[ Module Hierarchy
| Class Hierarchy ]
Class Hierarchy
- object:
The most base type
- exceptions.BaseException:
Common base class for all exceptions
- exceptions.Exception:
Common base class for all non-exit exceptions.
- exceptions.StandardError:
Base class for all standard Python exceptions that do not represent
interpreter exiting.
- exceptions.ImportError:
Import can't find module, or can't find name in module.
- exceptions.ValueError:
Inappropriate argument value (of correct type).
- pygeodesy.errors._ValueError:
(INTERNAL) Format a
ValueError
without exception
chaining.
- pygeodesy.albers.AlbersError:
An AlbersEqualArea, AlbersEqualArea2, AlbersEqualArea4, AlbersEqualAreaCylindrical, AlbersEqualAreaNorth, AlbersEqualAreaSouth or Albers7Tuple issue.
- pygeodesy.ltp.AttitudeError:
An Attitude or Attitude4Tuple issue.
- pygeodesy.azimuthal.AzimuthalError:
An azimuthal Equidistant, EquidistantKarney, Gnomonic, LambertEqualArea, Orthographic, Stereographic or Azimuthal7Tuple issue.
- pygeodesy.css.CSSError:
Cassini-Soldner (CSS) conversion or other Css issue.
- pygeodesy.clipy.ClipError:
Clip box or clip region issue.
- pygeodesy.errors.CrossError:
Error raised for zero or near-zero vectorial cross products,
occurring for coincident or colinear points, paths or bearings.
- pygeodesy.epsg.EPSGError:
EPSG encode, decode or other Epsg issue.
- pygeodesy.ecef.EcefError:
An ECEF or
Ecef*
related issue.
- pygeodesy.elliptic.EllipticError:
Elliptic integral, function, convergence or other Elliptic issue.
- pygeodesy.gars.GARSError:
Global Area Reference System (GARS) encode, decode or other Garef
issue.
- pygeodesy.karney.GeodesicError:
Error raised for geodesicx's methods for lack of convergence
or other issues.
- pygeodesy.geohash.GeohashError:
Geohash encode, decode or other Geohash issue.
- pygeodesy.errors.IntersectionError:
Error raised for path or circle intersection issues.
- pygeodesy.lcc.LCCError:
Lambert Conformal Conic
LCC
or other Lcc issue.
- pygeodesy.errors.LenError:
Error raised for mis-matching
len
values.
- pygeodesy.errors.LimitError:
Error raised for lat- or longitudinal deltas exceeding the
limit
in functions pygeodesy.equirectangular and pygeodesy.equirectangular_ and several
nearestOn*
and simplify*
functions or
methods.
- pygeodesy.ltp.LocalError:
A LocalCartesian or Ltp related
issue.
- pygeodesy.mgrs.MGRSError:
Military Grid Reference System (MGRS) parse or other Mgrs issue.
- pygeodesy.errors.NumPyError:
Error raised for
NumPy
errors.
- pygeodesy.osgr.OSGRError:
Ordinance Survey Grid References (OSGR) parse or other Osgr issue.
- pygeodesy.errors.ParseError:
Error parsing degrees, radians or several other formats.
- pygeodesy.errors.PointsError:
Error for an insufficient number of points.
- pygeodesy.errors.RangeError:
Error raised for lat- or longitude values outside the
clip
, clipLat
,
clipLon
or limit
range in
function pygeodesy.clipDegrees, pygeodesy.clipRadians, pygeodesy.parse3llh, pygeodesy.parseDMS, pygeodesy.parseDMS2 or pygeodesy.parseRad.
- pygeodesy.errors.ResectionError:
Error raised for resection issues.
- pygeodesy.errors.TRFError:
Terrestrial Reference Frame (TRF), Epoch, RefFrame
or RefFrame conversion issue.
- pygeodesy.errors.TriangleError:
Error raised for triangle, inter- or resection issues.
- pygeodesy.ups.UPSError:
Universal Polar Stereographic (UPS) parse or other Ups issue.
- pygeodesy.utm.UTMError:
Universal Transverse Mercator (UTM parse or other Utm issue.
- pygeodesy.utmups.UTMUPSError:
Universal Transverse Mercator/Universal Polar Stereographic
(UTM/UPS) parse, validate or other issue.
- pygeodesy.errors.UnitError:
Default exception for units issues.
- pygeodesy.errors.VectorError:
Vector3d,
Cartesian*
or
*Nvector
issues.
- pygeodesy.ellipsoidalVincenty.VincentyError:
Error raised from Vincenty's
direct
and
inverse
methods for coincident points or lack of
convergence.
- pygeodesy.wgrs.WGRSError:
World Geographic Reference System (WGRS) encode, decode or other Georef
issue.
- pygeodesy.webmercator.WebMercatorError:
Web Mercator (WM) parser or Wm
issue.
- _abcoll.Container
- _abcoll.Sequence:
All the operations on a read-only sequence.
- pygeodesy.points._Basequence:
(INTERNAL) Base class.
- pygeodesy.points.LatLon2psxy:
Wrapper for
LatLon
points as "on-the-fly"
pseudo-xy coordinates.
- pygeodesy.points._Array2LatLon:
Base class for Numpy2LatLon or Tuple2LatLon.
- pygeodesy.fmath.Fsum:
Precision summation similar to standard Python function
math.fsum
.
- _abcoll.Iterable
- _abcoll.Sequence:
All the operations on a read-only sequence.
- pygeodesy.points._Basequence:
(INTERNAL) Base class.
- pygeodesy.points.LatLon2psxy:
Wrapper for
LatLon
points as "on-the-fly"
pseudo-xy coordinates.
- pygeodesy.points._Array2LatLon:
Base class for Numpy2LatLon or Tuple2LatLon.
- pygeodesy.points.LatLon_:
Low-overhead
LatLon
class for Numpy2LatLon and Tuple2LatLon.
- _abcoll.Sized
- _abcoll.Sequence:
All the operations on a read-only sequence.
- pygeodesy.points._Basequence:
(INTERNAL) Base class.
- pygeodesy.points.LatLon2psxy:
Wrapper for
LatLon
points as "on-the-fly"
pseudo-xy coordinates.
- pygeodesy.points._Array2LatLon:
Base class for Numpy2LatLon or Tuple2LatLon.
- pygeodesy.named._Named:
(INTERNAL) Root class for named objects.
- pygeodesy.elliptic.Elliptic:
Elliptic integrals and functions.
- pygeodesy.frechet.Frechet:
Frechet base class, requires method Frechet.distance to be overloaded.
- pygeodesy.hausdorff.Hausdorff:
Hausdorff base class, requires method Hausdorff.distance to be overloaded.
- pygeodesy.iters._BaseIter:
(INTERNAL) Iterator over items with loop-back and de-duplication.
- pygeodesy.heights._HeightBase:
(INTERNAL) Interpolator base class.
- pygeodesy.named._NamedBase:
(INTERNAL) Base class with name.
- pygeodesy.ltpTuples.Aer:
Local
Azimuth-Elevation-Range
(AER) in a local
tangent plane.
- pygeodesy.ltp.Attitude:
The orientation of a plane or camera in space.
- pygeodesy.css.CassiniSoldner:
Cassini-Soldner projection, a Python version of Karney's C++
class CassiniSoldner.
- pygeodesy.css.Css:
Cassini-Soldner East-/Northing location.
