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      """ Integration with gvim, by Erich Heine

      Provides a %vim magic command, and reuses the same vim session. Uses

      unix domain sockets for communication between vim and IPython. ipy.vim is

      available in doc/examples of the IPython distribution.

      Slightly touched up email announcement (and description how to use it) by

      Erich Heine is here:

      Ive recently been playing with ipython, and like it quite a bit. I did

      however discover a bit of frustration, namely with editor interaction.

      I am a gvim user, and using the command edit on a new file causes

      ipython to try and run that file as soon as the text editor opens

      up. The -x command of course fixes this, but its still a bit annoying,

      switching windows to do a run file, then back to the text

      editor. Being a heavy tab user in gvim, another annoyance is not being

      able to specify weather a new tab is how I choose to open the file.

      Not being one to shirk my open source duties (and seeing this as a

      good excuse to poke around ipython internals), Ive created a script

      for having gvim and ipython work very nicely together. Ive attached

      both to this email (hoping of course that the mailing list allows such

      things).

      There are 2 files:

      ipy_vimserver.py -- this file contains the ipython stuff

      ipy.vim -- this file contains the gvim stuff

      In combination they allow for a few functionalities:

      #1. the vim magic command. This is a fancy wrapper around the edit

      magic, that allows for a new option, -t, which opens the text in a new

      gvim tab.  Otherwise it works the same as edit -x. (it internally

      calls edit -x). This magic command also juggles vim server management,

      so when it is called when there is not a gvim running, it creates a

      new gvim instance, named after the ipython session name.  Once such a

      gvim instance is running, it will be used for subsequent uses of the

      vim command.

      #2. ipython - gvim interaction. Once a file has been opened with the

      vim magic (and a session set up, see below), pressing the F5 key in

      vim will cause the calling ipython instance to execute run

      filename.py. (if you typo like I do, this is very useful)

      #3. ipython server - this is a thread wich listens on a unix domain

      socket, and runs commands sent to that socket.

      Note, this only works on POSIX systems, that allow for AF_UNIX type

      sockets. It has only been tested on linux (a fairly recent debian

      testing distro).

      To install it put, the ipserver.py in your favorite locaion for

      sourcing ipython scripts. I put the ipy.vim in

      ~/.vim/after/ftplugin/python/.

      To use (this can be scripted im sure, but i usually have 2 or 3

      ipythons and corresponding gvims open):

      import ipy_vimserver

      ipy_vimserver.setup('sessionname')

      (Editors note - you can probably add these to your ipy_user_conf.py)

      Then use ipython as you normally would, until you need to edit

      something. Instead of edit, use the vim magic.  Thats it!

      """

      from IPython.core import ipapi

      from IPython.core.error import TryNext

      import socket, select

      import os, threading, subprocess

      import re

      try:

          ERRCONDS = select.POLLHUP|select.POLLERR

      except AttributeError:

          raise ImportError("Vim server not supported on this platform - select "

                            "missing necessary POLLHUP/POLLERR functionality")

      SERVER = None

      ip = ipapi.get()

      # this listens to a unix domain socket in a separate thread, so that comms

      # between a vim instance and ipython can happen in a fun and productive way

      class IpyServer(threading.Thread):

          def __init__(self, sname):

              super(IpyServer, self).__init__()

              self.keep_running = True

              self.__sname = sname

              self.socket = socket.socket(socket.AF_UNIX)

              self.poller = select.poll()

              self.current_conns = dict()

              self.setDaemon(True)

          def listen(self):

              self.socket.bind(self.__sname)

              self.socket.listen(1)

          def __handle_error(self, socket):

              if socket == self.socket.fileno():

                  self.keep_running = False

                  for a in self.current_conns.values():

                      a.close()

                  return False

              else:

                  y = self.current_conns[socket]

                  del self.current_conns[socket]

              y.close()

              self.poller.unregister(socket)

          def serve_me(self):

              self.listen()

              self.poller.register(self.socket,select.POLLIN|ERRCONDS)

              while self.keep_running:

                  try:

                      avail = self.poller.poll(1)

                  except:

                      continue

                  if not avail: continue

                  for sock, conds in avail:

                      if conds & (ERRCONDS):

                          if self.__handle_error(sock): continue

                          else: break

                      if sock == self.socket.fileno():

                          y = self.socket.accept()[0]

                          self.poller.register(y, select.POLLIN|ERRCONDS)

                          self.current_conns[y.fileno()] = y

                      else: y = self.current_conns.get(sock)

                      self.handle_request(y)

              os.remove(self.__sname)

          run = serve_me

          def stop(self):

              self.keep_running = False

          def handle_request(self,sock):

              sock.settimeout(1)

              while self.keep_running:

                  try:

                      x = sock.recv(4096)

                  except socket.timeout:

                      pass

                  else:

                      break

              self.do_it(x)

          def do_it(self, data):

              data = data.split('\n')

              cmds = list()

              for line in data:

                  cmds.append(line)

              ip.runlines(cmds)

      # try to help ensure that the unix domain socket is cleaned up proper

      def shutdown_server(self):

          if SERVER:

