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

encoding: add fast-path for ASCII uppercase....

encoding: add fast-path for ASCII uppercase. This copies the performance hack from encoding.lower (c481761033bd). The case-folding logic that kicks in on case-insensitive filesystems hits encoding.upper hard: with a repository with 75k files, the timings went from hg perfstatus ! wall 3.156000 comb 3.156250 user 1.625000 sys 1.531250 (best of 3) to hg perfstatus ! wall 2.390000 comb 2.390625 user 1.078125 sys 1.312500 (best of 5) This is a 24% decrease. For comparison, Mercurial 2.0 gives: hg perfstatus ! wall 2.172000 comb 2.171875 user 0.984375 sys 1.187500 (best of 5) so we're only 10% slower than before we added the extra case-folding logic. The same decrease is seen when executing 'hg status' as normal, where we go from: hg status --time time: real 4.322 secs (user 2.219+0.000 sys 2.094+0.000) to hg status --time time: real 3.307 secs (user 1.750+0.000 sys 1.547+0.000)

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      # ancestor.py - generic DAG ancestor algorithm for mercurial

      #

      # Copyright 2006 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.

      import heapq

      def ancestor(a, b, pfunc):

          """

          Returns the common ancestor of a and b that is furthest from a

          root (as measured by longest path) or None if no ancestor is

          found. If there are multiple common ancestors at the same

          distance, the first one found is returned.

          pfunc must return a list of parent vertices for a given vertex

          """

          if a == b:

              return a

          a, b = sorted([a, b])

          # find depth from root of all ancestors

          # depth is stored as a negative for heapq

          parentcache = {}

          visit = [a, b]

          depth = {}

          while visit:

              vertex = visit[-1]

              pl = pfunc(vertex)

              parentcache[vertex] = pl

              if not pl:

                  depth[vertex] = 0

                  visit.pop()

              else:

                  for p in pl:

                      if p == a or p == b: # did we find a or b as a parent?

                          return p # we're done

                      if p not in depth:

                          visit.append(p)

                  if visit[-1] == vertex:

                      # -(maximum distance of parents + 1)

                      depth[vertex] = min([depth[p] for p in pl]) - 1

                      visit.pop()

          # traverse ancestors in order of decreasing distance from root

          def ancestors(vertex):

              h = [(depth[vertex], vertex)]

              seen = set()

              while h:

                  d, n = heapq.heappop(h)

                  if n not in seen:

                      seen.add(n)

                      yield (d, n)

                      for p in parentcache[n]:

                          heapq.heappush(h, (depth[p], p))

          def generations(vertex):

              sg, s = None, set()

              for g, v in ancestors(vertex):

                  if g != sg:

                      if sg:

                          yield sg, s

                      sg, s = g, set((v,))

                  else:

                      s.add(v)

              yield sg, s

          x = generations(a)

          y = generations(b)

          gx = x.next()

          gy = y.next()

          # increment each ancestor list until it is closer to root than

          # the other, or they match

          try:

              while True:

                  if gx[0] == gy[0]:

                      for v in gx[1]:

                          if v in gy[1]:

                              return v

                      gy = y.next()

                      gx = x.next()

                  elif gx[0] > gy[0]:

                      gy = y.next()

                  else:

                      gx = x.next()

          except StopIteration:

              return None

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				# ancestor.py - generic DAG ancestor algorithm for mercurial
				#
				# Copyright 2006 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.

				import heapq

				def ancestor(a, b, pfunc):
				"""
				Returns the common ancestor of a and b that is furthest from a
				root (as measured by longest path) or None if no ancestor is
				found. If there are multiple common ancestors at the same
				distance, the first one found is returned.

				pfunc must return a list of parent vertices for a given vertex
				"""

				if a == b:
				return a

				a, b = sorted([a, b])

				# find depth from root of all ancestors
				# depth is stored as a negative for heapq
				parentcache = {}
				visit = [a, b]
				depth = {}
				while visit:
				vertex = visit[-1]
				pl = pfunc(vertex)
				parentcache[vertex] = pl
				if not pl:
				depth[vertex] = 0
				visit.pop()
				else:
				for p in pl:
				if p == a or p == b: # did we find a or b as a parent?
				return p # we're done
				if p not in depth:
				visit.append(p)
				if visit[-1] == vertex:
				# -(maximum distance of parents + 1)
				depth[vertex] = min([depth[p] for p in pl]) - 1
				visit.pop()

				# traverse ancestors in order of decreasing distance from root
				def ancestors(vertex):
				h = [(depth[vertex], vertex)]
				seen = set()
				while h:
				d, n = heapq.heappop(h)
				if n not in seen:
				seen.add(n)
				yield (d, n)
				for p in parentcache[n]:
				heapq.heappush(h, (depth[p], p))

				def generations(vertex):
				sg, s = None, set()
				for g, v in ancestors(vertex):
				if g != sg:
				if sg:
				yield sg, s
				sg, s = g, set((v,))
				else:
				s.add(v)
				yield sg, s

				x = generations(a)
				y = generations(b)
				gx = x.next()
				gy = y.next()

				# increment each ancestor list until it is closer to root than
				# the other, or they match
				try:
				while True:
				if gx[0] == gy[0]:
				for v in gx[1]:
				if v in gy[1]:
				return v
				gy = y.next()
				gx = x.next()
				elif gx[0] > gy[0]:
				gy = y.next()
				else:
				gx = x.next()
				except StopIteration:
				return None