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GPXSee/src/map/gemfmap.cpp

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#include <QDataStream>
#include <QPainter>
#include <QPixmapCache>
#include <QtConcurrent>
#include "osm.h"
#include "tile.h"
#include "gemfmap.h"
static bool readSources(QDataStream &stream)
{
qint32 num, len, idx;
QByteArray name;
stream >> num;
for (int i = 0; i < num; i++) {
stream >> idx >> len;
name.resize(len);
stream.readRawData(name.data(), name.size());
}
return (stream.status() == QDataStream::Ok);
}
QRect GEMFMap::rect(const Zoom &zoom) const
{
QRect r;
const QList<Region> &list = zoom.ranges;
for (int i = 0; i < list.size(); i++) {
const Region &rg = list.at(i);
r |= QRect(QPoint(rg.minX, rg.minY), QPoint(rg.maxX, rg.maxY));
}
return r;
}
bool GEMFMap::readHeader(QDataStream &stream)
{
qint32 version;
stream >> version >> _tileSize;
return (stream.status() == QDataStream::Ok
&& (version >= 3 && version <= 4));
}
bool GEMFMap::readRegions(QDataStream &stream)
{
qint32 num, idx, level;
Region r;
int zi;
stream >> num;
for (int i = 0; i < num; i++) {
stream >> level >> r.minX >> r.maxX >> r.minY >> r.maxY >> idx
>> r.offset;
if ((zi = _zooms.indexOf(level)) < 0) {
zi = _zooms.size();
_zooms.append(Zoom(level));
}
_zooms[zi].ranges.append(r);
}
return (stream.status() == QDataStream::Ok);
}
bool GEMFMap::computeBounds()
{
if (_zooms.isEmpty())
return false;
std::sort(_zooms.begin(), _zooms.end());
const Zoom &z = _zooms.first();
QRect r(rect(z));
if (!r.isValid())
return false;
Coordinates tl(OSM::tile2ll(r.topLeft(), z.level));
tl.rlat() = -tl.lat();
Coordinates br(OSM::tile2ll(QPoint(r.right() + 1, r.bottom() + 1), z.level));
br.rlat() = -br.lat();
// Workaround of broken zoom levels 0 and 1 due to numerical
// instability
tl.rlat() = qMin(tl.lat(), OSM::BOUNDS.top());
br.rlat() = qMax(br.lat(), OSM::BOUNDS.bottom());
_bounds = RectC(tl, br);
return true;
}
GEMFMap::GEMFMap(const QString &fileName, QObject *parent)
: Map(fileName, parent), _file(fileName), _zi(0), _mapRatio(1.0),
_valid(false)
{
if (!_file.open(QIODevice::ReadOnly)) {
_errorString = _file.errorString();
return;
}
QDataStream stream(&_file);
if (!readHeader(stream)) {
_errorString = "Invalid/unsupported GEMF file";
return;
}
if (!readSources(stream)) {
_errorString = "Error reading tile sources";
return;
}
if (!readRegions(stream)) {
_errorString = "Error reading tile ranges";
return;
}
if (!computeBounds()) {
_errorString = "Invalid map area";
return;
}
_file.close();
_valid = true;
}
qreal GEMFMap::resolution(const QRectF &rect)
{
return OSM::resolution(rect.center(), _zooms.at(_zi).level, _tileSize);
}
int GEMFMap::zoomFit(const QSize &size, const RectC &rect)
{
if (!rect.isValid())
_zi = _zooms.size() - 1;
else {
QRectF tbr(OSM::ll2m(rect.topLeft()), OSM::ll2m(rect.bottomRight()));
QPointF sc(tbr.width() / size.width(), tbr.height() / size.height());
int zoom = OSM::scale2zoom(qMax(sc.x(), -sc.y()) / _mapRatio,
_tileSize);
_zi = 0;
for (int i = 1; i < _zooms.size(); i++) {
if (_zooms.at(i).level > zoom)
break;
_zi = i;
}
}
return _zi;
}
int GEMFMap::zoomIn()
{
_zi = qMin(_zi + 1, _zooms.size() - 1);
return _zi;
}
int GEMFMap::zoomOut()
{
_zi = qMax(_zi - 1, 0);
return _zi;
}
QRectF GEMFMap::bounds()
{
return QRectF(ll2xy(_bounds.topLeft()), ll2xy(_bounds.bottomRight()));
}
QPointF GEMFMap::ll2xy(const Coordinates &c)
{
qreal scale = OSM::zoom2scale(_zooms.at(_zi).level, _tileSize);
QPointF m = OSM::ll2m(c);
return QPointF(m.x() / scale, m.y() / -scale) / _mapRatio;
}
Coordinates GEMFMap::xy2ll(const QPointF &p)
