Lib/test/test_curses.py - platform/external/python/cpython3 - Gitiles

 #
 # Test script for the curses module
 #
 # This script doesn't actually display anything very coherent. but it
 # does call (nearly) every method and function.
 #
 # Functions not tested: {def,reset}_{shell,prog}_mode, getch(), getstr(),
 # init_color()
 # Only called, not tested: getmouse(), ungetmouse()
 #

 import os
 import string
 import sys
 import tempfile
 import unittest

 from test.support import requires, import_module, verbose

 # Optionally test curses module.  This currently requires that the
 # 'curses' resource be given on the regrtest command line using the -u
 # option.  If not available, nothing after this line will be executed.
 import inspect
 requires('curses')

 # If either of these don't exist, skip the tests.
 curses = import_module('curses')
 import_module('curses.panel')
 import_module('curses.ascii')

 def requires_curses_func(name):
     return unittest.skipUnless(hasattr(curses, name),
                                'requires curses.%s' % name)

 term = os.environ.get('TERM')

 # If newterm was supported we could use it instead of initscr and not exit
 @unittest.skipIf(not term or term == 'unknown',
                  "$TERM=%r, calling initscr() may cause exit" % term)
 @unittest.skipIf(sys.platform == "cygwin",
                  "cygwin's curses mostly just hangs")
 class TestCurses(unittest.TestCase):

     @classmethod
     def setUpClass(cls):
         if not sys.__stdout__.isatty():
             # Temporary skip tests on non-tty
             raise unittest.SkipTest('sys.__stdout__ is not a tty')
             cls.tmp = tempfile.TemporaryFile()
             fd = cls.tmp.fileno()
         else:
             cls.tmp = None
             fd = sys.__stdout__.fileno()
         # testing setupterm() inside initscr/endwin
         # causes terminal breakage
         curses.setupterm(fd=fd)

     @classmethod
     def tearDownClass(cls):
         if cls.tmp:
             cls.tmp.close()
             del cls.tmp

     def setUp(self):
         if verbose:
             # just to make the test output a little more readable
             print()
         self.stdscr = curses.initscr()
         curses.savetty()

     def tearDown(self):
         curses.resetty()
         curses.endwin()

     def test_window_funcs(self):
         "Test the methods of windows"
         stdscr = self.stdscr
         win = curses.newwin(10,10)
         win = curses.newwin(5,5, 5,5)
         win2 = curses.newwin(15,15, 5,5)

         for meth in [stdscr.addch, stdscr.addstr]:
             for args in [('a'), ('a', curses.A_BOLD),
                          (4,4, 'a'), (5,5, 'a', curses.A_BOLD)]:
                 with self.subTest(meth=meth.__qualname__, args=args):
                     meth(*args)

         for meth in [stdscr.box, stdscr.clear, stdscr.clrtobot,
                      stdscr.clrtoeol, stdscr.cursyncup, stdscr.delch,
                      stdscr.deleteln, stdscr.erase, stdscr.getbegyx,
                      stdscr.getbkgd, stdscr.getkey, stdscr.getmaxyx,
                      stdscr.getparyx, stdscr.getyx, stdscr.inch,
                      stdscr.insertln, stdscr.instr, stdscr.is_wintouched,
                      win.noutrefresh, stdscr.redrawwin, stdscr.refresh,
                      stdscr.standout, stdscr.standend, stdscr.syncdown,
                      stdscr.syncup, stdscr.touchwin, stdscr.untouchwin]:
             with self.subTest(meth=meth.__qualname__):
                 meth()

         stdscr.addnstr('1234', 3)
         stdscr.addnstr('1234', 3, curses.A_BOLD)
         stdscr.addnstr(4,4, '1234', 3)
         stdscr.addnstr(5,5, '1234', 3, curses.A_BOLD)

         stdscr.attron(curses.A_BOLD)
         stdscr.attroff(curses.A_BOLD)
         stdscr.attrset(curses.A_BOLD)
         stdscr.bkgd(' ')
         stdscr.bkgd(' ', curses.A_REVERSE)
         stdscr.bkgdset(' ')
         stdscr.bkgdset(' ', curses.A_REVERSE)

         win.border(65, 66, 67, 68,
                    69, 70, 71, 72)
         win.border('|', '!', '-', '_',
                    '+', '\\', '#', '/')
         with self.assertRaises(TypeError,
                                msg="Expected win.border() to raise TypeError"):
             win.border(65, 66, 67, 68,
                        69, [], 71, 72)

