// // Copyright (C) 2017 James Turner zakalawe@mac.com // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License as // published by the Free Software Foundation; either version 2 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. #include "fgcanvaselement.h" #include "localprop.h" #include "fgcanvaspaintcontext.h" #include "fgcanvasgroup.h" #include "canvasitem.h" #include "canvasconnection.h" #include #include #include #include #include QTransform qTransformFromCanvas(LocalProp* prop) { double m[6] = { 1.0, 0.0, 0.0, 1.0, 0.0, 0.0 }; // identity matrix for (unsigned int i =0; i< 6; ++i) { LocalProp* mProp = prop->getOrCreateChildWithNameAndIndex(NameIndexTuple("m", i)); if (!mProp->value().isNull()) { m[i] = mProp->value().toDouble(); } } return QTransform(m[0], m[1], 0.0, m[2], m[3], 0.0, m[4], m[5], 1.0); } bool FGCanvasElement::isStyleProperty(QByteArray name) { if ((name == "font") || (name == "line-height") || (name == "alignment") || (name == "character-size") || (name == "fill") || (name == "background") || (name == "fill-opacity")) { return true; } return false; } LocalProp *FGCanvasElement::property() const { return const_cast(_propertyRoot); } void FGCanvasElement::setHighlighted(bool hilighted) { _highlighted = hilighted; } bool FGCanvasElement::isHighlighted() const { return _highlighted; } CanvasItem *FGCanvasElement::createQuickItem(QQuickItem *parent) { Q_UNUSED(parent) return nullptr; } CanvasItem *FGCanvasElement::quickItem() const { return nullptr; } FGCanvasElement::FGCanvasElement(FGCanvasGroup* pr, LocalProp* prop) : QObject(pr), _propertyRoot(prop), _parent(pr) { connect(prop->getOrCreateWithPath("visible", true), &LocalProp::valueChanged, this, &FGCanvasElement::onVisibleChanged); connect(prop, &LocalProp::childAdded, this, &FGCanvasElement::onChildAdded); connect(prop, &LocalProp::childRemoved, this, &FGCanvasElement::onChildRemoved); connect(prop, &LocalProp::destroyed, this, &FGCanvasElement::onPropDestroyed); if (pr) { pr->markChildZIndicesDirty(); } requestPolish(); } void FGCanvasElement::onPropDestroyed() { doDestroy(); if (_parent) { const_cast(_parent)->removeChild(this); } deleteLater(); } void FGCanvasElement::requestPolish() { _polishRequired = true; } void FGCanvasElement::polish() { bool vis = isVisible(); auto qq = quickItem(); if (qq && (qq->isVisible() != vis)) { qq->setVisible(vis); } if (!vis) { return; } if (_clipDirty) { _clipDirty = false; if (qq) { if (_hasClip) { if (_clipFrame == ReferenceFrame::GLOBAL) { qq->setClipReferenceFrameItem(rootGroup()->quickItem()); } else if (_clipFrame == ReferenceFrame::PARENT) { qq->setClipReferenceFrameItem(parentGroup()->quickItem()); } qq->setObjectName(_propertyRoot->path()); qq->setClip(_clipRect, _clipFrame); } else { qq->clearClip(); } } } if (qq) { qq->setTransform(combinedTransform()); } if (_styleDirty) { _fillColor = parseColorValue(getCascadedStyle("fill")); const auto opacity = getCascadedStyle("fill-opacity"); if (!opacity.isNull()) { _fillColor.setAlphaF(opacity.toReal()); } _styleDirty = false; } doPolish(); _polishRequired = false; } void FGCanvasElement::dumpElement() { } void FGCanvasElement::paint(FGCanvasPaintContext *context) const { if (!isVisible()) { return; } QPainter* p = context->painter(); p->save(); if (_hasClip) { // clip is defined in the global coordinate system if (_clipFrame != ReferenceFrame::GLOBAL) { qWarning() << Q_FUNC_INFO << "implement support for non-global clips"; } #if defined(DEBUG_PAINTING) p->save(); p->setTransform(context->globalCoordinateTransform()); p->setPen(Qt::yellow); p->setBrush(QBrush(Qt::yellow, Qt::DiagCrossPattern)); p->drawRect(_clipRect); p->restore(); #endif QTransform t = p->transform(); p->setTransform(context->globalCoordinateTransform()); p->setClipRect(_clipRect); p->setClipping(true); p->setTransform(t); } QTransform combined = combinedTransform(); p->setTransform(combined, true /* combine */); if (!