.. _cartopy_projections: Cartopy projection list ======================= PlateCarree ----------- .. autoclass:: cartopy.crs.PlateCarree .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(6, 3)) ax = plt.axes(projection=ccrs.PlateCarree()) ax.coastlines(resolution='110m') ax.gridlines() .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(6, 3)) ax = plt.axes(projection=ccrs.PlateCarree(central_longitude=180)) ax.coastlines(resolution='110m') ax.gridlines() LambertConformal ---------------- .. autoclass:: cartopy.crs.LambertConformal .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(4.28969332205, 3)) ax = plt.axes(projection=ccrs.LambertConformal()) ax.coastlines(resolution='110m') ax.gridlines() LambertCylindrical ------------------ .. autoclass:: cartopy.crs.LambertCylindrical .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(9.42477796077, 3)) ax = plt.axes(projection=ccrs.LambertCylindrical()) ax.coastlines(resolution='110m') ax.gridlines() Mercator -------- .. autoclass:: cartopy.crs.Mercator .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(3.50907018473, 3)) ax = plt.axes(projection=ccrs.Mercator()) ax.coastlines(resolution='110m') ax.gridlines() Miller ------ .. autoclass:: cartopy.crs.Miller .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(4.09152901955, 3)) ax = plt.axes(projection=ccrs.Miller()) ax.coastlines(resolution='110m') ax.gridlines() Mollweide --------- .. autoclass:: cartopy.crs.Mollweide .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(6, 3)) ax = plt.axes(projection=ccrs.Mollweide()) ax.coastlines(resolution='110m') ax.gridlines() Orthographic ------------ .. autoclass:: cartopy.crs.Orthographic .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(3, 3)) ax = plt.axes(projection=ccrs.Orthographic()) ax.coastlines(resolution='110m') ax.gridlines() Robinson -------- .. autoclass:: cartopy.crs.Robinson .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(5.91496652704, 3)) ax = plt.axes(projection=ccrs.Robinson()) ax.coastlines(resolution='110m') ax.gridlines() Stereographic ------------- .. autoclass:: cartopy.crs.Stereographic .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(3, 3)) ax = plt.axes(projection=ccrs.Stereographic()) ax.coastlines(resolution='110m') ax.gridlines() TransverseMercator ------------------ .. autoclass:: cartopy.crs.TransverseMercator .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(6, 3)) ax = plt.axes(projection=ccrs.TransverseMercator()) ax.coastlines(resolution='110m') ax.gridlines() UTM --- .. autoclass:: cartopy.crs.UTM InterruptedGoodeHomolosine -------------------------- .. autoclass:: cartopy.crs.InterruptedGoodeHomolosine .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(6.92280629527, 3)) ax = plt.axes(projection=ccrs.InterruptedGoodeHomolosine()) ax.coastlines(resolution='110m') ax.gridlines() RotatedPole ----------- .. autoclass:: cartopy.crs.RotatedPole .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(6, 3)) ax = plt.axes(projection=ccrs.RotatedPole(pole_longitude=177.5, pole_latitude=37.5)) ax.coastlines(resolution='110m') ax.gridlines() OSGB ---- .. autoclass:: cartopy.crs.OSGB .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(1.61538461538, 3)) ax = plt.axes(projection=ccrs.OSGB()) ax.coastlines(resolution='50m') ax.gridlines() EuroPP ------ .. autoclass:: cartopy.crs.EuroPP .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(2.51842105263, 3)) ax = plt.axes(projection=ccrs.EuroPP()) ax.coastlines(resolution='50m') ax.gridlines() Geostationary ------------- .. autoclass:: cartopy.crs.Geostationary .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(2.99893683337, 3)) ax = plt.axes(projection=ccrs.Geostationary()) ax.coastlines(resolution='110m') ax.gridlines() Gnomonic -------- .. autoclass:: cartopy.crs.Gnomonic .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(3, 3)) ax = plt.axes(projection=ccrs.Gnomonic()) ax.coastlines(resolution='110m') ax.gridlines() NorthPolarStereo ---------------- .. autoclass:: cartopy.crs.NorthPolarStereo .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(3, 3)) ax = plt.axes(projection=ccrs.NorthPolarStereo()) ax.coastlines(resolution='110m') ax.gridlines() OSNI ---- .. autoclass:: cartopy.crs.OSNI .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(2.43233741378, 3)) ax = plt.axes(projection=ccrs.OSNI()) ax.coastlines(resolution='10m') ax.gridlines() SouthPolarStereo ---------------- .. autoclass:: cartopy.crs.SouthPolarStereo .. plot:: import matplotlib.pyplot as plt import cartopy.crs as ccrs plt.figure(figsize=(3, 3)) ax = plt.axes(projection=ccrs.SouthPolarStereo()) ax.coastlines(resolution='110m') ax.gridlines()