mirror of
https://github.com/tumic0/GPXSee.git
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254 lines
6.2 KiB
C++
254 lines
6.2 KiB
C++
#include <QtCore>
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#include <QPainter>
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#include <QDir>
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#include <QPixmapCache>
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#include <QtConcurrent>
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#include "common/rectc.h"
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#include "common/wgs84.h"
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#include "common/programpaths.h"
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#include "transform.h"
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#include "tileloader.h"
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#include "tile.h"
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#include "wmts.h"
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#include "wmtsmap.h"
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#define CAPABILITIES_FILE "capabilities.xml"
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WMTSMap::WMTSMap(const QString &fileName, const QString &name,
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const WMTS::Setup &setup, qreal tileRatio,
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QObject *parent) : Map(fileName, parent), _name(name), _tileLoader(0),
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_zoom(0), _mapRatio(1.0), _tileRatio(tileRatio)
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{
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QString tilesDir(QDir(ProgramPaths::tilesDir()).filePath(_name));
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_tileLoader = new TileLoader(tilesDir, this);
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_tileLoader->setHeaders(setup.headers());
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connect(_tileLoader, &TileLoader::finished, this, &WMTSMap::tilesLoaded);
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_wmts = new WMTS(QDir(tilesDir).filePath(CAPABILITIES_FILE), setup, this);
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connect(_wmts, &WMTS::downloadFinished, this, &WMTSMap::wmtsReady);
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if (_wmts->isReady())
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init();
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}
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void WMTSMap::init()
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{
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_tileLoader->setUrl(_wmts->tileUrl(), TileLoader::XYZ);
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_bounds = RectD(_wmts->bbox(), _wmts->projection());
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updateTransform();
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}
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void WMTSMap::wmtsReady()
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{
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if (_wmts->isValid())
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init();
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emit mapLoaded();
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}
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void WMTSMap::load(const Projection &in, const Projection &out,
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qreal deviceRatio, bool hidpi)
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{
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Q_UNUSED(in);
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Q_UNUSED(out);
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_mapRatio = hidpi ? deviceRatio : 1.0;
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}
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void WMTSMap::clearCache()
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{
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_tileLoader->clearCache();
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QPixmapCache::clear();
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}
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double WMTSMap::sd2res(double scaleDenominator) const
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{
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return scaleDenominator * 0.28e-3
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* _wmts->projection().units().fromMeters(1.0);
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}
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Transform WMTSMap::transform(int zoom) const
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{
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const WMTS::Zoom &z = _wmts->zooms().at(zoom);
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PointD topLeft = (_wmts->cs().axisOrder() == CoordinateSystem::YX)
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? PointD(z.topLeft().y(), z.topLeft().x()) : z.topLeft();
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double pixelSpan = sd2res(z.scaleDenominator());
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if (_wmts->projection().isGeographic())
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pixelSpan /= deg2rad(WGS84_RADIUS);
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return Transform(ReferencePoint(PointD(0, 0), topLeft),
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PointD(pixelSpan, pixelSpan));
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}
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QRectF WMTSMap::tileBounds(int zoom) const
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{
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const WMTS::Zoom &z = _wmts->zooms().at(zoom);
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return (z.limits().isNull())
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? QRectF(QPointF(0, 0), QSize(z.tile().width() * z.matrix().width(),
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z.tile().height() * z.matrix().height()))
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: QRectF(QPointF(z.limits().left() * z.tile().width(), z.limits().top()
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* z.tile().height()), QSize(z.tile().width() * z.limits().width(),
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z.tile().height() * z.limits().height()));
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}
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void WMTSMap::updateTransform()
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{
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_transform = transform(_zoom);
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}
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QRectF WMTSMap::bounds()
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{
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QRectF tb(tileBounds(_zoom));
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QRectF lb = _bounds.isValid()
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? QRectF(_transform.proj2img(_bounds.topLeft()) / coordinatesRatio(),
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_transform.proj2img(_bounds.bottomRight()) / coordinatesRatio())
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: QRectF();
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return lb.isValid() ? lb & tb : tb;
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}
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RectC WMTSMap::llBounds()
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{
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if (_wmts->bbox().isValid())
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return _wmts->bbox();
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else {
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int maxZoom = _wmts->zooms().size() - 1;
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QRectF tb(tileBounds(maxZoom));
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Transform t(transform(maxZoom));
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RectD rect(t.img2proj(tb.topLeft() * coordinatesRatio()),
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t.img2proj(tb.bottomRight() * coordinatesRatio()));
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return rect.toRectC(_wmts->projection());
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}