- pygeodesy.etm.ExactTransverseMercator:
A Python version of Karney's TransverseMercatorExact C++ class, a numerically
exact transverse mercator projection, here referred to as
TMExact
.
- pygeodesy.ltp.Frustum:
A rectangular pyramid, typically representing a camera's
field-of-view (fov) and the intersection with (or projection
to) a local tangent plane.
- pygeodesy.geodesicx.gxarea.GeodesicAreaExact:
Area and perimeter of a geodesic polygon, an enhanced version of
Karney's Python class PolygonArea using the more accurate surface area.
- pygeodesy.latlonBase.LatLonBase:
(INTERNAL) Base class for
LatLon
points on spherical
or ellipsoidal earth models.
- pygeodesy.lcc.Lcc:
Lambert conformal conic East-/Northing location.
- pygeodesy.ltp.LocalCartesian:
Conversion between geodetic
(lat, lon, height)
and
local cartesian (x, y, z)
coordinates with
geodetic origin (lat0, lon0, height0)
,
transcoded from Karney's C++ class LocalCartesian.
- pygeodesy.mgrs.Mgrs:
Military Grid Reference System (MGRS/NATO) references, with method
to convert to UTM coordinates.
- pygeodesy.ltpTuples.Ned:
Local
North-Eeast-Down
(NED) location in a local
tangent plane.
- pygeodesy.osgr.Osgr:
Ordinance Survey Grid References (OSGR) coordinate.
- pygeodesy.utmupsBase.UtmUpsBase:
(INTERNAL) Base class for Utm and Ups coordinates.
- pygeodesy.vector3dBase.Vector3dBase:
(INTERNAL) Generic 3-D vector base class.
- pygeodesy.webmercator.Wm:
Web Mercator (WM) coordinate.
- pygeodesy.albers._AlbersBase:
(INTERNAL) Base class for
AlbersEqualArea...
projections.
- pygeodesy.azimuthal._AzimuthalBase:
(INTERNAL) Base class for azimuthal projections.
- pygeodesy.azimuthal.Equidistant:
Azimuthal equidistant projection for the sphere**, see Snyder, pp 195-197 and MathWorld-Wolfram.
- pygeodesy.azimuthal.Gnomonic:
Azimuthal gnomonic projection for the sphere**, see Snyder, pp 164-168 and MathWorld-Wolfram.
- pygeodesy.azimuthal.LambertEqualArea:
Lambert-equal-area projection for the sphere** (aka Lambert zenithal equal-area projection, see Snyder, pp 185-187 and MathWorld-Wolfram.
- pygeodesy.azimuthal.Orthographic:
Orthographic projection for the sphere**, see Snyder, pp 148-153 and MathWorld-Wolfram.
- pygeodesy.azimuthal.Stereographic:
Stereographic projection for the sphere**, see Snyder, pp 157-160 and MathWorld-Wolfram.
- pygeodesy.azimuthal._AzimuthalGeodesic:
(INTERNAL) Base class for azimuthal projections using Karney Geodesic or exact geodesic classes GeodesicExact and GeodesicLineExact.
- pygeodesy.ecef._EcefBase:
(INTERNAL) Base class for EcefKarney, EcefVeness and EcefYou.
- pygeodesy.ecef.EcefFarrell21:
Conversion between geodetic and geocentric, aka Earth-Centered,
Earth-Fixed (ECEF) coordinates based on Jay A. Farrell's
Table 2.1, page 29.
- pygeodesy.ecef.EcefFarrell22:
Conversion between geodetic and geocentric, aka Earth-Centered,
Earth-Fixed (ECEF) coordinates based on Jay A. Farrell's
Table 2.2, page 30.
- pygeodesy.ecef.EcefKarney:
Conversion between geodetic and geocentric, aka Earth-Centered,
Earth-Fixed (ECEF) coordinates transcoded from Karney's
C++ Geocentric methods.
- pygeodesy.ecef.EcefSudano:
Conversion between geodetic and geocentric, aka Earth-Centered,
Earth-Fixed (ECEF) coordinates based on John J. Sudano's
paper.
- pygeodesy.ecef.EcefVeness:
Conversion between geodetic and geocentric, aka Earth-Centered,
Earth-Fixed (ECEF) coordinates transcoded from Chris
Veness' JavaScript classes LatLonEllipsoidal, Cartesian.
- pygeodesy.ecef.EcefYou:
Conversion between geodetic and geocentric, aka Earth-Centered,
Earth-Fixed (ECEF) coordinates using Rey-Jer You's transformation.
- pygeodesy.geodesicx.gxbases._GeodesicBase:
(INTERNAL) Base class for
[_]Geodesic*Exact
.
- pygeodesy.named._NamedEnumItem:
(INTERNAL) Base class for items in a
_NamedEnum
registery.
- pygeodesy.named._NamedDict:
(INTERNAL) Named
dict
with key and attribute
access to the items.
- pygeodesy.named._NamedTuple:
(INTERNAL) Base for named
tuple
s with both index
and attribute name access to the items.
- pygeodesy.ltpTuples.Aer4Tuple:
4-Tuple
(azimuth, elevation, slantrange, ltp)
, all in
meter
except ltp
.
- pygeodesy.albers.Albers7Tuple:
7-Tuple
(x, y, lat, lon, gamma, scale, datum)
, in
meter
, meter
, degrees90
,
degrees180
, degrees360
,
scalar
and Datum
where (x,
y)
is the projected, (lat, lon)
the geodetic
location, gamma
the meridian convergence at point, the
bearing of the y-axis measured clockwise from true North and
scale
is the azimuthal scale of the projection at
point.
- pygeodesy.ltpTuples.Attitude4Tuple:
4-Tuple
(alt, tilt, yaw, roll)
with
altitude
in (positive) meter
and
tilt
, yaw
and roll
in
degrees
representing the attitude of a plane or
camera.
- pygeodesy.azimuthal.Azimuthal7Tuple:
7-Tuple
(x, y, lat, lon, azimuth, scale, datum)
, in
meter
, meter
, degrees90
,
degrees180
, compass degrees
,
scalar
and Datum
where (x,
y)
is the easting and northing of a projected point,
(lat, lon)
the geodetic location, azimuth
the azimuth, clockwise from true North and scale
is
the projection scale, either 1 / reciprocal
or
1
or -1
in the Equidistant case.
- pygeodesy.namedTuples.Bearing2Tuple:
2-Tuple
(initial, final)
bearings, both in compass
degrees360
.
- pygeodesy.namedTuples.Bounds2Tuple:
2-Tuple
(latlonSW, latlonNE)
with the bounds'
lower-left and upper-right corner as LatLon
instance.
- pygeodesy.namedTuples.Bounds4Tuple:
4-Tuple
(latS, lonW, latN, lonE)
with the bounds'
lower-left (LatS, LowW)
and upper-right (latN,
lonE)
corner lat- and longitudes.
- pygeodesy.vector2d.Circin6Tuple:
6-Tuple
(radius, center, deltas, cA, cB, cC)
with the
radius
, the trilaterated center
and
contact points of the inscribed aka In- circle of a
triangle.
- pygeodesy.ellipsoids.Circle4Tuple:
4-Tuple
(radius, height, lat, beta)
of the
radius
and height
, both conventionally in
meter
of a parallel circle of latitude at
(geodetic) latitude lat
and the parametric (or
reduced) auxiliary latitude beta
, both in
degrees90
.
