upstream/mercurial-mirror Files · mercurial/pure/mpatch.py

dirstate.status: don't ignore symlink placeholders in the normal set...

dirstate.status: don't ignore symlink placeholders in the normal set On Windows, there are two ways symlinks can manifest themselves: 1. As placeholders: text files containing the symlink's target. This is what usually happens with fresh clones on Windows. 2. With their dereferenced contents. This happens with clones accessed over NFS or Samba. In order to handle case 2, made dirstate.status ignore all symlink placeholders on Windows. It doesn't ignore symlinks in the lookup set, though, since those don't have the link bit set. This is problematic because it violates the invariant that `hg status` with every file in the normal set produces the same output as `hg status` with every file in the lookup set. With this change, symlink placeholders in the normal set are no longer ignored. We instead rely on code in localrepo.status that uses heuristics to look for suspect placeholders. An upcoming patch will test this out by no longer adding files written in the last second of an update to the lookup set.

Brodie Rao - - Load All Authors

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      # mpatch.py - Python implementation of mpatch.c

      #

      # Copyright 2009 Matt Mackall <mpm@selenic.com> and others

      #

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

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

      import struct

      try:

          from cStringIO import StringIO

      except ImportError:

          from StringIO import StringIO

      # This attempts to apply a series of patches in time proportional to

      # the total size of the patches, rather than patches * len(text). This

      # means rather than shuffling strings around, we shuffle around

      # pointers to fragments with fragment lists.

      #

      # When the fragment lists get too long, we collapse them. To do this

      # efficiently, we do all our operations inside a buffer created by

      # mmap and simply use memmove. This avoids creating a bunch of large

      # temporary string buffers.

      def patches(a, bins):

          if not bins:

              return a

          plens = [len(x) for x in bins]

          pl = sum(plens)

          bl = len(a) + pl

          tl = bl + bl + pl # enough for the patches and two working texts

          b1, b2 = 0, bl

          if not tl:

              return a

          m = StringIO()

          def move(dest, src, count):

              """move count bytes from src to dest

              The file pointer is left at the end of dest.

              """

              m.seek(src)

              buf = m.read(count)

              m.seek(dest)

              m.write(buf)

          # load our original text

          m.write(a)

          frags = [(len(a), b1)]

          # copy all the patches into our segment so we can memmove from them

          pos = b2 + bl

          m.seek(pos)

          for p in bins: m.write(p)

          def pull(dst, src, l): # pull l bytes from src

              while l:

                  f = src.pop()

                  if f[0] > l: # do we need to split?

                      src.append((f[0] - l, f[1] + l))

                      dst.append((l, f[1]))

                      return

                  dst.append(f)

                  l -= f[0]

          def collect(buf, list):

              start = buf

              for l, p in reversed(list):

                  move(buf, p, l)

                  buf += l

              return (buf - start, start)

          for plen in plens:

              # if our list gets too long, execute it

              if len(frags) > 128:

                  b2, b1 = b1, b2

                  frags = [collect(b1, frags)]

              new = []

              end = pos + plen

              last = 0

              while pos < end:

                  m.seek(pos)

                  p1, p2, l = struct.unpack(">lll", m.read(12))

                  pull(new, frags, p1 - last) # what didn't change

                  pull([], frags, p2 - p1)    # what got deleted

                  new.append((l, pos + 12))   # what got added

                  pos += l + 12

                  last = p2

              frags.extend(reversed(new))     # what was left at the end

          t = collect(b2, frags)

          m.seek(t[1])

          return m.read(t[0])

      def patchedsize(orig, delta):

          outlen, last, bin = 0, 0, 0

          binend = len(delta)

          data = 12

          while data <= binend:

              decode = delta[bin:bin + 12]

              start, end, length = struct.unpack(">lll", decode)

              if start > end:

                  break

              bin = data + length

              data = bin + 12

              outlen += start - last

              last = end

              outlen += length

          if bin != binend:

              raise ValueError("patch cannot be decoded")

          outlen += orig - last

          return outlen

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				# mpatch.py - Python implementation of mpatch.c
				#
				# Copyright 2009 Matt Mackall <mpm@selenic.com> and others
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				import struct
				try:
				from cStringIO import StringIO
				except ImportError:
				from StringIO import StringIO

				# This attempts to apply a series of patches in time proportional to
				# the total size of the patches, rather than patches * len(text). This
				# means rather than shuffling strings around, we shuffle around
				# pointers to fragments with fragment lists.
				#
				# When the fragment lists get too long, we collapse them. To do this
				# efficiently, we do all our operations inside a buffer created by
				# mmap and simply use memmove. This avoids creating a bunch of large
				# temporary string buffers.

				def patches(a, bins):
				if not bins:
				return a

				plens = [len(x) for x in bins]
				pl = sum(plens)
				bl = len(a) + pl
				tl = bl + bl + pl # enough for the patches and two working texts
				b1, b2 = 0, bl

				if not tl:
				return a

				m = StringIO()
				def move(dest, src, count):
				"""move count bytes from src to dest

				The file pointer is left at the end of dest.
				"""
				m.seek(src)
				buf = m.read(count)
				m.seek(dest)
				m.write(buf)

				# load our original text
				m.write(a)
				frags = [(len(a), b1)]

				# copy all the patches into our segment so we can memmove from them
				pos = b2 + bl
				m.seek(pos)
				for p in bins: m.write(p)

				def pull(dst, src, l): # pull l bytes from src
				while l:
				f = src.pop()
				if f[0] > l: # do we need to split?
				src.append((f[0] - l, f[1] + l))
				dst.append((l, f[1]))
				return
				dst.append(f)
				l -= f[0]

				def collect(buf, list):
				start = buf
				for l, p in reversed(list):
				move(buf, p, l)
				buf += l
				return (buf - start, start)

				for plen in plens:
				# if our list gets too long, execute it
				if len(frags) > 128:
				b2, b1 = b1, b2
				frags = [collect(b1, frags)]

				new = []
				end = pos + plen
				last = 0
				while pos < end:
				m.seek(pos)
				p1, p2, l = struct.unpack(">lll", m.read(12))
				pull(new, frags, p1 - last) # what didn't change
				pull([], frags, p2 - p1) # what got deleted
				new.append((l, pos + 12)) # what got added
				pos += l + 12
				last = p2
				frags.extend(reversed(new)) # what was left at the end

				t = collect(b2, frags)

				m.seek(t[1])
				return m.read(t[0])

				def patchedsize(orig, delta):
				outlen, last, bin = 0, 0, 0
				binend = len(delta)
				data = 12

				while data <= binend:
				decode = delta[bin:bin + 12]
				start, end, length = struct.unpack(">lll", decode)
				if start > end:
				break
				bin = data + length
				data = bin + 12
				outlen += start - last
				last = end
				outlen += length

				if bin != binend:
				raise ValueError("patch cannot be decoded")

				outlen += orig - last
				return outlen