         stdscr.clearok(1)

         win4 = stdscr.derwin(2,2)
         win4 = stdscr.derwin(1,1, 5,5)
         win4.mvderwin(9,9)

         stdscr.echochar('a')
         stdscr.echochar('a', curses.A_BOLD)
         stdscr.hline('-', 5)
         stdscr.hline('-', 5, curses.A_BOLD)
         stdscr.hline(1,1,'-', 5)
         stdscr.hline(1,1,'-', 5, curses.A_BOLD)

         stdscr.idcok(1)
         stdscr.idlok(1)
         stdscr.immedok(1)
         stdscr.insch('c')
         stdscr.insdelln(1)
         stdscr.insnstr('abc', 3)
         stdscr.insnstr('abc', 3, curses.A_BOLD)
         stdscr.insnstr(5, 5, 'abc', 3)
         stdscr.insnstr(5, 5, 'abc', 3, curses.A_BOLD)

         stdscr.insstr('def')
         stdscr.insstr('def', curses.A_BOLD)
         stdscr.insstr(5, 5, 'def')
         stdscr.insstr(5, 5, 'def', curses.A_BOLD)
         stdscr.is_linetouched(0)
         stdscr.keypad(1)
         stdscr.leaveok(1)
         stdscr.move(3,3)
         win.mvwin(2,2)
         stdscr.nodelay(1)
         stdscr.notimeout(1)
         win2.overlay(win)
         win2.overwrite(win)
         win2.overlay(win, 1, 2, 2, 1, 3, 3)
         win2.overwrite(win, 1, 2, 2, 1, 3, 3)
         stdscr.redrawln(1,2)

         stdscr.scrollok(1)
         stdscr.scroll()
         stdscr.scroll(2)
         stdscr.scroll(-3)

         stdscr.move(12, 2)
         stdscr.setscrreg(10,15)
         win3 = stdscr.subwin(10,10)
         win3 = stdscr.subwin(10,10, 5,5)
         stdscr.syncok(1)
         stdscr.timeout(5)
         stdscr.touchline(5,5)
         stdscr.touchline(5,5,0)
         stdscr.vline('a', 3)
         stdscr.vline('a', 3, curses.A_STANDOUT)
         stdscr.chgat(5, 2, 3, curses.A_BLINK)
         stdscr.chgat(3, curses.A_BOLD)
         stdscr.chgat(5, 8, curses.A_UNDERLINE)
         stdscr.chgat(curses.A_BLINK)
         stdscr.refresh()

         stdscr.vline(1,1, 'a', 3)
         stdscr.vline(1,1, 'a', 3, curses.A_STANDOUT)

         if hasattr(curses, 'resize'):
             stdscr.resize()
         if hasattr(curses, 'enclose'):
             stdscr.enclose()

         self.assertRaises(ValueError, stdscr.getstr, -400)
         self.assertRaises(ValueError, stdscr.getstr, 2, 3, -400)
         self.assertRaises(ValueError, stdscr.instr, -2)
         self.assertRaises(ValueError, stdscr.instr, 2, 3, -2)


     def test_module_funcs(self):
         "Test module-level functions"
         for func in [curses.baudrate, curses.beep, curses.can_change_color,
                      curses.cbreak, curses.def_prog_mode, curses.doupdate,
                      curses.filter, curses.flash, curses.flushinp,
                      curses.has_colors, curses.has_ic, curses.has_il,
                      curses.isendwin, curses.killchar, curses.longname,
                      curses.nocbreak, curses.noecho, curses.nonl,
                      curses.noqiflush, curses.noraw,
                      curses.reset_prog_mode, curses.termattrs,
                      curses.termname, curses.erasechar, curses.getsyx]:
             with self.subTest(func=func.__qualname__):
                 func()

