Mercurial > public > think_complexity
view ch3ex4.py @ 18:92e2879e2e33
Rework the red-black tree based on Julienne Walker's tutorial.
Insertion is implemented now. Deletion will come next.
author | Brian Neal <bgneal@gmail.com> |
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date | Wed, 26 Dec 2012 19:59:17 -0600 |
parents | bc2c07a059be |
children |
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""" Code example from Complexity and Computation, a book about exploring complexity science with Python. Available free from http://greenteapress.com/complexity Copyright 2011 Allen B. Downey. Distributed under the GNU General Public License at gnu.org/licenses/gpl.html. """ import string class LinearMap(object): """A simple implementation of a map using a list of tuples where each tuple is a key-value pair.""" def __init__(self): self.items = [] def add(self, k, v): """Adds a new item that maps from key (k) to value (v). Assumes that they keys are unique.""" self.items.append((k, v)) def get(self, k): """Looks up the key (k) and returns the corresponding value, or raises KeyError if the key is not found.""" for key, val in self.items: if key == k: return val raise KeyError class BetterMap(object): """A faster implementation of a map using a list of LinearMaps and the built-in function hash() to determine which LinearMap to put each key into.""" def __init__(self, n=100): """Appends (n) LinearMaps onto (self).""" self.maps = [] for i in range(n): self.maps.append(LinearMap()) def __len__(self): """Returns the number of LinearMap buckets in the map.""" return len(self.maps) def find_map(self, k): """Finds the right LinearMap for key (k).""" index = hash(k) % len(self.maps) return self.maps[index] def add(self, k, v): """Adds a new item to the appropriate LinearMap for key (k).""" m = self.find_map(k) m.add(k, v) def get(self, k): """Finds the right LinearMap for key (k) and looks up (k) in it.""" m = self.find_map(k) return m.get(k) def iteritems(self): """Generator function to yield items in the map.""" for lm in self.maps: for t in lm.items: yield t class HashMap(object): """An implementation of a hashtable using a BetterMap that grows so that the number of items never exceeds the number of LinearMaps. The amortized cost of add should be O(1) provided that the implementation of sum in resize is linear.""" def __init__(self): """Starts with 2 LinearMaps and 0 items.""" self.maps = BetterMap(2) self.num = 0 def get(self, k): """Looks up the key (k) and returns the corresponding value, or raises KeyError if the key is not found.""" return self.maps.get(k) def add(self, k, v): """Resize the map if necessary and adds the new item.""" if self.num == len(self.maps): self.resize() self.maps.add(k, v) self.num += 1 def resize(self): """Makes a new map, twice as big, and rehashes the items.""" new_maps = BetterMap(self.num * 2) for k, v in self.maps.iteritems(): new_maps.add(k, v) self.maps = new_maps def main(script): m = HashMap() s = string.ascii_lowercase for k, v in enumerate(s): m.add(k, v) for k in range(len(s)): print k, m.get(k) if __name__ == '__main__': import sys main(*sys.argv)