- pygeodesy.vector2d.Circum3Tuple:
3-Tuple
(radius, center, deltas)
with the
circumradius
and trilaterated
circumcenter
of the circumcircle
through
3 points (aka {Meeus}' Type II circle) or the radius
and center
of the smallest Meeus' Type I
circle.
- pygeodesy.vector2d.Circum4Tuple:
4-Tuple
(radius, center, rank, residuals)
with
radius
and center
of a sphere
least-squares fitted through given points and the
rank
and residuals
-if any- from numpy.linalg.lstsq.
- pygeodesy.deprecated.ClipCS3Tuple:
3-Tuple
(start, end, index)
.
- pygeodesy.clipy.ClipCS4Tuple:
4-Tuple
(start, end, i, j)
for each edge of a
clipped path with the start
and
end
points (LatLon
) of the portion of the
edge inside or on the clip box and the indices i
and
j
(int
) of the edge start and end points
in the original path.
- pygeodesy.clipy.ClipLB6Tuple:
6-Tuple
(start, end, i, fi, fj, j)
for each edge of
the clipped path with the start
and
end
points (LatLon
) of the portion of the
edge inside or on the clip box, indices i
and
j
(both int
) of the original path edge
start and end points and fractional indices fi
and fj
(both FIx) of the start
and
end
points along the edge of the original path.
- pygeodesy.clipy.ClipSH3Tuple:
3-Tuple
(start, end, original)
for each edge of a
clipped polygon, the start
and end
points (LatLon
) of the portion of the edge inside or
on the clip region and original
indicates whether the
edge is part of the original polygon or part of the clip region
(bool
).
- pygeodesy.resections.Collins5Tuple:
5-Tuple
(pointP, pointH, a, b, c)
with survey
pointP
, auxiliary pointH
, each an
instance of pointA
's (sub-)class and triangle
sides a
, b
and c
in
meter
, conventionally.
- pygeodesy.ellipsoids.Curvature2Tuple:
2-Tuple
(meridional, prime_vertical)
of radii of
curvature, both in meter
, conventionally.
- pygeodesy.namedTuples.Destination2Tuple:
2-Tuple
(destination, final)
, destination
in LatLon
and final
bearing in compass
degrees360
.
- pygeodesy.namedTuples.Destination3Tuple:
3-Tuple
(lat, lon, final)
, destination
lat
, lon
in degrees90
respectively degrees180
and final
bearing
in compass degrees360
.
- pygeodesy.namedTuples.Distance2Tuple:
2-Tuple
(distance, initial)
, distance
in
meter
and initial
bearing in compass
degrees360
.
- pygeodesy.namedTuples.Distance3Tuple:
3-Tuple
(distance, initial, final)
,
distance
in meter
and
initial
and final
bearing, both in
compass degrees360
.
- pygeodesy.namedTuples.Distance4Tuple:
4-Tuple
(distance2, delta_lat, delta_lon, unroll_lon2)
with the distance in degrees squared
, the latitudinal
delta_lat = lat2 - lat1
, the wrapped,
unrolled and adjusted longitudinal delta_lon = lon2 -
lon1
and unroll_lon2
, the unrolled or
original lon2
.
- pygeodesy.namedTuples.EasNor2Tuple:
2-Tuple
(easting, northing)
, both in
meter
, conventionally.
- pygeodesy.namedTuples.EasNor3Tuple:
3-Tuple
(easting, northing, height)
, all in
meter
, conventionally.
- pygeodesy.css.EasNorAziRk4Tuple:
4-Tuple
(easting, northing, azimuth, reciprocal)
for
the Cassini-Soldner location with easting
and
northing
in meters
and the
azimuth
of easting direction and
reciprocal
of azimuthal northing scale, both in
degrees
.
- pygeodesy.etm.EasNorExact4Tuple:
4-Tuple
(easting, northing, convergence, scale)
in
meter
, meter
, degrees
and
scalar
.
- pygeodesy.webmercator.EasNorRadius3Tuple:
3-Tuple
(easting, northing, radius)
, all in
meter
.
- pygeodesy.ecef.Ecef9Tuple:
9-Tuple
(x, y, z, lat, lon, height, C, M, datum)
with
geocentric x
, y
and z
plus geodetic lat
, lon
and
height
, case C
(see the
Ecef*.reverse
methods) and optionally, the rotation
matrix M
(EcefMatrix) and datum
, with
lat
and lon
in degrees
and
x
, y
, z
and
height
in meter
, conventionally.
- pygeodesy.ecef.EcefMatrix:
A rotation matrix.
- pygeodesy.elevations.Elevation2Tuple:
2-Tuple
(elevation, data_source)
in meter
and str
.
- pygeodesy.elliptic.Elliptic3Tuple:
3-Tuple
(sn, cn, dn)
all scalar
.
- pygeodesy.ltpTuples.Enu4Tuple:
4-Tuple
(east, north, up, ltp)
, in meter
except ltp
.
- pygeodesy.ltpTuples.Footprint5Tuple:
5-Tuple
(center, upperleft, upperight, loweright,
lowerleft)
with the center
and 4 corners of a
local projection of a Frustum
, each an Xyz4Tuple.
- pygeodesy.frechet.Frechet6Tuple:
6-Tuple
(fd, fi1, fi2, r, n, units)
with the
discrete Fréchet distance fd
,
fractional indices fi1
and fi2
as
FIx
, the recursion depth r
, the number of
distances computed n
and the units class or class or name of the distance
units
.
- pygeodesy.elevations.GeoidHeight2Tuple:
2-Tuple
(height, model_name)
, geoid
height
in meter
and
model_name
as str
.
- pygeodesy.geoids.GeoidHeight5Tuple:
5-Tuple
(lat, lon, egm84, egm96, egm2008)
for GeoidHeights.dat tests with the heights for 3
different EGM grids at degrees90
and
degrees180
degrees (after converting lon
from original 0 <= EasterLon <= 360
).
- pygeodesy.hausdorff.Hausdorff6Tuple:
6-Tuple
(hd, i, j, mn, md, units)
with the Hausdorff distance hd
, indices
i
and j
, the total count mn
,
the mean Hausdorff
distance md
and
the class or name of both distance units
.
- pygeodesy.namedTuples.Intersection3Tuple:
3-Tuple
(point, outside1, outside2)
of an intersection
point
and outside1
, the position of the
point
, -1
if before the start,
+1
if after the end and 0
if on or
between the start and end point of the first line.
- pygeodesy.namedTuples.LatLon2Tuple:
2-Tuple
(lat, lon)
in degrees90
and
degrees180
.
- pygeodesy.namedTuples.LatLon3Tuple:
3-Tuple
(lat, lon, height)
in degrees90
,
degrees180
and meter
, conventionally.
- pygeodesy.namedTuples.LatLon4Tuple:
4-Tuple
(lat, lon, height, datum)
in
degrees90
, degrees180
, meter
and Datum.
- pygeodesy.css.LatLonAziRk4Tuple:
4-Tuple
(lat, lon, azimuth, reciprocal)
, all in
degrees
where azimuth
is the azimuth of
easting direction and reciprocal
the reciprocal of
azimuthal northing scale.
