#include #include #include #include #include #include #include #include #include "text.h" #include "color.h" #include "font.h" #include "tile.h" #include "pbf.h" #include "style.h" static vector_tile::Tile_GeomType geometryType(const QString &str) { if (str == "Point") return vector_tile::Tile_GeomType_POINT; else if (str == "LineString") return vector_tile::Tile_GeomType_LINESTRING; else if (str == "Polygon") return vector_tile::Tile_GeomType_POLYGON; else return vector_tile::Tile_GeomType_UNKNOWN; } Style::Layer::Filter::Filter(const QJsonArray &json) : _type(Unknown), _not(false) { #define INVALID_FILTER(json) \ {qWarning() << json << ": invalid filter"; return;} if (json.isEmpty()) INVALID_FILTER(json); QString type = json.at(0).toString(); if (type == "==") { if (json.size() != 3) INVALID_FILTER(json); if (json.at(1).toString() == "$type") { _type = GeometryType; _kv = QPair(QString(), QVariant(geometryType(json.at(2).toString()))); } else { _type = EQ; _kv = QPair(json.at(1).toString(), json.at(2).toVariant()); } } else if (type == "!=") { if (json.size() != 3) INVALID_FILTER(json); _type = NE; _kv = QPair(json.at(1).toString(), json.at(2).toVariant()); } else if (type == "<") { if (json.size() != 3) INVALID_FILTER(json); _type = LT; _kv = QPair(json.at(1).toString(), json.at(2).toVariant()); } else if (type == "<=") { if (json.size() != 3) INVALID_FILTER(json); _type = LE; _kv = QPair(json.at(1).toString(), json.at(2).toVariant()); } else if (type == ">") { if (json.size() != 3) INVALID_FILTER(json); _type = GT; _kv = QPair(json.at(1).toString(), json.at(2).toVariant()); } else if (type == ">=") { if (json.size() != 3) INVALID_FILTER(json); _type = GE; _kv = QPair(json.at(1).toString(), json.at(2).toVariant()); } else if (type == "all") { _type = All; for (int i = 1; i < json.size(); i++) _filters.append(Filter(json.at(i).toArray())); } else if (type == "any") { _type = Any; for (int i = 1; i < json.size(); i++) _filters.append(Filter(json.at(i).toArray())); } else if (type == "in") { if (json.size() < 3) INVALID_FILTER(json); _type = In; _kv = QPair(json.at(1).toString(), QVariant()); for (int i = 2; i < json.size(); i++) _set.insert(json.at(i).toString()); } else if (type == "!in") { if (json.size() < 3) INVALID_FILTER(json); _type = In; _not = true; _kv = QPair(json.at(1).toString(), QVariant()); for (int i = 2; i < json.size(); i++) _set.insert(json.at(i).toString()); } else if (type == "has") { if (json.size() < 2) INVALID_FILTER(json); _type = Has; _kv = QPair(json.at(1).toString(), QVariant()); } else if (type == "!has") { if (json.size() < 2) INVALID_FILTER(json); _type = Has; _not = true; _kv = QPair(json.at(1).toString(), QVariant()); } else INVALID_FILTER(json); } bool Style::Layer::Filter::match(const PBF::Feature &feature) const { const QVariant *v; switch (_type) { case None: return true; case EQ: if (!(v = feature.value(_kv.first))) return false; else return *v == _kv.second; case NE: if (!(v = feature.value(_kv.first))) return true; else return *v != _kv.second; case GT: if (!(v = feature.value(_kv.first))) return false; else return *v > _kv.second; case GE: if (!(v = feature.value(_kv.first))) return false; else return *v >= _kv.second; case LT: if (!(v = feature.value(_kv.first))) return false; else return *v < _kv.second; case LE: if (!(v = feature.value(_kv.first))) return false; else return *v <= _kv.second; case In: if (!(v = feature.value(_kv.first))) return _not; else return _set.contains((*v).toString()) ^ _not; case Has: return (feature.value(_kv.first) ? true : false) ^ _not; case All: for (int i = 0; i < _filters.size(); i++) if (!