# Setting up a map which crosses the dateline in cartopy

I received the following email and wanted to make sure the answer to this question was available to everybody:

Hi,

I would like to setup a simple latitude longitude map, using cartopy, which crosses the dateline and shows east Asia on the left hand side with the west of North America on the right. The following google map is roughly what I am after: Can this be done with Cartopy?

• Just to comment on the question, the user asked for a simple "Latitude longitude" map, and has provided a screenshot of a google map, which in my opinion is not a simple "latitude longitude" map. Technically, the google map attached is in a Spherical Mercator projection; my answer has assumed that the user meant the plot for illustration purposes and really, by simple "latitude longitude" means Equirectangular/PlateCarree. Dec 13 '12 at 10:02

Good question. This is probably something which will come up time-and-time again, so I will go through this step-by-step before actually answering your specific question. For future reference, the following examples were written with cartopy v0.5.

Firstly, it is important to note that the default "latitude longitude" (or more technically PlateCarree) projection works in the forward range of -180 to 180. This means that you cannot plot the standard PlateCarree projection beyond this. There are several good reasons for this, most of which boil down to the fact that cartopy would have to do a lot more work when projecting both vectors and rasters (simple coastlines for example). Unfortunately the plot you are trying to produce requires precisely this functionality. To put this limitation into pictures, the default PlateCarree projection looks like:

``````import cartopy.crs as ccrs
import matplotlib.pyplot as plt

proj = ccrs.PlateCarree(central_longitude=0)

ax1 = plt.axes(projection=proj)
ax1.stock_img()
plt.title('Global')

plt.show()
`````` Any single rectangle that you can draw on this map can legally be a zoomed in area (there is some slightly more advanced code in here, but the picture is worth a 1000 words):

``````import cartopy.crs as ccrs
import matplotlib.pyplot as plt
import shapely.geometry as sgeom

box = sgeom.box(minx=-90, maxx=45, miny=15, maxy=70)
x0, y0, x1, y1 = box.bounds

proj = ccrs.PlateCarree(central_longitude=0)

ax1 = plt.subplot(211, projection=proj)
ax1.stock_img()
edgecolor='black', alpha=0.5)
plt.title('Global')

ax2 = plt.subplot(212, projection=proj)
ax2.stock_img()
ax2.set_extent([x0, x1, y0, y1], proj)
plt.title('Zoomed in area')

plt.show()
`````` Unfortunately the plot you want would require 2 rectangles with this projection:

``````import cartopy.crs as ccrs
import matplotlib.pyplot as plt
import shapely.geometry as sgeom

box = sgeom.box(minx=120, maxx=260, miny=15, maxy=80)

proj = ccrs.PlateCarree(central_longitude=0)

ax1 = plt.axes(projection=proj)
ax1.stock_img()
edgecolor='black', alpha=0.5)
plt.title('Target area')

plt.show()
`````` Hence it is not possible to draw a map that crosses the dateline using the standard PlateCarree definition. Instead we could change the PlateCarree definition's central longitude to allow a single box to be drawn of the area we are targeting:

``````import cartopy.crs as ccrs
import matplotlib.pyplot as plt
import shapely.geometry as sgeom

box = sgeom.box(minx=120, maxx=260, miny=15, maxy=80)
x0, y0, x1, y1 = box.bounds

proj = ccrs.PlateCarree(central_longitude=180)
box_proj = ccrs.PlateCarree(central_longitude=0)

ax1 = plt.subplot(211, projection=proj)
ax1.stock_img()
edgecolor='black', alpha=0.5)
plt.title('Global')

ax2 = plt.subplot(212, projection=proj)
ax2.stock_img()
ax2.set_extent([x0, x1, y0, y1], box_proj)
plt.title('Zoomed in area')

plt.show()
`````` Hopefully that shows you what it is you have to do to achieve your target map, the code above might be a little complex to achieve your goal, so to simplify slightly, the code I would write to produce the plot you want would be something like:

``````import cartopy.feature
import cartopy.crs as ccrs
import matplotlib.pyplot as plt

ax = plt.axes(projection=ccrs.PlateCarree(central_longitude=180))
ax.set_extent([120, 260, 15, 80], crs=ccrs.PlateCarree())

# add some features to make the map a little more polished
ax.coastlines('50m')

plt.show()
`````` This was a long answer, hopefully I have not only answered the question, but made some of the more complex details of map production and cartopy more clear to help smooth any future problems you may have.

Cheers,

• Note if you add data to the plot, you may need to adjust for the central longitude: `ax.scatter(X + offset, Y)` Mar 26 '19 at 2:46

For more details of above benjimin's comment,

``````import numpy as np
import matplotlib.pyplot as plt
import cartopy.crs as ccrs
from cartopy.mpl.gridliner import LONGITUDE_FORMATTER, LATITUDE_FORMATTER
from matplotlib.ticker import AutoMinorLocator, FixedLocator, MultipleLocator

def map_common(ax1,gl_loc=[True,True,False,True],gl_lon_info=range(-180,180,60),gl_dlat=30):

ax1.coastlines(color='silver',linewidth=1.)

gl = ax1.gridlines(crs=ccrs.PlateCarree(), draw_labels=True,
linewidth=0.6, color='gray', alpha=0.5, linestyle='--')

gl.ylabels_left = gl_loc
gl.ylabels_right = gl_loc
gl.xlabels_top = gl_loc
gl.xlabels_bottom = gl_loc

gl.xlocator = FixedLocator(gl_lon_info)
gl.ylocator = MultipleLocator(gl_dlat)
gl.xformatter = LONGITUDE_FORMATTER
gl.yformatter = LATITUDE_FORMATTER
gl.xlabel_style = {'size': 11, 'color': 'k'}
gl.ylabel_style = {'size': 11, 'color': 'k'}

lon_boundary=np.arange(-240,-60,1.)
lat_boundary=np.arange(15,75,1.)
data=np.ones([lat_boundary.shape-1,lon_boundary.shape-1]) ## Data dimension is 1 less than boundaries
data=data*lat_boundary[:-1,None]

lon_offset=-150  ##
x,y=np.meshgrid(lon_boundary-lon_offset,lat_boundary)

fig=plt.figure()
fig.set_size_inches(7.5,5) ## (xsize, ysize)
ax1.set_extent([-250,-50,10,80],crs=ccrs.PlateCarree())

props=dict(vmin=0,vmax=90,cmap=plt.cm.get_cmap('bone'),alpha=0.8)
cs=ax1.pcolormesh(x,y,data,**props)
ax1.set_title('Lon_Offset=-90')
map_common(ax1,gl_lon_info=[-180,-120,-60,120,],gl_dlat=15)

fnout='./map_over_dateline.png'
#plt.show()
plt.savefig(fnout,bbox_inches='tight',dpi=150)

``````

Output of this program