daisycloud-core/patch.py

""" Patch utility to apply unified diffs

    Brute-force line-by-line non-recursive parsing 

    Copyright (c) 2008-2011 anatoly techtonik
    Available under the terms of MIT license

    Project home: http://code.google.com/p/python-patch/


    $Id: patch.py 150 2011-10-07 09:31:02Z techtonik $
    $HeadURL: http://python-patch.googlecode.com/svn/trunk/patch.py $

MIT License
-----------

Copyright (c) 2008-2011 anatoly techtonik

Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:

The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.

THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.

"""

__author__ = "techtonik.rainforce.org"
__version__ = "1.11.10-dev"

import copy
import logging
import re
# cStringIO doesn't support unicode in 2.5
from StringIO import StringIO
import urllib2

from os.path import exists, isabs, isfile, abspath, normpath
import os


#------------------------------------------------
# Logging is controlled by logger named after the
# module name (e.g. 'patch' for patch.py module)

debugmode = False

logger = logging.getLogger(__name__)

debug = logger.debug
info = logger.info
warning = logger.warning

#------------------------------------------------

# constants for Patch/PatchSet types

DIFF = PLAIN = "plain"
GIT = "git"
HG = MERCURIAL = "mercurial"
SVN = SUBVERSION = "svn"
# mixed type is only actual when PatchSet contains
# Patches of different type
MIXED = MIXED = "mixed"


def fromfile(filename):
  """ Parse patch file and return PatchSet() object
      XXX error reporting
  """
  debug("reading %s" % filename)
  fp = open(filename, "rb")
  patchset = PatchSet(fp)
  fp.close()
  return patchset


def fromstring(s):
  """ Parse text string and return PatchSet() object
  """
  return PatchSet( StringIO(s) )


def fromurl(url):
  """ Read patch from URL
  """
  return PatchSet( urllib2.urlopen(url) )


class Hunk(object):
  """ Parsed hunk data container (hunk starts with @@ -R +R @@) """

  def __init__(self):
    self.startsrc=None #: line count starts with 1
    self.linessrc=None
    self.starttgt=None
    self.linestgt=None
    self.invalid=False
    self.text=[]

#  def apply(self, estream):
#    """ write hunk data into enumerable stream
#        return strings one by one until hunk is
#        over
#
#        enumerable stream are tuples (lineno, line)
#        where lineno starts with 0
#    """
#    pass


class Patch(object):
  """ Patch for a single file """
  def __init__(self):
    self.source = None 
    self.target = None
    self.hunks = []
    self.hunkends = []
    self.header = []

    self.type = None


class PatchSet(object):

  def __init__(self, stream=None):
    self.name = None   # descriptive name of the PatchSet

    # list of Patch objects
    self.items = []

    #: patch set type - one of constants
    self.type = None

    if stream:
      self.parse(stream)

  def __len__(self):
    return len(self.items)

  def parse(self, stream):
    """ parse unified diff
        return True on success
    """
    lineends = dict(lf=0, crlf=0, cr=0)
    nexthunkno = 0    #: even if index starts with 0 user messages number hunks from 1

    p = None
    hunk = None
    # hunkactual variable is used to calculate hunk lines for comparison
    hunkactual = dict(linessrc=None, linestgt=None)


    class wrapumerate(enumerate):
      """Enumerate wrapper that uses boolean end of stream status instead of
      StopIteration exception, and properties to access line information.
      """

      def __init__(self, *args, **kwargs):
        # we don't call parent, it is magically created by __new__ method

        self._exhausted = False
        self._lineno = False     # after end of stream equal to the num of lines
        self._line = False       # will be reset to False after end of stream

      def next(self):
        """Try to read the next line and return True if it is available,
           False if end of stream is reached."""
        if self._exhausted:
          return False

        try:
          self._lineno, self._line = super(wrapumerate, self).next()
        except StopIteration:
          self._exhausted = True
          self._line = False
          return False
        return True

