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mirror of https://github.com/tumic0/GPXSee.git synced 2024-11-30 22:51:16 +01:00

Use the correct units for azimuths

This commit is contained in:
Martin Tůma 2018-03-15 00:27:44 +01:00
parent 35d1e69d7f
commit fe1f6c80b4

View File

@ -22,6 +22,7 @@
#define GeogPrimeMeridianGeoKey 2051
#define GeogAngularUnitsGeoKey 2054
#define GeogEllipsoidGeoKey 2056
#define GeogAzimuthUnitsGeoKey 2060
#define ProjectedCSTypeGeoKey 3072
#define ProjectionGeoKey 3074
#define ProjCoordTransGeoKey 3075
@ -54,13 +55,7 @@
#define IS_SET(map, key) \
((map).contains(key) && (map).value(key).SHORT != 32767)
#define TO_M(lu, val) \
(std::isnan(val) ? val : (lu).toMeters(val))
#define TO_DEG(au, val) \
(std::isnan(val) ? val : (au).toDegrees(val))
#define ARRAY_SIZE(a) \
(sizeof(a) / sizeof(*a))
typedef struct {
quint16 KeyDirectoryVersion;
@ -236,6 +231,7 @@ bool GeoTIFF::readKeys(TIFFFile &file, Ctx &ctx, QMap<quint16, Value> &kv) const
case GeogGeodeticDatumGeoKey:
case GeogPrimeMeridianGeoKey:
case GeogAngularUnitsGeoKey:
case GeogAzimuthUnitsGeoKey:
case ProjectedCSTypeGeoKey:
case ProjectionGeoKey:
case ProjCoordTransGeoKey:
@ -384,6 +380,8 @@ bool GeoTIFF::projectedModel(QMap<quint16, Value> &kv)
AngularUnits au(IS_SET(kv, GeogAngularUnitsGeoKey)
? kv.value(GeogAngularUnitsGeoKey).SHORT : 9102);
AngularUnits zu(IS_SET(kv, GeogAzimuthUnitsGeoKey)
? kv.value(GeogAzimuthUnitsGeoKey).SHORT : 9102);
LinearUnits lu(IS_SET(kv, ProjLinearUnitsGeoKey)
? kv.value(ProjLinearUnitsGeoKey).SHORT : 9001);
if (lu.isNull()) {
@ -393,15 +391,15 @@ bool GeoTIFF::projectedModel(QMap<quint16, Value> &kv)
}
if (kv.contains(ProjNatOriginLatGeoKey))
lat0 = kv.value(ProjNatOriginLatGeoKey).DOUBLE;
lat0 = au.toDegrees(kv.value(ProjNatOriginLatGeoKey).DOUBLE);
else if (kv.contains(ProjCenterLatGeoKey))
lat0 = kv.value(ProjCenterLatGeoKey).DOUBLE;
lat0 = au.toDegrees(kv.value(ProjCenterLatGeoKey).DOUBLE);
else
lat0 = NAN;
if (kv.contains(ProjNatOriginLongGeoKey))
lon0 = kv.value(ProjNatOriginLongGeoKey).DOUBLE;
lon0 = au.toDegrees(kv.value(ProjNatOriginLongGeoKey).DOUBLE);
else if (kv.contains(ProjCenterLongGeoKey))
lon0 = kv.value(ProjCenterLongGeoKey).DOUBLE;
lon0 = au.toDegrees(kv.value(ProjCenterLongGeoKey).DOUBLE);
else
lon0 = NAN;
if (kv.contains(ProjScaleAtNatOriginGeoKey))
@ -411,28 +409,27 @@ bool GeoTIFF::projectedModel(QMap<quint16, Value> &kv)
else
scale = NAN;
if (kv.contains(ProjStdParallel1GeoKey))
sp1 = kv.value(ProjStdParallel1GeoKey).DOUBLE;
sp1 = au.toDegrees(kv.value(ProjStdParallel1GeoKey).DOUBLE);
else if (kv.contains(ProjAzimuthAngleGeoKey))
sp1 = kv.value(ProjAzimuthAngleGeoKey).DOUBLE;
sp1 = zu.toDegrees(kv.value(ProjAzimuthAngleGeoKey).DOUBLE);
else
sp1 = NAN;
if (kv.contains(ProjStdParallel2GeoKey))
sp2 = kv.value(ProjStdParallel2GeoKey).DOUBLE;
sp2 = au.toDegrees(kv.value(ProjStdParallel2GeoKey).DOUBLE);
else if (kv.contains(ProjRectifiedGridAngleGeoKey))
sp2 = kv.value(ProjRectifiedGridAngleGeoKey).DOUBLE;
sp2 = au.toDegrees(kv.value(ProjRectifiedGridAngleGeoKey).DOUBLE);
else
sp2 = NAN;
if (kv.contains(ProjFalseNorthingGeoKey))
fn = kv.value(ProjFalseNorthingGeoKey).DOUBLE;
fn = lu.toMeters(kv.value(ProjFalseNorthingGeoKey).DOUBLE);
else
fn = NAN;
if (kv.contains(ProjFalseEastingGeoKey))
fe = kv.value(ProjFalseEastingGeoKey).DOUBLE;
fe = lu.toMeters(kv.value(ProjFalseEastingGeoKey).DOUBLE);
else
fe = NAN;
Projection::Setup setup(TO_DEG(au, lat0), TO_DEG(au, lon0), scale,
TO_M(lu, fe), TO_M(lu, fn), TO_DEG(au, sp1), TO_DEG(au, sp2));
Projection::Setup setup(lat0, lon0, scale, fe, fn, sp1, sp2);
_projection = Projection(g, m, setup, lu);
}