Failed to save the file to the "xx" directory.

Failed to save the file to the "ll" directory.

Failed to save the file to the "mm" directory.

Failed to save the file to the "wp" directory.

403WebShell
403Webshell
Server IP : 66.29.132.124  /  Your IP : 3.147.77.119
Web Server : LiteSpeed
System : Linux business141.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64
User : wavevlvu ( 1524)
PHP Version : 7.4.33
Disable Function : NONE
MySQL : OFF  |  cURL : ON  |  WGET : ON  |  Perl : ON  |  Python : ON  |  Sudo : OFF  |  Pkexec : OFF
Directory :  /usr/lib64/python2.7/

Upload File :
current_dir [ Writeable ] document_root [ Writeable ]

 

Command :


[ Back ]     

Current File : /usr/lib64/python2.7//mhlib.py
"""MH interface -- purely object-oriented (well, almost)

Executive summary:

import mhlib

mh = mhlib.MH()         # use default mailbox directory and profile
mh = mhlib.MH(mailbox)  # override mailbox location (default from profile)
mh = mhlib.MH(mailbox, profile) # override mailbox and profile

mh.error(format, ...)   # print error message -- can be overridden
s = mh.getprofile(key)  # profile entry (None if not set)
path = mh.getpath()     # mailbox pathname
name = mh.getcontext()  # name of current folder
mh.setcontext(name)     # set name of current folder

list = mh.listfolders() # names of top-level folders
list = mh.listallfolders() # names of all folders, including subfolders
list = mh.listsubfolders(name) # direct subfolders of given folder
list = mh.listallsubfolders(name) # all subfolders of given folder

mh.makefolder(name)     # create new folder
mh.deletefolder(name)   # delete folder -- must have no subfolders

f = mh.openfolder(name) # new open folder object

f.error(format, ...)    # same as mh.error(format, ...)
path = f.getfullname()  # folder's full pathname
path = f.getsequencesfilename() # full pathname of folder's sequences file
path = f.getmessagefilename(n)  # full pathname of message n in folder

list = f.listmessages() # list of messages in folder (as numbers)
n = f.getcurrent()      # get current message
f.setcurrent(n)         # set current message
list = f.parsesequence(seq)     # parse msgs syntax into list of messages
n = f.getlast()         # get last message (0 if no messagse)
f.setlast(n)            # set last message (internal use only)

dict = f.getsequences() # dictionary of sequences in folder {name: list}
f.putsequences(dict)    # write sequences back to folder

f.createmessage(n, fp)  # add message from file f as number n
f.removemessages(list)  # remove messages in list from folder
f.refilemessages(list, tofolder) # move messages in list to other folder
f.movemessage(n, tofolder, ton)  # move one message to a given destination
f.copymessage(n, tofolder, ton)  # copy one message to a given destination

m = f.openmessage(n)    # new open message object (costs a file descriptor)
m is a derived class of mimetools.Message(rfc822.Message), with:
s = m.getheadertext()   # text of message's headers
s = m.getheadertext(pred) # text of message's headers, filtered by pred
s = m.getbodytext()     # text of message's body, decoded
s = m.getbodytext(0)    # text of message's body, not decoded
"""
from warnings import warnpy3k
warnpy3k("the mhlib module has been removed in Python 3.0; use the mailbox "
            "module instead", stacklevel=2)
del warnpy3k

# XXX To do, functionality:
# - annotate messages
# - send messages
#
# XXX To do, organization:
# - move IntSet to separate file
# - move most Message functionality to module mimetools


# Customizable defaults

MH_PROFILE = '~/.mh_profile'
PATH = '~/Mail'
MH_SEQUENCES = '.mh_sequences'
FOLDER_PROTECT = 0700


# Imported modules

import os
import sys
import re
import mimetools
import multifile
import shutil
from bisect import bisect

__all__ = ["MH","Error","Folder","Message"]

# Exported constants

class Error(Exception):
    pass


class MH:
    """Class representing a particular collection of folders.
    Optional constructor arguments are the pathname for the directory
    containing the collection, and the MH profile to use.
    If either is omitted or empty a default is used; the default
    directory is taken from the MH profile if it is specified there."""