- pygeodesy.namedTuples.LatLonDatum3Tuple:
3-Tuple
(lat, lon, datum)
in degrees90
,
degrees180
and Datum.
- pygeodesy.namedTuples.LatLonDatum5Tuple:
5-Tuple
(lat, lon, datum, convergence, scale)
in
degrees90
, degrees180
, Datum,
degrees
and float
.
- pygeodesy.etm.LatLonExact4Tuple:
4-Tuple
(lat, lon, convergence, scale)
in
degrees180
, degrees180
,
degrees
and scalar
.
- pygeodesy.namedTuples.LatLonPrec3Tuple:
3-Tuple
(lat, lon, precision)
in degrees
,
degrees
and int
.
- pygeodesy.namedTuples.LatLonPrec5Tuple:
5-Tuple
(lat, lon, precision, height, radius)
in
degrees
, degrees
, int
and
height
or radius
in meter
(or None
if missing).
- pygeodesy.ltpTuples.Local9Tuple:
9-Tuple
(x, y, z, lat, lon, height, ltp, ecef, M)
with
local x
, y
, z
all in
meter
, geodetic lat
,
lon
, height
, local tangent plane
ltp
(Ltp), ecef
(Ecef9Tuple) with geocentric x
,
y
, z
, geodetic lat
,
lon
, height
and concatenated
rotation matrix M
(EcefMatrix) or None
.
- pygeodesy.vector2d.Meeus2Tuple:
2-Tuple
(radius, Type)
with radius
and
Meeus' Type
of the smallest circle
containing 3 points.
- pygeodesy.mgrs.Mgrs4Tuple:
4-Tuple
(zone, digraph, easting, northing)
,
zone
and digraph
as str
,
easting
and northing
in
meter
.
- pygeodesy.mgrs.Mgrs6Tuple:
6-Tuple
(zone, digraph, easting, northing, band,
datum)
, zone
, digraph
and
band
as str
, easting
and
northing
in meter
and datum
a Datum.
- pygeodesy.namedTuples.NearestOn2Tuple:
2-Tuple
(closest, fraction)
of the
closest
point on and fraction
along a
line (segment) between two points.
- pygeodesy.namedTuples.NearestOn3Tuple:
3-Tuple
(closest, distance, angle)
of the
closest
point on the polygon, either a
LatLon
instance or a LatLon3Tuple(lat, lon, height)
and
the distance
and angle
to the
closest
point are in meter
respectively
compass degrees360
.
- pygeodesy.namedTuples.NearestOn5Tuple:
5-Tuple
(lat, lon, distance, angle, height)
all in
degrees
, except height
.
- pygeodesy.namedTuples.NearestOn6Tuple:
6-Tuple
(closest, distance, fi, j, start, end)
with
the closest
point, the distance
in
meter
, conventionally and the start
and
end
point of the path or polygon edge.
- pygeodesy.namedTuples.NearestOn8Tuple:
8-Tuple
(closest, distance, fi, j, start, end, initial,
final)
, like NearestOn6Tuple but extended with the
initial
and the final
bearing at the
reference respectively the closest
point, both in
compass degrees
.
- pygeodesy.ellipsoidalNvector.Ned3Tuple:
3-Tuple
(north, east, down)
.
- pygeodesy.ltpTuples.Ned4Tuple:
4-Tuple
(north, east, down, ltp)
, all in
meter
except ltp
.
- pygeodesy.namedTuples.PhiLam2Tuple:
2-Tuple
(phi, lam)
with latitude phi
in
radians[PI_2]
and longitude lam
in
radians[PI]
.
- pygeodesy.namedTuples.PhiLam3Tuple:
3-Tuple
(phi, lam, height)
with latitude
phi
in radians[PI_2]
, longitude
lam
in radians[PI]
and
height
in meter
.
- pygeodesy.namedTuples.PhiLam4Tuple:
4-Tuple
(phi, lam, height, datum)
with latitude
phi
in radians[PI_2]
, longitude
lam
in radians[PI]
, height
in meter
and Datum.
- pygeodesy.namedTuples.Point3Tuple:
3-Tuple
(x, y, ll)
in meter
,
meter
and LatLon
.
- pygeodesy.namedTuples.Points2Tuple:
2-Tuple
(number, points)
with the number
of points and -possible reduced- list
or
tuple
of points
.
- pygeodesy.formy.Radical2Tuple:
2-Tuple
(ratio, xline)
of the radical
ratio
and radical xline
, both
scalar
and 0.0 <= ratio <= 1.0
- pygeodesy.vector2d.Radii11Tuple:
11-Tuple
(rA, rB, rC, cR, rIn, riS, roS, a, b, c, s)
with the Tangent
circle radii rA
,
rB
and rC
, the circumradius
cR
, the Incircle
radius rIn
aka inradius
, the inner and outer Soddy circle
radii riS
and roS
and the sides
a
, b
and c
and
semi-perimeter s
of a triangle, all in
meter
conventionally.
- pygeodesy.geohash.Resolutions2Tuple:
2-Tuple
(res1, res2)
with the primary
(longitudinal) and secondary (latitudinal)
resolution, both in degrees
.
- pygeodesy.points.Shape2Tuple:
2-Tuple
(nrows, ncols)
, the number of rows and
columns, both int
.
- pygeodesy.vector2d.Soddy4Tuple:
4-Tuple
(radius, center, deltas, outer)
with
radius
and trilaterated center
of the
inner Soddy circle and the radius of the
outer
Soddy circle.
- pygeodesy.resections.Survey3Tuple:
3-Tuple
(PA, PB, PC)
with distance from survey point
P
to each of the triangle corners A
,
B
and C
.
- pygeodesy.resections.Tienstra7Tuple:
7-Tuple
(pointP, A, B, C, a, b, c)
with survey
pointP
, interior triangle angles A
,
B
and C
in degrees
and
triangle sides a
, b
and c
in
meter
, conventionally.
- pygeodesy.trf.Transform7Tuple:
7-Tuple
(tx, ty, tz, s, sx, sy, sz)
Helmert
transformation with translations tx
, ty
and tz
in millimeter
, scale
s
in ppb
and rotations sx
,
sy
and sz
in
milliarcseconds
.
- pygeodesy.resections.TriAngle4Tuple:
4-Tuple
(radA, radB, radC, rIn)
with the interior
angles at triangle corner A
, B
and
C
and the InCircle
radius
rIn
aka inradius
.
- pygeodesy.resections.TriSide2Tuple:
2-Tuple
(a, radA)
with triangle side a
(meter
conventionally) and the opposite triangle angle
radA
(radians
).
- pygeodesy.resections.TriSide4Tuple:
4-Tuple
(a, b, radC, d)
with the length of triangle
sides a
and b
, the interior angle
radC
at triangle corner radC
(radians
) and triangle height d
,
perpendicular to triangle side c
.
- pygeodesy.namedTuples.Triangle7Tuple:
7-Tuple
(A, a, B, b, C, c, area)
with interior angles
A
, B
and C
in
degrees
, spherical sides a
,
b
and c
in meter
and the
area
of a spherical triangle in square
meter
.
- pygeodesy.namedTuples.Triangle8Tuple:
8-Tuple
(A, a, B, b, C, c, D, E)
with interior angles
A
, B
and C
, spherical sides
a
, b
and c
, spherical
deficit D
and spherical excess
E
of a spherical triangle, all in
radians
.
