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/*
** $Id: ltm.c,v 2.8.1.1 2007/12/27 13:02:25 roberto Exp $
** Tag methods
** See Copyright Notice in lua.h
*/


#include <string.h>

#define ltm_c
#define LUA_CORE

#include "lua.h"

#include "lobject.h"
#include "lstate.h"
#include "lstring.h"
#include "ltable.h"
#include "ltm.h"



const char *const luaT_typenames[] = {
  "nil", "boolean", "userdata", "number",
  "string", "table", "function", "userdata", "thread",
  "proto", "upval"
};


void luaT_init (lua_State *L) {
  static const char *const luaT_eventname[] = {  /* ORDER TM */
    "__index", "__newindex",
    "__gc", "__mode", "__eq",
    "__add", "__sub", "__mul", "__div", "__mod",
    "__pow", "__unm", "__len", "__lt", "__le",
    "__concat", "__call"
  };
  int i;
  for (i=0; i<TM_N; i++) {
    G(L)->tmname[i] = luaS_new(L, luaT_eventname[i]);
    luaS_fix(G(L)->tmname[i]);  /* never collect these names */
  }
}


/*
** function to be used with macro "fasttm": optimized for absence of
** tag methods
*/
const TValue *luaT_gettm (Table *events, TMS event, TString *ename) {
  const TValue *tm = luaH_getstr(events, ename);
  lua_assert(event <= TM_EQ);
  if (ttisnil(tm)) {  /* no tag method? */
    events->flags |= cast_byte(1u<<event);  /* cache this fact */
    return NULL;
  }
  else return tm;
}


const TValue *luaT_gettmbyobj (lua_State *L, const TValue *o, TMS event) {
  Table *mt;
  switch (ttype(o)) {
    case LUA_TTABLE:
      mt = hvalue(o)->metatable;
      break;
    case LUA_TUSERDATA:
      mt = uvalue(o)->metatable;
      break;
    default:
      mt = G(L)->mt[ttype(o)];
  }
  return (mt ? luaH_getstr(mt, G(L)->tmname[event]) : luaO_nilobject);
}

# -*- coding: utf-8 -*-
# Copyright (C) 2009, 2010, 2011  Roman Zimbelmann <romanz@lavabit.com>
# This configuration file is licensed under the same terms as ranger.
# ===================================================================
# This file contains ranger's commands.
# It's all in python; lines beginning with # are comments.
#
# Note that additional commands are automatically generated from the methods
# of the class ranger.core.actions.Actions.
#
# You can customize commands in the file ~/.config/ranger/commands.py.
# It has the same syntax as this file.  In fact, you can just copy this
# file there with `ranger --copy-config=commands' and make your modifications.
# But make sure you update your configs when you update ranger.
#
# ===================================================================
# Every class defined here which is a subclass of `Command' will be used as a
# command in ranger.  Several methods are defined to interface with ranger:
#   execute(): called when the command is executed.
#   cancel():  called when closing the console.
#   tab():     called when <TAB> is pressed.
#   quick():   called after each keypress.
#
# The return values for tab() can be either:
#   None: There is no tab completion
#   A string: Change the console to this string
#   A list/tuple/generator: cycle through every item in it
#
# The return value for quick() can be:
#   False: Nothing happens
#   True: Execute the command afterwards
#
# The return value for execute() and cancel() doesn't matter.
#
# ===================================================================
# Commands have certain attributes and methods that facilitate parsing of
# the arguments:
#
# self.line: The whole line that was written in the console.
# self.args: A list of all (space-separated) arguments to the command.
# self.quantifier: If this command was mapped to the key "X" and
#      the user pressed 6X, self.quantifier will be 6.
# self.arg(n): The n-th argument, or an empty string if it doesn't exist.
# self.rest(n): The n-th argument plus everything that followed.  For example,
#      If the command was "search foo bar a b c", rest(2) will be "bar a b c"
# self.start(n): The n-th argument and anything before it.  For example,
#      If the command was "search foo bar a b c", rest(2) will be "bar a b c"
#
# ===================================================================
# And this is a little reference for common ranger functions and objects:
#
# self.fm: A reference to the "fm" object which contains most information
#      about ranger.
# self.fm.notify(string): Print the given string on the screen.
# self.fm.notify(string, bad=True): Print the given string in RED.
# self.fm.reload_cwd(): Reload the current working directory.
# self.fm.env.cwd: The current working directory. (A File object.)
# self.fm.env.cf: The current file. (A File object too.)
# self.fm.env.cwd.get_selection(): A list of all selected files.
# self.fm.execute_console(string): Execute the string as a ranger command.
# self.fm.open_console(string): Open the console with the given string
#      already typed in for you.
# self.fm.move(direction): Moves the cursor in the given direction, which
#      can be something like down=3, up=5, right=1, left=1, to=6, ...
#
# File objects (for example self.fm.env.cf) have these useful attributes and
# methods:
#
# cf.path: The path to the file.
# cf.basename: The base name only.
# cf.load_content(): Force a loading of the directories content (which
#      obviously works with directories only)
# cf.is_directory: True/False depending on whether it's a directory.
#
# For advanced commands it is unavoidable to dive a bit into the source code
# of ranger.
# ===================================================================

