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GPXSee/src/map/oruxmap.cpp

614 lines
15 KiB
C++

#include <QPainter>
#include <QPixmapCache>
#include <QSqlQuery>
#include <QSqlRecord>
#include <QSqlField>
#include <QFile>
#include <QFileInfo>
#include <QDir>
#include <QXmlStreamReader>
#include "pcs.h"
#include "utm.h"
#include "oruxmap.h"
#define META_TYPE(type) static_cast<QMetaType::Type>(type)
static bool intAttr(QXmlStreamReader &reader, const QXmlStreamAttributes &attr,
const QString &name, int &val)
{
bool ok;
if (!attr.hasAttribute(name)) {
reader.raiseError(QString("Missing %1 attribute").arg(name));
return false;
}
val = attr.value(name).toInt(&ok);
if (!ok) {
reader.raiseError(QString("Invalid %1 attribute").arg(name));
return false;
}
return true;
}
static bool dblAttr(QXmlStreamReader &reader, const QXmlStreamAttributes &attr,
const QString &name, double &val)
{
bool ok;
if (!attr.hasAttribute(name)) {
reader.raiseError(QString("Missing %1 attribute").arg(name));
return false;
}
val = attr.value(name).toDouble(&ok);
if (!ok) {
reader.raiseError(QString("Invalid %1 attribute").arg(name));
return false;
}
return true;
}
static bool strAttr(QXmlStreamReader &reader, const QXmlStreamAttributes &attr,
const QString &name, QString &val)
{
if (!attr.hasAttribute(name)) {
reader.raiseError(QString("Missing %1 attribute").arg(name));
return false;
}
val = attr.value(name).toString();
return true;
}
static PointD corner2point(const QString &name, const QSize &size)
{
if (name == "TL")
return PointD(0, 0);
else if (name == "BR")
return PointD(size.width(), size.height());
else if (name == "TR")
return PointD(size.width(), 0);
else if (name == "BL")
return PointD(0, size.height());
else
return PointD();
}
static Projection::Setup lcc2setup(const QStringList &list)
{
double params[6];
bool ok;
if (list.size() < 7)
return Projection::Setup();
for (int i = 1; i < 7; i++) {
params[i - 1] = list.at(i).toDouble(&ok);
if (!ok)
return Projection::Setup();
}
return Projection::Setup(params[0], params[1], NAN, params[4],
params[5], params[2], params[3]);
}
static Projection::Setup laea2setup(const QStringList &list)
{
double params[2];
bool ok;
if (list.size() < 3)
return Projection::Setup();
for (int i = 1; i < 3; i++) {
params[i - 1] = list.at(i).toDouble(&ok);
if (!ok)
return Projection::Setup();
}
return Projection::Setup(params[1], params[0], NAN, 0, 0, NAN, NAN);
}
static Projection::Setup polyconic2setup(const QStringList &list)
{
double params[3];
bool ok;
if (list.size() < 4)
return Projection::Setup();
for (int i = 1; i < 4; i++) {
params[i - 1] = list.at(i).toDouble(&ok);
if (!ok)
return Projection::Setup();
}
return Projection::Setup(NAN, params[0], NAN, params[1], params[2], NAN,
NAN);
}
static Projection::Setup tm2setup(const QStringList &list)
{
double params[5];
bool ok;
if (list.size() < 6)
return Projection::Setup();
for (int i = 1; i < 6; i++) {
params[i - 1] = list.at(i).toDouble(&ok);
if (!ok)
return Projection::Setup();
}
return Projection::Setup(params[1], params[0], params[2], params[3],
params[4], NAN, NAN);
}
static Projection::Setup utm2setup(const QStringList &list)
{
bool ok;
if (list.size() < 2)
return Projection::Setup();
int zone = list.at(1).toInt(&ok);
return ok ? UTM::setup(zone) : Projection::Setup();
}
static Projection::Setup mercator2setup(const QStringList &list)
{
double lon;
bool ok;
if (list.size() < 2)
return Projection::Setup(0, 0, NAN, 0, 0, NAN, NAN);
lon = list.at(1).toDouble(&ok);
return ok ? Projection::Setup(0, lon, NAN, 0, 0, NAN, NAN)
: Projection::Setup();
}
static GCS createGCS(const QString &datum)
{
QStringList dl(datum.split(':'));
