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mirror of https://github.com/tumic0/GPXSee.git synced 2024-11-24 11:45:53 +01:00

Added support for Lambert Conformal Conic projection

This commit is contained in:
Martin Tůma 2017-04-02 22:17:16 +02:00
parent c4b3a81b0b
commit a56aa4e706
5 changed files with 131 additions and 3 deletions

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@ -89,7 +89,8 @@ HEADERS += src/config.h \
src/mercator.h \
src/transversemercator.h \
src/latlon.h \
src/utm.h
src/utm.h \
src/lambertconic.h
SOURCES += src/main.cpp \
src/gui.cpp \
src/poi.cpp \
@ -152,7 +153,8 @@ SOURCES += src/main.cpp \
src/atlas.cpp \
src/mercator.cpp \
src/transversemercator.cpp \
src/utm.cpp
src/utm.cpp \
src/lambertconic.cpp
RESOURCES += gpxsee.qrc
TRANSLATIONS = lang/gpxsee_cs.ts \
lang/gpxsee_sv.ts

83
src/lambertconic.cpp Normal file
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@ -0,0 +1,83 @@
#include <cmath>
#include "rd.h"
#include "wgs84.h"
#include "lambertconic.h"
#ifndef M_PI_2
#define M_PI_2 1.57079632679489661923
#endif // M_PI_2
#ifndef M_PI_4
#define M_PI_4 0.78539816339744830962
#endif // M_PI_4
static double q(double b)
{
double e = sqrt(WGS84_FLATTENING * (2. - WGS84_FLATTENING));
double esb = e * sin(b);
return log(tan(M_PI_4 + b / 2.) * pow((1. - esb) / (1. + esb), e / 2.));
}
static double inv_q(double q)
{
double e = sqrt(WGS84_FLATTENING * (2. - WGS84_FLATTENING));
double b0 = 0.;
double b = 2. * atan(exp(q)) - M_PI_2;
do {
b0 = b;
double esb = e * sin(b);
b = 2. * atan(exp(q) * pow((1. - esb) / (1. + esb), -e / 2.)) - M_PI_2;
} while (fabs(b - b0) > 1e-10);
return b;
}
static double nradius(double phi)
{
double sin_phi = sin(phi);
return (WGS84_RADIUS / sqrt(1. - (WGS84_FLATTENING
* (2. - WGS84_FLATTENING)) * sin_phi * sin_phi));
}
LambertConic::LambertConic(double standardParallel1, double standardParallel2,
double centralParallel, double centralMeridian, double scale,
double falseEasting, double falseNorthing)
{
_cm = centralMeridian;
_fe = falseEasting;
_fn = falseNorthing;
double sp1 = deg2rad(standardParallel1);
double sp2 = deg2rad(standardParallel2);
double N1 = nradius(sp1);
double N2 = nradius(sp2);
_q0 = q(deg2rad(centralParallel));
double q1 = q(sp1);
double q2 = q(sp2);
_n = log((N1 * cos(sp1)) / (N2 * cos(sp2))) / (q2 - q1);
double R1 = N1 * cos(sp1) / _n;
_R0 = scale * R1 * exp(_n * (q1 - _q0));
}
QPointF LambertConic::ll2xy(const Coordinates &c) const
{
double dl = _n * (deg2rad(c.lon()) - deg2rad(_cm));
double R = _R0 * exp(_n * (_q0 - q(deg2rad(c.lat()))));
return QPointF(_fe + R * sin(dl), _fn + _R0 - R * cos(dl));
}
Coordinates LambertConic::xy2ll(const QPointF &p) const
{
double dl = atan((p.x() - _fe) / (_fn + _R0 - p.y()));
double dx = p.x() - _fe;
double dy = p.y() - _fn - _R0;
double R = sqrt(dx * dx + dy * dy);
double q = _q0 - log(R / _R0) / _n;
return Coordinates(rad2deg(deg2rad(_cm) + dl / _n), rad2deg(inv_q(q)));
}

26
src/lambertconic.h Normal file
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@ -0,0 +1,26 @@
#ifndef LAMBERTCONIC_H
#define LAMBERTCONIC_H
#include "projection.h"
class LambertConic : public Projection
{
public:
LambertConic(double standardParallel1, double standardParallel2,
double centralParallel, double centralMeridian, double scale,
double falseEasting, double falseNorthing);
virtual QPointF ll2xy(const Coordinates &c) const;
virtual Coordinates xy2ll(const QPointF &p) const;
private:
double _cm;
double _fe;
double _fn;
double _q0;
double _R0;
double _n;
};
#endif // LAMBERTCONIC_H

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@ -16,6 +16,7 @@
#include "mercator.h"
#include "transversemercator.h"
#include "utm.h"
#include "lambertconic.h"
#include "offlinemap.h"
@ -104,18 +105,27 @@ int OfflineMap::parseMapFile(QIODevice &device, QList<ReferencePoint> &points,
} else if (key == "Projection Setup") {
if (list.count() < 8)
return ln;
setup.centralParallel = list.at(1).trimmed().toFloat(&res);
if (!res)
setup.centralParallel = 0;
setup.centralMeridian = list.at(2).trimmed().toFloat(&res);
if (!res)
setup.centralMeridian = 0;
setup.scale = list.at(3).trimmed().toFloat(&res);
if (!res)
setup.scale = 0;
setup.scale = 1.0;
setup.falseEasting = list.at(4).trimmed().toFloat(&res);
if (!res)
setup.falseEasting = 0;
setup.falseNorthing = list.at(5).trimmed().toFloat(&res);
if (!res)
setup.falseNorthing = 0;
setup.standardParallel1 = list.at(6).trimmed().toFloat(&res);
if (!res)
setup.standardParallel1 = 0;
setup.standardParallel2 = list.at(7).trimmed().toFloat(&res);
if (!res)
setup.standardParallel2 = 0;
}
}
@ -141,6 +151,10 @@ bool OfflineMap::createProjection(const QString &projection,
setup.falseEasting, setup.falseNorthing);
else if (projection == "Latitude/Longitude")
_projection = new LatLon();
else if (projection == "Lambert Conformal Conic")
_projection = new LambertConic(setup.standardParallel1,
setup.standardParallel2, setup.centralParallel, setup.centralMeridian,
setup.scale, setup.falseEasting, setup.falseNorthing);
else if (projection == "(UTM) Universal Transverse Mercator") {
if (setup.zone)
_projection = new UTM(setup.zone);

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@ -51,10 +51,13 @@ private:
} ReferencePoint;
typedef struct {
double centralParallel;
double centralMeridian;
double scale;
double falseEasting;
double falseNorthing;
double standardParallel1;
double standardParallel2;
int zone;
} ProjectionSetup;