    def __init__(self, path = None, profile = None):
        """Constructor."""
        if profile is None: profile = MH_PROFILE
        self.profile = os.path.expanduser(profile)
        if path is None: path = self.getprofile('Path')
        if not path: path = PATH
        if not os.path.isabs(path) and path[0] != '~':
            path = os.path.join('~', path)
        path = os.path.expanduser(path)
        if not os.path.isdir(path): raise Error, 'MH() path not found'
        self.path = path

    def __repr__(self):
        """String representation."""
        return 'MH(%r, %r)' % (self.path, self.profile)

    def error(self, msg, *args):
        """Routine to print an error.  May be overridden by a derived class."""
        sys.stderr.write('MH error: %s\n' % (msg % args))

    def getprofile(self, key):
        """Return a profile entry, None if not found."""
        return pickline(self.profile, key)

    def getpath(self):
        """Return the path (the name of the collection's directory)."""
        return self.path

    def getcontext(self):
        """Return the name of the current folder."""
        context = pickline(os.path.join(self.getpath(), 'context'),
                  'Current-Folder')
        if not context: context = 'inbox'
        return context

    def setcontext(self, context):
        """Set the name of the current folder."""
        fn = os.path.join(self.getpath(), 'context')
        f = open(fn, "w")
        f.write("Current-Folder: %s\n" % context)
        f.close()

    def listfolders(self):
        """Return the names of the top-level folders."""
        folders = []
        path = self.getpath()
        for name in os.listdir(path):
            fullname = os.path.join(path, name)
            if os.path.isdir(fullname):
                folders.append(name)
        folders.sort()
        return folders

    def listsubfolders(self, name):
        """Return the names of the subfolders in a given folder
        (prefixed with the given folder name)."""
        fullname = os.path.join(self.path, name)
        # Get the link count so we can avoid listing folders
        # that have no subfolders.
        nlinks = os.stat(fullname).st_nlink
        if nlinks == 2:
            return []
        subfolders = []
        subnames = os.listdir(fullname)
        for subname in subnames:
            fullsubname = os.path.join(fullname, subname)
            if os.path.isdir(fullsubname):
                name_subname = os.path.join(name, subname)
                subfolders.append(name_subname)
                # Stop looking for subfolders when
                # we've seen them all
                nlinks = nlinks - 1
                if nlinks == 2:
                    break
        subfolders.sort()
        return subfolders

    def listallfolders(self):
        """Return the names of all folders and subfolders, recursively."""
        return self.listallsubfolders('')

    def listallsubfolders(self, name):
        """Return the names of subfolders in a given folder, recursively."""
        fullname = os.path.join(self.path, name)
        # Get the link count so we can avoid listing folders
        # that have no subfolders.
        nlinks = os.stat(fullname).st_nlink
        if nlinks == 2:
            return []
        subfolders = []
        subnames = os.listdir(fullname)
        for subname in subnames:
            if subname[0] == ',' or isnumeric(subname): continue
            fullsubname = os.path.join(fullname, subname)
            if os.path.isdir(fullsubname):
                name_subname = os.path.join(name, subname)
                subfolders.append(name_subname)
                if not os.path.islink(fullsubname):
                    subsubfolders = self.listallsubfolders(
                              name_subname)
                    subfolders = subfolders + subsubfolders
                # Stop looking for subfolders when
                # we've seen them all
                nlinks = nlinks - 1
                if nlinks == 2:
                    break
        subfolders.sort()
        return subfolders

    def openfolder(self, name):
        """Return a new Folder object for the named folder."""
        return Folder(self, name)

    def makefolder(self, name):
        """Create a new folder (or raise os.error if it cannot be created)."""
        protect = pickline(self.profile, 'Folder-Protect')
        if protect and isnumeric(protect):
            mode = int(protect, 8)
        else:
            mode = FOLDER_PROTECT
        os.mkdir(os.path.join(self.getpath(), name), mode)

    def deletefolder(self, name):
        """Delete a folder.  This removes files in the folder but not
        subdirectories.  Raise os.error if deleting the folder itself fails."""
        fullname = os.path.join(self.getpath(), name)
        for subname in os.listdir(fullname):
            fullsubname = os.path.join(fullname, subname)
            try:
                os.unlink(fullsubname)
            except os.error:
                self.error('%s not deleted, continuing...' %
                          fullsubname)
        os.rmdir(fullname)


numericprog = re.compile('^[1-9][0-9]*$')
def isnumeric(str):
    return numericprog.match(str) is not None

class Folder:
    """Class representing a particular folder."""