         # Functions that actually need arguments
         if curses.tigetstr("cnorm"):
             curses.curs_set(1)
         curses.delay_output(1)
         curses.echo() ; curses.echo(1)

         with tempfile.TemporaryFile() as f:
             self.stdscr.putwin(f)
             f.seek(0)
             curses.getwin(f)

         curses.halfdelay(1)
         curses.intrflush(1)
         curses.meta(1)
         curses.napms(100)
         curses.newpad(50,50)
         win = curses.newwin(5,5)
         win = curses.newwin(5,5, 1,1)
         curses.nl() ; curses.nl(1)
         curses.putp(b'abc')
         curses.qiflush()
         curses.raw() ; curses.raw(1)
         curses.setsyx(5,5)
         curses.tigetflag('hc')
         curses.tigetnum('co')
         curses.tigetstr('cr')
         curses.tparm(b'cr')
         curses.typeahead(sys.__stdin__.fileno())
         curses.unctrl('a')
         curses.ungetch('a')
         curses.use_env(1)

     # Functions only available on a few platforms
     def test_colors_funcs(self):
         if not curses.has_colors():
             self.skip('requires colors support')
         curses.start_color()
         curses.init_pair(2, 1,1)
         curses.color_content(1)
         curses.color_pair(2)
         curses.pair_content(curses.COLOR_PAIRS - 1)
         curses.pair_number(0)

         if hasattr(curses, 'use_default_colors'):
             curses.use_default_colors()

     @requires_curses_func('keyname')
     def test_keyname(self):
         curses.keyname(13)

     @requires_curses_func('has_key')
     def test_has_key(self):
         curses.has_key(13)

     @requires_curses_func('getmouse')
     def test_getmouse(self):
         (availmask, oldmask) = curses.mousemask(curses.BUTTON1_PRESSED)
         if availmask == 0:
             self.skip('mouse stuff not available')
         curses.mouseinterval(10)
         # just verify these don't cause errors
         curses.ungetmouse(0, 0, 0, 0, curses.BUTTON1_PRESSED)
         m = curses.getmouse()

     def test_userptr_without_set(self):
         w = curses.newwin(10, 10)
         p = curses.panel.new_panel(w)
         # try to access userptr() before calling set_userptr() -- segfaults
         with self.assertRaises(curses.panel.error,
                                msg='userptr should fail since not set'):
             p.userptr()

     def test_userptr_memory_leak(self):
         w = curses.newwin(10, 10)
         p = curses.panel.new_panel(w)
         obj = object()
         nrefs = sys.getrefcount(obj)
         for i in range(100):
             p.set_userptr(obj)

         p.set_userptr(None)
         self.assertEqual(sys.getrefcount(obj), nrefs,
                          "set_userptr leaked references")

     def test_userptr_segfault(self):
         panel = curses.panel.new_panel(self.stdscr)
         class A:
             def __del__(self):
                 panel.set_userptr(None)
         panel.set_userptr(A())
         panel.set_userptr(None)

     def test_new_curses_panel(self):
         panel = curses.panel.new_panel(self.stdscr)
         self.assertRaises(TypeError, type(panel))

     @requires_curses_func('is_term_resized')
     def test_is_term_resized(self):
         curses.is_term_resized(*self.stdscr.getmaxyx())

     @requires_curses_func('resize_term')
     def test_resize_term(self):
         curses.resize_term(*self.stdscr.getmaxyx())

     @requires_curses_func('resizeterm')
     def test_resizeterm(self):
         stdscr = self.stdscr
         lines, cols = curses.LINES, curses.COLS
         new_lines = lines - 1
         new_cols = cols + 1
         curses.resizeterm(new_lines, new_cols)

         self.assertEqual(curses.LINES, new_lines)
         self.assertEqual(curses.COLS, new_cols)

     def test_issue6243(self):
         curses.ungetch(1025)
         self.stdscr.getkey()

     @requires_curses_func('unget_wch')
     def test_unget_wch(self):
         stdscr = self.stdscr
         encoding = stdscr.encoding
         for ch in ('a', '\xe9', '\u20ac', '\U0010FFFF'):
             try:
                 ch.encode(encoding)
             except UnicodeEncodeError:
                 continue
             try:
                 curses.unget_wch(ch)
             except Exception as err:
                 self.fail("unget_wch(%a) failed with encoding %s: %s"
                           % (ch, stdscr.encoding, err))
             read = stdscr.get_wch()
             self.assertEqual(read, ch)

             code = ord(ch)
             curses.unget_wch(code)
             read = stdscr.get_wch()
             self.assertEqual(read, ch)

     def test_issue10570(self):
         b = curses.tparm(curses.tigetstr("cup"), 5, 3)
         self.assertIs(type(b), bytes)

     def test_encoding(self):
         stdscr = self.stdscr
         import codecs
         encoding = stdscr.encoding
         codecs.lookup(encoding)
         with self.assertRaises(TypeError):
             stdscr.encoding = 10
         stdscr.encoding = encoding
         with self.assertRaises(TypeError):
             del stdscr.encoding

     def test_issue21088(self):
         stdscr = self.stdscr
         #
         # http://bugs.python.org/issue21088
         #
         # the bug:
         # when converting curses.window.addch to Argument Clinic
         # the first two parameters were switched.