- pygeodesy.namedTuples.Trilaterate5Tuple:
5-Tuple
(min, minPoint, max, maxPoint, n)
with
min
and max
in meter
, the
corresponding trilaterated minPoint
and
maxPoint
as LatLon
and the number
n
.
- pygeodesy.namedTuples.UtmUps2Tuple:
2-Tuple
(zone, hemipole)
as int
and
str
, where zone
is 1..60
for
UTM or 0
for UPS and hemipole
'N'|'S'
is the UTM hemisphere or the UPS pole.
- pygeodesy.deprecated.UtmUps4Tuple:
OBSOLETE, expect a UtmUps5Tuple from method
Mgrs.toUtm(utm=None)
.
- pygeodesy.namedTuples.UtmUps5Tuple:
5-Tuple
(zone, hemipole, easting, northing, band)
as
int
, str
, meter
,
meter
and band
letter, where
zone
is 1..60
for UTM or 0
for UPS, hemipole
'N'|'S'
is the UTM
hemisphere or the UPS pole and band
is
""
or the longitudinal UTM band
'C'|'D'|..|'W'|'X'
or polar UPS band
'A'|'B'|'Y'|'Z'
.
- pygeodesy.namedTuples.UtmUps8Tuple:
8-Tuple
(zone, hemipole, easting, northing, band, datum,
convergence, scale)
as int
, str
,
meter
, meter
, band
letter,
Datum
, degrees
and scalar
,
where zone
is 1..60
for UTM or
0
for UPS, hemipole
'N'|'S'
is the UTM hemisphere or the UPS pole and band
is
""
or the longitudinal UTM band
'C'|'D'|..|'W'|'X'
or polar UPS band
'A'|'B'|'Y'|'Z'
.
- pygeodesy.namedTuples.UtmUpsLatLon5Tuple:
5-Tuple
(zone, band, hemipole, lat, lon)
as
int
, str
, str
,
degrees90
and degrees180
, where
zone
is 1..60
for UTM or 0
for UPS, band
is ""
or the
longitudinal UTM band 'C'|'D'|..|'W'|'X'
or
polar UPS band 'A'|'B'|'Y'|'Z'
and
hemipole
'N'|'S'
is the UTM hemisphere or
the UPS pole.
- pygeodesy.namedTuples.Vector2Tuple:
2-Tuple
(x, y)
of (geocentric) components, both in
meter
or units
.
- pygeodesy.namedTuples.Vector3Tuple:
3-Tuple
(x, y, z)
of (geocentric) components, all in
meter
or units
.
- pygeodesy.namedTuples.Vector4Tuple:
4-Tuple
(x, y, z, h)
of (geocentric) components, all
in meter
or units
.
- pygeodesy.ltpTuples.Xyz4Tuple:
4-Tuple
(x, y, z, ltp)
, all in meter
except ltp
.
- pygeodesy.karney._GTuple:
(INTERNAL) Helper.
- pygeodesy.karney.Direct9Tuple:
9-Tuple
(a12, lat2, lon2, azi2, s12, m12, M12, M21,
S12)
with arc length a12
, angles
lat2
, lon2
and azimuth azi2
in degrees
, distance s12
and reduced
length m12
in meter
and area
S12
in meter
squared.
- pygeodesy.karney.GeodSolve12Tuple:
12-Tuple
(lat1, lon1, azi1, lat2, lon2, azi2, s12, a12, m12,
M12, M21, S12)
with angles lat1
,
lon1
, azi1
, lat2
,
lon2
and azi2
and arc a12
all in degrees
, distance s12
and reduced
length m12
in meter
, area
S12
in meter
squared and geodesic
scales M12
and M21
scalar
,
see GeodSolve.
- pygeodesy.karney.Inverse10Tuple:
10-Tuple
(a12, s12, salp1, calp1, salp2, calp2, m12, M12,
M21, S12)
with arc length a12
in
degrees
, distance s12
and reduced length
m12
in meter
, area S12
in
meter
squared and sines and cosines of initial
and final (forward) azimuths.
- pygeodesy.ellipsoids.a_f2Tuple:
2-Tuple
(a, f)
specifying an ellipsoid by
equatorial radius a
in meter
and
scalar flattening f
.
- pygeodesy.units._NamedUnit:
(INTERNAL) Base class for
units
.
- pygeodesy.units.Bool:
Named
bool
, a sub-class of int
like
Python's bool
.
- pygeodesy.units.Float:
Named
float
.
- pygeodesy.units.Degrees:
Named
float
representing a coordinate in
degrees
, optionally clipped.
- pygeodesy.units.Degrees2:
Named
float
representing a distance in degrees
squared
.
- pygeodesy.units.Distance:
Named
float
representing a distance, conventionally in
meter
.
- pygeodesy.units.Easting:
Named
float
representing an easting, conventionally in
meter
.
- pygeodesy.units.Feet:
Named
float
representing a distance or length in
feet
.
- pygeodesy.units.Float_:
Named
float
with optional low
and
high
limit.
- pygeodesy.units.Height:
Named
float
representing a height, conventionally in
meter
.
- pygeodesy.units.Meter:
Named
float
representing a distance or length in
meter
.
- pygeodesy.units.Northing:
Named
float
representing a northing, conventionally in
meter
.
- pygeodesy.units.Radians:
Named
float
representing a coordinate in
radians
, optionally clipped.
- pygeodesy.units.Radius:
Named
float
representing a radius, conventionally in
meter
.
- pygeodesy.units.Scalar:
Named
float
representing a factor, fraction, scale,
etc.
- pygeodesy.units.Int:
Named
int
.
- pygeodesy.units.Str:
Named
str
.
- basestring:
Type basestring cannot be instantiated; it is the base for str and
unicode.
- str:
str(object='') -> string
- dict:
dict() -> new empty dictionary
dict(mapping) -> new dictionary initialized from a mapping object's
(key, value) pairs
dict(iterable) -> new dictionary initialized as if via:
d = {}
for k, v in iterable:
d[k] = v
dict(**kwargs) -> new dictionary initialized with the name=value pairs
in the keyword argument list.
- pygeodesy.named._Dict:
(INTERNAL) An
dict
with both key and attribute
access to the dict
items.
- pygeodesy.karney.GDict:
Basic
dict
with both key and attribute access
to the dict
items.
- pygeodesy.named._NamedDict:
(INTERNAL) Named
dict
with key and attribute
access to the items.
- float:
float(x) -> floating point number
- pygeodesy.units.Float:
Named
float
.
- pygeodesy.units.Degrees:
Named
float
representing a coordinate in
degrees
, optionally clipped.
- pygeodesy.units.Degrees2:
Named
float
representing a distance in degrees
squared
.
- pygeodesy.units.Distance:
Named
float
representing a distance, conventionally in
meter
.
- pygeodesy.units.Easting:
Named
float
representing an easting, conventionally in
meter
.
- pygeodesy.units.Feet:
Named
float
representing a distance or length in
feet
.
- pygeodesy.units.Float_:
Named
float
with optional low
and
high
limit.
- pygeodesy.units.Height:
Named
float
representing a height, conventionally in
meter
.
- pygeodesy.units.Meter:
Named
float
representing a distance or length in
meter
.
- pygeodesy.units.Northing:
Named
float
representing a northing, conventionally in
meter
.
- pygeodesy.units.Radians:
Named
float
representing a coordinate in
radians
, optionally clipped.
