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GPXSee/src/map/wmsmap.cpp

223 lines
5.4 KiB
C++

#include <QtCore>
#include <QDir>
#include <QPainter>
#include "common/wgs84.h"
#include "common/rectc.h"
#include "common/programpaths.h"
#include "downloader.h"
#include "tileloader.h"
#include "wmsmap.h"
#define CAPABILITIES_FILE "capabilities.xml"
#define TILE_SIZE 256
double WMSMap::sd2res(double scaleDenominator) const
{
return scaleDenominator * 0.28e-3 * _projection.units().fromMeters(1.0);
}
QString WMSMap::tileUrl(const QString &version) const
{
QString url;
url = QString("%1%2version=%3&request=GetMap&bbox=$bbox"
"&width=%4&height=%5&layers=%6&styles=%7&format=%8&transparent=true")
.arg(_setup.url(), _setup.url().contains('?') ? "&" : "?", version,
QString::number(TILE_SIZE), QString::number(TILE_SIZE), _setup.layer(),
_setup.style(), _setup.format());
if (version >= "1.3.0")
url.append(QString("&CRS=%1").arg(_setup.crs()));
else
url.append(QString("&SRS=%1").arg(_setup.crs()));
for (int i = 0; i < _setup.dimensions().size(); i++) {
const KV &dim = _setup.dimensions().at(i);
url.append(QString("&%1=%2").arg(dim.key(), dim.value()));
}
return url;
}
QString WMSMap::tilesDir() const
{
return QString(QDir(ProgramPaths::tilesDir()).filePath(_name));
}
void WMSMap::computeZooms(const RangeF &scaleDenominator)
{
_zooms.clear();
if (scaleDenominator.size() > 0) {
double ld = log2(scaleDenominator.max()) - log2(scaleDenominator.min());
int cld = (int)ceil(ld);
double step = ld / (double)cld;
double lmax = log2(scaleDenominator.max());
for (int i = 0; i <= cld; i++)
_zooms.append(pow(2.0, lmax - i * step));
} else
_zooms.append(scaleDenominator.min());
}
void WMSMap::updateTransform()
{
double pixelSpan = sd2res(_zooms.at(_zoom));
if (_projection.isGeographic())
pixelSpan /= deg2rad(WGS84_RADIUS);
_transform = Transform(ReferencePoint(PointD(0, 0),
_projection.ll2xy(_bbox.topLeft())), PointD(pixelSpan, pixelSpan));
}
bool WMSMap::loadWMS()
{
QString file = tilesDir() + "/" + CAPABILITIES_FILE;
WMS wms(file, _setup);
if (!wms.isValid()) {
_errorString = wms.errorString();
return false;
}
_projection = wms.projection();
_bbox = wms.boundingBox();
_bounds = RectD(_bbox, _projection);
_tileLoader->setUrl(tileUrl(wms.version()));
if (wms.version() >= "1.3.0") {
if (_setup.coordinateSystem().axisOrder() == CoordinateSystem::Unknown)
_cs = _projection.coordinateSystem();
else
_cs = _setup.coordinateSystem();
} else
_cs = CoordinateSystem::XY;
computeZooms(wms.scaleDenominator());
updateTransform();
return true;
}
WMSMap::WMSMap(const QString &name, const WMS::Setup &setup, QObject *parent)
: Map(parent), _name(name), _setup(setup), _tileLoader(0), _zoom(0),
_mapRatio(1.0), _valid(false)
{
_tileLoader = new TileLoader(tilesDir(), this);
_tileLoader->setAuthorization(_setup.authorization());
connect(_tileLoader, SIGNAL(finished()), this, SIGNAL(loaded()));
_valid = loadWMS();
}
void WMSMap::clearCache()
{
_tileLoader->clearCache();
_zoom = 0;
if (!loadWMS())
qWarning("%s: %s", qPrintable(_name), qPrintable(_errorString));
}
QRectF WMSMap::bounds()
{
return QRectF(_transform.proj2img(_bounds.topLeft()) / _mapRatio,
_transform.proj2img(_bounds.bottomRight()) / _mapRatio);
}
int WMSMap::zoomFit(const QSize &size, const RectC &rect)
{
if (rect.isValid()) {
RectD prect(rect, _projection);
PointD sc(prect.width() / size.width(), prect.height() / size.height());
double resolution = qMax(qAbs(sc.x()), qAbs(sc.y()));
if (_projection.isGeographic())
resolution *= deg2rad(WGS84_RADIUS);
_zoom = 0;
for (int i = 0; i < _zooms.size(); i++) {
if (sd2res(_zooms.at(i)) < resolution / _mapRatio)
break;
_zoom = i;
}
} else
_zoom = _zooms.size() - 1;
updateTransform();
return _zoom;
}
void WMSMap::setZoom(int zoom)
{
_zoom = zoom;
updateTransform();
}
int WMSMap::zoomIn()
{
_zoom = qMin(_zoom + 1, _zooms.size() - 1);
updateTransform();
return _zoom;
}
int WMSMap::zoomOut()
{
_zoom = qMax(_zoom - 1, 0);
updateTransform();
return _zoom;
}
QPointF WMSMap::ll2xy(const Coordinates &c)
{
return _transform.proj2img(_projection.ll2xy(c)) / _mapRatio;
}
Coordinates WMSMap::xy2ll(const QPointF &p)
{
return _projection.xy2ll(_transform.img2proj(p * _mapRatio));
}
qreal WMSMap::tileSize() const
{
return (TILE_SIZE / _mapRatio);
}
void WMSMap::draw(QPainter *painter, const QRectF &rect, Flags flags)
{
QPoint tl = QPoint(qFloor(rect.left() / tileSize()),
qFloor(rect.top() / tileSize()));
QPoint br = QPoint(qCeil(rect.right() / tileSize()),
qCeil(rect.bottom() / tileSize()));
QVector<Tile> tiles;
tiles.reserve((br.x() - tl.x()) * (br.y() - tl.y()));
for (int i = tl.x(); i < br.x(); i++) {
for (int j = tl.y(); j < br.y(); j++) {
PointD ttl(_transform.img2proj(QPointF(i * TILE_SIZE,
j * TILE_SIZE)));
PointD tbr(_transform.img2proj(QPointF(i * TILE_SIZE + TILE_SIZE
- 1, j * TILE_SIZE + TILE_SIZE - 1)));
RectD bbox = (_cs.axisOrder() == CoordinateSystem::YX)
? RectD(PointD(tbr.y(), tbr.x()), PointD(ttl.y(), ttl.x()))
: RectD(ttl, tbr);
tiles.append(Tile(QPoint(i, j), _zoom, 0, bbox));
}
}
if (flags & Map::Block)
_tileLoader->loadTilesSync(tiles);
else
_tileLoader->loadTilesAsync(tiles);
for (int i = 0; i < tiles.count(); i++) {
Tile &t = tiles[i];
QPointF tp(t.xy().x() * tileSize(), t.xy().y() * tileSize());
if (!t.pixmap().isNull()) {
#ifdef ENABLE_HIDPI
t.pixmap().setDevicePixelRatio(_mapRatio);
#endif // ENABLE_HIDPI
painter->drawPixmap(tp, t.pixmap());
}
}
}