      @property
      def is_empty(self):
        return self._exhausted

      @property
      def line(self):
        return self._line

      @property
      def lineno(self):
        return self._lineno

    # define states (possible file regions) that direct parse flow
    headscan  = True  # start with scanning header
    filenames = False # lines starting with --- and +++

    hunkhead = False  # @@ -R +R @@ sequence
    hunkbody = False  #
    hunkskip = False  # skipping invalid hunk mode

    hunkparsed = False # state after successfully parsed hunk

    # regexp to match start of hunk, used groups - 1,3,4,6
    re_hunk_start = re.compile("^@@ -(\d+)(,(\d+))? \+(\d+)(,(\d+))?")
    
    errors = 0
    # temp buffers for header and filenames info
    header = []
    srcname = None
    tgtname = None

    # start of main cycle
    # each parsing block already has line available in fe.line
    fe = wrapumerate(stream)
    while fe.next():

      # -- deciders: these only switch state to decide who should process
      # --           line fetched at the start of this cycle
      if hunkparsed:
        hunkparsed = False
        if re_hunk_start.match(fe.line):
            hunkhead = True
        elif fe.line.startswith("--- "):
            filenames = True
        else:
            headscan = True
      # -- ------------------------------------

      # read out header
      if headscan:
        while not fe.is_empty and not fe.line.startswith("--- "):
            header.append(fe.line)
            fe.next()
        if fe.is_empty:
            if p == None:
              errors += 1
              warning("warning: no patch data is found")
            else:
              info("%d unparsed bytes left at the end of stream" % len(''.join(header)))
              # TODO check for \No new line at the end.. 
              # TODO test for unparsed bytes
              # otherwise error += 1
            # this is actually a loop exit
            continue

        headscan = False
        # switch to filenames state
        filenames = True

      line = fe.line
      lineno = fe.lineno


      # hunkskip and hunkbody code skipped until definition of hunkhead is parsed
      if hunkbody:
        # process line first
        if re.match(r"^[- \+\\]", line):
            # gather stats about line endings
            if line.endswith("\r\n"):
              p.hunkends["crlf"] += 1
            elif line.endswith("\n"):
              p.hunkends["lf"] += 1
            elif line.endswith("\r"):
              p.hunkends["cr"] += 1
              
            if line.startswith("-"):
              hunkactual["linessrc"] += 1
            elif line.startswith("+"):
              hunkactual["linestgt"] += 1
            elif not line.startswith("\\"):
              hunkactual["linessrc"] += 1
              hunkactual["linestgt"] += 1
            hunk.text.append(line)
            # todo: handle \ No newline cases
        else:
            warning("invalid hunk no.%d at %d for target file %s" % (nexthunkno, lineno+1, p.target))
            # add hunk status node
            hunk.invalid = True
            p.hunks.append(hunk)
            errors += 1
            # switch to hunkskip state
            hunkbody = False
            hunkskip = True

        # check exit conditions
        if hunkactual["linessrc"] > hunk.linessrc or hunkactual["linestgt"] > hunk.linestgt:
            warning("extra lines for hunk no.%d at %d for target %s" % (nexthunkno, lineno+1, p.target))
            # add hunk status node
            hunk.invalid = True
            p.hunks.append(hunk)
            errors += 1
            # switch to hunkskip state
            hunkbody = False
            hunkskip = True
        elif hunk.linessrc == hunkactual["linessrc"] and hunk.linestgt == hunkactual["linestgt"]:
            # hunk parsed successfully
            p.hunks.append(hunk)
            # switch to hunkparsed state
            hunkbody = False
            hunkparsed = True

