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	"""
	Python shell for SymPy.

	This is just a normal Python shell (IPython shell if you have the
	IPython package installed), that executes the following commands for
	the user:

	>>> from __future__ import division
	>>> from sympy import *
	>>> x, y, z, t = symbols('x y z t')
	>>> k, m, n = symbols('k m n', integer=True)
	>>> f, g, h = symbols('f g h', cls=Function)
	>>> init_printing()

	So starting 'isympy' is equivalent to starting Python (or IPython) and
	executing the above commands by hand. It is intended for easy and quick
	experimentation with SymPy. isympy is a good way to use SymPy as an
	interactive calculator. If you have IPython and Matplotlib installed, then
	interactive plotting is enabled by default.

	COMMAND LINE OPTIONS
	--------------------

	-c CONSOLE, --console=CONSOLE

	Use the specified shell (Python or IPython) shell as the console
	backend instead of the default one (IPython if present, Python
	otherwise), e.g.:

	$isympy -c python

	CONSOLE must be one of 'ipython' or 'python'

	-p PRETTY, --pretty PRETTY

	Setup pretty-printing in SymPy. When pretty-printing is enabled,
	expressions can be printed with Unicode or ASCII. The default is
	to use pretty-printing (with Unicode if the terminal supports it).
	When this option is 'no', expressions will not be pretty-printed
	and ASCII will be used:

	$isympy -p no

	PRETTY must be one of 'unicode', 'ascii', or 'no'

	-t TYPES, --types=TYPES

	Setup the ground types for the polys. By default, gmpy ground types
	are used if gmpy2 or gmpy is installed, otherwise it falls back to python
	ground types, which are a little bit slower. You can manually
	choose python ground types even if gmpy is installed (e.g., for
	testing purposes):

	$isympy -t python

	TYPES must be one of 'gmpy', 'gmpy1' or 'python'

	Note that the ground type gmpy1 is primarily intended for testing; it
	forces the use of gmpy version 1 even if gmpy2 is available.

	This is the same as setting the environment variable
	SYMPY_GROUND_TYPES to the given ground type (e.g.,
	SYMPY_GROUND_TYPES='gmpy')

	The ground types can be determined interactively from the variable
	sympy.polys.domains.GROUND_TYPES.

	-o ORDER, --order ORDER

	Setup the ordering of terms for printing. The default is lex, which
	orders terms lexicographically (e.g., x**2 + x + 1). You can choose
	other orderings, such as rev-lex, which will use reverse
	lexicographic ordering (e.g., 1 + x + x**2):

	$isympy -o rev-lex

	ORDER must be one of 'lex', 'rev-lex', 'grlex', 'rev-grlex',
	'grevlex', 'rev-grevlex', 'old', or 'none'.

	Note that for very large expressions, ORDER='none' may speed up
	printing considerably but the terms will have no canonical order.

	-q, --quiet

	Print only Python's and SymPy's versions to stdout at startup.

	-d, --doctest

	Use the same format that should be used for doctests. This is
	equivalent to -c python -p no.

	-C, --no-cache

	Disable the caching mechanism. Disabling the cache may slow certain
	operations down considerably. This is useful for testing the cache,
	or for benchmarking, as the cache can result in deceptive timings.

	This is equivalent to setting the environment variable
	SYMPY_USE_CACHE to 'no'.

	-a, --auto-symbols (requires at least IPython 0.11)

	Automatically create missing symbols. Normally, typing a name of a
	Symbol that has not been instantiated first would raise NameError,
	but with this option enabled, any undefined name will be
	automatically created as a Symbol.

	Note that this is intended only for interactive, calculator style
	usage. In a script that uses SymPy, Symbols should be instantiated
	at the top, so that it's clear what they are.

	This will not override any names that are already defined, which
	includes the single character letters represented by the mnemonic
	QCOSINE (see the "Gotchas and Pitfalls" document in the
	documentation). You can delete existing names by executing "del
	name". If a name is defined, typing "'name' in dir()" will return True.

	The Symbols that are created using this have default assumptions.
	If you want to place assumptions on symbols, you should create them
	using symbols() or var().

	Finally, this only works in the top level namespace. So, for
	example, if you define a function in isympy with an undefined
	Symbol, it will not work.

	See also the -i and -I options.

	-i, --int-to-Integer (requires at least IPython 0.11)

	Automatically wrap int literals with Integer. This makes it so that
	things like 1/2 will come out as Rational(1, 2), rather than 0.5. This
	works by preprocessing the source and wrapping all int literals with
	Integer. Note that this will not change the behavior of int literals
	assigned to variables, and it also won't change the behavior of functions
	that return int literals.

	If you want an int, you can wrap the literal in int(), e.g. int(3)/int(2)
	gives 1.5 (with division imported from __future__).

	-I, --interactive (requires at least IPython 0.11)

	This is equivalent to --auto-symbols --int-to-Integer. Future options
	designed for ease of interactive use may be added to this.

	-D, --debug

	Enable debugging output. This is the same as setting the
	environment variable SYMPY_DEBUG to 'True'. The debug status is set
	in the variable SYMPY_DEBUG within isympy.