from ranger.api.commands import *
from ranger.ext.get_executables import get_executables
from ranger.core.runner import ALLOWED_FLAGS

class alias(Command):
	"""
	:alias <newcommand> <oldcommand>

	Copies the oldcommand as newcommand.
	"""
	def execute(self):
		if not self.arg(1) or not self.arg(2):
			self.fm.notify('Syntax: alias <newcommand> <oldcommand>', bad=True)
		else:
			self.fm.commands.alias(self.arg(1), self.arg(2))

class cd(Command):
	"""
	:cd [-r] <dirname>

	The cd command changes the directory.
	The command 'cd -' is equivalent to typing ``.
	Using the option "-r" will get you to the real path.
	"""

	def execute(self):
		if self.arg(1) == '-r':
			import os.path
			self.shift()
			destination = os.path.realpath(self.rest(1))
			if os.path.isfile(destination):
				destination = os.path.dirname(destination)
		else:
			destination = self.rest(1)

		if not destination:
			destination = '~'

		if destination == '-':
			self.fm.enter_bookmark('`')
		else:
			self.fm.cd(destination)

	def tab(self):
		from os.path import dirname, basename, expanduser, join

		cwd = self.fm.env.cwd.path
		rel_dest = self.rest(1)

		bookmarks = [v.path for v in self.fm.bookmarks.dct.values()
				if rel_dest in v.path ]

		# expand the tilde into the user directory
		if rel_dest.startswith('~'):
			rel_dest = expanduser(rel_dest)

		# define some shortcuts
		abs_dest = join(cwd, rel_dest)
		abs_dirname = dirname(abs_dest)
		rel_basename = basename(rel_dest)
		rel_dirname = dirname(rel_dest)

		try:
			# are we at the end of a directory?
			if rel_dest.endswith('/') or rel_dest == '':
				_, dirnames, _ = next(os.walk(abs_dest))

			# are we in the middle of the filename?
			else:
				_, dirnames, _ = next(os.walk(abs_dirname))
				dirnames = [dn for dn in dirnames \
						if dn.startswith(rel_basename)]
		except (OSError, StopIteration):
			# os.walk found nothing
			pass
		else:
			dirnames.sort()
			dirnames = bookmarks + dirnames

			# no results, return None
			if len(dirnames) == 0:
				return

			# one result. since it must be a directory, append a slash.
			if len(dirnames) == 1:
				return self.start(1) + join(rel_dirname, dirnames[0]) + '/'