            # detect mixed window/unix line ends
            ends = p.hunkends
            if ((ends["cr"]!=0) + (ends["crlf"]!=0) + (ends["lf"]!=0)) > 1:
              warning("inconsistent line ends in patch hunks for %s" % p.source)
            if debugmode:
              debuglines = dict(ends)
              debuglines.update(file=p.target, hunk=nexthunkno)
              debug("crlf: %(crlf)d  lf: %(lf)d  cr: %(cr)d\t - file: %(file)s hunk: %(hunk)d" % debuglines)
            # fetch next line
            continue

      if hunkskip:
        if re_hunk_start.match(line):
          # switch to hunkhead state
          hunkskip = False
          hunkhead = True
        elif line.startswith("--- "):
          # switch to filenames state
          hunkskip = False
          filenames = True
          if debugmode and len(self.items) > 0:
            debug("- %2d hunks for %s" % (len(p.hunks), p.source))

      if filenames:
        if line.startswith("--- "):
          if srcname != None:
            # XXX testcase
            warning("skipping false patch for %s" % srcname)
            srcname = None
            # XXX header += srcname
            # double source filename line is encountered
            # attempt to restart from this second line
          re_filename = "^--- ([^\t]+)"
          match = re.match(re_filename, line)
          # todo: support spaces in filenames
          if match:
            srcname = match.group(1).strip()
          else:
            warning("skipping invalid filename at line %d" % lineno)
            errors += 1
            # XXX p.header += line
            # switch back to headscan state
            filenames = False
            headscan = True
        elif not line.startswith("+++ "):
          if srcname != None:
            warning("skipping invalid patch with no target for %s" % srcname)
            errors += 1
            srcname = None
            # XXX header += srcname
            # XXX header += line
          else:
            # this should be unreachable
            warning("skipping invalid target patch")
          filenames = False
          headscan = True
        else:
          if tgtname != None:
            # XXX seems to be a dead branch  
            warning("skipping invalid patch - double target at line %d" % lineno)
            errors += 1
            srcname = None
            tgtname = None
            # XXX header += srcname
            # XXX header += tgtname
            # XXX header += line
            # double target filename line is encountered
            # switch back to headscan state
            filenames = False
            headscan = True
          else:
            re_filename = "^\+\+\+ ([^\t]+)"
            match = re.match(re_filename, line)
            if not match:
              warning("skipping invalid patch - no target filename at line %d" % lineno)
              errors += 1
              srcname = None
              # switch back to headscan state
              filenames = False
              headscan = True
            else:
              if p: # for the first run p is None
                self.items.append(p)
              p = Patch()
              p.source = srcname
              srcname = None
              p.target = match.group(1).strip()
              p.header = header
              header = []
              # switch to hunkhead state
              filenames = False
              hunkhead = True
              nexthunkno = 0
              p.hunkends = lineends.copy()
              continue

      if hunkhead:
        match = re.match("^@@ -(\d+)(,(\d+))? \+(\d+)(,(\d+))?", line)
        if not match:
          if not p.hunks:
            warning("skipping invalid patch with no hunks for file %s" % p.source)
            errors += 1
            # XXX review switch
            # switch to headscan state
            hunkhead = False
            headscan = True
            continue
          else:
            # TODO review condition case
            # switch to headscan state
            hunkhead = False
            headscan = True
        else:
          hunk = Hunk()
          hunk.startsrc = int(match.group(1))
          hunk.linessrc = 1
          if match.group(3): hunk.linessrc = int(match.group(3))
          hunk.starttgt = int(match.group(4))
          hunk.linestgt = 1
          if match.group(6): hunk.linestgt = int(match.group(6))
          hunk.invalid = False
          hunk.text = []

          hunkactual["linessrc"] = hunkactual["linestgt"] = 0

          # switch to hunkbody state
          hunkhead = False
          hunkbody = True
          nexthunkno += 1
          continue


    self.items.append(p)

    if not hunkparsed:
      if hunkskip:
        warning("warning: finished with warnings, some hunks may be invalid")
      elif headscan:
        if len(self.items) == 0:
          warning("error: no patch data found!")
          # ? sys.exit(-1)
        else: # extra data at the end of file
          pass 
      else:
        warning("error: patch stream is incomplete!")
        errors += 1

    if debugmode and len(self.items) > 0:
        debug("- %2d hunks for %s" % (len(p.hunks), p.source))

