upstream/mercurial-mirror Files · mercurial/cffi/bdiff.py

debugdeltachain: avoid division by zero when a chain is empty...

debugdeltachain: avoid division by zero when a chain is empty The two ratios chainratio and extraratio are computed using dividers that may be zero when the file is empty. As the denominators are integers, the limit of the ratio "just before zero" is the numerator value itself. If the numerator itself is zero, the ratio value is still meaningful: in both cases, a "good" value is a low ratio, and a size of zero is the optimal case.

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      # bdiff.py - CFFI implementation of bdiff.c

      #

      # Copyright 2016 Maciej Fijalkowski <fijall@gmail.com>

      #

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

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

      from __future__ import absolute_import

      import struct

      from ..pure.bdiff import *

      from . import _bdiff

      ffi = _bdiff.ffi

      lib = _bdiff.lib

      def blocks(sa, sb):

          a = ffi.new("struct bdiff_line**")

          b = ffi.new("struct bdiff_line**")

          ac = ffi.new("char[]", str(sa))

          bc = ffi.new("char[]", str(sb))

          l = ffi.new("struct bdiff_hunk*")

          try:

              an = lib.bdiff_splitlines(ac, len(sa), a)

              bn = lib.bdiff_splitlines(bc, len(sb), b)

              if not a[0] or not b[0]:

                  raise MemoryError

              count = lib.bdiff_diff(a[0], an, b[0], bn, l)

              if count < 0:

                  raise MemoryError

              rl = [None] * count

              h = l.next

              i = 0

              while h:

                  rl[i] = (h.a1, h.a2, h.b1, h.b2)

                  h = h.next

                  i += 1

          finally:

              lib.free(a[0])

              lib.free(b[0])

              lib.bdiff_freehunks(l.next)

          return rl

      def bdiff(sa, sb):

          a = ffi.new("struct bdiff_line**")

          b = ffi.new("struct bdiff_line**")

          ac = ffi.new("char[]", str(sa))

          bc = ffi.new("char[]", str(sb))

          l = ffi.new("struct bdiff_hunk*")

          try:

              an = lib.bdiff_splitlines(ac, len(sa), a)

              bn = lib.bdiff_splitlines(bc, len(sb), b)

              if not a[0] or not b[0]:

                  raise MemoryError

              count = lib.bdiff_diff(a[0], an, b[0], bn, l)

              if count < 0:

                  raise MemoryError

              rl = []

              h = l.next

              la = lb = 0

              while h:

                  if h.a1 != la or h.b1 != lb:

                      lgt = (b[0] + h.b1).l - (b[0] + lb).l

                      rl.append(struct.pack(">lll", (a[0] + la).l - a[0].l,

                                            (a[0] + h.a1).l - a[0].l, lgt))

                      rl.append(str(ffi.buffer((b[0] + lb).l, lgt)))

                  la = h.a2

                  lb = h.b2

                  h = h.next

          finally:

              lib.free(a[0])

              lib.free(b[0])

              lib.bdiff_freehunks(l.next)

          return "".join(rl)

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				# bdiff.py - CFFI implementation of bdiff.c
				#
				# Copyright 2016 Maciej Fijalkowski <fijall@gmail.com>
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				from __future__ import absolute_import

				import struct

				from ..pure.bdiff import *
				from . import _bdiff

				ffi = _bdiff.ffi
				lib = _bdiff.lib

				def blocks(sa, sb):
				a = ffi.new("struct bdiff_line**")
				b = ffi.new("struct bdiff_line**")
				ac = ffi.new("char[]", str(sa))
				bc = ffi.new("char[]", str(sb))
				l = ffi.new("struct bdiff_hunk*")
				try:
				an = lib.bdiff_splitlines(ac, len(sa), a)
				bn = lib.bdiff_splitlines(bc, len(sb), b)
				if not a[0] or not b[0]:
				raise MemoryError
				count = lib.bdiff_diff(a[0], an, b[0], bn, l)
				if count < 0:
				raise MemoryError
				rl = [None] * count
				h = l.next
				i = 0
				while h:
				rl[i] = (h.a1, h.a2, h.b1, h.b2)
				h = h.next
				i += 1
				finally:
				lib.free(a[0])
				lib.free(b[0])
				lib.bdiff_freehunks(l.next)
				return rl

				def bdiff(sa, sb):
				a = ffi.new("struct bdiff_line**")
				b = ffi.new("struct bdiff_line**")
				ac = ffi.new("char[]", str(sa))
				bc = ffi.new("char[]", str(sb))
				l = ffi.new("struct bdiff_hunk*")
				try:
				an = lib.bdiff_splitlines(ac, len(sa), a)
				bn = lib.bdiff_splitlines(bc, len(sb), b)
				if not a[0] or not b[0]:
				raise MemoryError
				count = lib.bdiff_diff(a[0], an, b[0], bn, l)
				if count < 0:
				raise MemoryError
				rl = []
				h = l.next
				la = lb = 0
				while h:
				if h.a1 != la or h.b1 != lb:
				lgt = (b[0] + h.b1).l - (b[0] + lb).l
				rl.append(struct.pack(">lll", (a[0] + la).l - a[0].l,
				(a[0] + h.a1).l - a[0].l, lgt))
				rl.append(str(ffi.buffer((b[0] + lb).l, lgt)))
				la = h.a2
				lb = h.b2
				h = h.next

				finally:
				lib.free(a[0])
				lib.free(b[0])
				lib.bdiff_freehunks(l.next)
				return "".join(rl)