	-- IPython options

	Additionally you can pass command line options directly to the IPython
	interpreter (the standard Python shell is not supported). However you
	need to add the '--' separator between two types of options, e.g the
	startup banner option and the colors option. You need to enter the
	options as required by the version of IPython that you are using, too:

	in IPython 0.11,

	$isympy -q -- --colors=NoColor

	or older versions of IPython,

	$isympy -q -- -colors NoColor

	See also isympy --help.
	"""

	import os
	import sys

	# DO NOT IMPORT SYMPY HERE! Or the setting of the sympy environment variables
	# by the command line will break.

	def main() -> None:
	from argparse import ArgumentParser, RawDescriptionHelpFormatter

	VERSION = None
	if '--version' in sys.argv:
	# We cannot import sympy before this is run, because flags like -C and
	# -t set environment variables that must be set before SymPy is
	# imported. The only thing we need to import it for is to get the
	# version, which only matters with the --version flag.
	import sympy
	VERSION = sympy.__version__

	usage = 'isympy [options] -- [ipython options]'
	parser = ArgumentParser(
	usage=usage,
	description=__doc__,
	formatter_class=RawDescriptionHelpFormatter,
	)

	parser.add_argument('--version', action='version', version=VERSION)

	parser.add_argument(
	'-c', '--console',
	dest='console',
	action='store',
	default=None,
	choices=['ipython', 'python'],
	metavar='CONSOLE',
	help='select type of interactive session: ipython \| python; defaults '
	'to ipython if IPython is installed, otherwise python')

	parser.add_argument(
	'-p', '--pretty',
	dest='pretty',
	action='store',
	default=None,
	metavar='PRETTY',
	choices=['unicode', 'ascii', 'no'],
	help='setup pretty printing: unicode \| ascii \| no; defaults to '
	'unicode printing if the terminal supports it, otherwise ascii')

	parser.add_argument(
	'-t', '--types',
	dest='types',
	action='store',
	default=None,
	metavar='TYPES',
	choices=['gmpy', 'gmpy1', 'python'],
	help='setup ground types: gmpy \| gmpy1 \| python; defaults to gmpy if gmpy2 '
	'or gmpy is installed, otherwise python')

	parser.add_argument(
	'-o', '--order',
	dest='order',
	action='store',
	default=None,
	metavar='ORDER',
	choices=['lex', 'grlex', 'grevlex', 'rev-lex', 'rev-grlex', 'rev-grevlex', 'old', 'none'],
	help='setup ordering of terms: [rev-]lex \| [rev-]grlex \| [rev-]grevlex \| old \| none; defaults to lex')

	parser.add_argument(
	'-q', '--quiet',
	dest='quiet',
	action='store_true',
	default=False,
	help='print only version information at startup')

	parser.add_argument(
	'-d', '--doctest',
	dest='doctest',
	action='store_true',
	default=False,
	help='use the doctest format for output (you can just copy and paste it)')

	parser.add_argument(
	'-C', '--no-cache',
	dest='cache',
	action='store_false',
	default=True,
	help='disable caching mechanism')

	parser.add_argument(
	'-a', '--auto-symbols',
	dest='auto_symbols',
	action='store_true',
	default=False,
	help='automatically construct missing symbols')

	parser.add_argument(
	'-i', '--int-to-Integer',
	dest='auto_int_to_Integer',
	action='store_true',
	default=False,
	help="automatically wrap int literals with Integer")

	parser.add_argument(
	'-I', '--interactive',
	dest='interactive',
	action='store_true',
	default=False,
	help="equivalent to -a -i")

	parser.add_argument(
	'-D', '--debug',
	dest='debug',
	action='store_true',
	default=False,
	help='enable debugging output')

	(options, ipy_args) = parser.parse_known_args()
	if '--' in ipy_args:
	ipy_args.remove('--')

	if not options.cache:
	os.environ['SYMPY_USE_CACHE'] = 'no'

	if options.types:
	os.environ['SYMPY_GROUND_TYPES'] = options.types

	if options.debug:
	os.environ['SYMPY_DEBUG'] = str(options.debug)

	if options.doctest:
	options.pretty = 'no'
	options.console = 'python'

	session = options.console

	if session is not None:
	ipython = session == 'ipython'
	else:
	try:
	import IPython
	ipython = True
	except ImportError:
	if not options.quiet:
	from sympy.interactive.session import no_ipython
	print(no_ipython)
	ipython = False

	args = {
	'pretty_print': True,
	'use_unicode': None,
	'use_latex': None,
	'order': None,
	'argv': ipy_args,
	}

	if options.pretty == 'unicode':
	args['use_unicode'] = True
	elif options.pretty == 'ascii':
	args['use_unicode'] = False
	elif options.pretty == 'no':
	args['pretty_print'] = False

	if options.order is not None:
	args['order'] = options.order

	args['quiet'] = options.quiet
	args['auto_symbols'] = options.auto_symbols or options.interactive
	args['auto_int_to_Integer'] = options.auto_int_to_Integer or options.interactive

	from sympy.interactive import init_session
	init_session(ipython, **args)

	if __name__ == "__main__":
	main()