I have 4 parallel arrays based on a table representing attributes of a map. Each array has approx. 500 values, but all have the same number of values.

The arrays are:

start = location of the endpoint with the smaller flow accumulation,

end = location of the other endpoint (with the larger flow accumulation),

length = segment length, and;

shape = actual shape, oriented to run from start to end.

I am attempting to create a data structure from which I can use a recursive function on to determine the start and end points every 2000m along the length.

The following question and answer describe what I am attempting to accomplish:

https://gis.stackexchange.com/questions/87649/select-points-approx-2000-metres-from-another-point-along-a-river

How do I store these 4 parallel arrays in a dictionary keyed by start?

I am new to writing functions, dictionaries and using arrays in dictionaries. I am attempting to do this task in Python.

  • Although it isn't necessarily required here, it may be useful to create a class that has start/end/length/shape attributes. That way, you could have a single list of RiverSegment objects (or whatever you want to call them) instead of four lists of attributes. – Kevin Mar 4 '14 at 13:17
up vote 1 down vote accepted

If you want to do things a little bit more Python-esque, you can use enumerate:

d = {}
for (i,st) in enumerate(start):
    d[st] = (shape[i],length[i],end[i])

or even better - zip:

d = {}
for (st,sh,le,en) in zip(start,shape,length,end):
    d[st] = (sh,le,en)

Note that you can leave out the parantheses around the first part of the for loops (i.e. between the for and in keywords). I used them solely for enhanced code readability.

As with WeaselFox's answer, d[some_start_value] will now hold the corresponding shape, length and end values.

I think this is what you mean:

d = {}
for i in range(len(start)):
   d[start[i]] = (shape[i],length[i],end[i])

so now d[some_start_value] will hold the corresponding shape length and end values.

In addition to the above answers, I would recommend using namedtuple to simplify accesses:

from collections import namedtuple

# This creates a namedtuple called GISData. Name of the object and name in the first argument 
# should be the same. 
GISData = namedtuple('GISData', 'start shape length end')

# zip creates 1 list of 4-tuples from 4 single lists
# There are other ways to write this; this is just the shortest for me.
# Note that if you need this ordered, you should use an OrderedDict,
# which is in the collections module in python 2.7+, or you can find
# backported versions for python 2.6+. In those, the keys preserve ordering,
# so can still be searched as a list, which is useful if you need to find e.g.
# 479, which is not in the dictionary, but 400 and 500 are and you have to interpolate etc.

GISDict = dict((x[0], GISData(*x)) for x in zip(start, shape, length, end))

# The dictionary for any given start value
# Access the 4 individual pieces by name, or by index
GISDict[start_lookup].shape

etc.

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.