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22

I can't really say that I'd understand the details, but apparently whenever the package python-dap is installed, then trying to import pkg_resources gives this warning. Here is some discussion. Following advice from here (comment 29 at the end of the page), I added dap as the first line in file ...


15

You could consider creating Collections of polygons instead of individual polygons. The relevant docs can be found here: http://matplotlib.org/api/collections_api.html With a example worth picking appart here: http://matplotlib.org/examples/api/collections_demo.html As an example: import numpy as np import matplotlib.pyplot as plt from ...


13

You can add a matplotlib.patches.Polygon() directly to your axes. The question is whether you want your rectangles defined the plot coordinates (straight lines on the plot) or in map coordinates (great circles on the plot). Either way, you specify vertices in map coordinates and then transform them to plot coordinates by calling the Basemap instance (m() in ...


12

Yes it is possible thanks to matplotlib's event handling framework. I couldn't find an already written example which does what you are particularly interested in so I wrote one (which I will put forward for inclusion in the matplotlib source). I would read http://matplotlib.sourceforge.net/users/event_handling.html thoroughly to best understand what is ...


11

Actually, for this you want to use a somewhat undocumented feature of matplotlib: the matplotlib.offsetbox module. There's an example here: http://matplotlib.sourceforge.net/trunk-docs/examples/pylab_examples/demo_annotation_box.html In your case, you'd do something like this: import matplotlib.pyplot as plt import numpy as np import Image from ...


9

With basemap, you can generally just use normal pyplot style commands if you translate your coordinates using the map instance first. In this case, you can just transform the extent into uv coordinates with: x0, y0 = m(x[-1], y[-1]) x1, y1 = m(x[-1] + 0.5, y[-1] + 0.5) And then subsequently you will be able to do: im = plt.imshow(img, extent=(x0, x1, y0, ...


8

In case you create vector graphics, have you tried this (taken from http://matplotlib.org/api/pyplot_api.html?highlight=colorbar#matplotlib.pyplot.colorbar): "It is known that some vector graphics viewer (svg and pdf) renders white gaps between segments of the colorbar. This is due to bugs in the viewers not matplotlib. As a workaround the colorbar can be ...


7

On Ubuntu, to install GEOS, this worked for me: $ sudo apt-get install libgeos-dev


6

For reasons like this i often avoid Basemap alltogether and read the shapefile in with OGR and convert them to a Matplotlib artist myself. Which is alot more work but also gives alot more flexibility. Basemap has some very neat features like converting the coordinates of input data to your 'working projection'. If you want to stick with Basemap, get a ...


6

For questions 2-4, you have to have GEOS installed on your system. If you have homebrew you can do the following: brew install geos Install homebrew here if you don't have it: http://mxcl.github.com/homebrew/


6

You will need the python imaging library (PIL) installed. (See here https://pypi.python.org/pypi/PIL). See these answers for examples of ways to install PIL: answer 1, answer 2 Right, with that installed, the following code should do what you ask for: import matplotlib.pyplot as plt import matplotlib.ticker as plticker try: from PIL import Image except ...


6

In the modern definition of the -CAR projection (from Calabretta et al.), GLON-CAR/GLAT-CAR projection only produces a rectilinear grid if CRVAL2 is set to zero. If CRVAL2 is not zero, then the grid is curved (this should have nothing to do with Astropy). You can try and fix this by adjusting CRVAL2 and CRPIX2 so that CRVAL2 is zero. Does this help? Just to ...


5

Sadly not in an entirely integrated way, but most things are possible when you are dealing with an OO plotting library such as mpl. I worked on a change that implemented this functionality in a more accessible form about 3 months ago (https://github.com/matplotlib/matplotlib/pull/956), but we decided not to merge it as there were some fundamental changes ...


5

Take a look at this question and demo : from matplotlib.pyplot import figure, show import numpy as npy from numpy.random import rand if 1: # picking on a scatter plot (matplotlib.collections.RegularPolyCollection) x, y, c, s = rand(4, 100) def onpick3(event): ind = event.ind print 'onpick3 scatter:', ind, npy.take(x, ind), ...


5

As has already been said by @unutbu, Thomas' post here is exactly what you are after. Should you want to do this with Cartopy, the corresponding code (in v0.7) can be adapted from http://scitools.org.uk/cartopy/docs/latest/tutorials/using_the_shapereader.html slightly: import cartopy.crs as ccrs import matplotlib.pyplot as plt import cartopy.io.shapereader ...