{
qreal scale = OSM::zoom2scale(_zooms.at(_zi).level, _tileSize);
return OSM::m2ll(QPointF(p.x() * scale, -p.y() * scale) * _mapRatio);
}
void GEMFMap::load(const Projection &in, const Projection &out,
qreal deviceRatio, bool hidpi)
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{
Q_UNUSED(in);
Q_UNUSED(out);
_mapRatio = hidpi ? deviceRatio : 1.0;
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_file.open(QIODevice::ReadOnly);
}
void GEMFMap::unload()
{
_file.close();
}
qreal GEMFMap::tileSize() const
{
return (_tileSize / _mapRatio);
}
QByteArray GEMFMap::tileData(const QPoint &tile)
{
const Zoom &z = _zooms.at(_zi);
for(int i = 0; i < z.ranges.size(); i++) {
const Region &r = z.ranges.at(i);
QRect rect(QPoint(r.minX, r.minY), QPoint(r.maxX, r.maxY));
if (rect.contains(tile)) {
quint32 x = tile.x() - r.minX;
quint32 y = tile.y() - r.minY;
quint32 idx = x * (r.maxY + 1 - r.minY) + y;
quint64 offset = idx * 12;
quint64 address;
quint32 size;
if (!_file.seek(offset + r.offset))
return QByteArray();
QDataStream stream(&_file);
stream >> address >> size;
if (stream.status() != QDataStream::Ok)
return QByteArray();
if (!_file.seek(address))
return QByteArray();
QByteArray data;
data.resize(size);
return (_file.read(data.data(), data.size()) == size)
? data : QByteArray();
}
}
return QByteArray();
}
void GEMFMap::draw(QPainter *painter, const QRectF &rect, Flags flags)
{
Q_UNUSED(flags);
const Zoom &z = _zooms.at(_zi);
qreal scale = OSM::zoom2scale(z.level, _tileSize);
QRectF b(bounds());
QPoint tile = OSM::mercator2tile(QPointF(rect.topLeft().x() * scale,
-rect.topLeft().y() * scale) * _mapRatio, z.level);
QPointF tl(floor(rect.left() / tileSize())
* tileSize(), floor(rect.top() / tileSize()) * tileSize());
QSizeF s(qMin(rect.right() - tl.x(), b.width()),
qMin(rect.bottom() - tl.y(), b.height()));
int width = ceil(s.width() / tileSize());
int height = ceil(s.height() / tileSize());
QList<RenderTile> tiles;
for (int i = 0; i < width; i++) {
for (int j = 0; j < height; j++) {
QPixmap pm;
QPoint t(tile.x() + i, tile.y() + j);
QString key = path() + "-" + QString::number(z.level) + "_"
+ QString::number(t.x()) + "_" + QString::number(t.y());
if (QPixmapCache::find(key, &pm)) {
QPointF tp(qMax(tl.x(), b.left()) + (t.x() - tile.x())
* tileSize(), qMax(tl.y(), b.top()) + (t.y() - tile.y())
* tileSize());
drawTile(painter, pm, tp);
} else {
tiles.append(RenderTile(t, tileData(t), key));
}
}
}
QFuture<void> future = QtConcurrent::map(tiles, &RenderTile::load);
future.waitForFinished();
for (int i = 0; i < tiles.size(); i++) {
const RenderTile &mt = tiles.at(i);
QPixmap pm(mt.pixmap());
if (pm.isNull())
continue;
QPixmapCache::insert(mt.key(), pm);
QPointF tp(qMax(tl.x(), b.left()) + (mt.xy().x() - tile.x())
* tileSize(), qMax(tl.y(), b.top()) + (mt.xy().y() - tile.y())
* tileSize());
drawTile(painter, pm, tp);
}
}
void GEMFMap::drawTile(QPainter *painter, QPixmap &pixmap, QPointF &tp)
{
pixmap.setDevicePixelRatio(_mapRatio);
painter->drawPixmap(tp, pixmap);
}
Map *GEMFMap::create(const QString &path, bool *isDir)
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{
if (isDir)
*isDir = false;
return new GEMFMap(path);
}
#ifndef QT_NO_DEBUG
QDebug operator<<(QDebug dbg, const GEMFMap::Region &region)
{
dbg.nospace() << "Region(" << QRect(QPoint(region.minX, region.minY),
QPoint(region.maxX, region.maxY)) << ", " << region.offset << ")";
return dbg.space();
}
QDebug operator<<(QDebug dbg, const GEMFMap::Zoom &zoom)
{
dbg.nospace() << "Zoom(" << zoom.level << ", " << zoom.ranges << ")";
return dbg.space();
}
#endif // QT_NO_DEBUG