I am trying to create a lat/lon grid that contains an array of found indices where two conditions are met for a lat/lon combination. This approach might be too complicated, but using a meshgrid or numpy broadcasting failed also. If there is a better approach, feel free to share your knowlegde. :-)
Round lat/lon values to gridsize resolution of 1° but retain full length of array:
x = np.around(lon, decimals=0) y = np.around(lat, decimals=0)
arrays consists of longitude/latitude values from -180 to 180 and -82° to 82°; multiple douplets possible
Check for each combination of lat/lon how many measurements are available for 1°/1° grid point:
a = arange(-180,181) b = arange(-82,83) totalgrid = [ [ 0 for i in range(len(b)) ] for j in range(len(a)) ] for d1 in range(len(a)): for d2 in range(len(b)): totalgrid[d1][d2]=np.where((x==a[d1])&(y==b[d2]))
This method fails and returns only a list of lists with empty arrays. I can't figure out why it's not working properly. Replacing the last line by:
returns all found indices from lon/lat that are present at -180°/-82°. Unfortunately it takes a while. Am I missing a for loop somewhere?!
The Problem in more detail: @askewchan Unfortunately this one does not solve my original problem. As expected the result represents the groundtrack quite well. But besides the fact that I need the total number of points for each grid point, I also need each single index of lat/lon combinations in the lat/lon array for further computations. Let's assume I have an array
lat(100000L,), lon(100000L,) and a third one array(100000L,)
which corresponds to the measurement at each point. I need every index of all 1°/1° combinations in lat/lon, to check this index in the array(100000L,) if a condition is met. Now lets assume that the indices[10000,10001,10002,..,10025] of lat/lon are on the same gridpoint. For those indices I need to check whether array[10000,10001,10002,..,10025] now met a condition, i.e. np.where(array==0). With cts.nonzero() I only get the index in the histogram. But then all information of each point contributing to the value of the histogram is lost. Hopefully you get what was my initial problem.