4

When use map_coordinates, you need transpose the array or change you coordinates to (y, x) format, because the shape of the array is (height, width). from scipy.ndimage.interpolation import map_coordinates from mpl_toolkits.basemap import interp import numpy in_data = numpy.array([[ 25.89125824, 25.88840675],[ 25.90930748, 25.90640068]], ...


4

In the numpy example that you show, the author is actually using Matplotlib. While there are several plotting libraries, Matplotlib is the most popular for simple 2D plots like this. I'd probably use that unless there is a compelling reason not to. A general strategy would be to try to find something that looks like what you want in the Matplotlib example ...


4

How to remove "annoying" rivers: If you want to post-process the image (instead of working with Basemap directly) you can remove bodies of water that don't connect to the ocean: import pylab as plt A = plt.imread("world.png") import numpy as np import scipy.ndimage as nd import collections # Get a counter of the greyscale colors a = A[:,:,0] colors ...


4

This can be done effectively in two lines by looping over the image data at your grid intervals. Using the canonical image from the SIPI database as an example import pylab as plt # Load the image img = plt.imread("lena512color.tiff") # Grid lines at these intervals (in pixels) # dx and dy can be different dx, dy = 100,100 # Custom (rgb) grid color ...


4

You can use the following code to convert the coordinates, it automatically takes the projection from your raster as the source and the projection from your Basemap object as the target coordinate system. Imports from mpl_toolkits.basemap import Basemap import osr, gdal import matplotlib.pyplot as plt import numpy as np Coordinate conversion def ...


4

Here is one way to do it: import networkx as nx import matplotlib.pyplot as plt from mpl_toolkits.basemap import Basemap as Basemap m = Basemap( projection='merc', llcrnrlon=-130, llcrnrlat=25, urcrnrlon=-60, urcrnrlat=50, lat_ts=0, resolution='i', suppress_ticks=True) # position in decimal ...


4

You can create custom polygons using the keyword argument marker and passing it a tuple of 3 numbers (number of sides, style, rotation). To create a triangle you would use (3, 0, rotation), an example is shown below. import matplotlib.pyplot as plt x = [1,2,3] for i in x: plt.plot(i, i, marker=(3, 0, i*90), markersize=20, linestyle='None') ...


4

For whatever reason, Basemap.quiver doesn't like taking Pandas DataFrame columns after upgrading. I changed: gMap.quiver(AllPoints['lon'],AllPoints['lat']....) to: gMap.quiver(AllPoints['lon'].values,AllPoints['lat'].values....) and it works fine now.


3

Have a look at the matplotlib.markers module. Of particular interest is the fact that you can use an arbitrary polygon with a specified angle: marker = (3, 0, 45) # triangle rotated by 45 degrees.


3

I am not aware of any robust matplotlib technique for doing what you are asking, but I may have a different solution. I often have to fill/extrapolate to areas of a grid where I am missing information. To do this I use a Fortran program that I compile using F2PY (that ships with numpy), which creates it into a python module. Assuming you have the Intel ...


3

It looks like the set_data method should require an ndarray (not sure why the example I had followed was working correctly). So in the init() function, you should use quad.set_array(np.array([])) rather than quad.set_array([]). Other problems to be aware of: As mentioned before, you also want set blit=False in your FuncAnimation() call. I was also ...


3

It seems that you will have to arrange your code differently to make it work. The general layout of animation code consits of two parts: 1. Creating of the static content of the plot In this step you create the figure, add the subplots, draw all static content (for example the basemap) and usually add either the first data set or some compatible dummy ...


3

One way to do this would be to call the function mpl.cm.Paired() for a subset of the normalised range (i.e., [0-1]) and then use the list of colors that it returns to define a new colormap: import matplotlib.colors as mcol lvTmp = np.linspace(0.1,1.0,len(levels)-1) cmTmp = mlp.cm.Paired(lvTmp) newCmap = mcol.ListedColormap(cmTmp) You'll need to fiddle ...


3

from matplotlib.colors import from_levels_and_colors cmap, norm = from_levels_and_colors([0,1,2,3],['red','green','blue']) plt.imshow(data, cmap=cmap, norm=norm)


3

two (okay I lied, should be there) problems with your code i, your input longitude should be negative to be within the boundary you defined for your basemap, so add this after before converting to x and y longitude = [-i for i in longitude] ii, your coordinate conversion line is wrong, you should swap lon and lat in the argument list x, y = m(longitude, ...



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