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README
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consistent-hash
===============
Implements consistent hashing that can be used when the number of server nodes can increase or decrease.The algorithm that is used for consistent hashing is the same as libketama <https://github.com/RJ/ketama>
Usage
===============
It's so easy to use^_^::
from consistent_hash import ConsistentHash
# You can construct consistent hash with the below three ways
con_hash = ConsistentHash({'192.168.0.101:11212':1, '192.168.0.102:11212':2, '192.168.0.103:11212':1})
# Or
con_hash = ConsistentHash(['192.168.0.101:11212', '192.168.0.102:11212', '192.168.0.103:11212']))
# Or
con_hash = ConsistentHash('192.168.0.101:11212')
# Add servers to hash ring
con_hash.add_nodes({'192.168.0.104:11212':1})
# Get a server via the key of object
server = con_hash.get_node('my_key')
# Delete the server from hash ring, you don't need to indicate weights
con_hash.del_nodes(['192.168.0.102:11212', '192.168.0.104:11212'])
Unit test
===============
- Firstly, install nose which extends unittest to make testing easier::
pip install nose
- Then, run tests::
# Option -s any stdout output will be printed immediately
# and -v be more verbose
nosetests -s -v
More information about nose <https://nose.readthedocs.org/en/latest/>