_fillColor.isValid()) { p->setBrush(Qt::NoBrush); } else { p->setBrush(_fillColor); } doPaint(context); if (_hasClip) { p->setClipping(false); } p->restore(); } void FGCanvasElement::doPaint(FGCanvasPaintContext* context) const { Q_UNUSED(context); } void FGCanvasElement::doPolish() { } QTransform FGCanvasElement::combinedTransform() const { if (_transformsDirty) { _combinedTransform.reset(); for (LocalProp* tfProp : _propertyRoot->childrenWithName("tf")) { _combinedTransform *= qTransformFromCanvas(tfProp); } #if 0 QPointF offset(_propertyRoot->value("center-offset-x", 0.0).toFloat(), _propertyRoot->value("center-offset-y", 0.0).toFloat()); _combinedTransform.translate(offset.x(), offset.y()); #endif _transformsDirty = false; } return _combinedTransform; } bool FGCanvasElement::isVisible() const { return _visible; } int FGCanvasElement::zIndex() const { return _zIndex; } const FGCanvasGroup *FGCanvasElement::parentGroup() const { return _parent; } const FGCanvasGroup *FGCanvasElement::rootGroup() const { if (!_parent) { return qobject_cast(this); } return _parent->rootGroup(); } CanvasConnection *FGCanvasElement::connection() const { if (_parent) return _parent->connection(); return qobject_cast(parent()); } bool FGCanvasElement::onChildAdded(LocalProp *prop) { const QByteArray nm = prop->name(); if (nm == "tf") { connect(prop, &LocalProp::childAdded, this, &FGCanvasElement::onChildAdded); return true; } else if (nm == "visible") { return true; } else if (nm == "tf-rot-index") { // ignored, this is noise from the Nasal SVG parser return true; } else if (nm.startsWith("center-offset-")) { // ignored, this is noise from the Nasal SVG parser return true; } else if (nm == "center") { connect(prop, &LocalProp::valueChanged, this, &FGCanvasElement::onCenterChanged); return true; } else if (nm == "m") { if ((prop->parent()->name() == "tf") && (prop->parent()->parent() == _propertyRoot)) { connect(prop, &LocalProp::valueChanged, this, &FGCanvasElement::markTransformsDirty); return true; } else { qWarning() << "saw confusing 'm' property" << prop->path(); } } else if (nm == "m-geo") { // ignore for now, we do geo projection server-side return true; } else if (nm == "id") { connect(prop, &LocalProp::valueChanged, this, &FGCanvasElement::markSVGIDDirty); return true; } else if (nm == "update") { // disable updates optionally? return true; } else if ((nm == "clip") || (nm == "clip-frame")) { connect(prop, &LocalProp::valueChanged, this, &FGCanvasElement::markClipDirty); return true; } if (isStyleProperty(nm)) { connect(prop, &LocalProp::valueChanged, this, &FGCanvasElement::markStyleDirty); return true; } if (nm == "symbol-type") { // ignored for now return true; } if (nm == "layer-type") { connect(prop, &LocalProp::valueChanged, [this](QVariant value) {qDebug() << "layer-type:" << value.toByteArray() << "on" << _propertyRoot->path(); }); return true; } else if (nm == "z-index") { connect(prop, &LocalProp::valueChanged, this, &FGCanvasElement::markZIndexDirty); return true; } return false; } bool FGCanvasElement::onChildRemoved(LocalProp *prop) { const QByteArray nm = prop->name(); if ((nm == "tf") || (nm == "m")) { markTransformsDirty(); return true; } return false; } void FGCanvasElement::doDestroy() { } QColor FGCanvasElement::fillColor() const { return _fillColor; } void FGCanvasElement::onCenterChanged(QVariant value) { LocalProp* senderProp = static_cast(sender()); const unsigned int centerTerm = senderProp->index(); if (centerTerm == 0) { _center.setX(value.toReal()); } else { _center.setY(value.toReal()); } requestPolish(); } void FGCanvasElement::markTransformsDirty() { _transformsDirty = true; requestPolish(); } void FGCanvasElement::markClipDirty() { _clipDirty = true; parseCSSClip(_propertyRoot->value("clip", QVariant()).toByteArray()); _clipFrame = static_cast(_propertyRoot->value("clip-frame", 