         # if someday we can represent the signature of addch
         # we will need to rewrite this test.
         try:
             signature = inspect.signature(stdscr.addch)
             self.assertFalse(signature)
         except ValueError:
             # not generating a signature is fine.
             pass

         # So.  No signature for addch.
         # But Argument Clinic gave us a human-readable equivalent
         # as the first line of the docstring.  So we parse that,
         # and ensure that the parameters appear in the correct order.
         # Since this is parsing output from Argument Clinic, we can
         # be reasonably certain the generated parsing code will be
         # correct too.
         human_readable_signature = stdscr.addch.__doc__.split("\n")[0]
         self.assertIn("[y, x,]", human_readable_signature)


 class MiscTests(unittest.TestCase):

     def test_update_lines_cols(self):
         # this doesn't actually test that LINES and COLS are updated,
         # because we can't automate changing them. See Issue #4254 for
         # a manual test script. We can only test that the function
         # can be called.
         curses.update_lines_cols()


 class TestAscii(unittest.TestCase):

     def test_controlnames(self):
         for name in curses.ascii.controlnames:
             self.assertTrue(hasattr(curses.ascii, name), name)

     def test_ctypes(self):
         def check(func, expected):
             with self.subTest(ch=c, func=func):
                 self.assertEqual(func(i), expected)
                 self.assertEqual(func(c), expected)

         for i in range(256):
             c = chr(i)
             b = bytes([i])
             check(curses.ascii.isalnum, b.isalnum())
             check(curses.ascii.isalpha, b.isalpha())
             check(curses.ascii.isdigit, b.isdigit())
             check(curses.ascii.islower, b.islower())
             check(curses.ascii.isspace, b.isspace())
             check(curses.ascii.isupper, b.isupper())

             check(curses.ascii.isascii, i < 128)
             check(curses.ascii.ismeta, i >= 128)
             check(curses.ascii.isctrl, i < 32)
             check(curses.ascii.iscntrl, i < 32 or i == 127)
             check(curses.ascii.isblank, c in ' \t')
             check(curses.ascii.isgraph, 32 < i <= 126)
             check(curses.ascii.isprint, 32 <= i <= 126)
             check(curses.ascii.ispunct, c in string.punctuation)
             check(curses.ascii.isxdigit, c in string.hexdigits)

     def test_ascii(self):
         ascii = curses.ascii.ascii
         self.assertEqual(ascii('\xc1'), 'A')
         self.assertEqual(ascii('A'), 'A')
         self.assertEqual(ascii(ord('\xc1')), ord('A'))

     def test_ctrl(self):
         ctrl = curses.ascii.ctrl
         self.assertEqual(ctrl('J'), '\n')
         self.assertEqual(ctrl('\n'), '\n')
         self.assertEqual(ctrl('@'), '\0')
         self.assertEqual(ctrl(ord('J')), ord('\n'))

     def test_alt(self):
         alt = curses.ascii.alt
         self.assertEqual(alt('\n'), '\x8a')
         self.assertEqual(alt('A'), '\xc1')
         self.assertEqual(alt(ord('A')), 0xc1)

     def test_unctrl(self):
         unctrl = curses.ascii.unctrl
         self.assertEqual(unctrl('a'), 'a')
         self.assertEqual(unctrl('A'), 'A')
         self.assertEqual(unctrl(';'), ';')
         self.assertEqual(unctrl(' '), ' ')
         self.assertEqual(unctrl('\x7f'), '^?')
         self.assertEqual(unctrl('\n'), '^J')
         self.assertEqual(unctrl('\0'), '^@')
         self.assertEqual(unctrl(ord('A')), 'A')
         self.assertEqual(unctrl(ord('\n')), '^J')
         # Meta-bit characters
         self.assertEqual(unctrl('\x8a'), '!^J')
         self.assertEqual(unctrl('\xc1'), '!A')
         self.assertEqual(unctrl(ord('\x8a')), '!^J')
         self.assertEqual(unctrl(ord('\xc1')), '!A')


