upstream/mercurial-mirror Files · mercurial/pvec.py

verify: don't init subrepo when missing one is referenced (issue5128) (API)...

verify: don't init subrepo when missing one is referenced (issue5128) (API) Initializing a subrepo when one doesn't exist is the right thing to do when the parent is being updated, but in few other cases. Unfortunately, there isn't enough context in the subrepo module to distinguish this case. This same issue can be caused with other subrepo aware commands, so there is a general issue here beyond the scope of this fix. A simpler attempt I tried was to add an '_updating' boolean to localrepo, and set/clear it around the call to mergemod.update() in hg.updaterepo(). That mostly worked, but doesn't handle the case where archive will clone the subrepo if it is missing. (I vaguely recall that there may be other commands that will clone if needed like this, but certainly not all do. It seems both handy, and a bit surprising for what should be a read only operation. It might be nice if all commands did this consistently, but we probably need Angel's subrepo caching first, to not make a mess of the working directory.) I originally handled 'Exception' in order to pick up the Aborts raised in subrepo.state(), but this turns out to be unnecessary because that is called once and cached by ctx.sub() when iterating the subrepos. It was suggested in the bug discussion to skip looking at the subrepo links unless -S is specified. I don't really like that idea because missing a subrepo or (less likely, but worse) a corrupt .hgsubstate is a problem of the parent repo when checking out a revision. The -S option seems like a better fit for functionality that would recurse into each subrepo and do a full verification. Ultimately, the default value for 'allowcreate' should probably be flipped, but since the default behavior was to allow creation, this is less risky for now.

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      # pvec.py - probabilistic vector clocks for Mercurial

      #

      # Copyright 2012 Matt Mackall <mpm@selenic.com>

      #

      # This software may be used and distributed according to the terms of the

      # GNU General Public License version 2 or any later version.

      '''

      A "pvec" is a changeset property based on the theory of vector clocks

      that can be compared to discover relatedness without consulting a

      graph. This can be useful for tasks like determining how a

      disconnected patch relates to a repository.

      Currently a pvec consist of 448 bits, of which 24 are 'depth' and the

      remainder are a bit vector. It is represented as a 70-character base85

      string.

      Construction:

      - a root changeset has a depth of 0 and a bit vector based on its hash

      - a normal commit has a changeset where depth is increased by one and

        one bit vector bit is flipped based on its hash

      - a merge changeset pvec is constructed by copying changes from one pvec into

        the other to balance its depth

      Properties:

      - for linear changes, difference in depth is always <= hamming distance

      - otherwise, changes are probably divergent

      - when hamming distance is < 200, we can reliably detect when pvecs are near

      Issues:

      - hamming distance ceases to work over distances of ~ 200

      - detecting divergence is less accurate when the common ancestor is very close

        to either revision or total distance is high

      - this could probably be improved by modeling the relation between

        delta and hdist

      Uses:

      - a patch pvec can be used to locate the nearest available common ancestor for

        resolving conflicts

      - ordering of patches can be established without a DAG

      - two head pvecs can be compared to determine whether push/pull/merge is needed

        and approximately how many changesets are involved

      - can be used to find a heuristic divergence measure between changesets on

        different branches

      '''

      from __future__ import absolute_import

      from .node import nullrev

      from . import (

          base85,

          util,

      )

      _size = 448 # 70 chars b85-encoded

      _bytes = _size / 8

      _depthbits = 24

      _depthbytes = _depthbits / 8

      _vecbytes = _bytes - _depthbytes

      _vecbits = _vecbytes * 8

      _radius = (_vecbits - 30) / 2 # high probability vectors are related

      def _bin(bs):

          '''convert a bytestring to a long'''

          v = 0

          for b in bs:

              v = v * 256 + ord(b)

          return v

      def _str(v, l):

          bs = ""

          for p in xrange(l):

              bs = chr(v & 255) + bs

              v >>= 8

          return bs

      def _split(b):

          '''depth and bitvec'''

          return _bin(b[:_depthbytes]), _bin(b[_depthbytes:])

      def _join(depth, bitvec):

          return _str(depth, _depthbytes) + _str(bitvec, _vecbytes)

      def _hweight(x):

          c = 0

          while x:

              if x & 1:

                  c += 1

              x >>= 1

          return c

      _htab = [_hweight(x) for x in xrange(256)]

      def _hamming(a, b):

          '''find the hamming distance between two longs'''

          d = a ^ b

          c = 0

          while d:

              c += _htab[d & 0xff]

              d >>= 8

          return c

      def _mergevec(x, y, c):