			# more than one result. append no slash, so the user can
			# manually type in the slash to advance into that directory
			return (self.start(1) + join(rel_dirname, dirname) for dirname in dirnames)


class chain(Command):
	"""
	:chain <command1>; <command2>; ...
	Calls multiple commands at once, separated by semicolons.
	"""
	def execute(self):
		for command in self.rest(1).split(";"):
			self.fm.execute_console(command)


class search(Command):
	def execute(self):
		self.fm.search_file(self.rest(1), regexp=True)


class search_inc(Command):
	def quick(self):
		self.fm.search_file(self.rest(1), regexp=True, offset=0)


class shell(Command):
	escape_macros_for_shell = True

	def execute(self):
		if self.arg(1) and self.arg(1)[0] == '-':
			flags = self.arg(1)[1:]
			command = self.rest(2)
		else:
			flags = ''
			command = self.rest(1)

		if not command and 'p' in flags: command = 'cat %f'
		if command:
			if '%' in command:
				command = self.fm.substitute_macros(command)
			self.fm.execute_command(command, flags=flags)

	def tab(self):
		if self.arg(1) and self.arg(1)[0] == '-':
			command = self.rest(2)
		else:
			command = self.rest(1)
		start = self.line[0:len(self.line) - len(command)]

		try:
			position_of_last_space = command.rindex(" ")
		except ValueError:
			return (start + program + ' ' for program \
					in get_executables() if program.startswith(command))
		if position_of_last_space == len(command) - 1:
			return self.line + '%s '
		else:
			before_word, start_of_word = self.line.rsplit(' ', 1)
			return (before_word + ' ' + file.shell_escaped_basename \
					for file in self.fm.env.cwd.files \
					if file.shell_escaped_basename.startswith(start_of_word))

class open_with(Command):
	def execute(self):
		app, flags, mode = self._get_app_flags_mode(self.rest(1))
		self.fm.execute_file(
				files = [f for f in self.fm.env.cwd.get_selection()],
				app = app,
				flags = flags,
				mode = mode)

	def _get_app_flags_mode(self, string):
		"""
		Extracts the application, flags and mode from a string.

		examples:
		"mplayer d 1" => ("mplayer", "d", 1)
		"aunpack 4" => ("aunpack", "", 4)
		"p" => ("", "p", 0)
		"" => None
		"""

		app = ''
		flags = ''
		mode = 0
		split = string.split()

		if len(split) == 0:
			pass

		elif len(split) == 1:
			part = split[0]
			if self._is_app(part):
				app = part
			elif self._is_flags(part):
				flags = part
			elif self._is_mode(part):
				mode = part

		elif len(split) == 2:
			part0 = split[0]
			part1 = split[1]

			if self._is_app(part0):
				app = part0
				if self._is_flags(part1):
					flags = part1
				elif self._is_mode(part1):
					mode = part1
			elif self._is_flags(part0):
				flags = part0
				if self._is_mode(part1):
					mode = part1
			elif self._is_mode(part0):
				mode = part0
				if self._is_flags(part1):
					flags = part1

		elif len(split) >= 3:
			part0 = split[0]
			part1 = split[1]
			part2 = split[2]

			if self._is_app(part0):
				app = part0
				if self._is_flags(part1):
					flags = part1
					if self._is_mode(part2):
						mode = part2
				elif self._is_mode(part1):
					mode = part1
					if self._is_flags(part2):
						flags = part2
			elif self._is_flags(part0):
				flags = part0
				if self._is_mode(part1):
					mode = part1
			elif self._is_mode(part0):
				mode = part0
				if self._is_flags(part1):
					flags = part1

		return app, flags, int(mode)

	def tab(self):
		data = self.rest(1)
		if ' ' not in data:
			all_apps = self.fm.apps.all()
			if all_apps:
				return (self.firstpart + app for app in all_apps if app.startswith(data))

		return None

	def _is_app(self, arg):
		return self.fm.apps.has(arg) or \
			(not self._is_flags(arg) and arg in get_executables())