    def __init__(self, mh, name):
        """Constructor."""
        self.mh = mh
        self.name = name
        if not os.path.isdir(self.getfullname()):
            raise Error, 'no folder %s' % name

    def __repr__(self):
        """String representation."""
        return 'Folder(%r, %r)' % (self.mh, self.name)

    def error(self, *args):
        """Error message handler."""
        self.mh.error(*args)

    def getfullname(self):
        """Return the full pathname of the folder."""
        return os.path.join(self.mh.path, self.name)

    def getsequencesfilename(self):
        """Return the full pathname of the folder's sequences file."""
        return os.path.join(self.getfullname(), MH_SEQUENCES)

    def getmessagefilename(self, n):
        """Return the full pathname of a message in the folder."""
        return os.path.join(self.getfullname(), str(n))

    def listsubfolders(self):
        """Return list of direct subfolders."""
        return self.mh.listsubfolders(self.name)

    def listallsubfolders(self):
        """Return list of all subfolders."""
        return self.mh.listallsubfolders(self.name)

    def listmessages(self):
        """Return the list of messages currently present in the folder.
        As a side effect, set self.last to the last message (or 0)."""
        messages = []
        match = numericprog.match
        append = messages.append
        for name in os.listdir(self.getfullname()):
            if match(name):
                append(name)
        messages = map(int, messages)
        messages.sort()
        if messages:
            self.last = messages[-1]
        else:
            self.last = 0
        return messages

    def getsequences(self):
        """Return the set of sequences for the folder."""
        sequences = {}
        fullname = self.getsequencesfilename()
        try:
            f = open(fullname, 'r')
        except IOError:
            return sequences
        while 1:
            line = f.readline()
            if not line: break
            fields = line.split(':')
            if len(fields) != 2:
                self.error('bad sequence in %s: %s' %
                          (fullname, line.strip()))
            key = fields[0].strip()
            value = IntSet(fields[1].strip(), ' ').tolist()
            sequences[key] = value
        return sequences

    def putsequences(self, sequences):
        """Write the set of sequences back to the folder."""
        fullname = self.getsequencesfilename()
        f = None
        for key, seq in sequences.iteritems():
            s = IntSet('', ' ')
            s.fromlist(seq)
            if not f: f = open(fullname, 'w')
            f.write('%s: %s\n' % (key, s.tostring()))
        if not f:
            try:
                os.unlink(fullname)
            except os.error:
                pass
        else:
            f.close()

    def getcurrent(self):
        """Return the current message.  Raise Error when there is none."""
        seqs = self.getsequences()
        try:
            return max(seqs['cur'])
        except (ValueError, KeyError):
            raise Error, "no cur message"

    def setcurrent(self, n):
        """Set the current message."""
        updateline(self.getsequencesfilename(), 'cur', str(n), 0)

    def parsesequence(self, seq):
        """Parse an MH sequence specification into a message list.
        Attempt to mimic mh-sequence(5) as close as possible.
        Also attempt to mimic observed behavior regarding which
        conditions cause which error messages."""
        # XXX Still not complete (see mh-format(5)).
        # Missing are:
        # - 'prev', 'next' as count
        # - Sequence-Negation option
        all = self.listmessages()
        # Observed behavior: test for empty folder is done first
        if not all:
            raise Error, "no messages in %s" % self.name
        # Common case first: all is frequently the default
        if seq == 'all':
            return all
        # Test for X:Y before X-Y because 'seq:-n' matches both
        i = seq.find(':')
        if i >= 0:
            head, dir, tail = seq[:i], '', seq[i+1:]
            if tail[:1] in '-+':
                dir, tail = tail[:1], tail[1:]
            if not isnumeric(tail):
                raise Error, "bad message list %s" % seq
            try:
                count = int(tail)
            except (ValueError, OverflowError):
                # Can't use sys.maxint because of i+count below
                count = len(all)
            try:
                anchor = self._parseindex(head, all)
            except Error, msg:
                seqs = self.getsequences()
                if not head in seqs:
                    if not msg:
                        msg = "bad message list %s" % seq
                    raise Error, msg, sys.exc_info()[2]
                msgs = seqs[head]
                if not msgs:
                    raise Error, "sequence %s empty" % head
                if dir == '-':
                    return msgs[-count:]
                else:
                    return msgs[:count]
            else:
                if not dir:
                    if head in ('prev', 'last'):
                        dir = '-'
                if dir == '-':
                    i = bisect(all, anchor)
                    return all[max(0, i-count):i]
                else:
                    i = bisect(all, anchor-1)
                    return all[i:i+count]
        # Test for X-Y next
        i = seq.find('-')
        if i >= 0:
            begin = self._parseindex(seq[:i], all)
            end = self._parseindex(seq[i+1:], all)
            i = bisect(all, begin-1)
            j = bisect(all, end)
            r = all[i:j]
            if not r:
                raise Error, "bad message list %s" % seq
            return r
        # Neither X:Y nor X-Y; must be a number or a (pseudo-)sequence
        try:
            n = self._parseindex(seq, all)
        except Error, msg:
            seqs = self.getsequences()
            if not seq in seqs:
                if not msg:
                    msg = "bad message list %s" % seq
                raise Error, msg
            return seqs[seq]
        else:
            if n not in all:
                if isnumeric(seq):
                    raise Error, "message %d doesn't exist" % n
                else:
                    raise Error, "no %s message" % seq
            else:
                return [n]

