255 lines
6.0 KiB
Python
255 lines
6.0 KiB
Python
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"""
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Disjoint set data structure
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"""
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class DisjointSet:
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""" Disjoint set data structure for incremental connectivity queries.
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.. versionadded:: 1.6.0
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Attributes
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----------
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n_subsets : int
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The number of subsets.
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Methods
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-------
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add
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merge
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connected
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subset
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subset_size
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subsets
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__getitem__
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Notes
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-----
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This class implements the disjoint set [1]_, also known as the *union-find*
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or *merge-find* data structure. The *find* operation (implemented in
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`__getitem__`) implements the *path halving* variant. The *merge* method
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implements the *merge by size* variant.
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References
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----------
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.. [1] https://en.wikipedia.org/wiki/Disjoint-set_data_structure
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Examples
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--------
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>>> from scipy.cluster.hierarchy import DisjointSet
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Initialize a disjoint set:
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>>> disjoint_set = DisjointSet([1, 2, 3, 'a', 'b'])
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Merge some subsets:
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>>> disjoint_set.merge(1, 2)
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True
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>>> disjoint_set.merge(3, 'a')
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True
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>>> disjoint_set.merge('a', 'b')
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True
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>>> disjoint_set.merge('b', 'b')
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False
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Find root elements:
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>>> disjoint_set[2]
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1
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>>> disjoint_set['b']
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3
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Test connectivity:
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>>> disjoint_set.connected(1, 2)
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True
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>>> disjoint_set.connected(1, 'b')
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False
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List elements in disjoint set:
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>>> list(disjoint_set)
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[1, 2, 3, 'a', 'b']
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Get the subset containing 'a':
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>>> disjoint_set.subset('a')
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{'a', 3, 'b'}
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Get the size of the subset containing 'a' (without actually instantiating
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the subset):
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>>> disjoint_set.subset_size('a')
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3
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Get all subsets in the disjoint set:
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>>> disjoint_set.subsets()
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[{1, 2}, {'a', 3, 'b'}]
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"""
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def __init__(self, elements=None):
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self.n_subsets = 0
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self._sizes = {}
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self._parents = {}
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# _nbrs is a circular linked list which links connected elements.
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self._nbrs = {}
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# _indices tracks the element insertion order in `__iter__`.
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self._indices = {}
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if elements is not None:
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for x in elements:
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self.add(x)
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def __iter__(self):
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"""Returns an iterator of the elements in the disjoint set.
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Elements are ordered by insertion order.
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"""
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return iter(self._indices)
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def __len__(self):
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return len(self._indices)
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def __contains__(self, x):
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return x in self._indices
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def __getitem__(self, x):
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"""Find the root element of `x`.
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Parameters
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----------
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x : hashable object
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Input element.
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Returns
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-------
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root : hashable object
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Root element of `x`.
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"""
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if x not in self._indices:
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raise KeyError(x)
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# find by "path halving"
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parents = self._parents
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while self._indices[x] != self._indices[parents[x]]:
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parents[x] = parents[parents[x]]
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x = parents[x]
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return x
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def add(self, x):
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"""Add element `x` to disjoint set
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"""
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if x in self._indices:
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return
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self._sizes[x] = 1
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self._parents[x] = x
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self._nbrs[x] = x
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self._indices[x] = len(self._indices)
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self.n_subsets += 1
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def merge(self, x, y):
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"""Merge the subsets of `x` and `y`.
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The smaller subset (the child) is merged into the larger subset (the
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parent). If the subsets are of equal size, the root element which was
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first inserted into the disjoint set is selected as the parent.
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Parameters
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----------
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x, y : hashable object
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Elements to merge.
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Returns
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-------
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merged : bool
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True if `x` and `y` were in disjoint sets, False otherwise.
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"""
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xr = self[x]
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yr = self[y]
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if self._indices[xr] == self._indices[yr]:
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return False
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sizes = self._sizes
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if (sizes[xr], self._indices[yr]) < (sizes[yr], self._indices[xr]):
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xr, yr = yr, xr
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self._parents[yr] = xr
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self._sizes[xr] += self._sizes[yr]
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self._nbrs[xr], self._nbrs[yr] = self._nbrs[yr], self._nbrs[xr]
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self.n_subsets -= 1
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return True
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def connected(self, x, y):
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"""Test whether `x` and `y` are in the same subset.
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Parameters
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----------
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x, y : hashable object
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Elements to test.
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Returns
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-------
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result : bool
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True if `x` and `y` are in the same set, False otherwise.
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"""
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return self._indices[self[x]] == self._indices[self[y]]
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def subset(self, x):
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"""Get the subset containing `x`.
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Parameters
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----------
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x : hashable object
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Input element.
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Returns
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-------
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result : set
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Subset containing `x`.
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"""
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if x not in self._indices:
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raise KeyError(x)
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result = [x]
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nxt = self._nbrs[x]
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while self._indices[nxt] != self._indices[x]:
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result.append(nxt)
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nxt = self._nbrs[nxt]
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return set(result)
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def subset_size(self, x):
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"""Get the size of the subset containing `x`.
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Note that this method is faster than ``len(self.subset(x))`` because
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the size is directly read off an internal field, without the need to
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instantiate the full subset.
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Parameters
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----------
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x : hashable object
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Input element.
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Returns
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-------
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result : int
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Size of the subset containing `x`.
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"""
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return self._sizes[self[x]]
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def subsets(self):
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"""Get all the subsets in the disjoint set.
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Returns
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-------
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result : list
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Subsets in the disjoint set.
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"""
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result = []
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visited = set()
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for x in self:
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if x not in visited:
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xset = self.subset(x)
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visited.update(xset)
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result.append(xset)
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return result
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