_filters.at(i).match(feature)) return false; return true; case Any: for (int i = 0; i < _filters.size(); i++) if (_filters.at(i).match(feature)) return true; return false; case GeometryType: return feature.type() == _kv.second.toInt(); default: return false; } } QString Style::Layer::Template::value(int zoom, const PBF::Feature &feature) const { QRegExp rx = QRegExp("\\{[^\\}]*\\}"); QString text(_field.value(zoom)); QStringList keys; int pos = 0; while ((pos = rx.indexIn(text, pos)) != -1) { QString match = rx.capturedTexts().first(); keys.append(match.mid(1, match.size() - 2)); pos += rx.matchedLength(); } for (int i = 0; i < keys.size(); i++) { const QString &key = keys.at(i); const QVariant *val = feature.value(key); text.replace(QString("{%1}").arg(key), val ? val->toString() : ""); } return text; } Style::Layer::Paint::Paint(const QJsonObject &json) { // fill _fillOpacity = FunctionF(json["fill-opacity"], 1.0); _fillColor = FunctionC(json["fill-color"]); if (json.contains("fill-outline-color")) _fillOutlineColor = FunctionC(json["fill-outline-color"]); else _fillOutlineColor = _fillColor; _fillAntialias = FunctionB(json["fill-antialias"]); if (json.contains("fill-pattern")) { _fillPattern = FunctionS(json["fill-pattern"]); _fillColor = FunctionC(QColor()); _fillOutlineColor = FunctionC(QColor()); } // line _lineColor = FunctionC(json["line-color"]); _lineWidth = FunctionF(json["line-width"], 1.0); _lineOpacity = FunctionF(json["line-opacity"], 1.0); if (json.contains("line-dasharray") && json["line-dasharray"].isArray()) { QJsonArray array = json["line-dasharray"].toArray(); for (int i = 0; i < array.size(); i++) _lineDasharray.append(array.at(i).toDouble()); } // background _backgroundColor = FunctionC(json["background-color"]); // text _textColor = FunctionC(json["text-color"]); _textHaloColor = FunctionC(json["text-halo-color"], QColor()); _textHaloWidth = FunctionF(json["text-halo-width"]); _textHaloBlur = FunctionF(json["text-halo-blur"]); } QPen Style::Layer::Paint::pen(Type type, int zoom) const { QPen pen(Qt::NoPen); qreal width; QColor color; switch (type) { case Line: width = _lineWidth.value(zoom); color = _lineColor.value(zoom); if (color.isValid() && width > 0) { pen = QPen(color, width); if (!_lineDasharray.isEmpty()) pen.setDashPattern(_lineDasharray); } break; case Fill: color = _fillOutlineColor.value(zoom); if (color.isValid()) pen = QPen(color); break; case Symbol: color = _textColor.value(zoom); if (color.isValid()) pen = QPen(color); break; default: break; } return pen; } QBrush Style::Layer::Paint::brush(Type type, int zoom, const Sprites &sprites) const { QColor color; QBrush brush(Qt::NoBrush); QString pattern; switch (type) { case Fill: color = _fillColor.value(zoom); if (color.isValid()) brush = QBrush(color); pattern = _fillPattern.value(zoom); if (!pattern.isNull()) brush.setTextureImage(sprites.icon(pattern)); break; case Background: color = _backgroundColor.value(zoom); if (color.isValid()) brush = QBrush(color); pattern = _fillPattern.value(zoom); if (!pattern.isNull()) brush.setTextureImage(sprites.icon(pattern)); break; default: break; } return brush; } qreal Style::Layer::Paint::opacity(Type type, int zoom) const { switch (type) { case Fill: return _fillOpacity.value(zoom); case Line: return _lineOpacity.value(zoom); default: return 1.0; } } bool Style::Layer::Paint::antialias(Layer::Type type, int zoom) const { switch (type) { case Fill: return _fillAntialias.value(zoom); case Line: return true; default: return false; } } Style::Layer::Layout::Layout(const QJsonObject &json) : _lineCap(Qt::FlatCap), _lineJoin(Qt::MiterJoin), _font("Open Sans") { // line _lineCap = FunctionS(json["line-cap"], "butt"); _lineJoin = FunctionS(json["line-join"], "miter"); // text _text = Template(FunctionS(json["text-field"])); _textSize = FunctionF(json["text-size"], 16); _textMaxWidth = FunctionF(json["text-max-width"], 10); _textMaxAngle = FunctionF(json["text-max-angle"], 45); _textTransform = FunctionS(json["text-transform"], "none"); _textRotationAlignment = FunctionS(json["text-rotation-alignment"]); _textAnchor = FunctionS(json["text-anchor"]); if (json.contains("text-font") && json["text-font"].isArray()) _font = Font::fromJsonArray(json["text-font"].toArray()); // icon _icon = Template(FunctionS(json["icon-image"])); // symbol _symbolPlacement = FunctionS(json["symbol-placement"]); // visibility if (json.contains("visibility") && json["visibility"].isString()) _visible = !