return (GCS::gcs(dl.first()));
}
static Projection createProjection(const GCS &gcs, const QString &name)
{
PCS pcs;
QStringList pl(name.split(','));
if (pl.first() == "Latitude/Longitude")
return Projection(gcs);
else if (pl.first() == "UTM")
pcs = PCS(gcs, Conversion(9807, utm2setup(pl), 9001));
else if (pl.first() == "Mercator")
pcs = PCS(gcs, Conversion(1024, Projection::Setup(), 9001));
else if (pl.first() == "Mercator Ellipsoidal")
pcs = PCS(gcs, Conversion(9804, mercator2setup(pl), 9001));
else if (pl.first() == "Transverse Mercator")
pcs = PCS(gcs, Conversion(9807, tm2setup(pl), 9001));
else if (pl.first() == "Lambert Conformal Conic")
pcs = PCS(gcs, Conversion(9802, lcc2setup(pl), 9001));
else if (pl.first() == "(A)Lambert Azimuthual Equal Area")
pcs = PCS(gcs, Conversion(9820, laea2setup(pl), 9001));
else if (pl.first() == "Polyconic (American)")
pcs = PCS(gcs, Conversion(9818, polyconic2setup(pl), 9001));
else if (pl.first() == "(IG) Irish Grid")
pcs = PCS(gcs, Conversion(9807, Projection::Setup(53.5, -8, 1.000035,
200000, 250000, NAN, NAN), 9001));
else if (pl.first() == "(SUI) Swiss Grid")
pcs = PCS(gcs, Conversion(9815, Projection::Setup(46.570866, 7.26225,
1.0, 600000, 200000, 90.0, 90.0), 9001));
else if (pl.first() == "Rijksdriehoeksmeting")
pcs = PCS(gcs, Conversion(9809, Projection::Setup(52.1561605555556,
5.38763888888889, 0.9999079, 155000, 463000, NAN, NAN), 9001));
else
return Projection();
return Projection(pcs);
}
static Transform computeTransformation(const Projection &proj,
const QList<CalibrationPoint> &points)
{
QList<ReferencePoint> rp;
for (int i = 0; i < points.size(); i++)
rp.append(points.at(i).rp(proj));
return Transform(rp);
}
void OruxMap::calibrationPoints(QXmlStreamReader &reader, const QSize &size,
QList<CalibrationPoint> &points)
{
while (reader.readNextStartElement()) {
if (reader.name() == QLatin1String("CalibrationPoint")) {
double lon, lat;
QString corner;
QXmlStreamAttributes attr = reader.attributes();
if (!dblAttr(reader, attr, "lat", lat))
return;
if (!dblAttr(reader, attr, "lon", lon))
return;
if (!strAttr(reader, attr, "corner", corner))
return;
CalibrationPoint p(corner2point(corner, size), Coordinates(lon, lat));
if (!p.isValid()) {
reader.raiseError(QString("invalid calibration point"));
return;
}
points.append(p);
reader.readElementText();
} else
reader.skipCurrentElement();
}
}
void OruxMap::mapCalibration(QXmlStreamReader &reader, const QString &dir,
int level)
{
int zoom;
QSize tileSize, size, calibrationSize;
QString fileName;
Projection proj;
Transform t;
QXmlStreamAttributes attr = reader.attributes();
if (!intAttr(reader, attr, "layerLevel", zoom))
return;
while (reader.readNextStartElement()) {
if (reader.name() == QLatin1String("OruxTracker"))
oruxTracker(reader, dir, level + 1);
else if (reader.name() == QLatin1String("MapName")) {
QString name(reader.readElementText());
if (!level && dir.isEmpty())
_name = name;
} else if (reader.name() == QLatin1String("MapChunks")) {
int xMax, yMax, width, height;
QString datum, projection;
QXmlStreamAttributes attr = reader.attributes();
if (!intAttr(reader, attr, "xMax", xMax))
return;
if (!intAttr(reader, attr, "yMax", yMax))
return;
if (!intAttr(reader, attr, "img_width", width))
return;
if (!intAttr(reader, attr, "img_height", height))
return;
if (!strAttr(reader, attr, "datum", datum))
return;
if (!strAttr(reader, attr, "projection", projection))
return;
if (!strAttr(reader, attr, "file_name", fileName))
return;
tileSize = QSize(width, height);
size = QSize(xMax * width, yMax * height);
calibrationSize = size;
GCS gcs(createGCS(datum));
if (!gcs.isValid()) {