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}
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int WMTSMap::zoomFit(const QSize &size, const RectC &rect)
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{
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if (rect.isValid()) {
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RectD prect(rect, _wmts->projection());
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PointD sc(prect.width() / size.width(), prect.height() / size.height());
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double resolution = qMax(qAbs(sc.x()), qAbs(sc.y()));
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if (_wmts->projection().isGeographic())
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resolution *= deg2rad(WGS84_RADIUS);
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_zoom = 0;
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for (int i = 0; i < _wmts->zooms().size(); i++) {
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if (sd2res(_wmts->zooms().at(i).scaleDenominator()) < resolution
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/ coordinatesRatio())
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break;
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_zoom = i;
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}
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} else
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_zoom = _wmts->zooms().size() - 1;
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updateTransform();
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return _zoom;
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}
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void WMTSMap::setZoom(int zoom)
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{
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_zoom = zoom;
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updateTransform();
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}
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int WMTSMap::zoomIn()
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{
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_zoom = qMin(_zoom + 1, _wmts->zooms().size() - 1);
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updateTransform();
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return _zoom;
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}
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int WMTSMap::zoomOut()
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{
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_zoom = qMax(_zoom - 1, 0);
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updateTransform();
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return _zoom;
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}
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qreal WMTSMap::coordinatesRatio() const
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{
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return _mapRatio > 1.0 ? _mapRatio / _tileRatio : 1.0;
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}
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qreal WMTSMap::imageRatio() const
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{
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return _mapRatio > 1.0 ? _mapRatio : _tileRatio;
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}
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QSizeF WMTSMap::tileSize(const WMTS::Zoom &zoom) const
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{
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return QSizeF(zoom.tile().width() / coordinatesRatio(),
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zoom.tile().height() / coordinatesRatio());
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}
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void WMTSMap::draw(QPainter *painter, const QRectF &rect, Flags flags)
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{
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const WMTS::Zoom &z = _wmts->zooms().at(_zoom);
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QSizeF ts(tileSize(z));
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QPoint tl = QPoint(qFloor(rect.left() / ts.width()),
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qFloor(rect.top() / ts.height()));
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QPoint br = QPoint(qCeil(rect.right() / ts.width()),
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qCeil(rect.bottom() / ts.height()));
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QVector<TileLoader::Tile> fetchTiles;
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fetchTiles.reserve((br.x() - tl.x()) * (br.y() - tl.y()));
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for (int i = tl.x(); i < br.x(); i++)
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for (int j = tl.y(); j < br.y(); j++)
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fetchTiles.append(TileLoader::Tile(QPoint(i, j), z.id()));
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if (flags & Map::Block)
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_tileLoader->loadTilesSync(fetchTiles);
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else
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_tileLoader->loadTilesAsync(fetchTiles);
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QList<FileTile> renderTiles;
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for (int i = 0; i < fetchTiles.count(); i++) {
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const TileLoader::Tile &t = fetchTiles.at(i);
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if (t.file().isNull())
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continue;
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QPixmap pm;
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if (QPixmapCache::find(t.file(), &pm)) {
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QPointF tp(t.xy().x() * ts.width(), t.xy().y() * ts.height());
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drawTile(painter, pm, tp);
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} else
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renderTiles.append(FileTile(t.xy(), t.file()));
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}
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QFuture<void> future = QtConcurrent::map(renderTiles, &FileTile::load);
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future.waitForFinished();
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for (int i = 0; i < renderTiles.size(); i++) {
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const FileTile &mt = renderTiles.at(i);
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QPixmap pm(mt.pixmap());
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if (pm.isNull())
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continue;
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QPixmapCache::insert(mt.file(), pm);
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QPointF tp(mt.xy().x() * ts.width(), mt.xy().y() * ts.height());
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drawTile(painter, pm, tp);
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}
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}
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void WMTSMap::drawTile(QPainter *painter, QPixmap &pixmap, QPointF &tp)
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{
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pixmap.setDevicePixelRatio(imageRatio());
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painter->drawPixmap(tp, pixmap);
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}
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QPointF WMTSMap::ll2xy(const Coordinates &c)
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{
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return _transform.proj2img(_wmts->projection().ll2xy(c))
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/ coordinatesRatio();
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}
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Coordinates WMTSMap::xy2ll(const QPointF &p)
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{
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return _wmts->projection().xy2ll(_transform.img2proj(p
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* coordinatesRatio()));
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}
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