ok
Direktori : /opt/cloudlinux/venv/lib/python3.11/site-packages/guppy/heapy/ |
Current File : //opt/cloudlinux/venv/lib/python3.11/site-packages/guppy/heapy/Path.py |
import functools from guppy.etc.Descriptor import property_nondata class R_NORELATION: code = -1 r = None def stra(self, a, safe=True): return '%s.??' % a class R_IDENTITY: code = 0 def stra(self, a, safe=True): return a class R_ATTRIBUTE: code = 1 strpat = '%s.%s' class R_INDEXVAL: code = 2 def stra(self, a, safe=True): if safe: return '%s[%s]' % (a, self.saferepr(self.r)) else: return '%s[%r]' % (a, self.r) class R_INDEXKEY: code = 3 strpat = '%s.keys()[%r]' class R_INTERATTR: code = 4 strpat = '%s->%s' class R_HASATTR: code = 5 strpat = '%s.__dict__.keys()[%r]' class R_LOCAL_VAR: code = 6 strpat = '%s.f_locals[%r]' class R_CELL: code = 7 strpat = '%s.f_locals [%r]' class R_STACK: code = 8 strpat = '%s->f_valuestack[%d]' class R_INSET: code = 9 strpat = 'list(%s)[%d]' class R_RELSRC: code = 10 def stra(self, a, safe=True): return self.r % (a,) class R_LIMIT: code = 11 @functools.total_ordering class RelationBase(object): __slots__ = 'r', 'isinverted' def __init__(self, r, isinverted=0): self.r = r self.isinverted = isinverted def __lt__(self, other): if not isinstance(other, RelationBase): return id(type(self)) < id(type(other)) if self.code != other.code: return self.code < other.code if type(self.r) is not type(other.r): return id(type(self.r)) < id(type(other.r)) try: return self.r < other.r except TypeError: return id(self.r) < id(other.r) def __eq__(self, other): if isinstance(other, RelationBase): if self.code != other.code: return False return self.r == other.r else: return False def __str__(self): return self.stra('%s') def inverted(self): return self.__class__(self.r, not self.isinverted) def stra(self, a, safe=True): return self.strpat % (a, self.r) class MultiRelation(RelationBase): def __init__(self, rels): self.rels = rels def stra(self, a, safe=True): return '<'+','.join([x.stra(a, safe=safe) for x in self.rels])+'>' @functools.total_ordering class Path: def __init__(self, mod, path, index, srcname): self.mod = mod self.path = path[1:] self.index = index self.src = path[1] self.tgt = path[-1] self.strprefix = '%s' if srcname == '_str_of_src_': srcname = self.src.brief if callable(srcname): srcname = srcname(self) self.srcname = srcname def __lt__(self, other): return str(self) < str(other) def __eq__(self, other): return str(self) == str(other) def __len__(self): return int((len(self.path) - 1) / 2) def stra(self, safe=True): if self.path: s = self.strprefix for i in range(1, len(self.path), 2): r = self.path[i] s = r.stra(s, safe=safe) else: s = '<Empty Path>' return s def __str__(self): return self.stra() def __repr__(self): return repr(str(self)) def _get_line_iter(self): yield '%2d: %s' % (self.index, str(self) % self.srcname) def types(self): return [type(x) for x in self.path] class PathsIter: def __init__(self, paths, start=None, stop=None): self.paths = paths self.mod = paths.mod self.stop = stop self.reset(start) def __iter__(self): return self def reset(self, idx=None): if idx is None: idx = 0 if idx != 0: # Optimization: don't calculate numpaths in common case. ln = self.paths.numpaths if idx < 0: idx = ln + idx if not (0 <= idx < ln): self.isatend = 1 return Src = self.paths.Src sr = [('%s', src.by(Src.er)) for src in Src.byid.parts] srs = [] idxs = [] np = 0 while sr: if idx == 0: i, (rel, src) = 0, sr[0] else: for i, (rel, src) in enumerate(sr): npnext = np + self.paths.numpaths_from(src) if idx < npnext: break np = npnext else: assert 0 