ref: ec098d1a03e28e07c3bbd3174b5f02b713c24b6f
dir: /extras/interval_map.py/
# -*- coding: utf-8 -*- from bisect import bisect_left, bisect_right from itertools import izip class IntervalMap(object): """ This class maps a set of intervals to a set of values. >>> i = IntervalMap() >>> i[0:5] = "hello world" >>> i[6:10] = "hello cruel world" >>> print i[4] "hello world" """ def __init__(self): """initializes an empty IntervalMap""" self._bounds = [] self._items = [] self._upperitem = None def __setitem__(self, _slice, _value): """sets an interval mapping""" assert isinstance(_slice, slice), 'The key must be a slice object' if _slice.start is None: start_point = -1 else: start_point = bisect_left(self._bounds, _slice.start) if _slice.stop is None: end_point = -1 else: end_point = bisect_left(self._bounds, _slice.stop) if start_point>=0: if start_point < len(self._bounds) and self._bounds[start_point]<_slice.start: start_point += 1 if end_point>=0: self._bounds[start_point:end_point] = [_slice.start, _slice.stop] if start_point < len(self._items): self._items[start_point:end_point] = [self._items[start_point], _value] else: self._items[start_point:end_point] = [self._upperitem, _value] else: self._bounds[start_point:] = [_slice.start] if start_point < len(self._items): self._items[start_point:] = [self._items[start_point], _value] else: self._items[start_point:] = [self._upperitem] self._upperitem = _value else: if end_point>=0: self._bounds[:end_point] = [_slice.stop] self._items[:end_point] = [_value] else: self._bounds[:] = [] self._items[:] = [] self._upperitem = _value def __getitem__(self,_point): """gets a value from the mapping""" assert not isinstance(_point, slice), 'The key cannot be a slice object' index = bisect_right(self._bounds, _point) if index < len(self._bounds): return self._items[index] else: return self._upperitem def items(self): """returns an iterator with each item being ((low_bound, high_bound), value) these items are returned in order""" previous_bound = None for (b, v) in izip(self._bounds, self._items): if v is not None: yield (previous_bound, b), v previous_bound = b if self._upperitem is not None: yield (previous_bound, None), self._upperitem def values(self): """returns an iterator with each item being a stored value the items are returned in order""" for v in self._items: if v is not None: yield v if self._upperitem is not None: yield self._upperitem def __repr__(self): s = [] for b,v in self.items(): if v is not None: s.append('[%r, %r] => %r'%( b[0], b[1], v )) return '{'+', '.join(s)+'}'