- pygeodesy.units.Radius:
Named
float
representing a radius, conventionally in
meter
.
- pygeodesy.units.Scalar:
Named
float
representing a factor, fraction, scale,
etc.
- int:
int(x=0) -> int or long int(x, base=10) -> int or long
- property:
property(fget=None, fset=None, fdel=None, doc=None) -> property attribute
- pygeodesy.props._PropertyBase:
(INTERNAL) Base class for
P/property/_RO
.
- tuple:
tuple() -> empty tuple tuple(iterable) -> tuple initialized
from iterable's items
- pygeodesy.named._NamedTuple:
(INTERNAL) Base for named
tuple
s with both index
and attribute name access to the items.
- pygeodesy.ltpTuples.Aer4Tuple:
4-Tuple
(azimuth, elevation, slantrange, ltp)
, all in
meter
except ltp
.
- pygeodesy.albers.Albers7Tuple:
7-Tuple
(x, y, lat, lon, gamma, scale, datum)
, in
meter
, meter
, degrees90
,
degrees180
, degrees360
,
scalar
and Datum
where (x,
y)
is the projected, (lat, lon)
the geodetic
location, gamma
the meridian convergence at point, the
bearing of the y-axis measured clockwise from true North and
scale
is the azimuthal scale of the projection at
point.
- pygeodesy.ltpTuples.Attitude4Tuple:
4-Tuple
(alt, tilt, yaw, roll)
with
altitude
in (positive) meter
and
tilt
, yaw
and roll
in
degrees
representing the attitude of a plane or
camera.
- pygeodesy.azimuthal.Azimuthal7Tuple:
7-Tuple
(x, y, lat, lon, azimuth, scale, datum)
, in
meter
, meter
, degrees90
,
degrees180
, compass degrees
,
scalar
and Datum
where (x,
y)
is the easting and northing of a projected point,
(lat, lon)
the geodetic location, azimuth
the azimuth, clockwise from true North and scale
is
the projection scale, either 1 / reciprocal
or
1
or -1
in the Equidistant case.
- pygeodesy.namedTuples.Bearing2Tuple:
2-Tuple
(initial, final)
bearings, both in compass
degrees360
.
- pygeodesy.namedTuples.Bounds2Tuple:
2-Tuple
(latlonSW, latlonNE)
with the bounds'
lower-left and upper-right corner as LatLon
instance.
- pygeodesy.namedTuples.Bounds4Tuple:
4-Tuple
(latS, lonW, latN, lonE)
with the bounds'
lower-left (LatS, LowW)
and upper-right (latN,
lonE)
corner lat- and longitudes.
- pygeodesy.vector2d.Circin6Tuple:
6-Tuple
(radius, center, deltas, cA, cB, cC)
with the
radius
, the trilaterated center
and
contact points of the inscribed aka In- circle of a
triangle.
- pygeodesy.ellipsoids.Circle4Tuple:
4-Tuple
(radius, height, lat, beta)
of the
radius
and height
, both conventionally in
meter
of a parallel circle of latitude at
(geodetic) latitude lat
and the parametric (or
reduced) auxiliary latitude beta
, both in
degrees90
.
- pygeodesy.vector2d.Circum3Tuple:
3-Tuple
(radius, center, deltas)
with the
circumradius
and trilaterated
circumcenter
of the circumcircle
through
3 points (aka {Meeus}' Type II circle) or the radius
and center
of the smallest Meeus' Type I
circle.
- pygeodesy.vector2d.Circum4Tuple:
4-Tuple
(radius, center, rank, residuals)
with
radius
and center
of a sphere
least-squares fitted through given points and the
rank
and residuals
-if any- from numpy.linalg.lstsq.
- pygeodesy.deprecated.ClipCS3Tuple:
3-Tuple
(start, end, index)
.
- pygeodesy.clipy.ClipCS4Tuple:
4-Tuple
(start, end, i, j)
for each edge of a
clipped path with the start
and
end
points (LatLon
) of the portion of the
edge inside or on the clip box and the indices i
and
j
(int
) of the edge start and end points
in the original path.
- pygeodesy.clipy.ClipLB6Tuple:
6-Tuple
(start, end, i, fi, fj, j)
for each edge of
the clipped path with the start
and
end
points (LatLon
) of the portion of the
edge inside or on the clip box, indices i
and
j
(both int
) of the original path edge
start and end points and fractional indices fi
and fj
(both FIx) of the start
and
end
points along the edge of the original path.
- pygeodesy.clipy.ClipSH3Tuple:
3-Tuple
(start, end, original)
for each edge of a
clipped polygon, the start
and end
points (LatLon
) of the portion of the edge inside or
on the clip region and original
indicates whether the
edge is part of the original polygon or part of the clip region
(bool
).
- pygeodesy.resections.Collins5Tuple:
5-Tuple
(pointP, pointH, a, b, c)
with survey
pointP
, auxiliary pointH
, each an
instance of pointA
's (sub-)class and triangle
sides a
, b
and c
in
meter
, conventionally.
- pygeodesy.ellipsoids.Curvature2Tuple:
2-Tuple
(meridional, prime_vertical)
of radii of
curvature, both in meter
, conventionally.
- pygeodesy.namedTuples.Destination2Tuple:
2-Tuple
(destination, final)
, destination
in LatLon
and final
bearing in compass
degrees360
.
- pygeodesy.namedTuples.Destination3Tuple:
3-Tuple
(lat, lon, final)
, destination
lat
, lon
in degrees90
respectively degrees180
and final
bearing
in compass degrees360
.
- pygeodesy.namedTuples.Distance2Tuple:
2-Tuple
(distance, initial)
, distance
in
meter
and initial
bearing in compass
degrees360
.
- pygeodesy.namedTuples.Distance3Tuple:
3-Tuple
(distance, initial, final)
,
distance
in meter
and
initial
and final
bearing, both in
compass degrees360
.
- pygeodesy.namedTuples.Distance4Tuple:
4-Tuple
(distance2, delta_lat, delta_lon, unroll_lon2)
with the distance in degrees squared
, the latitudinal
delta_lat = lat2 - lat1
, the wrapped,
unrolled and adjusted longitudinal delta_lon = lon2 -
lon1
and unroll_lon2
, the unrolled or
original lon2
.
- pygeodesy.namedTuples.EasNor2Tuple:
2-Tuple
(easting, northing)
, both in
meter
, conventionally.
- pygeodesy.namedTuples.EasNor3Tuple:
3-Tuple
(easting, northing, height)
, all in
meter
, conventionally.
- pygeodesy.css.EasNorAziRk4Tuple:
4-Tuple
(easting, northing, azimuth, reciprocal)
for
the Cassini-Soldner location with easting
and
northing
in meters
and the
azimuth
of easting direction and
reciprocal
of azimuthal northing scale, both in
degrees
.
- pygeodesy.etm.EasNorExact4Tuple:
4-Tuple
(easting, northing, convergence, scale)
in
meter
, meter
, degrees
and
scalar
.
- pygeodesy.webmercator.EasNorRadius3Tuple:
3-Tuple
(easting, northing, radius)
, all in
meter
.