reader.raiseError(QString("%1: invalid/unknown datum")
.arg(datum));
return;
}
proj = createProjection(gcs, projection);
if (!proj.isValid()) {
reader.raiseError(QString("%1: invalid/unknown projection")
.arg(projection));
return;
}
reader.readElementText();
} else if (reader.name() == QLatin1String("MapDimensions")) {
int height, width;
QXmlStreamAttributes attr = reader.attributes();
if (!intAttr(reader, attr, "height", height))
return;
if (!intAttr(reader, attr, "width", width))
return;
calibrationSize = QSize(width, height);
reader.readElementText();
} else if (reader.name() == QLatin1String("CalibrationPoints")) {
QList<CalibrationPoint> points;
calibrationPoints(reader, calibrationSize, points);
t = computeTransformation(proj, points);
if (!t.isValid()) {
reader.raiseError(t.errorString());
return;
}
} else
reader.skipCurrentElement();
}
if (tileSize.isValid()) {
if (!t.isValid()) {
reader.raiseError("Invalid map calibration");
return;
}
QDir mapDir(QFileInfo(path()).absoluteDir());
QDir subDir = dir.isEmpty()
? mapDir : QDir(mapDir.absoluteFilePath(dir));
QString set(subDir.absoluteFilePath("set"));
_zooms.append(Zoom(zoom, tileSize, size, proj, t, fileName, set));
}
}
void OruxMap::oruxTracker(QXmlStreamReader &reader, const QString &dir,
int level)
{
if (level > 1 || (level && !dir.isEmpty())) {
reader.raiseError("invalid map nesting");
return;
}
while (reader.readNextStartElement()) {
if (reader.name() == QLatin1String("MapCalibration"))
mapCalibration(reader, dir, level);
else
reader.skipCurrentElement();
}
}
bool OruxMap::readXML(const QString &path, const QString &dir)
{
QFile file(path);
if (!file.open(QFile::ReadOnly | QFile::Text)) {
_errorString = file.errorString();
return false;
}
QXmlStreamReader reader(&file);
if (reader.readNextStartElement()) {
if (reader.name() == QLatin1String("OruxTracker"))
oruxTracker(reader, dir, 0);
else
reader.raiseError("Not a Orux map calibration file");
}
if (reader.error()) {
_errorString = QString("%1: %2").arg(reader.lineNumber())
.arg(reader.errorString());
return false;
}
return true;
}
OruxMap::OruxMap(const QString &fileName, QObject *parent)
: Map(fileName, parent), _zoom(0), _mapRatio(1.0), _valid(false)
{
QFileInfo fi(fileName);
QDir dir(fi.absoluteDir());
if (!readXML(fileName))
return;
if (_zooms.isEmpty()) {
QStringList list(dir.entryList(QDir::Dirs | QDir::NoDotAndDotDot));
for (int i = 0; i < list.size(); i++) {
QDir subDir(dir.absoluteFilePath(list.at(i)));
if (!readXML(subDir.absoluteFilePath(list.at(i) + ".otrk2.xml"),
list.at(i))) {
_errorString = list.at(i) + ": " + _errorString;
return;
}
}
if (_zooms.isEmpty()) {
_errorString = "No usable zoom level found";
return;
}
}
std::sort(_zooms.begin(), _zooms.end());
if (dir.exists("OruxMapsImages.db")) {
QString dbFile(dir.absoluteFilePath("OruxMapsImages.db"));
if (!Util::isSQLiteDB(dbFile, _errorString)) {
_errorString = "OruxMapsImages.db: " + _errorString;
return;
}
_db = QSqlDatabase::addDatabase("QSQLITE", dbFile);
_db.setDatabaseName(dbFile);
_db.setConnectOptions("QSQLITE_OPEN_READONLY");
if (!_db.open()) {
_errorString = "Error opening database file";
return;
}
QSqlRecord r = _db.record("tiles");
if (r.isEmpty()
|| r.field(0).name() != "x"
|| META_TYPE(r.field(0).type()) != QMetaType::Int
|| r.field(1).name() != "y"
|| META_TYPE(r.field(1).type()) != QMetaType::Int
|| r.field(2).name() != "z"
|| META_TYPE(r.field(2).type()) != QMetaType::Int
|| r.field(3).name() != "image"
|| META_TYPE(r.field(3).type()) != QMetaType::QByteArray) {
_errorString = "Invalid table format";
return;
}
_db.close();
} else {
for (int i = 0; i < _zooms.size(); i++) {