idxs.append(i) srs.append(sr) sr = self.mod.sortedrels(self.paths.IG, src) self.pos = idx self.idxs = idxs self.srs = srs self.isatend = not idxs def __next__(self): paths = self.paths if (self.isatend or self.stop is not None and self.pos >= self.stop): raise StopIteration path = [] for row, col in enumerate(self.idxs): sr = self.srs[row] if sr is None: sr = self.mod.sortedrels(paths.IG, path[-1]) self.srs[row] = sr rel, dst = sr[col] path.append(rel) path.append(dst) rp = self.mod.Path(paths, path, self.pos, paths.srcname) self.pos += 1 while row >= 0: self.idxs[row] += 1 if self.idxs[row] < len(self.srs[row]): break if row > 0: self.srs[row] = None self.idxs[row] = 0 row -= 1 else: self.isatend = 1 self.pos = 0 return rp class ShortestPaths: def __init__(self, sg, Dst): self.sg = sg self.Dst = Dst self.mod = mod = sg.mod self._hiding_tag_ = mod._hiding_tag_ self.srcname = sg.srcname self.top = self self.IG = IG = mod.nodegraph() Edges = [] Y = Dst.nodes while Y: R = sg.G.domain_restricted(Y) R.invert() IG.update(R) Edges.append(R) Y = R.get_domain() if Edges: Edges.pop() Edges.reverse() self.Src = mod.idset(Edges[0].get_domain()) else: self.Src = mod.iso() self.edges = tuple(Edges) sets = [] for i, e in enumerate(Edges): if i == 0: sets.append(mod.idset(e.get_domain())) sets.append(mod.idset(e.get_range())) self.sets = tuple(sets) mod.OutputHandling.setup_printing(self) self.maxpaths = 10 def __getitem__(self, idx): try: return next(self.iter(start=idx)) except StopIteration: raise IndexError def __iter__(self): return self.iter() def iter(self, start=0, stop=None): return PathsIter(self, start, stop) def aslist(self): return list(self) def copy_but_avoid_edges_at_levels(self, *args): avoid = self.edges_at(*args).updated(self.sg.AvoidEdges) assert avoid._hiding_tag_ is self.mod._hiding_tag_ return self.mod.shpaths(self.Dst, self.Src, avoid_edges=avoid) # return self.mod.shpaths(self.dst, self.src, avoid_edges=avoid) avoided = copy_but_avoid_edges_at_levels # The builtin __len__ doesn't always work due to builtin Python restriction to int result: # so we don't provide it at all to avoid unsuspected errors sometimes. # Use .numpaths attribute instead. # def __len__(self): # return self.numpaths def depth(self): pass def edges_at(self, *args): E = self.mod.nodegraph() for col in args: E.update(self.edges[col]) assert E._hiding_tag_ == self.mod._parent.View._hiding_tag_ return E def numpaths_from(self, Src): try: NP = self.NP except AttributeError: NP = self.mod.nodegraph(is_mapping=True) NP.add_edges_n1(self.IG.get_domain(), None) for dst in self.Dst.nodes: NP.add_edge(dst, 1) self.NP = NP numedges = self.mod.hv.numedges IG = self.IG def np(y): n = NP[y] if n is None: n = 0 for z in IG[y]: sn = NP[z] if sn is None: sn = np(z) n += sn * numedges(y, z) NP[y] = n return n num = 0 for src in Src.nodes: num += np(src) return num def _get_numpaths(self): num = self.numpaths_from(self.Src) self.numpaths = num return num numpaths = property_nondata(fget=_get_numpaths) @property def maxpaths(self): return self.printer.max_more_lines @maxpaths.setter def maxpaths(self, value): self.printer.max_more_lines = value def _oh_get_num_lines(self): return self.numpaths def _oh_get_line_iter(self): for el in self: yield from el._get_line_iter() def _oh_get_more_msg(self, start_lineno, end_lineno): nummore = self.numpaths-(end_lineno+1) return '<... %d more paths ...