- pygeodesy.ecef.Ecef9Tuple:
9-Tuple
(x, y, z, lat, lon, height, C, M, datum)
with
geocentric x
, y
and z
plus geodetic lat
, lon
and
height
, case C
(see the
Ecef*.reverse
methods) and optionally, the rotation
matrix M
(EcefMatrix) and datum
, with
lat
and lon
in degrees
and
x
, y
, z
and
height
in meter
, conventionally.
- pygeodesy.ecef.EcefMatrix:
A rotation matrix.
- pygeodesy.elevations.Elevation2Tuple:
2-Tuple
(elevation, data_source)
in meter
and str
.
- pygeodesy.elliptic.Elliptic3Tuple:
3-Tuple
(sn, cn, dn)
all scalar
.
- pygeodesy.ltpTuples.Enu4Tuple:
4-Tuple
(east, north, up, ltp)
, in meter
except ltp
.
- pygeodesy.ltpTuples.Footprint5Tuple:
5-Tuple
(center, upperleft, upperight, loweright,
lowerleft)
with the center
and 4 corners of a
local projection of a Frustum
, each an Xyz4Tuple.
- pygeodesy.frechet.Frechet6Tuple:
6-Tuple
(fd, fi1, fi2, r, n, units)
with the
discrete Fréchet distance fd
,
fractional indices fi1
and fi2
as
FIx
, the recursion depth r
, the number of
distances computed n
and the units class or class or name of the distance
units
.
- pygeodesy.elevations.GeoidHeight2Tuple:
2-Tuple
(height, model_name)
, geoid
height
in meter
and
model_name
as str
.
- pygeodesy.geoids.GeoidHeight5Tuple:
5-Tuple
(lat, lon, egm84, egm96, egm2008)
for GeoidHeights.dat tests with the heights for 3
different EGM grids at degrees90
and
degrees180
degrees (after converting lon
from original 0 <= EasterLon <= 360
).
- pygeodesy.hausdorff.Hausdorff6Tuple:
6-Tuple
(hd, i, j, mn, md, units)
with the Hausdorff distance hd
, indices
i
and j
, the total count mn
,
the mean Hausdorff
distance md
and
the class or name of both distance units
.
- pygeodesy.namedTuples.Intersection3Tuple:
3-Tuple
(point, outside1, outside2)
of an intersection
point
and outside1
, the position of the
point
, -1
if before the start,
+1
if after the end and 0
if on or
between the start and end point of the first line.
- pygeodesy.namedTuples.LatLon2Tuple:
2-Tuple
(lat, lon)
in degrees90
and
degrees180
.
- pygeodesy.namedTuples.LatLon3Tuple:
3-Tuple
(lat, lon, height)
in degrees90
,
degrees180
and meter
, conventionally.
- pygeodesy.namedTuples.LatLon4Tuple:
4-Tuple
(lat, lon, height, datum)
in
degrees90
, degrees180
, meter
and Datum.
- pygeodesy.css.LatLonAziRk4Tuple:
4-Tuple
(lat, lon, azimuth, reciprocal)
, all in
degrees
where azimuth
is the azimuth of
easting direction and reciprocal
the reciprocal of
azimuthal northing scale.
- pygeodesy.namedTuples.LatLonDatum3Tuple:
3-Tuple
(lat, lon, datum)
in degrees90
,
degrees180
and Datum.
- pygeodesy.namedTuples.LatLonDatum5Tuple:
5-Tuple
(lat, lon, datum, convergence, scale)
in
degrees90
, degrees180
, Datum,
degrees
and float
.
- pygeodesy.etm.LatLonExact4Tuple:
4-Tuple
(lat, lon, convergence, scale)
in
degrees180
, degrees180
,
degrees
and scalar
.
- pygeodesy.namedTuples.LatLonPrec3Tuple:
3-Tuple
(lat, lon, precision)
in degrees
,
degrees
and int
.
- pygeodesy.namedTuples.LatLonPrec5Tuple:
5-Tuple
(lat, lon, precision, height, radius)
in
degrees
, degrees
, int
and
height
or radius
in meter
(or None
if missing).
- pygeodesy.ltpTuples.Local9Tuple:
9-Tuple
(x, y, z, lat, lon, height, ltp, ecef, M)
with
local x
, y
, z
all in
meter
, geodetic lat
,
lon
, height
, local tangent plane
ltp
(Ltp), ecef
(Ecef9Tuple) with geocentric x
,
y
, z
, geodetic lat
,
lon
, height
and concatenated
rotation matrix M
(EcefMatrix) or None
.
- pygeodesy.vector2d.Meeus2Tuple:
2-Tuple
(radius, Type)
with radius
and
Meeus' Type
of the smallest circle
containing 3 points.
- pygeodesy.mgrs.Mgrs4Tuple:
4-Tuple
(zone, digraph, easting, northing)
,
zone
and digraph
as str
,
easting
and northing
in
meter
.
- pygeodesy.mgrs.Mgrs6Tuple:
6-Tuple
(zone, digraph, easting, northing, band,
datum)
, zone
, digraph
and
band
as str
, easting
and
northing
in meter
and datum
a Datum.
- pygeodesy.namedTuples.NearestOn2Tuple:
2-Tuple
(closest, fraction)
of the
closest
point on and fraction
along a
line (segment) between two points.
- pygeodesy.namedTuples.NearestOn3Tuple:
3-Tuple
(closest, distance, angle)
of the
closest
point on the polygon, either a
LatLon
instance or a LatLon3Tuple(lat, lon, height)
and
the distance
and angle
to the
closest
point are in meter
respectively
compass degrees360
.
- pygeodesy.namedTuples.NearestOn5Tuple:
5-Tuple
(lat, lon, distance, angle, height)
all in
degrees
, except height
.
- pygeodesy.namedTuples.NearestOn6Tuple:
6-Tuple
(closest, distance, fi, j, start, end)
with
the closest
point, the distance
in
meter
, conventionally and the start
and
end
point of the path or polygon edge.
- pygeodesy.namedTuples.NearestOn8Tuple:
8-Tuple
(closest, distance, fi, j, start, end, initial,
final)
, like NearestOn6Tuple but extended with the
initial
and the final
bearing at the
reference respectively the closest
point, both in
compass degrees
.
- pygeodesy.ellipsoidalNvector.Ned3Tuple:
3-Tuple
(north, east, down)
.
- pygeodesy.ltpTuples.Ned4Tuple:
4-Tuple
(north, east, down, ltp)
, all in
meter
except ltp
.
- pygeodesy.namedTuples.PhiLam2Tuple:
2-Tuple
(phi, lam)
with latitude phi
in
radians[PI_2]
and longitude lam
in
radians[PI]
.
- pygeodesy.namedTuples.PhiLam3Tuple:
3-Tuple
(phi, lam, height)
with latitude
phi
in radians[PI_2]
, longitude
lam
in radians[PI]
and
height
in meter
.
- pygeodesy.namedTuples.PhiLam4Tuple:
4-Tuple
(phi, lam, height, datum)
with latitude
phi
in radians[PI_2]
, longitude
lam
in radians[PI]
, height
in meter
and Datum.
- pygeodesy.namedTuples.Point3Tuple:
3-Tuple
(x, y, ll)
in meter
,
meter
and LatLon
.
- pygeodesy.namedTuples.Points2Tuple:
2-Tuple
(number, points)
with the number
of points and -possible reduced- list
or
tuple
of points
.