    def _parseindex(self, seq, all):
        """Internal: parse a message number (or cur, first, etc.)."""
        if isnumeric(seq):
            try:
                return int(seq)
            except (OverflowError, ValueError):
                return sys.maxint
        if seq in ('cur', '.'):
            return self.getcurrent()
        if seq == 'first':
            return all[0]
        if seq == 'last':
            return all[-1]
        if seq == 'next':
            n = self.getcurrent()
            i = bisect(all, n)
            try:
                return all[i]
            except IndexError:
                raise Error, "no next message"
        if seq == 'prev':
            n = self.getcurrent()
            i = bisect(all, n-1)
            if i == 0:
                raise Error, "no prev message"
            try:
                return all[i-1]
            except IndexError:
                raise Error, "no prev message"
        raise Error, None

    def openmessage(self, n):
        """Open a message -- returns a Message object."""
        return Message(self, n)

    def removemessages(self, list):
        """Remove one or more messages -- may raise os.error."""
        errors = []
        deleted = []
        for n in list:
            path = self.getmessagefilename(n)
            commapath = self.getmessagefilename(',' + str(n))
            try:
                os.unlink(commapath)
            except os.error:
                pass
            try:
                os.rename(path, commapath)
            except os.error, msg:
                errors.append(msg)
            else:
                deleted.append(n)
        if deleted:
            self.removefromallsequences(deleted)
        if errors:
            if len(errors) == 1:
                raise os.error, errors[0]
            else:
                raise os.error, ('multiple errors:', errors)

    def refilemessages(self, list, tofolder, keepsequences=0):
        """Refile one or more messages -- may raise os.error.
        'tofolder' is an open folder object."""
        errors = []
        refiled = {}
        for n in list:
            ton = tofolder.getlast() + 1
            path = self.getmessagefilename(n)
            topath = tofolder.getmessagefilename(ton)
            try:
                os.rename(path, topath)
            except os.error:
                # Try copying
                try:
                    shutil.copy2(path, topath)
                    os.unlink(path)
                except (IOError, os.error), msg:
                    errors.append(msg)
                    try:
                        os.unlink(topath)
                    except os.error:
                        pass
                    continue
            tofolder.setlast(ton)
            refiled[n] = ton
        if refiled:
            if keepsequences:
                tofolder._copysequences(self, refiled.items())
            self.removefromallsequences(refiled.keys())
        if errors:
            if len(errors) == 1:
                raise os.error, errors[0]
            else:
                raise os.error, ('multiple errors:', errors)

    def _copysequences(self, fromfolder, refileditems):
        """Helper for refilemessages() to copy sequences."""
        fromsequences = fromfolder.getsequences()
        tosequences = self.getsequences()
        changed = 0
        for name, seq in fromsequences.items():
            try:
                toseq = tosequences[name]
                new = 0
            except KeyError:
                toseq = []
                new = 1
            for fromn, ton in refileditems:
                if fromn in seq:
                    toseq.append(ton)
                    changed = 1
            if new and toseq:
                tosequences[name] = toseq
        if changed:
            self.putsequences(tosequences)