(json["visibility"].toString() == "none"); else _visible = true; } QFont Style::Layer::Layout::font(int zoom) const { QFont font(_font); font.setPixelSize(_textSize.value(zoom)); font.setCapitalization(textTransform(zoom)); return font; } Text::Anchor Style::Layer::Layout::textAnchor(int zoom) const { QString anchor(_textAnchor.value(zoom)); if (anchor == "left") return Text::Left; else if (anchor == "right") return Text::Right; else if (anchor == "top") return Text::Top; else if (anchor == "bottom") return Text::Bottom; else return Text::Center; } QFont::Capitalization Style::Layer::Layout::textTransform(int zoom) const { QString transform(_textTransform.value(zoom)); if (transform == "uppercase") return QFont::AllUppercase; else if (transform == "lowercase") return QFont::AllLowercase; else return QFont::MixedCase; } Qt::PenCapStyle Style::Layer::Layout::lineCap(int zoom) const { QString cap(_lineCap.value(zoom)); if (cap == "round") return Qt::RoundCap; else if (cap == "square") return Qt::SquareCap; else return Qt::FlatCap; } Qt::PenJoinStyle Style::Layer::Layout::lineJoin(int zoom) const { QString join(_lineJoin.value(zoom)); if (join == "bevel") return Qt::BevelJoin; else if (join == "round") return Qt::RoundJoin; else return Qt::MiterJoin; } Text::SymbolPlacement Style::Layer::Layout::symbolPlacement(int zoom) const { QString placement(_symbolPlacement.value(zoom)); if (placement == "line") return Text::Line; else if (placement == "line-center") return Text::LineCenter; else return Text::Point; } Text::RotationAlignment Style::Layer::Layout::textRotationAlignment(int zoom) const { QString alignment(_textRotationAlignment.value(zoom)); if (alignment == "map") return Text::Map; else if (alignment == "viewport") return Text::Viewport; else return Text::Auto; } Style::Layer::Layer(const QJsonObject &json) : _type(Unknown), _minZoom(0), _maxZoom(24) { // type QString type(json["type"].toString()); if (type == "fill") _type = Fill; else if (type == "line") _type = Line; else if (type == "background") _type = Background; else if (type == "symbol") _type = Symbol; // source-layer _sourceLayer = json["source-layer"].toString(); // zooms if (json.contains("minzoom") && json["minzoom"].isDouble()) _minZoom = json["minzoom"].toInt(); if (json.contains("maxzoom") && json["maxzoom"].isDouble()) _maxZoom = json["maxzoom"].toInt(); // filter if (json.contains("filter") && json["filter"].isArray()) _filter = Filter(json["filter"].toArray()); // layout if (json.contains("layout") && json["layout"].isObject()) _layout = Layout(json["layout"].toObject()); // paint if (json.contains("paint") && json["paint"].isObject()) _paint = Paint(json["paint"].toObject()); } bool Style::Layer::match(int zoom, const PBF::Feature &feature) const { if (zoom >= 0 && (zoom < _minZoom || zoom > _maxZoom)) return false; return _filter.match(feature); } void Style::Layer::setPathPainter(Tile &tile, const Sprites &sprites) const { QPainter &p = tile.painter(); int zoom = tile.zoom(); QPen pen(_paint.pen(_type, zoom)); pen.setJoinStyle(_layout.lineJoin(zoom)); pen.setCapStyle(_layout.lineCap(zoom)); QBrush brush(_paint.brush(_type, zoom, sprites)); p.setRenderHint(QPainter::Antialiasing, _paint.antialias(_type, zoom)); p.setPen(pen); p.setBrush(brush); p.setOpacity(_paint.opacity(_type, zoom)); } void Style::Layer::setTextProperties(Tile &tile) const { Text &t = tile.text(); int zoom = tile.zoom(); t.setMaxWidth(_layout.maxTextWidth(zoom)); t.setMaxAngle(_layout.maxTextAngle(zoom)); t.setAnchor(_layout.textAnchor(zoom)); t.setPen(_paint.pen(_type, zoom)); t.setFont(_layout.font(zoom)); t.setSymbolPlacement(_layout.symbolPlacement(zoom)); t.setRotationAlignment(_layout.textRotationAlignment(zoom)); t.setHalo(_paint.halo(zoom)); } void