          # Ideally, this function would be x ^ y ^ ancestor, but finding

          # ancestors is a nuisance. So instead we find the minimal number

          # of changes to balance the depth and hamming distance

          d1, v1 = x

          d2, v2 = y

          if d1 < d2:

              d1, d2, v1, v2 = d2, d1, v2, v1

          hdist = _hamming(v1, v2)

          ddist = d1 - d2

          v = v1

          m = v1 ^ v2 # mask of different bits

          i = 1

          if hdist > ddist:

              # if delta = 10 and hdist = 100, then we need to go up 55 steps

              # to the ancestor and down 45

              changes = (hdist - ddist + 1) / 2

          else:

              # must make at least one change

              changes = 1

          depth = d1 + changes

          # copy changes from v2

          if m:

              while changes:

                  if m & i:

                      v ^= i

                      changes -= 1

                  i <<= 1

          else:

              v = _flipbit(v, c)

          return depth, v

      def _flipbit(v, node):

          # converting bit strings to longs is slow

          bit = (hash(node) & 0xffffffff) % _vecbits

          return v ^ (1<<bit)

      def ctxpvec(ctx):

          '''construct a pvec for ctx while filling in the cache'''

          r = ctx.repo()

          if not util.safehasattr(r, "_pveccache"):

              r._pveccache = {}

          pvc = r._pveccache

          if ctx.rev() not in pvc:

              cl = r.changelog

              for n in xrange(ctx.rev() + 1):

                  if n not in pvc:

                      node = cl.node(n)

                      p1, p2 = cl.parentrevs(n)

                      if p1 == nullrev:

                          # start with a 'random' vector at root

                          pvc[n] = (0, _bin((node * 3)[:_vecbytes]))

                      elif p2 == nullrev:

                          d, v = pvc[p1]

                          pvc[n] = (d + 1, _flipbit(v, node))

                      else:

                          pvc[n] = _mergevec(pvc[p1], pvc[p2], node)

          bs = _join(*pvc[ctx.rev()])

          return pvec(base85.b85encode(bs))

      class pvec(object):

          def __init__(self, hashorctx):

              if isinstance(hashorctx, str):

                  self._bs = hashorctx

                  self._depth, self._vec = _split(base85.b85decode(hashorctx))

              else:

                  self._vec = ctxpvec(hashorctx)

          def __str__(self):

              return self._bs

          def __eq__(self, b):

              return self._vec == b._vec and self._depth == b._depth

          def __lt__(self, b):

              delta = b._depth - self._depth

              if delta < 0:

                  return False # always correct

              if _hamming(self._vec, b._vec) > delta:

                  return False

              return True

          def __gt__(self, b):

              return b < self

          def __or__(self, b):

              delta = abs(b._depth - self._depth)

              if _hamming(self._vec, b._vec) <= delta:

                  return False

              return True

          def __sub__(self, b):

              if self | b:

                  raise ValueError("concurrent pvecs")

              return self._depth - b._depth

          def distance(self, b):

              d = abs(b._depth - self._depth)

              h = _hamming(self._vec, b._vec)

              return max(d, h)

          def near(self, b):

              dist = abs(b.depth - self._depth)

              if dist > _radius or _hamming(self._vec, b._vec) > _radius:

                  return False

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				# pvec.py - probabilistic vector clocks for Mercurial
				#
				# Copyright 2012 Matt Mackall <mpm@selenic.com>
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				'''
				A "pvec" is a changeset property based on the theory of vector clocks
				that can be compared to discover relatedness without consulting a
				graph. This can be useful for tasks like determining how a
				disconnected patch relates to a repository.

				Currently a pvec consist of 448 bits, of which 24 are 'depth' and the
				remainder are a bit vector. It is represented as a 70-character base85
				string.

				Construction:

				- a root changeset has a depth of 0 and a bit vector based on its hash
				- a normal commit has a changeset where depth is increased by one and
				one bit vector bit is flipped based on its hash
				- a merge changeset pvec is constructed by copying changes from one pvec into
				the other to balance its depth

				Properties:

				- for linear changes, difference in depth is always <= hamming distance
				- otherwise, changes are probably divergent
				- when hamming distance is < 200, we can reliably detect when pvecs are near

				Issues:

				- hamming distance ceases to work over distances of ~ 200
				- detecting divergence is less accurate when the common ancestor is very close
				to either revision or total distance is high
				- this could probably be improved by modeling the relation between
				delta and hdist

				Uses:

				- a patch pvec can be used to locate the nearest available common ancestor for
				resolving conflicts
				- ordering of patches can be established without a DAG
				- two head pvecs can be compared to determine whether push/pull/merge is needed
				and approximately how many changesets are involved
				- can be used to find a heuristic divergence measure between changesets on
				different branches
				'''

				from __future__ import absolute_import

				from .node import nullrev
				from . import (
				base85,
				util,
				)