    # XXX fix total hunks calculation
    debug("total files: %d  total hunks: %d" % (len(self.items),
        sum(len(p.hunks) for p in self.items)))

    # ---- detect patch and patchset types ----
    for idx, p in enumerate(self.items):
      self.items[idx].type = self._detect_type(p)

    types = set([p.type for p in self.items])
    if len(types) > 1:
      self.type = MIXED
    else:
      self.type = types.pop()

    # --------
    if not self._normalize_filenames():
      errors += 1
    
    return (errors == 0)

  def _detect_type(self, p):
    """ detect and return type for the specified Patch object
        analyzes header and filenames info

        NOTE: must be run before filenames are normalized
    """

    # check for SVN
    #  - header starts with Index:
    #  - next line is ===... delimiter
    #  - filename is followed by revision number
    # TODO add SVN revision
    if (len(p.header) > 1 and p.header[-2].startswith("Index: ")
      and p.header[-1].startswith("="*67)):
        return SVN

    # GIT type check
    #  - header[-2] is like "diff --git a/oldname b/newname"
    #  - header[-1] is like "index <hash>..<hash> <mode>"
    # TODO add git rename diffs and add/remove diffs
    #      add git diff with spaced filename
    # TODO http://www.kernel.org/pub/software/scm/git/docs/git-diff.html

    # detect the start of diff header - there might be some comments before
    for idx in reversed(range(len(p.header))):
      if p.header[idx].startswith("diff --git"):
        break
    if len(p.header) > 1 and re.match(r'diff --git a/[\w/.]+ b/[\w/.]+', p.header[idx]):
      if re.match(r'index \w{7}..\w{7} \d{6}', p.header[idx+1]):
        if p.source.startswith('a/') and p.target.startswith('b/'):
          return GIT

    # HG check
    #  - Patch header is like "diff -r b2d9961ff1f5 filename"
    #  - filename starts with a/, b/ or is equal to /dev/null
    # TODO add MQ version
    if len(p.header) > 0 and re.match(r'diff -r \w{12} .*', p.header[-1]):
      if ((p.source.startswith('a/') or p.source == '/dev/null')
        and (p.target.startswith('b/') or p.target == '/dev/null')):
          return HG

    return PLAIN


  def _normalize_filenames(self):
    """ sanitize filenames, normalizing paths
        TODO think about using forward slashes for crossplatform issues
             (diff/patch were born as a unix utility after all)
        return True on success
    """
    errors = 0
    for i,p in enumerate(self.items):
      if p.type in (HG, GIT):
        # TODO: figure out how to deal with /dev/null entries
        debug("stripping a/ and b/ prefixes")
        if p.source != '/dev/null':
          if not p.source.startswith("a/"):
            warning("invalid source filename")
          else:
            p.source = p.source[2:]
        if p.target != '/dev/null':
          if not p.target.startswith("b/"):
            warning("invalid target filename")
          else:
            p.target = p.target[2:]

      p.source = normpath(p.source)
      p.target = normpath(p.target)

      # references to parent are not allowed
      if p.source.startswith(".." + os.sep):
        warning("error: stripping parent path for source file patch no.%d" % (i+1))
        errors += 1
        while p.source.startswith(".." + os.sep):
          p.source = p.source.partition(os.sep)[2]
      if p.target.startswith(".." + os.sep):
        warning("error: stripping parent path for target file patch no.%d" % (i+1))
        errors += 1
        while p.target.startswith(".." + os.sep):
          p.target = p.target.partition(os.sep)[2]