0).toInt()); requestPolish(); } float FGCanvasElement::parseCSSValue(QByteArray value) const { value = value.trimmed(); // deal with %, px suffixes if (value.indexOf('%') >= 0) { qWarning() << Q_FUNC_INFO << "extend parsing to deal with:" << value; } if (value.endsWith("px")) { value.truncate(value.length() - 2); } bool ok = false; float v = value.toFloat(&ok); if (!ok) { qWarning() << "failed to parse:" << value; } return v; } QColor FGCanvasElement::parseColorValue(QVariant value) const { QString colorString = value.toString(); if (colorString.isEmpty() || colorString == "none") { return QColor(); // return an invalid color } int alpha = 255; int red = 0; int green = 0; int blue = 0; bool good = false; if (colorString.startsWith('#')) { // web style if (colorString.length() == 9) { QRegularExpression re("#([0-9a-fA-F]{2})([0-9a-fA-F]{2})([0-9a-fA-F]{2})([0-9a-fA-F]{2})"); QRegularExpressionMatch match = re.match(colorString); if (match.hasMatch()) { red = match.captured(1).toInt(nullptr, 16); green = match.captured(2).toInt(nullptr, 16); blue = match.captured(3).toInt(nullptr, 16); alpha = match.captured(4).toInt(nullptr, 16); good = true; } } else if (colorString.length() == 7) { // long form, RGB QRegularExpression re("#([0-9a-fA-F]{2})([0-9a-fA-F]{2})([0-9a-fA-F]{2})"); QRegularExpressionMatch match = re.match(colorString); if (match.hasMatch()) { red = match.captured(1).toInt(nullptr, 16); green = match.captured(2).toInt(nullptr, 16); blue = match.captured(3).toInt(nullptr, 16); good = true; } } } else if (colorString.startsWith("rgb")) { // try rgb(ddd, ddd, ddd) syntax QRegularExpression re("rgb\\((\\d*),(\\d*),(\\d*)\\)"); QRegularExpressionMatch match = re.match(value.toString()); if (match.hasMatch()) { red = match.captured(1).toInt(); green = match.captured(2).toInt(); blue = match.captured(3).toInt(); good = true; } QRegularExpression re2("rgba\\((\\d*),(\\d*),(\\d*),(\\d*)\\)"); match = re2.match(value.toString()); if (match.hasMatch()) { red = match.captured(1).toInt(); green = match.captured(2).toInt(); blue = match.captured(3).toInt(); alpha = match.captured(4).toInt() * 255; good = true; } } if (good) { return QColor(red, green, blue, alpha); } qWarning() << _propertyRoot->path() << "failed to parse color:" << colorString; return Qt::magenta; // default horrible colour } void FGCanvasElement::markStyleDirty() { _styleDirty = true; requestPolish(); // group will cascade } QVariant FGCanvasElement::getCascadedStyle(const char *name, QVariant defaultValue) const { LocalProp* style = _propertyRoot->childWithNameAndIndex(NameIndexTuple(name, 0)); if (style) { return style->value(); } if (_parent) { return _parent->getCascadedStyle(name); } return defaultValue; } void FGCanvasElement::markZIndexDirty(QVariant value) { _zIndex = value.toInt(); _parent->markChildZIndicesDirty(); } void FGCanvasElement::markSVGIDDirty(QVariant value) { _svgElementId = value.toByteArray(); } void FGCanvasElement::onVisibleChanged(QVariant value) { _visible = value.toBool(); requestPolish(); } void FGCanvasElement::parseCSSClip(QByteArray value) { if (value.isEmpty()) { _hasClip = false; return; } // https://www.w3.org/wiki/CSS/Properties/clip for the stupid order here if (value.startsWith("rect(")) { int closingParen = value.indexOf(')'); value = value.mid(5, closingParen - 5); // trim front portion } QByteArrayList clipRectDesc = value.split(','); const int parts = clipRectDesc.size(); if (parts != 4) { qWarning() << "implement parsing for non-standard clip" << value; return; } const qreal top = parseCSSValue(clipRectDesc.at(0)); const qreal right = parseCSSValue(clipRectDesc.at(1)); const qreal bottom = parseCSSValue(clipRectDesc.at(2)); const qreal left = parseCSSValue(clipRectDesc.at(3)); _clipRect = QRectF(left, top, right - left, bottom - top); // qDebug() << "final clip rect:" << _clipRect << "from" << value; _hasClip = true; requestPolish(); }