	def _is_flags(self, arg):
		return all(x in ALLOWED_FLAGS for x in arg)

	def _is_mode(self, arg):
		return all(x in '0123456789' for x in arg)


class find(Command):
	"""
	:find <string>

	The find command will attempt to find a partial, case insensitive
	match in the filenames of the current directory and execute the
	file automatically.
	"""

	count = 0
	tab = Command._tab_directory_content

	def execute(self):
		if self.quick():
			self.fm.move(right=1)
			self.fm.block_input(0.5)
		else:
			self.fm.cd(self.rest(1))

	def quick(self):
		self.count = 0
		cwd = self.fm.env.cwd
		arg = self.rest(1)
		if not arg:
			return False

		if arg == '.':
			return False
		if arg == '..':
			return True

		deq = deque(cwd.files)
		deq.rotate(-cwd.pointer)
		i = 0
		case_insensitive = arg.lower() == arg
		for fsobj in deq:
			if case_insensitive:
				filename = fsobj.basename_lower
			else:
				filename = fsobj.basename
			if arg in filename:
				self.count += 1
				if self.count == 1:
					cwd.move(to=(cwd.pointer + i) % len(cwd.files))
					self.fm.env.cf = cwd.pointed_obj
			if self.count > 1:
				return False
			i += 1

		return self.count == 1


class set_(Command):
	"""
	:set <option name>=<python expression>

	Gives an option a new value.
	"""
	name = 'set'  # don't override the builtin set class
	def execute(self):
		name = self.arg(1)
		name, value, _ = self.parse_setting_line()
		if name and value:
			from re import compile as regexp
			try:
				value = eval(value)
			except:
				pass
			self.fm.settings[name] = value

	def tab(self):
		name, value, name_done = self.parse_setting_line()
		settings = self.fm.settings
		if not name:
			return (self.firstpart + setting for setting in settings)
		if not value and not name_done:
			return (self.firstpart + setting for setting in settings \
					if setting.startswith(name))
		if not value:
			return self.firstpart + repr(settings[name])
		if bool in settings.types_of(name):
			if 'true'.startswith(value.lower()):
				return self.firstpart + 'True'
			if 'false'.startswith(value.lower()):
				return self.firstpart + 'False'


class quit(Command):
	"""
	:quit

	Closes the current tab.  If there is only one tab, quit the program.
	"""

	def execute(self):
		if len(self.fm.tabs) <= 1:
			self.fm.exit()
		self.fm.tab_close()


class quitall(Command):
	"""
	:quitall

	Quits the program immediately.
	"""

	def execute(self):
		self.fm.exit()


class quit_bang(quitall):
	"""
	:quit!

	Quits the program immediately.
	"""
	name = 'quit!'
	allow_abbrev = False


class terminal(Command):
	"""
	:terminal

	Spawns an "x-terminal-emulator" starting in the current directory.
	"""
	def execute(self):
		self.fm.run('x-terminal-emulator', flags='d')


class delete(Command):
	"""
	:delete

	Tries to delete the selection.

	"Selection" is defined as all the "marked files" (by default, you
	can mark files with space or v). If there are no marked files,
	use the "current file" (where the cursor is)

	When attempting to delete non-empty directories or multiple
	marked files, it will require a confirmation: The last word in
	the line has to start with a 'y'.  This may look like:
	:delete yes
	:delete seriously? yeah!
	"""

	allow_abbrev = False

	def execute(self):
		lastword = self.arg(-1)

		if lastword.startswith('y'):
			# user confirmed deletion!
			return self.fm.delete()
		elif self.line.startswith(DELETE_WARNING):
			# user did not confirm deletion
			return

		cwd = self.fm.env.cwd
		cf = self.fm.env.cf

		if cwd.marked_items or (cf.is_directory and not cf.is_link \
				and len(os.listdir(cf.path)) > 0):
			# better ask for a confirmation, when attempting to
			# delete multiple files or a non-empty directory.
			return self.fm.open_console(DELETE_WARNING)