      # absolute paths are not allowed
      if isabs(p.source) or isabs(p.target):
        errors += 1
        warning("error: absolute paths are not allowed for file patch no.%d" % (i+1))
        if isabs(p.source):
          p.source = p.source.partition(os.sep)[2]
        if isabs(p.target):
          p.target = p.target.partition(os.sep)[2]
    
      self.items[i].source = p.source
      self.items[i].target = p.target

    return (errors == 0)


  def diffstat(self):
    """ calculate diffstat and return as a string
        Notes:
          - original diffstat ouputs target filename
          - single + or - shouldn't escape histogram
    """
    names = []
    insert = []
    delete = []
    namelen = 0
    maxdiff = 0  # max number of changes for single file
                 # (for histogram width calculation)
    for patch in self.items:
      i,d = 0,0
      for hunk in patch.hunks:
        for line in hunk.text:
          if line.startswith('+'):
            i += 1
          elif line.startswith('-'):
            d += 1
      names.append(patch.target)
      insert.append(i)
      delete.append(d)
      namelen = max(namelen, len(patch.target))
      maxdiff = max(maxdiff, i+d)
    output = ''
    statlen = len(str(maxdiff))  # stats column width
    for i,n in enumerate(names):
      # %-19s | %-4d %s
      format = " %-" + str(namelen) + "s | %" + str(statlen) + "s %s\n"

      hist = ''
      # -- calculating histogram --
      width = len(format % ('', '', ''))
      histwidth = max(2, 80 - width)
      if maxdiff < histwidth:
        hist = "+"*insert[i] + "-"*delete[i]
      else:
        iratio = (float(insert[i]) / maxdiff) * histwidth
        dratio = (float(delete[i]) / maxdiff) * histwidth

        # make sure every entry gets at least one + or -
        iwidth = 1 if 0 < iratio < 1 else int(iratio)
        dwidth = 1 if 0 < dratio < 1 else int(dratio)
        #print iratio, dratio, iwidth, dwidth, histwidth
        hist = "+"*int(iwidth) + "-"*int(dwidth)
      # -- /calculating +- histogram --
      output += (format % (names[i], insert[i] + delete[i], hist))
 
    output += (" %d files changed, %d insertions(+), %d deletions(-)"
               % (len(names), sum(insert), sum(delete)))
    return output


  def apply(self):
    """ apply parsed patch
        return True on success
    """

    total = len(self.items)
    errors = 0
    #for fileno, filename in enumerate(self.source):
    for i,p in enumerate(self.items):

      f2patch = p.source
      if not exists(f2patch):
        f2patch = p.target
        if not exists(f2patch):
          warning("source/target file does not exist\n--- %s\n+++ %s" % (p.source, f2patch))
          errors += 1
          continue
      if not isfile(f2patch):
        warning("not a file - %s" % f2patch)
        errors += 1
        continue
      filename = f2patch

      debug("processing %d/%d:\t %s" % (i+1, total, filename))

      # validate before patching
      f2fp = open(filename)
      hunkno = 0
      hunk = p.hunks[hunkno]
      hunkfind = []
      hunkreplace = []
      validhunks = 0
      canpatch = False
      for lineno, line in enumerate(f2fp):
        if lineno+1 < hunk.startsrc:
          continue
        elif lineno+1 == hunk.startsrc:
          hunkfind = [x[1:].rstrip("\r\n") for x in hunk.text if x[0] in " -"]
          hunkreplace = [x[1:].rstrip("\r\n") for x in hunk.text if x[0] in " +"]
          #pprint(hunkreplace)
          hunklineno = 0

