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:


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

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.

| improve this answer | |

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.

| improve this answer | |

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


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