              SERVER.stop()

              SERVER.join(3)

          raise TryNext

      ip.set_hook('shutdown_hook', shutdown_server, 10)

      # this fun function exists to make setup easier for all, and makes the

      # vimhook function ready for instance specific communication

      def setup(sessionname='',socketdir=os.path.expanduser('~/.ipython/')):

          global SERVER

          if sessionname:

              session = sessionname

          elif os.environ.get('IPY_SESSION'):

              session = os.environ.get('IPY_SESSION')

          else:

              session = 'IPYS'

          vimhook.vimserver=session

          vimhook.ipyserver = os.path.join(socketdir, session)

          if not SERVER:

              SERVER = IpyServer(vimhook.ipyserver)

              SERVER.start()

      # calls gvim, with all ops happening on the correct gvim instance for this

      # ipython instance. it then calls edit -x (since gvim will return right away)

      # things of note: it sets up a special environment, so that the ipy.vim script

      # can connect back to the ipython instance and do fun things, like run the file

      def vimhook(self, fname, line):

          env = os.environ.copy()

          vserver = vimhook.vimserver.upper()

          check = subprocess.Popen('gvim --serverlist', stdout = subprocess.PIPE,

              shell=True)

          check.wait()

          cval = [l for l in check.stdout.readlines() if vserver in l]

          if cval:

              vimargs = '--remote%s' % (vimhook.extras,)

          else:

              vimargs = ''

          vimhook.extras = ''

          env['IPY_SESSION'] = vimhook.vimserver

          env['IPY_SERVER'] = vimhook.ipyserver

          if line is None: line = ''

          else: line = '+' + line

          vim_cmd = 'gvim --servername %s %s %s %s' % (vimhook.vimserver, vimargs,

              line, fname)

          subprocess.call(vim_cmd, env=env, shell=True)

      #default values to keep it sane...

      vimhook.vimserver = ''

      vimhook.ipyserver = ''

      ip.set_hook('editor',vimhook)

      # this is set up so more vim specific commands can be added, instead of just

      # the current -t. all thats required is a compiled regex, a call to do_arg(pat)

      # and the logic to deal with the new feature

      newtab = re.compile(r'-t(?:\s|$)')

      def vim(self, argstr):

          def do_arg(pat, rarg):

              x = len(pat.findall(argstr))

              if x:

                  a = pat.sub('',argstr)

                  return rarg, a

              else: return '', argstr

          t, argstr = do_arg(newtab, '-tab')

          vimhook.extras = t

          argstr = 'edit -x ' + argstr

          ip.magic(argstr)

      ip.define_magic('vim', vim)

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				""" Integration with gvim, by Erich Heine

				Provides a %vim magic command, and reuses the same vim session. Uses
				unix domain sockets for communication between vim and IPython. ipy.vim is
				available in doc/examples of the IPython distribution.

				Slightly touched up email announcement (and description how to use it) by
				Erich Heine is here:

				Ive recently been playing with ipython, and like it quite a bit. I did
				however discover a bit of frustration, namely with editor interaction.
				I am a gvim user, and using the command edit on a new file causes
				ipython to try and run that file as soon as the text editor opens
				up. The -x command of course fixes this, but its still a bit annoying,
				switching windows to do a run file, then back to the text
				editor. Being a heavy tab user in gvim, another annoyance is not being
				able to specify weather a new tab is how I choose to open the file.

				Not being one to shirk my open source duties (and seeing this as a
				good excuse to poke around ipython internals), Ive created a script
				for having gvim and ipython work very nicely together. Ive attached
				both to this email (hoping of course that the mailing list allows such
				things).

				There are 2 files:

				ipy_vimserver.py -- this file contains the ipython stuff
				ipy.vim -- this file contains the gvim stuff

				In combination they allow for a few functionalities:

				#1. the vim magic command. This is a fancy wrapper around the edit
				magic, that allows for a new option, -t, which opens the text in a new
				gvim tab. Otherwise it works the same as edit -x. (it internally
				calls edit -x). This magic command also juggles vim server management,
				so when it is called when there is not a gvim running, it creates a
				new gvim instance, named after the ipython session name. Once such a
				gvim instance is running, it will be used for subsequent uses of the
				vim command.

				#2. ipython - gvim interaction. Once a file has been opened with the
				vim magic (and a session set up, see below), pressing the F5 key in
				vim will cause the calling ipython instance to execute run
				filename.py. (if you typo like I do, this is very useful)

				#3. ipython server - this is a thread wich listens on a unix domain
				socket, and runs commands sent to that socket.

				Note, this only works on POSIX systems, that allow for AF_UNIX type
				sockets. It has only been tested on linux (a fairly recent debian
				testing distro).

				To install it put, the ipserver.py in your favorite locaion for
				sourcing ipython scripts. I put the ipy.vim in
				~/.vim/after/ftplugin/python/.

				To use (this can be scripted im sure, but i usually have 2 or 3
				ipythons and corresponding gvims open):

				import ipy_vimserver
				ipy_vimserver.setup('sessionname')

				(Editors note - you can probably add these to your ipy_user_conf.py)

				Then use ipython as you normally would, until you need to edit
				something. Instead of edit, use the vim magic. Thats it!