 if __name__ == '__main__':
     unittest.main()
	#
	# Test script for the curses module
	#
	# This script doesn't actually display anything very coherent. but it
	# does call (nearly) every method and function.
	#
	# Functions not tested: {def,reset}_{shell,prog}_mode, getch(), getstr(),
	# init_color()
	# Only called, not tested: getmouse(), ungetmouse()
	#

	import os
	import string
	import sys
	import tempfile
	import unittest

	from test.support import requires, import_module, verbose

	# Optionally test curses module. This currently requires that the
	# 'curses' resource be given on the regrtest command line using the -u
	# option. If not available, nothing after this line will be executed.
	import inspect
	requires('curses')

	# If either of these don't exist, skip the tests.
	curses = import_module('curses')
	import_module('curses.panel')
	import_module('curses.ascii')

	def requires_curses_func(name):
	return unittest.skipUnless(hasattr(curses, name),
	'requires curses.%s' % name)

	term = os.environ.get('TERM')

	# If newterm was supported we could use it instead of initscr and not exit
	@unittest.skipIf(not term or term == 'unknown',
	"$TERM=%r, calling initscr() may cause exit" % term)
	@unittest.skipIf(sys.platform == "cygwin",
	"cygwin's curses mostly just hangs")
	class TestCurses(unittest.TestCase):

	@classmethod
	def setUpClass(cls):
	if not sys.__stdout__.isatty():
	# Temporary skip tests on non-tty
	raise unittest.SkipTest('sys.__stdout__ is not a tty')
	cls.tmp = tempfile.TemporaryFile()
	fd = cls.tmp.fileno()
	else:
	cls.tmp = None
	fd = sys.__stdout__.fileno()
	# testing setupterm() inside initscr/endwin
	# causes terminal breakage
	curses.setupterm(fd=fd)

	@classmethod
	def tearDownClass(cls):
	if cls.tmp:
	cls.tmp.close()
	del cls.tmp

	def setUp(self):
	if verbose:
	# just to make the test output a little more readable
	print()
	self.stdscr = curses.initscr()
	curses.savetty()

	def tearDown(self):
	curses.resetty()
	curses.endwin()

	def test_window_funcs(self):
	"Test the methods of windows"
	stdscr = self.stdscr
	win = curses.newwin(10,10)
	win = curses.newwin(5,5, 5,5)
	win2 = curses.newwin(15,15, 5,5)

	for meth in [stdscr.addch, stdscr.addstr]:
	for args in [('a'), ('a', curses.A_BOLD),
	(4,4, 'a'), (5,5, 'a', curses.A_BOLD)]:
	with self.subTest(meth=meth.__qualname__, args=args):
	meth(*args)

	for meth in [stdscr.box, stdscr.clear, stdscr.clrtobot,
	stdscr.clrtoeol, stdscr.cursyncup, stdscr.delch,
	stdscr.deleteln, stdscr.erase, stdscr.getbegyx,
	stdscr.getbkgd, stdscr.getkey, stdscr.getmaxyx,
	stdscr.getparyx, stdscr.getyx, stdscr.inch,
	stdscr.insertln, stdscr.instr, stdscr.is_wintouched,
	win.noutrefresh, stdscr.redrawwin, stdscr.refresh,
	stdscr.standout, stdscr.standend, stdscr.syncdown,
	stdscr.syncup, stdscr.touchwin, stdscr.untouchwin]:
	with self.subTest(meth=meth.__qualname__):
	meth()

	stdscr.addnstr('1234', 3)
	stdscr.addnstr('1234', 3, curses.A_BOLD)
	stdscr.addnstr(4,4, '1234', 3)
	stdscr.addnstr(5,5, '1234', 3, curses.A_BOLD)

	stdscr.attron(curses.A_BOLD)
	stdscr.attroff(curses.A_BOLD)
	stdscr.attrset(curses.A_BOLD)
	stdscr.bkgd(' ')
	stdscr.bkgd(' ', curses.A_REVERSE)
	stdscr.bkgdset(' ')
	stdscr.bkgdset(' ', curses.A_REVERSE)

	win.border(65, 66, 67, 68,
	69, 70, 71, 72)
	win.border('\|', '!', '-', '_',
	'+', '\\', '#', '/')
	with self.assertRaises(TypeError,
	msg="Expected win.border() to raise TypeError"):
	win.border(65, 66, 67, 68,
	69, [], 71, 72)