		# no need for a confirmation, just delete
		self.fm.delete()


class mark(Command):
	"""
	:mark <regexp>

	Mark all files matching a regular expression.
	"""
	do_mark = True

	def execute(self):
		import re
		cwd = self.fm.env.cwd
		input = self.rest(1)
		searchflags = re.UNICODE
		if input.lower() == input: # "smartcase"
			searchflags |= re.IGNORECASE 
		pattern = re.compile(input, searchflags)
		for fileobj in cwd.files:
			if pattern.search(fileobj.basename):
				cwd.mark_item(fileobj, val=self.do_mark)
		self.fm.ui.status.need_redraw = True
		self.fm.ui.need_redraw = True


class console(Command):
	"""
	:console <command>

	Open the console with the given command.
	"""
	def execute(self):
		position = None
		if self.arg(1)[0:2] == '-p':
			try:
				position = int(self.arg(1)[2:])
				self.shift()
			except:
				pass
		self.fm.open_console(self.rest(1), position=position)


class load_copy_buffer(Command):
	"""
	:load_copy_buffer

	Load the copy buffer from confdir/copy_buffer
	"""
	copy_buffer_filename = 'copy_buffer'
	def execute(self):
		from ranger.fsobject import File
		from os.path import exists
		try:
			fname = self.fm.confpath(self.copy_buffer_filename)
			f = open(fname, 'r')
		except:
			return self.fm.notify("Cannot open %s" % \
					(fname or self.copy_buffer_filename), bad=True)
		self.fm.env.copy = set(File(g) \
			for g in f.read().split("\n") if exists(g))
		f.close()
		self.fm.ui.redraw_main_column()


class save_copy_buffer(Command):
	"""
	:save_copy_buffer

	Save the copy buffer to confdir/copy_buffer
	"""
	copy_buffer_filename = 'copy_buffer'
	def execute(self):
		fname = None
		try:
			fname = self.fm.confpath(self.copy_buffer_filename)
			f = open(fname, 'w')
		except:
			return self.fm.notify("Cannot open %s" % \
					(fname or self.copy_buffer_filename), bad=True)
		f.write("\n".join(f.path for f in self.fm.env.copy))
		f.close()


class unmark(mark):
	"""
	:unmark <regexp>

	Unmark all files matching a regular expression.
	"""
	do_mark = False


class mkdir(Command):
	"""
	:mkdir <dirname>

	Creates a directory with the name <dirname>.
	"""

	def execute(self):
		from os.path import join, expanduser, lexists
		from os import mkdir

		dirname = join(self.fm.env.cwd.path, expanduser(self.rest(1)))
		if not lexists(dirname):
			mkdir(dirname)
		else:
			self.fm.notify("file/directory exists!", bad=True)


class touch(Command):
	"""
	:touch <fname>

	Creates a file with the name <fname>.
	"""

	def execute(self):
		from os.path import join, expanduser, lexists

		fname = join(self.fm.env.cwd.path, expanduser(self.rest(1)))
		if not lexists(fname):
			open(fname, 'a').close()
		else:
			self.fm.notify("file/directory exists!", bad=True)


class edit(Command):
	"""
	:edit <filename>

	Opens the specified file in vim
	"""

	def execute(self):
		if not self.arg(1):
			self.fm.edit_file(self.fm.env.cf.path)
		else:
			self.fm.edit_file(self.rest(1))

	def tab(self):
		return self._tab_directory_content()


class eval_(Command):
	"""
	:eval [-q] <python code>

	Evaluates the python code.
	`fm' is a reference to the FM instance.
	To display text, use the function `p'.