Style::Layer::addSymbol(Tile &tile, const QPainterPath &path, const PBF::Feature &feature, const Sprites &sprites) const { QString text = _layout.text(tile.zoom(), feature); if (text.isEmpty()) return; QString icon = _layout.icon(tile.zoom(), feature); tile.text().addLabel(text, sprites.icon(icon), path); } static bool loadSprites(const QDir &styleDir, const QString &json, const QString &img, Sprites &sprites) { QString spritesJSON(styleDir.filePath(json)); if (QFileInfo::exists(spritesJSON)) { QString spritesImg(styleDir.filePath(img)); if (QFileInfo::exists(spritesImg)) return sprites.load(spritesJSON, spritesImg); else { qCritical() << spritesImg << ": no such file"; return false; } } return true; } bool Style::load(const QString &fileName) { QFile file(fileName); if (!file.open(QIODevice::ReadOnly | QIODevice::Text)) { qCritical() << fileName << ": error opening file"; return false; } QByteArray ba(file.readAll()); file.close(); QJsonParseError error; QJsonDocument doc(QJsonDocument::fromJson(ba, &error)); if (doc.isNull()) { qCritical() << fileName << ":" << error.errorString(); return false; } QJsonObject json(doc.object()); if (json.contains("layers") && json["layers"].isArray()) { QJsonArray layers = json["layers"].toArray(); for (int i = 0; i < layers.size(); i++) if (layers[i].isObject()) _layers.append(Layer(layers[i].toObject())); } QDir styleDir = QFileInfo(fileName).absoluteDir(); loadSprites(styleDir, "sprite.json", "sprite.png", _sprites); #ifdef ENABLE_HIDPI loadSprites(styleDir, "sprite@2x.json", "sprite@2x.png", _sprites2x); #endif // ENABLE_HIDPI return true; } const Sprites &Style::sprites(const QPointF &scale) const { #ifdef ENABLE_HIDPI return (scale.x() > 1.0 || scale.y() > 1.0) && !_sprites2x.isNull() ? _sprites2x : _sprites; #else // ENABLE_HIDPI Q_UNUSED(scale); return _sprites; #endif // ENABLE_HIDPI } void Style::setupLayer(Tile &tile, const Layer &layer) const { if (layer.isSymbol()) layer.setTextProperties(tile); else if (layer.isPath()) layer.setPathPainter(tile, sprites(tile.scale())); } void Style::drawBackground(Tile &tile) const { QRectF rect(QPointF(0, 0), QSizeF(tile.size().width() / tile.scale().x(), tile.size().height() / tile.scale().y())); QPainterPath path; path.addRect(rect); if (_layers.isEmpty()) { tile.painter().setBrush(Qt::lightGray); tile.painter().setPen(Qt::NoPen); tile.painter().drawRect(rect); } else if (_layers.first().isBackground()) { _layers.first().setPathPainter(tile, _sprites); tile.painter().drawPath(path); } //tile.painter().setPen(Qt::red); //tile.painter().drawRect(rect); } void Style::drawFeature(const PBF::Feature &feature, const Layer &layer, Tile &tile, const QSizeF &factor) const { if (!layer.match(tile.zoom(), feature)) return; QPainterPath path(feature.path(factor)); if (!path.elementCount()) return; if (layer.isPath()) tile.painter().drawPath(path); else if (layer.isSymbol()) layer.addSymbol(tile, path, feature, sprites(tile.scale())); } void Style::drawLayer(const PBF::Layer &pbfLayer, const Layer &styleLayer, Tile &tile) const { if (pbfLayer.data()->version() > 2) return; if (!styleLayer.isVisible()) return; QSizeF factor(tile.size().width() / tile.scale().x() / (qreal)pbfLayer.data()->extent(), tile.size().height() / tile.scale().y() / (qreal)pbfLayer.data()->extent()); tile.painter().save(); setupLayer(tile, styleLayer); for (int i = 0; i < pbfLayer.features().size(); i++) drawFeature(pbfLayer.features().at(i), styleLayer, tile, factor); tile.painter().restore(); } void Style::render(const PBF &data, Tile &tile) const { drawBackground(tile); for (int i = 0; i < _layers.size(); i++) { QHash::const_iterator it = data.layers().find( _layers.at(i).sourceLayer()); if (it == data.layers().constEnd()) continue; drawLayer(**it, _layers.at(i), tile); } tile.text().render(&tile.painter()); }