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:

Azimuthal Projections¶

Azimuthal Equidistant¶

General Perspective¶

General Stereographic¶

Gnomonic¶

Lambert Azimuthal Equal Area¶

Orthographic¶

Conic Projections¶

Albers Conic Equal Area¶

Equidistant conic¶

Lambert Conic Conformal Projection¶

Polyconic Projection¶

Cylindric Projections¶

Cassini Cylindrical¶

Cylindrical equal-area¶

Cylindrical equidistant¶

Mercator¶

Miller cylindrical¶

Cylindrical Stereographic¶

Transverse Mercator¶

Universal Transverse Mercator¶

Miscellaneous Projections¶

Non-geographic Projections¶

Cartesian¶

Polar¶

Projection Table¶

PyGMT offers 31 map projections. These are specified using the projection argument. The projection codes for the projection styles are shown below. Upper case arguments set map width and lower case arguments set map scale.

PyGMT Projection Argument	Projection Name
Alon₀/lat₀[/horizon]/width	Lambert azimuthal equal area
***lon₀/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/lon_p/lat_p/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

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