	Examples:
	:eval fm
	:eval len(fm.env.directories)
	:eval p("Hello World!")
	"""
	name = 'eval'
	resolve_macros = False

	def execute(self):
		if self.arg(1) == '-q':
			code = self.rest(2)
			quiet = True
		else:
			code = self.rest(1)
			quiet = False
		import ranger
		global cmd, fm, p, quantifier
		fm = self.fm
		cmd = self.fm.execute_console
		p = fm.notify
		quantifier = self.quantifier
		try:
			try:
				result = eval(code)
			except SyntaxError:
				exec(code)
			else:
				if result and not quiet:
					p(result)
		except Exception as err:
			p(err)


class rename(Command):
	"""
	:rename <newname>

	Changes the name of the currently highlighted file to <newname>
	"""

	def execute(self):
		from ranger.fsobject import File
		from os import access

		new_name = self.rest(1)

		if not new_name:
			return self.fm.notify('Syntax: rename <newname>', bad=True)

		if new_name == self.fm.env.cf.basename:
			return

		if access(new_name, os.F_OK):
			return self.fm.notify("Can't rename: file already exists!", bad=True)

		self.fm.rename(self.fm.env.cf, new_name)
		f = File(new_name)
		self.fm.env.cwd.pointed_obj = f
		self.fm.env.cf = f

	def tab(self):
		return self._tab_directory_content()


class chmod(Command):
	"""
	:chmod <octal number>

	Sets the permissions of the selection to the octal number.

	The octal number is between 0 and 777. The digits specify the
	permissions for the user, the group and others.

	A 1 permits execution, a 2 permits writing, a 4 permits reading.
	Add those numbers to combine them. So a 7 permits everything.
	"""

	def execute(self):
		mode = self.rest(1)
		if not mode:
			mode = str(self.quantifier)

		try:
			mode = int(mode, 8)
			if mode < 0 or mode > 0o777:
				raise ValueError
		except ValueError:
			self.fm.notify("Need an octal number between 0 and 777!", bad=True)
			return

		for file in self.fm.env.get_selection():
			try:
				os.chmod(file.path, mode)
			except Exception as ex:
				self.fm.notify(ex)

		try:
			# reloading directory.  maybe its better to reload the selected
			# files only.
			self.fm.env.cwd.load_content()
		except:
			pass


class bulkrename(Command):
	"""
	:bulkrename

	This command opens a list of selected files in an external editor.
	After you edit and save the file, it will generate a shell script
	which does bulk renaming according to the changes you did in the file.

	This shell script is opened in an editor for you to review.
	After you close it, it will be executed.
	"""
	def execute(self):
		import sys
		import tempfile
		from ranger.fsobject.file import File
		from ranger.ext.shell_escape import shell_escape as esc
		py3 = sys.version > "3"

		# Create and edit the file list
		filenames = [f.basename for f in self.fm.env.get_selection()]
		listfile = tempfile.NamedTemporaryFile()

		if py3:
			listfile.write("\n".join(filenames).encode("utf-8"))
		else:
			listfile.write("\n".join(filenames))
		listfile.flush()
		self.fm.execute_file([File(listfile.name)], app='editor')
		listfile.seek(0)
		if py3:
			new_filenames = listfile.read().decode("utf-8").split("\n")
		else:
			new_filenames = listfile.read().split("\n")
		listfile.close()
		if all(a == b for a, b in zip(filenames, new_filenames)):
			self.fm.notify("No renaming to be done!")
			return

