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import itertools
from .compat import collections_abc
class DirectedGraph(object):
"""A graph structure with directed edges."""
def __init__(self):
self._vertices = set()
self._forwards = {} # <key> -> Set[<key>]
self._backwards = {} # <key> -> Set[<key>]
def __iter__(self):
return iter(self._vertices)
def __len__(self):
return len(self._vertices)
def __contains__(self, key):
return key in self._vertices
def copy(self):
"""Return a shallow copy of this graph."""
other = DirectedGraph()
other._vertices = set(self._vertices)
other._forwards = {k: set(v) for k, v in self._forwards.items()}
other._backwards = {k: set(v) for k, v in self._backwards.items()}
return other
def add(self, key):
"""Add a new vertex to the graph."""
if key in self._vertices:
raise ValueError("vertex exists")
self._vertices.add(key)
self._forwards[key] = set()
self._backwards[key] = set()
def remove(self, key):
"""Remove a vertex from the graph, disconnecting all edges from/to it."""
self._vertices.remove(key)
for f in self._forwards.pop(key):
self._backwards[f].remove(key)
for t in self._backwards.pop(key):
self._forwards[t].remove(key)
def connected(self, f, t):
return f in self._backwards[t] and t in self._forwards[f]
def connect(self, f, t):
"""Connect two existing vertices.
Nothing happens if the vertices are already connected.
"""
if t not in self._vertices:
raise KeyError(t)
self._forwards[f].add(t)
self._backwards[t].add(f)
def iter_edges(self):
for f, children in self._forwards.items():
for t in children:
yield f, t
def iter_children(self, key):
return iter(self._forwards[key])
def iter_parents(self, key):
return iter(self._backwards[key])
class IteratorMapping(collections_abc.Mapping):
def __init__(self, mapping, accessor, appends=None):
self._mapping = mapping
self._accessor = accessor
self._appends = appends or {}
def __repr__(self):
return "IteratorMapping({!r}, {!r}, {!r})".format(
self._mapping,
self._accessor,
self._appends,
)
def __bool__(self):
return bool(self._mapping or self._appends)
__nonzero__ = __bool__ # XXX: Python 2.
def __contains__(self, key):
return key in self._mapping or key in self._appends
def __getitem__(self, k):
try:
v = self._mapping[k]
except KeyError:
return iter(self._appends[k])
return itertools.chain(self._accessor(v), self._appends.get(k, ()))
def __iter__(self):
more = (k for k in self._appends if k not in self._mapping)
return itertools.chain(self._mapping, more)
def __len__(self):
more = sum(1 for k in self._appends if k not in self._mapping)
return len(self._mapping) + more
class _FactoryIterableView(object):
"""Wrap an iterator factory returned by `find_matches()`.
Calling `iter()` on this class would invoke the underlying iterator
factory, making it a "collection with ordering" that can be iterated
through multiple times, but lacks random access methods presented in
built-in Python sequence types.
"""
def __init__(self, factory):
self._factory = factory
def __repr__(self):
return "{}({})".format(type(self).__name__, list(self._factory()))
def __bool__(self):
try:
next(self._factory())
except StopIteration:
return False
return True
__nonzero__ = __bool__ # XXX: Python 2.
def __iter__(self):
return self._factory()
class _SequenceIterableView(object):
"""Wrap an iterable returned by find_matches().
This is essentially just a proxy to the underlying sequence that provides
the same interface as `_FactoryIterableView`.
"""
def __init__(self, sequence):
self._sequence = sequence
def __repr__(self):
return "{}({})".format(type(self).__name__, self._sequence)
def __bool__(self):
return bool(self._sequence)
__nonzero__ = __bool__ # XXX: Python 2.
def __iter__(self):
return iter(self._sequence)
def build_iter_view(matches):
"""Build an iterable view from the value returned by `find_matches()`."""
if callable(matches):
return _FactoryIterableView(matches)
if not isinstance(matches, collections_abc.Sequence):
matches = list(matches)
return _SequenceIterableView(matches)