          # todo \ No newline at end of file

        # check hunks in source file
        if lineno+1 < hunk.startsrc+len(hunkfind)-1:
          if line.rstrip("\r\n") == hunkfind[hunklineno]:
            hunklineno+=1
          else:
            info("file %d/%d:\t %s" % (i+1, total, filename))
            info(" hunk no.%d doesn't match source file at line %d" % (hunkno+1, lineno))
            info("  expected: %s" % hunkfind[hunklineno])
            info("  actual  : %s" % line.rstrip("\r\n"))
            # not counting this as error, because file may already be patched.
            # check if file is already patched is done after the number of
            # invalid hunks if found
            # TODO: check hunks against source/target file in one pass
            #   API - check(stream, srchunks, tgthunks)
            #           return tuple (srcerrs, tgterrs)

            # continue to check other hunks for completeness
            hunkno += 1
            if hunkno < len(p.hunks):
              hunk = p.hunks[hunkno]
              continue
            else:
              break

        # check if processed line is the last line
        if lineno+1 == hunk.startsrc+len(hunkfind)-1:
          debug(" hunk no.%d for file %s  -- is ready to be patched" % (hunkno+1, filename))
          hunkno+=1
          validhunks+=1
          if hunkno < len(p.hunks):
            hunk = p.hunks[hunkno]
          else:
            if validhunks == len(p.hunks):
              # patch file
              canpatch = True
              break
      else:
        if hunkno < len(p.hunks):
          warning("premature end of source file %s at hunk %d" % (filename, hunkno+1))
          errors += 1

      f2fp.close()

      if validhunks < len(p.hunks):
        if self._match_file_hunks(filename, p.hunks):
          warning("already patched  %s" % filename)
        else:
          warning("source file is different - %s" % filename)
          errors += 1
      if canpatch:
        backupname = filename+".orig"
        if exists(backupname):
          warning("can't backup original file to %s - aborting" % backupname)
        else:
          import shutil
          shutil.move(filename, backupname)
          if self.write_hunks(backupname, filename, p.hunks):
            info("successfully patched %d/%d:\t %s" % (i+1, total, filename))
            os.unlink(backupname)
          else:
            errors += 1
            warning("error patching file %s" % filename)
            shutil.copy(filename, filename+".invalid")
            warning("invalid version is saved to %s" % filename+".invalid")
            # todo: proper rejects
            shutil.move(backupname, filename)

    # todo: check for premature eof
    return (errors == 0)


  def can_patch(self, filename):
    """ Check if specified filename can be patched. Returns None if file can
    not be found among source filenames. False if patch can not be applied
    clearly. True otherwise.

    :returns: True, False or None
    """
    filename = abspath(filename)
    for p in self.items:
      if filename == abspath(p.source):
        return self._match_file_hunks(filename, p.hunks)
    return None


  def _match_file_hunks(self, filepath, hunks):
    matched = True
    fp = open(abspath(filepath))

    class NoMatch(Exception):
      pass

    lineno = 1
    line = fp.readline()
    hno = None
    try:
      for hno, h in enumerate(hunks):
        # skip to first line of the hunk
        while lineno < h.starttgt:
          if not len(line): # eof
            debug("check failed - premature eof before hunk: %d" % (hno+1))
            raise NoMatch
          line = fp.readline()
          lineno += 1
        for hline in h.text:
          if hline.startswith("-"):
            continue
          if not len(line):
            debug("check failed - premature eof on hunk: %d" % (hno+1))
            # todo: \ No newline at the end of file
            raise NoMatch
          if line.rstrip("\r\n") != hline[1:].rstrip("\r\n"):
            debug("file is not patched - failed hunk: %d" % (hno+1))
            raise NoMatch
          line = fp.readline()
          lineno += 1

    except NoMatch:
      matched = False
      # todo: display failed hunk, i.e. expected/found

    fp.close()
    return matched


  def patch_stream(self, instream, hunks):
    """ Generator that yields stream patched with hunks iterable
    
        Converts lineends in hunk lines to the best suitable format
        autodetected from input
    """

    # todo: At the moment substituted lineends may not be the same
    #       at the start and at the end of patching. Also issue a
    #       warning/throw about mixed lineends (is it really needed?)