		# Generate and execute script
		cmdfile = tempfile.NamedTemporaryFile()
		cmdfile.write(b"# This file will be executed when you close the editor.\n")
		cmdfile.write(b"# Please double-check everything, clear the file to abort.\n")
		if py3:
			cmdfile.write("\n".join("mv -vi " + esc(old) + " " + esc(new) \
				for old, new in zip(filenames, new_filenames) \
				if old != new).encode("utf-8"))
		else:
			cmdfile.write("\n".join("mv -vi " + esc(old) + " " + esc(new) \
				for old, new in zip(filenames, new_filenames) if old != new))
		cmdfile.flush()
		self.fm.execute_file([File(cmdfile.name)], app='editor')
		self.fm.run(['/bin/sh', cmdfile.name], flags='w')
		cmdfile.close()


class help_(Command):
	"""
	:help
	
	Display ranger's manual page.
	"""
	name = 'help'
	def execute(self):
		if self.quantifier == 1:
			self.fm.dump_keybindings()
		elif self.quantifier == 2:
			self.fm.dump_commands()
		elif self.quantifier == 3:
			self.fm.dump_settings()
		else:
			self.fm.display_help()


class copymap(Command):
	"""
	:copymap <keys> <newkeys1> [<newkeys2>...]
	Copies a "browser" keybinding from <keys> to <newkeys>
	"""
	context = 'browser'

	def execute(self):
		if not self.arg(1) or not self.arg(2):
			return self.notify("Not enough arguments", bad=True)

		for arg in self.args[2:]:
			self.fm.env.keymaps.copy(self.context, self.arg(1), arg)


class copypmap(copymap):
	"""
	:copypmap <keys> <newkeys1> [<newkeys2>...]
	Copies a "pager" keybinding from <keys> to <newkeys>
	"""
	context = 'pager'


class copycmap(copymap):
	"""
	:copycmap <keys> <newkeys1> [<newkeys2>...]
	Copies a "console" keybinding from <keys> to <newkeys>
	"""
	context = 'console'


class copytmap(copymap):
	"""
	:copycmap <keys> <newkeys1> [<newkeys2>...]
	Copies a "taskview" keybinding from <keys> to <newkeys>
	"""
	context = 'taskview'


class unmap(Command):
	"""
	:unmap <keys> [<keys2>, ...]
	Remove the given "browser" mappings
	"""
	context = 'browser'

	def execute(self):
		for arg in self.args[1:]:
			self.fm.env.keymaps.unbind(self.context, arg)


class cunmap(unmap):
	"""
	:cunmap <keys> [<keys2>, ...]
	Remove the given "console" mappings
	"""
	context = 'browser'


class punmap(unmap):
	"""
	:punmap <keys> [<keys2>, ...]
	Remove the given "pager" mappings
	"""
	context = 'pager'


class tunmap(unmap):
	"""
	:tunmap <keys> [<keys2>, ...]
	Remove the given "taskview" mappings
	"""
	context = 'taskview'


class map_(Command):
	"""
	:map <keysequence> <command>
	Maps a command to a keysequence in the "browser" context.

	Example:
	map j move down
	map J move down 10
	"""
	name = 'map'
	context = 'browser'
	resolve_macros = False

	def execute(self):
		self.fm.env.keymaps.bind(self.context, self.arg(1), self.rest(2))


class cmap(map_):
	""":cmap <keysequence> <command>
	Maps a command to a keysequence in the "console" context.

	Example:
	cmap <ESC> console_close
	cmap <C-x> console_type test
	"""
	context = 'console'


class tmap(map_):
	""":tmap <keysequence> <command>
	Maps a command to a keysequence in the "taskview" context.
	"""
	context = 'taskview'


class pmap(map_):
	""":pmap <keysequence> <command>
	Maps a command to a keysequence in the "pager" context.
	"""
	context = 'pager'


class filter(Command):
	"""
	:filter <string>

	Displays only the files which contain <string> in their basename.
	"""

	def execute(self):
		self.fm.set_filter(self.rest(1))
		self.fm.reload_cwd()


class grep(Command):
	"""
	:grep <string>

	Looks for a string in all marked files or directories
	"""

	def execute(self):
		if self.rest(1):
			action = ['grep', '--color=always', '--line-number']
			action.extend(['-e', self.rest(1), '-r'])
			action.extend(f.path for f in self.fm.env.get_selection())
			self.fm.execute_command(action, flags='p')