				"""

				from IPython.core import ipapi
				from IPython.core.error import TryNext

				import socket, select
				import os, threading, subprocess
				import re

				try:
				ERRCONDS = select.POLLHUP\|select.POLLERR
				except AttributeError:
				raise ImportError("Vim server not supported on this platform - select "
				"missing necessary POLLHUP/POLLERR functionality")

				SERVER = None
				ip = ipapi.get()

				# this listens to a unix domain socket in a separate thread, so that comms
				# between a vim instance and ipython can happen in a fun and productive way
				class IpyServer(threading.Thread):
				def __init__(self, sname):
				super(IpyServer, self).__init__()
				self.keep_running = True
				self.__sname = sname
				self.socket = socket.socket(socket.AF_UNIX)
				self.poller = select.poll()
				self.current_conns = dict()
				self.setDaemon(True)

				def listen(self):
				self.socket.bind(self.__sname)
				self.socket.listen(1)

				def __handle_error(self, socket):
				if socket == self.socket.fileno():
				self.keep_running = False
				for a in self.current_conns.values():
				a.close()
				return False
				else:
				y = self.current_conns[socket]
				del self.current_conns[socket]
				y.close()
				self.poller.unregister(socket)

				def serve_me(self):
				self.listen()
				self.poller.register(self.socket,select.POLLIN\|ERRCONDS)

				while self.keep_running:
				try:
				avail = self.poller.poll(1)
				except:
				continue

				if not avail: continue

				for sock, conds in avail:
				if conds & (ERRCONDS):
				if self.__handle_error(sock): continue
				else: break

				if sock == self.socket.fileno():
				y = self.socket.accept()[0]
				self.poller.register(y, select.POLLIN\|ERRCONDS)
				self.current_conns[y.fileno()] = y
				else: y = self.current_conns.get(sock)

				self.handle_request(y)

				os.remove(self.__sname)

				run = serve_me

				def stop(self):
				self.keep_running = False

				def handle_request(self,sock):
				sock.settimeout(1)
				while self.keep_running:
				try:
				x = sock.recv(4096)
				except socket.timeout:
				pass
				else:
				break
				self.do_it(x)

				def do_it(self, data):
				data = data.split('\n')
				cmds = list()
				for line in data:
				cmds.append(line)
				ip.runlines(cmds)


				# try to help ensure that the unix domain socket is cleaned up proper
				def shutdown_server(self):
				if SERVER:
				SERVER.stop()
				SERVER.join(3)
				raise TryNext

				ip.set_hook('shutdown_hook', shutdown_server, 10)

				# this fun function exists to make setup easier for all, and makes the
				# vimhook function ready for instance specific communication
				def setup(sessionname='',socketdir=os.path.expanduser('~/.ipython/')):
				global SERVER

				if sessionname:
				session = sessionname
				elif os.environ.get('IPY_SESSION'):
				session = os.environ.get('IPY_SESSION')
				else:
				session = 'IPYS'
				vimhook.vimserver=session
				vimhook.ipyserver = os.path.join(socketdir, session)
				if not SERVER:
				SERVER = IpyServer(vimhook.ipyserver)
				SERVER.start()



				# calls gvim, with all ops happening on the correct gvim instance for this
				# ipython instance. it then calls edit -x (since gvim will return right away)
				# things of note: it sets up a special environment, so that the ipy.vim script
				# can connect back to the ipython instance and do fun things, like run the file
				def vimhook(self, fname, line):
				env = os.environ.copy()
				vserver = vimhook.vimserver.upper()
				check = subprocess.Popen('gvim --serverlist', stdout = subprocess.PIPE,
				shell=True)
				check.wait()
				cval = [l for l in check.stdout.readlines() if vserver in l]

				if cval:
				vimargs = '--remote%s' % (vimhook.extras,)
				else:
				vimargs = ''
				vimhook.extras = ''

				env['IPY_SESSION'] = vimhook.vimserver
				env['IPY_SERVER'] = vimhook.ipyserver

				if line is None: line = ''
				else: line = '+' + line
				vim_cmd = 'gvim --servername %s %s %s %s' % (vimhook.vimserver, vimargs,
				line, fname)
				subprocess.call(vim_cmd, env=env, shell=True)


				#default values to keep it sane...
				vimhook.vimserver = ''
				vimhook.ipyserver = ''

				ip.set_hook('editor',vimhook)

				# this is set up so more vim specific commands can be added, instead of just
				# the current -t. all thats required is a compiled regex, a call to do_arg(pat)
				# and the logic to deal with the new feature
				newtab = re.compile(r'-t(?:\s\|$)')
				def vim(self, argstr):
				def do_arg(pat, rarg):
				x = len(pat.findall(argstr))
				if x:
				a = pat.sub('',argstr)
				return rarg, a
				else: return '', argstr

				t, argstr = do_arg(newtab, '-tab')
				vimhook.extras = t
				argstr = 'edit -x ' + argstr
				ip.magic(argstr)

				ip.define_magic('vim', vim)