				_size = 448 # 70 chars b85-encoded
				_bytes = _size / 8
				_depthbits = 24
				_depthbytes = _depthbits / 8
				_vecbytes = _bytes - _depthbytes
				_vecbits = _vecbytes * 8
				_radius = (_vecbits - 30) / 2 # high probability vectors are related

				def _bin(bs):
				'''convert a bytestring to a long'''
				v = 0
				for b in bs:
				v = v * 256 + ord(b)
				return v

				def _str(v, l):
				bs = ""
				for p in xrange(l):
				bs = chr(v & 255) + bs
				v >>= 8
				return bs

				def _split(b):
				'''depth and bitvec'''
				return _bin(b[:_depthbytes]), _bin(b[_depthbytes:])

				def _join(depth, bitvec):
				return _str(depth, _depthbytes) + _str(bitvec, _vecbytes)

				def _hweight(x):
				c = 0
				while x:
				if x & 1:
				c += 1
				x >>= 1
				return c
				_htab = [_hweight(x) for x in xrange(256)]

				def _hamming(a, b):
				'''find the hamming distance between two longs'''
				d = a ^ b
				c = 0
				while d:
				c += _htab[d & 0xff]
				d >>= 8
				return c

				def _mergevec(x, y, c):
				# Ideally, this function would be x ^ y ^ ancestor, but finding
				# ancestors is a nuisance. So instead we find the minimal number
				# of changes to balance the depth and hamming distance

				d1, v1 = x
				d2, v2 = y
				if d1 < d2:
				d1, d2, v1, v2 = d2, d1, v2, v1

				hdist = _hamming(v1, v2)
				ddist = d1 - d2
				v = v1
				m = v1 ^ v2 # mask of different bits
				i = 1

				if hdist > ddist:
				# if delta = 10 and hdist = 100, then we need to go up 55 steps
				# to the ancestor and down 45
				changes = (hdist - ddist + 1) / 2
				else:
				# must make at least one change
				changes = 1
				depth = d1 + changes

				# copy changes from v2
				if m:
				while changes:
				if m & i:
				v ^= i
				changes -= 1
				i <<= 1
				else:
				v = _flipbit(v, c)

				return depth, v

				def _flipbit(v, node):
				# converting bit strings to longs is slow
				bit = (hash(node) & 0xffffffff) % _vecbits
				return v ^ (1<<bit)

				def ctxpvec(ctx):
				'''construct a pvec for ctx while filling in the cache'''
				r = ctx.repo()
				if not util.safehasattr(r, "_pveccache"):
				r._pveccache = {}
				pvc = r._pveccache
				if ctx.rev() not in pvc:
				cl = r.changelog
				for n in xrange(ctx.rev() + 1):
				if n not in pvc:
				node = cl.node(n)
				p1, p2 = cl.parentrevs(n)
				if p1 == nullrev:
				# start with a 'random' vector at root
				pvc[n] = (0, _bin((node * 3)[:_vecbytes]))
				elif p2 == nullrev:
				d, v = pvc[p1]
				pvc[n] = (d + 1, _flipbit(v, node))
				else:
				pvc[n] = _mergevec(pvc[p1], pvc[p2], node)
				bs = _join(*pvc[ctx.rev()])
				return pvec(base85.b85encode(bs))

				class pvec(object):
				def __init__(self, hashorctx):
				if isinstance(hashorctx, str):
				self._bs = hashorctx
				self._depth, self._vec = _split(base85.b85decode(hashorctx))
				else:
				self._vec = ctxpvec(hashorctx)

				def __str__(self):
				return self._bs

				def __eq__(self, b):
				return self._vec == b._vec and self._depth == b._depth

				def __lt__(self, b):
				delta = b._depth - self._depth
				if delta < 0:
				return False # always correct
				if _hamming(self._vec, b._vec) > delta:
				return False
				return True

				def __gt__(self, b):
				return b < self

				def __or__(self, b):
				delta = abs(b._depth - self._depth)
				if _hamming(self._vec, b._vec) <= delta:
				return False
				return True

				def __sub__(self, b):
				if self \| b:
				raise ValueError("concurrent pvecs")
				return self._depth - b._depth

				def distance(self, b):
				d = abs(b._depth - self._depth)
				h = _hamming(self._vec, b._vec)
				return max(d, h)

				def near(self, b):
				dist = abs(b.depth - self._depth)
				if dist > _radius or _hamming(self._vec, b._vec) > _radius:
				return False