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Added support for Lambert Azimuthal Equal Area projections
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@ -103,7 +103,8 @@ HEADERS += src/config.h \
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src/heartrategraphitem.h \
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src/temperaturegraphitem.h \
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src/cadencegraphitem.h \
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src/powergraphitem.h
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src/powergraphitem.h \
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src/azimuthalequalarea.h
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SOURCES += src/main.cpp \
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src/gui.cpp \
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src/poi.cpp \
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@ -179,7 +180,8 @@ SOURCES += src/main.cpp \
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src/heartrategraphitem.cpp \
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src/temperaturegraphitem.cpp \
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src/cadencegraphitem.cpp \
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src/powergraphitem.cpp
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src/powergraphitem.cpp \
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src/azimuthalequalarea.cpp
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RESOURCES += gpxsee.qrc
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TRANSLATIONS = lang/gpxsee_cs.ts \
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lang/gpxsee_sv.ts \
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194
src/azimuthalequalarea.cpp
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194
src/azimuthalequalarea.cpp
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/*
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* Based on libgeotrans with the following Source Code Disclaimer:
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1. The GEOTRANS source code ("the software") is provided free of charge by
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the National Imagery and Mapping Agency (NIMA) of the United States
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Department of Defense. Although NIMA makes no copyright claim under Title 17
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U.S.C., NIMA claims copyrights in the source code under other legal regimes.
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NIMA hereby grants to each user of the software a license to use and
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distribute the software, and develop derivative works.
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2. Warranty Disclaimer: The software was developed to meet only the internal
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requirements of the U.S. National Imagery and Mapping Agency. The software
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is provided "as is," and no warranty, express or implied, including but not
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limited to the implied warranties of merchantability and fitness for
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particular purpose or arising by statute or otherwise in law or from a
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course of dealing or usage in trade, is made by NIMA as to the accuracy and
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functioning of the software.
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3. NIMA and its personnel are not required to provide technical support or
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general assistance with respect to the software.
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4. Neither NIMA nor its personnel will be liable for any claims, losses, or
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damages arising from or connected with the use of the software. The user
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agrees to hold harmless the United States National Imagery and Mapping
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Agency. The user's sole and exclusive remedy is to stop using the software.
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5. NIMA requests that products developed using the software credit the
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source of the software with the following statement, "The product was
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developed using GEOTRANS, a product of the National Imagery and Mapping
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Agency and U.S. Army Engineering Research and Development Center."
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6. For any products developed using the software, NIMA requires a disclaimer
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that use of the software does not indicate endorsement or approval of the
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product by the Secretary of Defense or the National Imagery and Mapping
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Agency. Pursuant to the United States Code, 10 U.S.C. Sec. 2797, the name of
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the National Imagery and Mapping Agency, the initials "NIMA", the seal of
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the National Imagery and Mapping Agency, or any colorable imitation thereof
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shall not be used to imply approval, endorsement, or authorization of a
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product without prior written permission from United States Secretary of
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Defense.
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*/
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#include "rd.h"
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#include "azimuthalequalarea.h"
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#ifndef M_PI_2
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#define M_PI_2 1.57079632679489661923
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#endif // M_PI_2
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AzimuthalEqualArea::AzimuthalEqualArea(const Ellipsoid &ellipsoid,
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double latitudeOrigin, double longitudeOrigin, double falseEasting,
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double falseNorthing)
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{
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double es2, es4, es6;
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_e = ellipsoid;
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es2 = 2 * _e.flattening() - _e.flattening() * _e.flattening();
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es4 = es2 * es2;
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es6 = es4 * es2;
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_ra = _e.radius() * (1.0 - es2 / 6.0 - 17.0 * es4 / 360.0 - 67.0 * es6
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/ 3024.0);
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_latOrigin = deg2rad(latitudeOrigin);
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_sinLatOrigin = sin(_latOrigin);
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_cosLatOrigin = cos(_latOrigin);
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_absLatOrigin = fabs(_latOrigin);
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_lonOrigin = deg2rad(longitudeOrigin);
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if (_lonOrigin > M_PI)
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_lonOrigin -= 2.0 * M_PI;
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_falseNorthing = falseNorthing;
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_falseEasting = falseEasting;
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}
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QPointF AzimuthalEqualArea::ll2xy(const Coordinates &c) const
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{
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double dlam;
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double k_prime;
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double cd;
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double rlat = deg2rad(c.lat());
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double slat = sin(rlat);
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double clat = cos(rlat);
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double cos_c;
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double sin_dlam, cos_dlam;
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double Ra_kprime;
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double Ra_PI_OVER_2_Lat;
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QPointF p;
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dlam = deg2rad(c.lon()) - _lonOrigin;
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if (dlam > M_PI)
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dlam -= 2.0 * M_PI;
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if (dlam < -M_PI)
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dlam += 2.0 * M_PI;
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sin_dlam = sin(dlam);
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cos_dlam = cos(dlam);
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if (fabs(_absLatOrigin - M_PI_2) < 1.0e-10) {
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if (_latOrigin >= 0.0) {
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Ra_PI_OVER_2_Lat = _ra * (M_PI_2 - rlat);
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p.rx() = Ra_PI_OVER_2_Lat * sin_dlam + _falseEasting;
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p.ry() = -1.0 * (Ra_PI_OVER_2_Lat * cos_dlam) + _falseNorthing;