    hunks = iter(hunks)

    srclineno = 1

    lineends = {'\n':0, '\r\n':0, '\r':0}
    def get_line():
      """
      local utility function - return line from source stream
      collecting line end statistics on the way
      """
      line = instream.readline()
        # 'U' mode works only with text files
      if line.endswith("\r\n"):
        lineends["\r\n"] += 1
      elif line.endswith("\n"):
        lineends["\n"] += 1
      elif line.endswith("\r"):
        lineends["\r"] += 1
      return line

    for hno, h in enumerate(hunks):
      debug("hunk %d" % (hno+1))
      # skip to line just before hunk starts
      while srclineno < h.startsrc:
        yield get_line()
        srclineno += 1

      for hline in h.text:
        # todo: check \ No newline at the end of file
        if hline.startswith("-") or hline.startswith("\\"):
          get_line()
          srclineno += 1
          continue
        else:
          if not hline.startswith("+"):
            get_line()
            srclineno += 1
          line2write = hline[1:]
          # detect if line ends are consistent in source file
          if sum([bool(lineends[x]) for x in lineends]) == 1:
            newline = [x for x in lineends if lineends[x] != 0][0]
            yield line2write.rstrip("\r\n")+newline
          else: # newlines are mixed
            yield line2write
     
    for line in instream:
      yield line


  def write_hunks(self, srcname, tgtname, hunks):
    src = open(srcname, "rb")
    tgt = open(tgtname, "wb")

    debug("processing target file %s" % tgtname)

    tgt.writelines(self.patch_stream(src, hunks))

    tgt.close()
    src.close()
    return True



if __name__ == "__main__":
  from optparse import OptionParser
  from os.path import exists
  import sys

  opt = OptionParser(usage="1. %prog [options] unified.diff\n"
                    "       2. %prog [options] http://host/patch\n"
                    "       3. %prog [options] -- < unified.diff",
                     version="python-patch %s" % __version__)
  opt.add_option("-q", "--quiet", action="store_const", dest="verbosity",
                                  const=0, help="print only warnings and errors", default=1)
  opt.add_option("-v", "--verbose", action="store_const", dest="verbosity",
                                  const=2, help="be verbose")
  opt.add_option("--diffstat", action="store_true", dest="diffstat",
                                           help="print diffstat and exit")
  opt.add_option("--debug", action="store_true", dest="debugmode", help="debug mode")
  (options, args) = opt.parse_args()

  if not args and sys.argv[-1:] != ['--']:
    opt.print_version()
    opt.print_help()
    sys.exit()
  readstdin = (sys.argv[-1:] == ['--'] and not args)

  debugmode = options.debugmode

  verbosity_levels = {0:logging.WARNING, 1:logging.INFO, 2:logging.DEBUG}
  loglevel = verbosity_levels[options.verbosity]
  logformat = "%(message)s"
  if debugmode:
    loglevel = logging.DEBUG
    logformat = "%(levelname)8s %(message)s"
  logger.setLevel(loglevel)
  loghandler = logging.StreamHandler()
  loghandler.setFormatter(logging.Formatter(logformat))
  logger.addHandler(loghandler)


  if readstdin:
    patch = PatchSet(sys.stdin)
  else:
    patchfile = args[0]
    urltest = patchfile.split(':')[0]
    if (':' in patchfile and urltest.isalpha()
        and len(urltest) > 1): # one char before : is a windows drive letter
      patch = fromurl(patchfile)
    else:
      if not exists(patchfile) or not isfile(patchfile):
        sys.exit("patch file does not exist - %s" % patchfile)
      patch = fromfile(patchfile)

  if options.diffstat:
    print patch.diffstat()
    sys.exit(0)

  #pprint(patch)
  patch.apply() or sys.exit(-1)

  # todo: document and test line ends handling logic - patch.py detects proper line-endings
  #       for inserted hunks and issues a warning if patched file has incosistent line ends