	stdscr.clearok(1)

	win4 = stdscr.derwin(2,2)
	win4 = stdscr.derwin(1,1, 5,5)
	win4.mvderwin(9,9)

	stdscr.echochar('a')
	stdscr.echochar('a', curses.A_BOLD)
	stdscr.hline('-', 5)
	stdscr.hline('-', 5, curses.A_BOLD)
	stdscr.hline(1,1,'-', 5)
	stdscr.hline(1,1,'-', 5, curses.A_BOLD)

	stdscr.idcok(1)
	stdscr.idlok(1)
	stdscr.immedok(1)
	stdscr.insch('c')
	stdscr.insdelln(1)
	stdscr.insnstr('abc', 3)
	stdscr.insnstr('abc', 3, curses.A_BOLD)
	stdscr.insnstr(5, 5, 'abc', 3)
	stdscr.insnstr(5, 5, 'abc', 3, curses.A_BOLD)

	stdscr.insstr('def')
	stdscr.insstr('def', curses.A_BOLD)
	stdscr.insstr(5, 5, 'def')
	stdscr.insstr(5, 5, 'def', curses.A_BOLD)
	stdscr.is_linetouched(0)
	stdscr.keypad(1)
	stdscr.leaveok(1)
	stdscr.move(3,3)
	win.mvwin(2,2)
	stdscr.nodelay(1)
	stdscr.notimeout(1)
	win2.overlay(win)
	win2.overwrite(win)
	win2.overlay(win, 1, 2, 2, 1, 3, 3)
	win2.overwrite(win, 1, 2, 2, 1, 3, 3)
	stdscr.redrawln(1,2)

	stdscr.scrollok(1)
	stdscr.scroll()
	stdscr.scroll(2)
	stdscr.scroll(-3)

	stdscr.move(12, 2)
	stdscr.setscrreg(10,15)
	win3 = stdscr.subwin(10,10)
	win3 = stdscr.subwin(10,10, 5,5)
	stdscr.syncok(1)
	stdscr.timeout(5)
	stdscr.touchline(5,5)
	stdscr.touchline(5,5,0)
	stdscr.vline('a', 3)
	stdscr.vline('a', 3, curses.A_STANDOUT)
	stdscr.chgat(5, 2, 3, curses.A_BLINK)
	stdscr.chgat(3, curses.A_BOLD)
	stdscr.chgat(5, 8, curses.A_UNDERLINE)
	stdscr.chgat(curses.A_BLINK)
	stdscr.refresh()

	stdscr.vline(1,1, 'a', 3)
	stdscr.vline(1,1, 'a', 3, curses.A_STANDOUT)

	if hasattr(curses, 'resize'):
	stdscr.resize()
	if hasattr(curses, 'enclose'):
	stdscr.enclose()

	self.assertRaises(ValueError, stdscr.getstr, -400)
	self.assertRaises(ValueError, stdscr.getstr, 2, 3, -400)
	self.assertRaises(ValueError, stdscr.instr, -2)
	self.assertRaises(ValueError, stdscr.instr, 2, 3, -2)


	def test_module_funcs(self):
	"Test module-level functions"
	for func in [curses.baudrate, curses.beep, curses.can_change_color,
	curses.cbreak, curses.def_prog_mode, curses.doupdate,
	curses.filter, curses.flash, curses.flushinp,
	curses.has_colors, curses.has_ic, curses.has_il,
	curses.isendwin, curses.killchar, curses.longname,
	curses.nocbreak, curses.noecho, curses.nonl,
	curses.noqiflush, curses.noraw,
	curses.reset_prog_mode, curses.termattrs,
	curses.termname, curses.erasechar, curses.getsyx]:
	with self.subTest(func=func.__qualname__):
	func()

	# Functions that actually need arguments
	if curses.tigetstr("cnorm"):
	curses.curs_set(1)
	curses.delay_output(1)
	curses.echo() ; curses.echo(1)

	with tempfile.TemporaryFile() as f:
	self.stdscr.putwin(f)
	f.seek(0)
	curses.getwin(f)

	curses.halfdelay(1)
	curses.intrflush(1)
	curses.meta(1)
	curses.napms(100)
	curses.newpad(50,50)
	win = curses.newwin(5,5)
	win = curses.newwin(5,5, 1,1)
	curses.nl() ; curses.nl(1)
	curses.putp(b'abc')
	curses.qiflush()
	curses.raw() ; curses.raw(1)
	curses.setsyx(5,5)
	curses.tigetflag('hc')
	curses.tigetnum('co')
	curses.tigetstr('cr')
	curses.tparm(b'cr')
	curses.typeahead(sys.__stdin__.fileno())
	curses.unctrl('a')
	curses.ungetch('a')
	curses.use_env(1)