    def movemessage(self, n, tofolder, ton):
        """Move one message over a specific destination message,
        which may or may not already exist."""
        path = self.getmessagefilename(n)
        # Open it to check that it exists
        f = open(path)
        f.close()
        del f
        topath = tofolder.getmessagefilename(ton)
        backuptopath = tofolder.getmessagefilename(',%d' % ton)
        try:
            os.rename(topath, backuptopath)
        except os.error:
            pass
        try:
            os.rename(path, topath)
        except os.error:
            # Try copying
            ok = 0
            try:
                tofolder.setlast(None)
                shutil.copy2(path, topath)
                ok = 1
            finally:
                if not ok:
                    try:
                        os.unlink(topath)
                    except os.error:
                        pass
            os.unlink(path)
        self.removefromallsequences([n])

    def copymessage(self, n, tofolder, ton):
        """Copy one message over a specific destination message,
        which may or may not already exist."""
        path = self.getmessagefilename(n)
        # Open it to check that it exists
        f = open(path)
        f.close()
        del f
        topath = tofolder.getmessagefilename(ton)
        backuptopath = tofolder.getmessagefilename(',%d' % ton)
        try:
            os.rename(topath, backuptopath)
        except os.error:
            pass
        ok = 0
        try:
            tofolder.setlast(None)
            shutil.copy2(path, topath)
            ok = 1
        finally:
            if not ok:
                try:
                    os.unlink(topath)
                except os.error:
                    pass

    def createmessage(self, n, txt):
        """Create a message, with text from the open file txt."""
        path = self.getmessagefilename(n)
        backuppath = self.getmessagefilename(',%d' % n)
        try:
            os.rename(path, backuppath)
        except os.error:
            pass
        ok = 0
        BUFSIZE = 16*1024
        try:
            f = open(path, "w")
            while 1:
                buf = txt.read(BUFSIZE)
                if not buf:
                    break
                f.write(buf)
            f.close()
            ok = 1
        finally:
            if not ok:
                try:
                    os.unlink(path)
                except os.error:
                    pass

    def removefromallsequences(self, list):
        """Remove one or more messages from all sequences (including last)
        -- but not from 'cur'!!!"""
        if hasattr(self, 'last') and self.last in list:
            del self.last
        sequences = self.getsequences()
        changed = 0
        for name, seq in sequences.items():
            if name == 'cur':
                continue
            for n in list:
                if n in seq:
                    seq.remove(n)
                    changed = 1
                    if not seq:
                        del sequences[name]
        if changed:
            self.putsequences(sequences)

    def getlast(self):
        """Return the last message number."""
        if not hasattr(self, 'last'):
            self.listmessages() # Set self.last
        return self.last

    def setlast(self, last):
        """Set the last message number."""
        if last is None:
            if hasattr(self, 'last'):
                del self.last
        else:
            self.last = last

class Message(mimetools.Message):

    def __init__(self, f, n, fp = None):
        """Constructor."""
        self.folder = f
        self.number = n
        if fp is None:
            path = f.getmessagefilename(n)
            fp = open(path, 'r')
        mimetools.Message.__init__(self, fp)

    def __repr__(self):
        """String representation."""
        return 'Message(%s, %s)' % (repr(self.folder), self.number)

    def getheadertext(self, pred = None):
        """Return the message's header text as a string.  If an
        argument is specified, it is used as a filter predicate to
        decide which headers to return (its argument is the header
        name converted to lower case)."""
        if pred is None:
            return ''.join(self.headers)
        headers = []
        hit = 0
        for line in self.headers:
            if not line[0].isspace():
                i = line.find(':')
                if i > 0:
                    hit = pred(line[:i].lower())
            if hit: headers.append(line)
        return ''.join(headers)

    def getbodytext(self, decode = 1):
        """Return the message's body text as string.  This undoes a
        Content-Transfer-Encoding, but does not interpret other MIME
        features (e.g. multipart messages).  To suppress decoding,
        pass 0 as an argument."""
        self.fp.seek(self.startofbody)
        encoding = self.getencoding()
        if not decode or encoding in ('', '7bit', '8bit', 'binary'):
            return self.fp.read()
        try:
            from cStringIO import StringIO
        except ImportError:
            from StringIO import StringIO
        output = StringIO()
        mimetools.decode(self.fp, output, encoding)
        return output.getvalue()