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} else {
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Ra_PI_OVER_2_Lat = _ra * (M_PI_2 + rlat);
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p.rx() = Ra_PI_OVER_2_Lat * sin_dlam + _falseEasting;
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p.ry() = Ra_PI_OVER_2_Lat * cos_dlam + _falseNorthing;
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}
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} else if (_absLatOrigin <= 1.0e-10) {
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cos_c = clat * cos_dlam;
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if (fabs(fabs(cos_c) - 1.0) < 1.0e-14) {
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if (cos_c >= 0.0) {
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p.rx() = _falseEasting;
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p.ry() = _falseNorthing;
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} else
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return QPointF(NAN, NAN);
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} else {
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cd = acos(cos_c);
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k_prime = cd / sin(cd);
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Ra_kprime = _ra * k_prime;
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p.rx() = Ra_kprime * clat * sin_dlam + _falseEasting;
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p.ry() = Ra_kprime * slat + _falseNorthing;
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}
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} else {
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cos_c = (_sinLatOrigin * slat) + (_cosLatOrigin * clat * cos_dlam);
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if (fabs(fabs(cos_c) - 1.0) < 1.0e-14) {
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if (cos_c >= 0.0) {
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p.rx() = _falseEasting;
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p.ry() = _falseNorthing;
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} else
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return QPointF(NAN, NAN);
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} else {
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cd = acos(cos_c);
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k_prime = cd / sin(cd);
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Ra_kprime = _ra * k_prime;
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p.rx() = Ra_kprime * clat * sin_dlam + _falseEasting;
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p.ry() = Ra_kprime * (_cosLatOrigin * slat - _sinLatOrigin * clat
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* cos_dlam) + _falseNorthing;
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}
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}
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return p;
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}
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Coordinates AzimuthalEqualArea::xy2ll(const QPointF &p) const
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{
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double dx, dy;
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double rho;
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double cd;
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double sin_c, cos_c, dy_sinc;
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double lat, lon;
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dy = p.y() - _falseNorthing;
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dx = p.x() - _falseEasting;
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rho = sqrt(dx * dx + dy * dy);
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if (fabs(rho) <= 1.0e-10) {
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lat = _latOrigin;
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lon = _lonOrigin;
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} else {
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cd = rho / _ra;
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sin_c = sin(cd);
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cos_c = cos(cd);
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dy_sinc = dy * sin_c;
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lat = asin((cos_c * _sinLatOrigin) + ((dy_sinc * _cosLatOrigin) / rho));
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if (fabs(_absLatOrigin - M_PI_2) < 1.0e-10) {
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if (_latOrigin >= 0.0)
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lon = _lonOrigin + atan2(dx, -dy);
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else
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lon = _lonOrigin + atan2(dx, dy);
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}
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else
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lon = _lonOrigin + atan2((dx * sin_c), ((rho * _cosLatOrigin
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* cos_c) - (dy_sinc * _sinLatOrigin)));
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}
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if (lat > M_PI_2)
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lat = M_PI_2;
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else if (lat < -M_PI_2)
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lat = -M_PI_2;
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if (lon > M_PI)
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lon -= 2.0 * M_PI;
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if (lon < -M_PI)
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lon += 2.0 * M_PI;
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if (lon > M_PI)
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lon = M_PI;
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else if (lon < -M_PI)
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lon = -M_PI;
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return Coordinates(rad2deg(lon), rad2deg(lat));
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}
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src/azimuthalequalarea.h
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30
src/azimuthalequalarea.h
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#ifndef AZIMUTHALEQUALAREA_H
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#define AZIMUTHALEQUALAREA_H
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#include "ellipsoid.h"
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#include "projection.h"
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class AzimuthalEqualArea : public Projection
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{
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public:
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AzimuthalEqualArea(const Ellipsoid &ellipsoid, double latitudeOrigin,
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double longitudeOrigin, double falseEasting, double falseNorthing);
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virtual QPointF ll2xy(const Coordinates &c) const;
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virtual Coordinates xy2ll(const QPointF &p) const;
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private:
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Ellipsoid _e;
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double _ra;
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double _sinLatOrigin;
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double _cosLatOrigin;
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double _absLatOrigin;
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double _latOrigin;
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double _lonOrigin;
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double _falseNorthing;
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double _falseEasting;
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};
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#endif // AZIMUTHALEQUALAREA_H
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@ -19,6 +19,7 @@
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#include "utm.h"
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#include "lambertconic.h"
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#include "albersequal.h"
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#include "azimuthalequalarea.h"
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#include "ozf.h"
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#include "rectc.h"
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#include "offlinemap.h"
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@ -208,6 +209,9 @@ bool OfflineMap::createProjection(const QString &datum,
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_projection = new AlbersEqual(d.ellipsoid(), setup.standardParallel1,
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setup.standardParallel2, setup.latitudeOrigin, setup.longitudeOrigin,
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setup.falseEasting, setup.falseNorthing);
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else if (projection == "(A)Lambert Azimuthual Equal Area")
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_projection = new AzimuthalEqualArea(d.ellipsoid(), setup.latitudeOrigin,
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setup.longitudeOrigin, setup.falseEasting, setup.falseNorthing);
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else if (projection == "(UTM) Universal Transverse Mercator") {
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if (setup.zone)
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_projection = new UTM(d.ellipsoid(), setup.zone);
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