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Geopointset is the format used by Metview to combine a set of Geopoints variables into a single entity for ease of processing. Thus, a set of observations can be grouped in the same way that fields are grouped into a fieldset variable. |
Creating a geopointset
A geopointset can be created with the create_geo_set()
function, which takes any number of geopoints variables as arguments, or none. Both geopoints and geopointset variables can be concatenated with a geopointset.
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set1 = create_geo_set() # creates an empty set
set2 = create_geo_set(g1, g2, g3) # assuming that g1,g2,g3 are geopoints variables
set3 = set1 & g1 & g2 # set3 has 2 geopoints
set4 = set2 & set3 # set4 has 5 geopoints |
Accessing geopintset elements
The count()
function returns the number of geopoints variables contained by the set.
Use the indexing operator []
to access the geopoints variables contained in a set. For example:
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print(type(set4)) # geopointset
print(count(set4)) # 5
g1 = set4[1] # extract the first item
print(type(g1)) # geopoints
print(count(g1)) # 244 (if there are 244 points in this geopoints variable) |
Operations on geopointsets
As a geopointset is simply a container for geopoints variables, most operations on a geopointset are performed on each of its component geopoints. For example, the following line of code with return a new geopointset where each geopoints variable has had the cos()
function applied to its values:
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cgset = cos(gset) |
Operations between geopointsets and numbers are performed on each geopoints, e.g.
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gsetplus1 = gset + 1 # add 1 to each value in each geopoints var in gset |
Operations can be performed between geopointsets and geopointsets, or geopointsets and fieldsets, as long as they both contain the same number of items, or they contain exactly one item. Otherwise, if they contain a different number of items, the computation will fail.
For example, if gset_5a
and gset_5b
each contain 5 geopoints variables, the following code will add each pair of geopoints variables, giving a resulting geopointset of size 5:
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gsetsum_r1 = gset_5a + gset_5b # gset_5b[n] is added to gset_5a[n] |
If gset_1c
contains a single geopoints variable, the following code will produce a geopointset with 5 items, the result of adding gset_1c[1]
to each item in gset_5a
:
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gsetsum_r2 = gset_5a + gset_1c # gset_1c[1] is added to each gset_5a[n] |
Likewise, geopointset/fieldset operations work the same way:
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gsetdiff_r1 = fc_fieldset_5 - gset_5a # gset_5a[n] is subtracted from fc_fieldset_5[n]
gsetdiff_r2 = fc_fieldset_5 - gset_1c # gset_1c[1] is subtracted from each field |
The format for a geopointset file is very simply a header followed by a contatenation of geopoints files - see Geopoints for details of the format. The overall header is this:
The subsequent geopoints structures should all share the same format as each other. Here's an example with 3 geopoints files inside the set:
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#GEOPOINTSET
#GEO
# lat lon height date time value
# Missing values represented by 3e+38 (not user-changeable)
#DATA
69.6523 18.9057 0 20130512 0 100869.8625
63.4882 10.8795 0 20130512 0 100282.3392
63.5657 10.694 0 20130512 0 100241.1666
61.2928 5.0443 0 20130512 0 99852.18932
#GEO
# lat lon height date time value
# Missing values represented by 3e+38 (not user-changeable)
#DATA
60.82 23.5 0 20130512 600 101045.8
#GEO
# lat lon height date time value
# Missing values represented by 3e+38 (not user-changeable)
#DATA
55.01 8.41 0 20130513 0 100949.1809
54.33 8.6 0 20130513 0 101027.9101
53.71 7.15 0 20130513 0 100846.619 |