if (!_zooms.at(i).set.exists()) {
_errorString = "missing set directory (level "
+ QString::number(_zooms.at(i).zoom) + ")";
return;
}
}
}
_valid = true;
}
int OruxMap::zoomFit(const QSize &size, const RectC &rect)
{
if (!rect.isValid())
_zoom = _zooms.size() - 1;
else {
for (int i = 1; i < _zooms.size(); i++) {
_zoom = i;
QRect sbr(QPoint(ll2xy(rect.topLeft()).toPoint()),
QPoint(ll2xy(rect.bottomRight()).toPoint()));
if (sbr.size().width() >= size.width() || sbr.size().height()
>= size.height()) {
_zoom--;
break;
}
}
}
return _zoom;
}
int OruxMap::zoomIn()
{
_zoom = qMin(_zoom + 1, _zooms.size() - 1);
return _zoom;
}
int OruxMap::zoomOut()
{
_zoom = qMax(_zoom - 1, 0);
return _zoom;
}
void OruxMap::load(const Projection &in, const Projection &out,
qreal deviceRatio, bool hidpi)
{
Q_UNUSED(in);
Q_UNUSED(out);
_mapRatio = hidpi ? deviceRatio : 1.0;
if (_db.isValid())
_db.open();
}
void OruxMap::unload()
{
if (_db.isValid())
_db.close();
}
QPixmap OruxMap::tile(const Zoom &z, int x, int y) const
{
if (_db.isValid()) {
QSqlQuery query(_db);
query.prepare("SELECT image FROM tiles WHERE z=:z AND x=:x AND y=:y");
query.bindValue(":z", z.zoom);
query.bindValue(":x", x);
query.bindValue(":y", y);
query.exec();
if (!query.first()) {
qWarning("%s: SQL %d-%d-%d: not found", qPrintable(name()), z.zoom,
x, y);
return QPixmap();
} else {
QImage img(QImage::fromData(query.value(0).toByteArray()));
return QPixmap::fromImage(img);
}
} else {
QString fileName(z.fileName + "_" + QString::number(x) + "_"
+ QString::number(y) + ".omc2");
QString path(z.set.absoluteFilePath(fileName));
if (!QFileInfo::exists(path)) {
qWarning("%s: %s: not found", qPrintable(name()),
qPrintable(fileName));
return QPixmap();
} else {
QImage img(path);
return QPixmap::fromImage(img);
}
}
}
void OruxMap::draw(QPainter *painter, const QRectF &rect, Flags flags)
{
Q_UNUSED(flags);
const Zoom &z = _zooms.at(_zoom);
QSizeF ts(z.tileSize.width() / _mapRatio, z.tileSize.height() / _mapRatio);
QPointF tl(floor(rect.left() / ts.width()) * ts.width(),
floor(rect.top() / ts.height()) * ts.height());
QSizeF s(rect.right() - tl.x(), rect.bottom() - tl.y());
for (int i = 0; i < ceil(s.width() / ts.width()); i++) {
for (int j = 0; j < ceil(s.height() / ts.height()); j++) {
int x = round(tl.x() * _mapRatio + i * z.tileSize.width());
int y = round(tl.y() * _mapRatio + j * z.tileSize.height());
QPixmap pixmap;
QString key = path() + "/" + QString::number(z.zoom)
+ "_" + QString::number(x/z.tileSize.width())
+ "_" + QString::number(y/z.tileSize.height());
if (!QPixmapCache::find(key, &pixmap)) {
pixmap = tile(z, x/z.tileSize.width(), y/z.tileSize.height());
if (!pixmap.isNull())
QPixmapCache::insert(key, pixmap);
}
if (!pixmap.isNull()) {
pixmap.setDevicePixelRatio(_mapRatio);
QPointF tp(tl.x() + i * ts.width(), tl.y() + j * ts.height());
painter->drawPixmap(tp, pixmap);
}
}
}
}
QRectF OruxMap::bounds()
{
const Zoom &z = _zooms.at(_zoom);
return QRectF(QPointF(0, 0), z.size / _mapRatio);
}
QPointF OruxMap::ll2xy(const Coordinates &c)
{
const Zoom &z = _zooms.at(_zoom);
QPointF p(z.transform.proj2img(z.projection.ll2xy(c)));
return (p / _mapRatio);
}
Coordinates OruxMap::xy2ll(const QPointF &p)
{
const Zoom &z = _zooms.at(_zoom);
return z.projection.xy2ll(z.transform.img2proj(p * _mapRatio));
}
Map *OruxMap::create(const QString &path, const Projection &proj, bool *isDir)
{
Q_UNUSED(proj);
if (isDir)
*isDir = true;
return new OruxMap(path);
}
#ifndef QT_NO_DEBUG
QDebug operator<<(QDebug dbg, const OruxMap::Zoom &zoom)
{
dbg.nospace() << "Zoom(" << zoom.zoom << ", " << zoom.tileSize << ", "
<< zoom.size << ")";
return dbg.space();
}
#endif // QT_NO_DEBUG