(), 0); if (m_onCustomThread) m_mutex.unlock(); } m_fbo->bindDefault(); } #endif QQuickContext2DImageTexture::QQuickContext2DImageTexture() : QQuickContext2DTexture() { } QQuickContext2DImageTexture::~QQuickContext2DImageTexture() { } QQuickCanvasItem::RenderTarget QQuickContext2DImageTexture::renderTarget() const { return QQuickCanvasItem::Image; } QQuickContext2DTile* QQuickContext2DImageTexture::createTile() const { return new QQuickContext2DImageTile(); } void QQuickContext2DImageTexture::grabImage(const QRectF& rf) { Q_ASSERT(rf.isValid()); QQuickContext2D::mutex.lock(); if (m_context) { QImage grabbed = m_displayImage.copy(rf.toRect()); m_context->setGrabbedImage(grabbed); } QQuickContext2D::mutex.unlock(); } QSGTexture *QQuickContext2DImageTexture::textureForNextFrame(QSGTexture *last, QQuickWindow *window) { if (m_onCustomThread) m_mutex.lock(); delete last; QSGTexture *texture = window->createTextureFromImage(m_displayImage, QQuickWindow::TextureCanUseAtlas); m_dirtyTexture = false; if (m_onCustomThread) m_mutex.unlock(); return texture; } QPaintDevice* QQuickContext2DImageTexture::beginPainting() { QQuickContext2DTexture::beginPainting(); if (m_canvasWindow.size().isEmpty()) return 0; if (m_canvasWindowChanged) { m_image = QImage(m_canvasWindow.size() * m_canvasDevicePixelRatio, QImage::Format_ARGB32_Premultiplied); m_image.setDevicePixelRatio(m_canvasDevicePixelRatio); m_image.fill(0x00000000); m_canvasWindowChanged = false; qCDebug(lcCanvas, "%s size %.1lf x %.1lf painting with size %d x %d DPR %.1lf", (m_item->objectName().isEmpty() ? "Canvas" : qPrintable(m_item->objectName())), m_item->width(), m_item->height(), m_image.size().width(), m_image.size().height(), m_canvasDevicePixelRatio); } return &m_image; } void QQuickContext2DImageTexture::endPainting() { QQuickContext2DTexture::endPainting(); if (m_onCustomThread) m_mutex.lock(); m_displayImage = m_image; if (m_onCustomThread) m_mutex.unlock(); } void QQuickContext2DImageTexture::compositeTile(QQuickContext2DTile* tile) { Q_ASSERT(!tile->dirty()); QQuickContext2DImageTile* t = static_cast(tile); QRect target = t->rect().intersected(m_canvasWindow); if (target.isValid()) { QRect source = target; source.moveTo(source.topLeft() - t->rect().topLeft()); target.moveTo(target.topLeft() - m_canvasWindow.topLeft()); m_painter.begin(&m_image); m_painter.setCompositionMode(QPainter::CompositionMode_Source); m_painter.drawImage(target, t->image(), source); m_painter.end(); } } QT_END_NAMESPACE #include "moc_qquickcontext2dtexture_p.cpp"