	# Functions only available on a few platforms
	def test_colors_funcs(self):
	if not curses.has_colors():
	self.skip('requires colors support')
	curses.start_color()
	curses.init_pair(2, 1,1)
	curses.color_content(1)
	curses.color_pair(2)
	curses.pair_content(curses.COLOR_PAIRS - 1)
	curses.pair_number(0)

	if hasattr(curses, 'use_default_colors'):
	curses.use_default_colors()

	@requires_curses_func('keyname')
	def test_keyname(self):
	curses.keyname(13)

	@requires_curses_func('has_key')
	def test_has_key(self):
	curses.has_key(13)

	@requires_curses_func('getmouse')
	def test_getmouse(self):
	(availmask, oldmask) = curses.mousemask(curses.BUTTON1_PRESSED)
	if availmask == 0:
	self.skip('mouse stuff not available')
	curses.mouseinterval(10)
	# just verify these don't cause errors
	curses.ungetmouse(0, 0, 0, 0, curses.BUTTON1_PRESSED)
	m = curses.getmouse()

	def test_userptr_without_set(self):
	w = curses.newwin(10, 10)
	p = curses.panel.new_panel(w)
	# try to access userptr() before calling set_userptr() -- segfaults
	with self.assertRaises(curses.panel.error,
	msg='userptr should fail since not set'):
	p.userptr()

	def test_userptr_memory_leak(self):
	w = curses.newwin(10, 10)
	p = curses.panel.new_panel(w)
	obj = object()
	nrefs = sys.getrefcount(obj)
	for i in range(100):
	p.set_userptr(obj)

	p.set_userptr(None)
	self.assertEqual(sys.getrefcount(obj), nrefs,
	"set_userptr leaked references")

	def test_userptr_segfault(self):
	panel = curses.panel.new_panel(self.stdscr)
	class A:
	def __del__(self):
	panel.set_userptr(None)
	panel.set_userptr(A())
	panel.set_userptr(None)

	def test_new_curses_panel(self):
	panel = curses.panel.new_panel(self.stdscr)
	self.assertRaises(TypeError, type(panel))

	@requires_curses_func('is_term_resized')
	def test_is_term_resized(self):
	curses.is_term_resized(*self.stdscr.getmaxyx())

	@requires_curses_func('resize_term')
	def test_resize_term(self):
	curses.resize_term(*self.stdscr.getmaxyx())

	@requires_curses_func('resizeterm')
	def test_resizeterm(self):
	stdscr = self.stdscr
	lines, cols = curses.LINES, curses.COLS
	new_lines = lines - 1
	new_cols = cols + 1
	curses.resizeterm(new_lines, new_cols)

	self.assertEqual(curses.LINES, new_lines)
	self.assertEqual(curses.COLS, new_cols)

	def test_issue6243(self):
	curses.ungetch(1025)
	self.stdscr.getkey()

	@requires_curses_func('unget_wch')
	def test_unget_wch(self):
	stdscr = self.stdscr
	encoding = stdscr.encoding
	for ch in ('a', '\xe9', '\u20ac', '\U0010FFFF'):
	try:
	ch.encode(encoding)
	except UnicodeEncodeError:
	continue
	try:
	curses.unget_wch(ch)
	except Exception as err:
	self.fail("unget_wch(%a) failed with encoding %s: %s"
	% (ch, stdscr.encoding, err))
	read = stdscr.get_wch()
	self.assertEqual(read, ch)

	code = ord(ch)
	curses.unget_wch(code)
	read = stdscr.get_wch()
	self.assertEqual(read, ch)

	def test_issue10570(self):
	b = curses.tparm(curses.tigetstr("cup"), 5, 3)
	self.assertIs(type(b), bytes)

	def test_encoding(self):
	stdscr = self.stdscr
	import codecs
	encoding = stdscr.encoding
	codecs.lookup(encoding)
	with self.assertRaises(TypeError):
	stdscr.encoding = 10
	stdscr.encoding = encoding
	with self.assertRaises(TypeError):
	del stdscr.encoding

	def test_issue21088(self):
	stdscr = self.stdscr
	#
	# http://bugs.python.org/issue21088
	#
	# the bug:
	# when converting curses.window.addch to Argument Clinic
	# the first two parameters were switched.