>' % nummore def _oh_get_empty_msg(self): if self.numpaths: return '<No more paths>' return None class ShortestGraph: def __init__(self, mod, G, DstSets, Src, AvoidEdges, srcname=None, dstname=None): self.mod = mod self.G = G self.Src = Src self.DstSets = DstSets self.AvoidEdges = AvoidEdges if srcname is None: if Src.count == 1: srcname = mod.srcname_1 else: srcname = mod.srcname_n self.srcname = srcname if dstname is None: dstname = mod.dstname self.dstname = dstname def __getitem__(self, idx): return self.mod.ShortestPaths(self, self.DstSets[idx]) def __len__(self): return len(self.DstSets) def __repr__(self): lst = [] for i, p in enumerate(self): lst.append('--- %s[%d] ---' % (self.dstname, i)) lst.append(str(p)) return '\n'.join(lst) class _GLUECLAMP_: _preload_ = ('_hiding_tag_',) _chgable_ = ('output', 'srcname_1', 'srcname_n') srcname_1 = 'Src' srcname_n = '_str_of_src_' dstname = 'Dst' _imports_ = ( '_parent.ImpSet:mutnodeset', '_parent:OutputHandling', '_parent.Use:idset', '_parent.Use:iso', '_parent.Use:Nothing', '_parent.Use:reprefix', '_parent.UniSet:idset_adapt', '_parent.View:hv', '_parent.View:nodegraph', '_parent:View', # NOT View.root, since it may change ) def _get_rel_table(self): table = {} for name in dir(self._module): if name.startswith('R_'): c = getattr(self, name) class r(c, self.RelationBase): repr = self.saferepr saferepr = self.saferepr r.__qualname__ = r.__name__ = 'Based_'+name table[c.code] = r return table def _get__hiding_tag_(self): return self._parent.View._hiding_tag_ def _get_identity(self): return self.rel_table[R_IDENTITY.code]('') def _get_norelation(self): return self.rel_table[R_NORELATION.code]('') def _get_saferepr(self): return self._root.reprlib.repr def _get_shpathstep(self): return self.hv.shpathstep def sortedrels(self, IG, Src): t = [] iso = self.iso for src in Src.nodes: for dst in IG[src]: Dst = iso(dst) for rel in self.relations(src, dst): t.append((rel, Dst)) t.sort(key=lambda x: x[0]) return t def prunedinverted(self, G, Y): IG = self.nodegraph() while Y: R = G.domain_restricted(Y) R.invert() IG.update(R) Y = R.get_domain() return IG def relation(self, src, dst): tab = self.relations(src, dst) if len(tab) > 1: r = MultiRelation(tab) elif not tab: r = self.norelation else: r = tab[0] return r def relations(self, src, dst): tab = [] if src is dst: tab.append(self.identity) rawrel = self.hv.relate(src, dst) for i, rs in enumerate(rawrel): for r in rs: tab.append(self.rel_table[i](r)) if not tab: tab = [self.norelation] return tab def shpaths(self, dst, src=None, avoid_nodes=None, avoid_edges=()): return self.shpgraph([dst], src, avoid_nodes, avoid_edges)[0] def shpgraph(self, DstSets, src=None, avoid_nodes=None, avoid_edges=(), srcname=None, dstname=None): if src is None: Src = self.iso(self.View.root) if srcname is None and self.View.root is self.View.heapyc.RootState: srcname = '%sRoot' % self.reprefix else: Src = self.idset_adapt(src) if avoid_nodes is None: AvoidNodes = self.Nothing else: AvoidNodes = self.idset_adapt(avoid_nodes) AvoidEdges = self.nodegraph(avoid_edges) G, DstSets = self.shpgraph_algorithm( DstSets, Src, AvoidNodes, AvoidEdges) return self.ShortestGraph(self, G, DstSets, Src, AvoidEdges, srcname, dstname) def shpgraph_algorithm(self, DstSets, Src, AvoidNodes, AvoidEdges): U = (Src - AvoidNodes).nodes S = self.mutnodeset(AvoidNodes.nodes) G = self.nodegraph() unseen = list(enumerate(DstSets)) DstSets = [self.Nothing]*len(DstSets) while U and unseen: S |= U U = self.shpathstep(G, U, S, AvoidEdges) unseen_ = [] for i, D in unseen: D_ = D & U if D_: DstSets[i] = D_ else: unseen_.append((i, D)) unseen = unseen_ return G, [self.idset_adapt(D) for D in DstSets] class _Specification_: class GlueTypeExpr: exec("""\ shpgraph <in> callable """.replace('<in>', ' = lambda IN : '))