- pygeodesy.formy.Radical2Tuple:
2-Tuple
(ratio, xline)
of the radical
ratio
and radical xline
, both
scalar
and 0.0 <= ratio <= 1.0
- pygeodesy.vector2d.Radii11Tuple:
11-Tuple
(rA, rB, rC, cR, rIn, riS, roS, a, b, c, s)
with the Tangent
circle radii rA
,
rB
and rC
, the circumradius
cR
, the Incircle
radius rIn
aka inradius
, the inner and outer Soddy circle
radii riS
and roS
and the sides
a
, b
and c
and
semi-perimeter s
of a triangle, all in
meter
conventionally.
- pygeodesy.geohash.Resolutions2Tuple:
2-Tuple
(res1, res2)
with the primary
(longitudinal) and secondary (latitudinal)
resolution, both in degrees
.
- pygeodesy.points.Shape2Tuple:
2-Tuple
(nrows, ncols)
, the number of rows and
columns, both int
.
- pygeodesy.vector2d.Soddy4Tuple:
4-Tuple
(radius, center, deltas, outer)
with
radius
and trilaterated center
of the
inner Soddy circle and the radius of the
outer
Soddy circle.
- pygeodesy.resections.Survey3Tuple:
3-Tuple
(PA, PB, PC)
with distance from survey point
P
to each of the triangle corners A
,
B
and C
.
- pygeodesy.resections.Tienstra7Tuple:
7-Tuple
(pointP, A, B, C, a, b, c)
with survey
pointP
, interior triangle angles A
,
B
and C
in degrees
and
triangle sides a
, b
and c
in
meter
, conventionally.
- pygeodesy.trf.Transform7Tuple:
7-Tuple
(tx, ty, tz, s, sx, sy, sz)
Helmert
transformation with translations tx
, ty
and tz
in millimeter
, scale
s
in ppb
and rotations sx
,
sy
and sz
in
milliarcseconds
.
- pygeodesy.resections.TriAngle4Tuple:
4-Tuple
(radA, radB, radC, rIn)
with the interior
angles at triangle corner A
, B
and
C
and the InCircle
radius
rIn
aka inradius
.
- pygeodesy.resections.TriSide2Tuple:
2-Tuple
(a, radA)
with triangle side a
(meter
conventionally) and the opposite triangle angle
radA
(radians
).
- pygeodesy.resections.TriSide4Tuple:
4-Tuple
(a, b, radC, d)
with the length of triangle
sides a
and b
, the interior angle
radC
at triangle corner radC
(radians
) and triangle height d
,
perpendicular to triangle side c
.
- pygeodesy.namedTuples.Triangle7Tuple:
7-Tuple
(A, a, B, b, C, c, area)
with interior angles
A
, B
and C
in
degrees
, spherical sides a
,
b
and c
in meter
and the
area
of a spherical triangle in square
meter
.
- pygeodesy.namedTuples.Triangle8Tuple:
8-Tuple
(A, a, B, b, C, c, D, E)
with interior angles
A
, B
and C
, spherical sides
a
, b
and c
, spherical
deficit D
and spherical excess
E
of a spherical triangle, all in
radians
.
- pygeodesy.namedTuples.Trilaterate5Tuple:
5-Tuple
(min, minPoint, max, maxPoint, n)
with
min
and max
in meter
, the
corresponding trilaterated minPoint
and
maxPoint
as LatLon
and the number
n
.
- pygeodesy.namedTuples.UtmUps2Tuple:
2-Tuple
(zone, hemipole)
as int
and
str
, where zone
is 1..60
for
UTM or 0
for UPS and hemipole
'N'|'S'
is the UTM hemisphere or the UPS pole.
- pygeodesy.deprecated.UtmUps4Tuple:
OBSOLETE, expect a UtmUps5Tuple from method
Mgrs.toUtm(utm=None)
.
- pygeodesy.namedTuples.UtmUps5Tuple:
5-Tuple
(zone, hemipole, easting, northing, band)
as
int
, str
, meter
,
meter
and band
letter, where
zone
is 1..60
for UTM or 0
for UPS, hemipole
'N'|'S'
is the UTM
hemisphere or the UPS pole and band
is
""
or the longitudinal UTM band
'C'|'D'|..|'W'|'X'
or polar UPS band
'A'|'B'|'Y'|'Z'
.
- pygeodesy.namedTuples.UtmUps8Tuple:
8-Tuple
(zone, hemipole, easting, northing, band, datum,
convergence, scale)
as int
, str
,
meter
, meter
, band
letter,
Datum
, degrees
and scalar
,
where zone
is 1..60
for UTM or
0
for UPS, hemipole
'N'|'S'
is the UTM hemisphere or the UPS pole and band
is
""
or the longitudinal UTM band
'C'|'D'|..|'W'|'X'
or polar UPS band
'A'|'B'|'Y'|'Z'
.
- pygeodesy.namedTuples.UtmUpsLatLon5Tuple:
5-Tuple
(zone, band, hemipole, lat, lon)
as
int
, str
, str
,
degrees90
and degrees180
, where
zone
is 1..60
for UTM or 0
for UPS, band
is ""
or the
longitudinal UTM band 'C'|'D'|..|'W'|'X'
or
polar UPS band 'A'|'B'|'Y'|'Z'
and
hemipole
'N'|'S'
is the UTM hemisphere or
the UPS pole.
- pygeodesy.namedTuples.Vector2Tuple:
2-Tuple
(x, y)
of (geocentric) components, both in
meter
or units
.
- pygeodesy.namedTuples.Vector3Tuple:
3-Tuple
(x, y, z)
of (geocentric) components, all in
meter
or units
.
- pygeodesy.namedTuples.Vector4Tuple:
4-Tuple
(x, y, z, h)
of (geocentric) components, all
in meter
or units
.
- pygeodesy.ltpTuples.Xyz4Tuple:
4-Tuple
(x, y, z, ltp)
, all in meter
except ltp
.
- pygeodesy.karney._GTuple:
(INTERNAL) Helper.
- pygeodesy.karney.Direct9Tuple:
9-Tuple
(a12, lat2, lon2, azi2, s12, m12, M12, M21,
S12)
with arc length a12
, angles
lat2
, lon2
and azimuth azi2
in degrees
, distance s12
and reduced
length m12
in meter
and area
S12
in meter
squared.
- pygeodesy.karney.GeodSolve12Tuple:
12-Tuple
(lat1, lon1, azi1, lat2, lon2, azi2, s12, a12, m12,
M12, M21, S12)
with angles lat1
,
lon1
, azi1
, lat2
,
lon2
and azi2
and arc a12
all in degrees
, distance s12
and reduced
length m12
in meter
, area
S12
in meter
squared and geodesic
scales M12
and M21
scalar
,
see GeodSolve.
- pygeodesy.karney.Inverse10Tuple:
10-Tuple
(a12, s12, salp1, calp1, salp2, calp2, m12, M12,
M21, S12)
with arc length a12
in
degrees
, distance s12
and reduced length
m12
in meter
, area S12
in
meter
squared and sines and cosines of initial
and final (forward) azimuths.
- pygeodesy.ellipsoids.a_f2Tuple:
2-Tuple
(a, f)
specifying an ellipsoid by
equatorial radius a
in meter
and
scalar flattening f
.
- type:
type(object) -> the object's type type(name, bases, dict) ->
a new type
- abc.ABCMeta:
Metaclass for defining Abstract Base Classes (ABCs).