Projections¶
PyGMT support many map projections. Use the projection
argument to specify which one
you want to use in all plotting modules. The projection is specified by a one letter
code along with (sometimes optional) reference longitude and latitude and the width of
the map (for example, Alon0/lat0[/horizon]/width
). The map height is determined
based on the region and projection.
These are all the available projections:
Projection Table¶
The below table shows the projection codes for the 31 GMT projections.
PyGMT Projection Argument |
Projection Name |
---|---|
Alon0/lat0[/horizon]/width |
Lambert azimuthal equal area |
Blon0/lat0/lat1/lat2/width |
Albers conic equal area |
Clon0/lat0/width |
Cassini cylindrical |
Cyl_stere/[lon0[/lat0/]]width |
Cylindrical stereographic |
Dlon0/lat0/lat1/lat2/width |
Equidistant conic |
Elon0/lat0[/horizon]/width |
Azimuthal equidistant |
Flon0/lat0[/horizon]/width |
Azimuthal gnomonic |
Glon0/lat0[/horizon]/width |
Azimuthal orthographic |
Glon0/lat0/alt/azim/tilt/twist/W/H/width |
General perspective |
H[lon0/]width |
Hammer equal area |
I[lon0/]width |
Sinusoidal equal area |
J[lon0/]width |
Miller cylindrical |
Kf[lon0/]width |
Eckert IV equal area |
Ks[lon0/]width |
Eckert VI equal area |
Llon0/lat0/lat1/lat2/width |
Lambert conic conformal |
M[lon0[/lat0]/]width |
Mercator cylindrical |
N[lon0/]width |
Robinson |
Oalon0/lat0/azim/width[+v] |
Oblique Mercator, 1: origin and azim |
Oblon0/lat0/lon1/lat1/width[+v] |
Oblique Mercator, 2: two points |
Oclon0/lat0/lonp/latp/width[+v] |
Oblique Mercator, 3: origin and pole |
Pwidth[+a][+f[e|p|radius]][+roffset][+torigin][+z[p|radius]] |
Polar [azimuthal] (\(\theta, r\)) (or cylindrical) |
Poly[lon0[/lat0]/]width |
Polyconic |
Q[lon0[/lat0/]]width |
Equidistant cylindrical |
R[lon0/]width |
Winkel Tripel |
Slon0/lat0[/horizon]/width |
General stereographic |
T[lon0[/lat0]/]width |
Transverse Mercator |
Uzone/width |
Universal Transverse Mercator (UTM) … |
V[lon0/]width |
Van der Grinten |
W[lon0/]width |
Mollweide |
Xwidth[l|pexp|T|t][/height[l|pexp|T|t]][d] |
Linear, log\(_{10}\), \(x^a-y^b\), and time |
Ylon0/lat0/width |
Cylindrical equal area |