	# if someday we can represent the signature of addch
	# we will need to rewrite this test.
	try:
	signature = inspect.signature(stdscr.addch)
	self.assertFalse(signature)
	except ValueError:
	# not generating a signature is fine.
	pass

	# So. No signature for addch.
	# But Argument Clinic gave us a human-readable equivalent
	# as the first line of the docstring. So we parse that,
	# and ensure that the parameters appear in the correct order.
	# Since this is parsing output from Argument Clinic, we can
	# be reasonably certain the generated parsing code will be
	# correct too.
	human_readable_signature = stdscr.addch.__doc__.split("\n")[0]
	self.assertIn("[y, x,]", human_readable_signature)


	class MiscTests(unittest.TestCase):

	def test_update_lines_cols(self):
	# this doesn't actually test that LINES and COLS are updated,
	# because we can't automate changing them. See Issue #4254 for
	# a manual test script. We can only test that the function
	# can be called.
	curses.update_lines_cols()


	class TestAscii(unittest.TestCase):

	def test_controlnames(self):
	for name in curses.ascii.controlnames:
	self.assertTrue(hasattr(curses.ascii, name), name)

	def test_ctypes(self):
	def check(func, expected):
	with self.subTest(ch=c, func=func):
	self.assertEqual(func(i), expected)
	self.assertEqual(func(c), expected)

	for i in range(256):
	c = chr(i)
	b = bytes([i])
	check(curses.ascii.isalnum, b.isalnum())
	check(curses.ascii.isalpha, b.isalpha())
	check(curses.ascii.isdigit, b.isdigit())
	check(curses.ascii.islower, b.islower())
	check(curses.ascii.isspace, b.isspace())
	check(curses.ascii.isupper, b.isupper())

	check(curses.ascii.isascii, i < 128)
	check(curses.ascii.ismeta, i >= 128)
	check(curses.ascii.isctrl, i < 32)
	check(curses.ascii.iscntrl, i < 32 or i == 127)
	check(curses.ascii.isblank, c in ' \t')
	check(curses.ascii.isgraph, 32 < i <= 126)
	check(curses.ascii.isprint, 32 <= i <= 126)
	check(curses.ascii.ispunct, c in string.punctuation)
	check(curses.ascii.isxdigit, c in string.hexdigits)

	def test_ascii(self):
	ascii = curses.ascii.ascii
	self.assertEqual(ascii('\xc1'), 'A')
	self.assertEqual(ascii('A'), 'A')
	self.assertEqual(ascii(ord('\xc1')), ord('A'))

	def test_ctrl(self):
	ctrl = curses.ascii.ctrl
	self.assertEqual(ctrl('J'), '\n')
	self.assertEqual(ctrl('\n'), '\n')
	self.assertEqual(ctrl('@'), '\0')
	self.assertEqual(ctrl(ord('J')), ord('\n'))

	def test_alt(self):
	alt = curses.ascii.alt
	self.assertEqual(alt('\n'), '\x8a')
	self.assertEqual(alt('A'), '\xc1')
	self.assertEqual(alt(ord('A')), 0xc1)

	def test_unctrl(self):
	unctrl = curses.ascii.unctrl
	self.assertEqual(unctrl('a'), 'a')
	self.assertEqual(unctrl('A'), 'A')
	self.assertEqual(unctrl(';'), ';')
	self.assertEqual(unctrl(' '), ' ')
	self.assertEqual(unctrl('\x7f'), '^?')
	self.assertEqual(unctrl('\n'), '^J')
	self.assertEqual(unctrl('\0'), '^@')
	self.assertEqual(unctrl(ord('A')), 'A')
	self.assertEqual(unctrl(ord('\n')), '^J')
	# Meta-bit characters
	self.assertEqual(unctrl('\x8a'), '!^J')
	self.assertEqual(unctrl('\xc1'), '!A')
	self.assertEqual(unctrl(ord('\x8a')), '!^J')
	self.assertEqual(unctrl(ord('\xc1')), '!A')


	if __name__ == '__main__':
	unittest.main()