Sets of integers like 1,3-7,33. Inspired by Perl's Set::IntSpan
Subset of set designed to conveniently hold sets of integers. It creates them from, and displays them as, integer spans (e.g. 1-3,14,29,92-97). When iterating, pop()-ing an item, or converting to a list, intspan behaves as if it were an ordered collection.
The main draw is that this provides a convenient way to specify ranges–for example, ranges of rows to be processed in a spreadsheet.
from intspan import intspan s = intspan('1-3,14,29,92-97') s.discard('2,13,92') print s print repr(s) print list(s)
1,3,14,29,93-97 intspan('1,3,14,29,93-97') [1, 3, 14, 29, 93, 94, 95, 96, 97]
for n in intspan('1-3,5'): print n # Python 2
1 2 3 5
Most set operations such as intersection, union, and so on are available just as they are in Python’s set. In addition, if you wish to extract the contiguous ranges:
for r in intspan('1-3,5,7-9,10,21-22,23,24').ranges(): print r # Python 2
(1, 3) (5, 5) (7, 10) (21, 24)
There is a corresponding constructor:
print intspan.from_ranges([ (4,6), (10,12) ])
intspan piggybacks Python’s set, so it stores every integer individually. Unlike Perl’s Set::IntSpan it is not optimized for long contiguous runs. For sets of several hundred or thousand members, you will probably never notice the difference.
On the other hand, if you’re doing lots of processing of large sets (e.g. with 100,000 or more elements), or doing lots of set operations on them (e.g. union, intersection), a data structure based on lists of ranges, run length encoding, or Judy arrays might perform / scale better.
There are several modules you might want to consider as alternatives or supplements. AFAIK, none of them provide the convenient integer span specification that intspan does, but they have other virtues:
- Version 1.0 immediately follows 0.73. Bumped to institute a cleaner “semantic versioning” scheme. Upgraded from “beta” to “production” status.
- Version 0.73 updates testing to include the latest Python 3.4
- Version 0.7 fixed parsing of spans including negative numbers, and added the ranges() method. As of 0.71, the from_ranges() constructor appeared.
- Though inspired by Perl’s Set::IntSpan, that’s where the similarity stops. intspan supports only finite sets, and it follows the methods and conventions of Python’s set.
- intspan methods and operations such as add() discard(), and >= take integer span strings, lists, and sets as arguments, changing facilities that used to take only one item into onces that take multiples, inlcuding arguments that are technically string specifications rather than proper intspan objects.
- String representation and ranges() method based on Jeff Mercado’s concise answer to this StackOverflow question. Thank you, Jeff!
- Automated multi-version testing managed with the wonderful pytest, pytest-cov, and tox. Successfully packaged for, and tested against, all late-model verions of Python: 2.6, 2.7, 3.2, 3.3, and 3.4, as well as PyPy 2.2.1 (based on 2.7.3). Test line coverage ~100%.
- The author, Jonathan Eunice or @jeunice on Twitter welcomes your comments and suggestions.
To install the latest version:
pip install -U intspan
To easy_install under a specific Python version (3.3 in this example):
python3.3 -m easy_install --upgrade intspan
(You may need to prefix these with “sudo ” to authorize installation.)
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|Filename, size & hash SHA256 hash help||File type||Python version||Upload date|
|intspan-1.0.1.tar.gz (7.1 kB) Copy SHA256 hash SHA256||Source||None||Jul 22, 2014|
|intspan-1.0.1.zip (13.6 kB) Copy SHA256 hash SHA256||Source||None||Jul 22, 2014|