    def getbodyparts(self):
        """Only for multipart messages: return the message's body as a
        list of SubMessage objects.  Each submessage object behaves
        (almost) as a Message object."""
        if self.getmaintype() != 'multipart':
            raise Error, 'Content-Type is not multipart/*'
        bdry = self.getparam('boundary')
        if not bdry:
            raise Error, 'multipart/* without boundary param'
        self.fp.seek(self.startofbody)
        mf = multifile.MultiFile(self.fp)
        mf.push(bdry)
        parts = []
        while mf.next():
            n = "%s.%r" % (self.number, 1 + len(parts))
            part = SubMessage(self.folder, n, mf)
            parts.append(part)
        mf.pop()
        return parts

    def getbody(self):
        """Return body, either a string or a list of messages."""
        if self.getmaintype() == 'multipart':
            return self.getbodyparts()
        else:
            return self.getbodytext()


class SubMessage(Message):

    def __init__(self, f, n, fp):
        """Constructor."""
        Message.__init__(self, f, n, fp)
        if self.getmaintype() == 'multipart':
            self.body = Message.getbodyparts(self)
        else:
            self.body = Message.getbodytext(self)
        self.bodyencoded = Message.getbodytext(self, decode=0)
            # XXX If this is big, should remember file pointers

    def __repr__(self):
        """String representation."""
        f, n, fp = self.folder, self.number, self.fp
        return 'SubMessage(%s, %s, %s)' % (f, n, fp)

    def getbodytext(self, decode = 1):
        if not decode:
            return self.bodyencoded
        if type(self.body) == type(''):
            return self.body

    def getbodyparts(self):
        if type(self.body) == type([]):
            return self.body

    def getbody(self):
        return self.body


class IntSet:
    """Class implementing sets of integers.

    This is an efficient representation for sets consisting of several
    continuous ranges, e.g. 1-100,200-400,402-1000 is represented
    internally as a list of three pairs: [(1,100), (200,400),
    (402,1000)].  The internal representation is always kept normalized.

    The constructor has up to three arguments:
    - the string used to initialize the set (default ''),
    - the separator between ranges (default ',')
    - the separator between begin and end of a range (default '-')
    The separators must be strings (not regexprs) and should be different.

    The tostring() function yields a string that can be passed to another
    IntSet constructor; __repr__() is a valid IntSet constructor itself.
    """

    # XXX The default begin/end separator means that negative numbers are
    #     not supported very well.
    #
    # XXX There are currently no operations to remove set elements.

    def __init__(self, data = None, sep = ',', rng = '-'):
        self.pairs = []
        self.sep = sep
        self.rng = rng
        if data: self.fromstring(data)

    def reset(self):
        self.pairs = []

    def __cmp__(self, other):
        return cmp(self.pairs, other.pairs)

    def __hash__(self):
        return hash(self.pairs)

    def __repr__(self):
        return 'IntSet(%r, %r, %r)' % (self.tostring(), self.sep, self.rng)

    def normalize(self):
        self.pairs.sort()
        i = 1
        while i < len(self.pairs):
            alo, ahi = self.pairs[i-1]
            blo, bhi = self.pairs[i]
            if ahi >= blo-1:
                self.pairs[i-1:i+1] = [(alo, max(ahi, bhi))]
            else:
                i = i+1

    def tostring(self):
        s = ''
        for lo, hi in self.pairs:
            if lo == hi: t = repr(lo)
            else: t = repr(lo) + self.rng + repr(hi)
            if s: s = s + (self.sep + t)
            else: s = t
        return s

    def tolist(self):
        l = []
        for lo, hi in self.pairs:
            m = range(lo, hi+1)
            l = l + m
        return l

    def fromlist(self, list):
        for i in list:
            self.append(i)

    def clone(self):
        new = IntSet()
        new.pairs = self.pairs[:]
        return new

    def min(self):
        return self.pairs[0][0]

    def max(self):
        return self.pairs[-1][-1]

    def contains(self, x):
        for lo, hi in self.pairs:
            if lo <= x <= hi: return True
        return False

    def append(self, x):
        for i in range(len(self.pairs)):
            lo, hi = self.pairs[i]
            if x < lo: # Need to insert before
                if x+1 == lo:
                    self.pairs[i] = (x, hi)
                else:
                    self.pairs.insert(i, (x, x))
                if i > 0 and x-1 == self.pairs[i-1][1]:
                    # Merge with previous
                    self.pairs[i-1:i+1] = [
                            (self.pairs[i-1][0],
                             self.pairs[i][1])
                          ]
                return
            if x <= hi: # Already in set
                return
        i = len(self.pairs) - 1
        if i >= 0:
            lo, hi = self.pairs[i]
            if x-1 == hi:
                self.pairs[i] = lo, x
                return
        self.pairs.append((x, x))

    def addpair(self, xlo, xhi):
        if xlo > xhi: return
        self.pairs.append((xlo, xhi))
        self.normalize()

    def fromstring(self, data):
        new = []
        for part in data.split(self.sep):
            list = []
            for subp in part.split(self.rng):
                s = subp.strip()
                list.append(int(s))
            if len(list) == 1:
                new.append((list[0], list[0]))
            elif len(list) == 2 and list[0] <= list[1]:
                new.append((list[0], list[1]))
            else:
                raise ValueError, 'bad data passed to IntSet'
        self.pairs = self.pairs + new
        self.normalize()


# Subroutines to read/write entries in .mh_profile and .mh_sequences

def pickline(file, key, casefold = 1):
    try:
        f = open(file, 'r')
    except IOError:
        return None
    pat = re.escape(key) + ':'
    prog = re.compile(pat, casefold and re.IGNORECASE)
    while 1:
        line = f.readline()
        if not line: break
        if prog.match(line):
            text = line[len(key)+1:]
            while 1:
                line = f.readline()
                if not line or not line[0].isspace():
                    break
                text = text + line
            return text.strip()
    return None

def updateline(file, key, value, casefold = 1):
    try:
        f = open(file, 'r')
        lines = f.readlines()
        f.close()
    except IOError:
        lines = []
    pat = re.escape(key) + ':(.*)\n'
    prog = re.compile(pat, casefold and re.IGNORECASE)
    if value is None:
        newline = None
    else:
        newline = '%s: %s\n' % (key, value)
    for i in range(len(lines)):
        line = lines[i]
        if prog.match(line):
            if newline is None:
                del lines[i]
            else:
                lines[i] = newline
            break
    else:
        if newline is not None:
            lines.append(newline)
    tempfile = file + "~"
    f = open(tempfile, 'w')
    for line in lines:
        f.write(line)
    f.close()
    os.rename(tempfile, file)


# Test program

def test():
    global mh, f
    os.system('rm -rf $HOME/Mail/@test')
    mh = MH()
    def do(s): print s; print eval(s)
    do('mh.listfolders()')
    do('mh.listallfolders()')
    testfolders = ['@test', '@test/test1', '@test/test2',
                   '@test/test1/test11', '@test/test1/test12',
                   '@test/test1/test11/test111']
    for t in testfolders: do('mh.makefolder(%r)' % (t,))
    do('mh.listsubfolders(\'@test\')')
    do('mh.listallsubfolders(\'@test\')')
    f = mh.openfolder('@test')
    do('f.listsubfolders()')
    do('f.listallsubfolders()')
    do('f.getsequences()')
    seqs = f.getsequences()
    seqs['foo'] = IntSet('1-10 12-20', ' ').tolist()
    print seqs
    f.putsequences(seqs)
    do('f.getsequences()')
    for t in reversed(testfolders): do('mh.deletefolder(%r)' % (t,))
    do('mh.getcontext()')
    context = mh.getcontext()
    f = mh.openfolder(context)
    do('f.getcurrent()')
    for seq in ('first', 'last', 'cur', '.', 'prev', 'next',
                'first:3', 'last:3', 'cur:3', 'cur:-3',
                'prev:3', 'next:3',
                '1:3', '1:-3', '100:3', '100:-3', '10000:3', '10000:-3',
                'all'):
        try:
            do('f.parsesequence(%r)' % (seq,))
        except Error, msg:
            print "Error:", msg
        stuff = os.popen("pick %r 2>/dev/null" % (seq,)).read()
        list = map(int, stuff.split())
        print list, "<-- pick"
    do('f.listmessages()')


if __name__ == '__main__':
    test()

Youez - 2016 - github.com/yon3zu
LinuXploit