""" Very minimal unittests for parts of the readline module. """ from contextlib import ExitStack from errno import EIO import os import selectors import subprocess import sys import tempfile import unittest from test.support import import_module, unlink, TESTFN from test.support.script_helper import assert_python_ok # Skip tests if there is no readline module readline = import_module('readline') is_editline = readline.__doc__ and "libedit" in readline.__doc__ @unittest.skipUnless(hasattr(readline, "clear_history"), "The history update test cannot be run because the " "clear_history method is not available.") class TestHistoryManipulation (unittest.TestCase): """ These tests were added to check that the libedit emulation on OSX and the "real" readline have the same interface for history manipulation. That's why the tests cover only a small subset of the interface. """ def testHistoryUpdates(self): readline.clear_history() readline.add_history("first line") readline.add_history("second line") self.assertEqual(readline.get_history_item(0), None) self.assertEqual(readline.get_history_item(1), "first line") self.assertEqual(readline.get_history_item(2), "second line") readline.replace_history_item(0, "replaced line") self.assertEqual(readline.get_history_item(0), None) self.assertEqual(readline.get_history_item(1), "replaced line") self.assertEqual(readline.get_history_item(2), "second line") self.assertEqual(readline.get_current_history_length(), 2) readline.remove_history_item(0) self.assertEqual(readline.get_history_item(0), None) self.assertEqual(readline.get_history_item(1), "second line") self.assertEqual(readline.get_current_history_length(), 1) @unittest.skipUnless(hasattr(readline, "append_history_file"), "append_history not available") def test_write_read_append(self): hfile = tempfile.NamedTemporaryFile(delete=False) hfile.close() hfilename = hfile.name self.addCleanup(unlink, hfilename) # test write-clear-read == nop readline.clear_history() readline.add_history("first line") readline.add_history("second line") readline.write_history_file(hfilename) readline.clear_history() self.assertEqual(readline.get_current_history_length(), 0) readline.read_history_file(hfilename) self.assertEqual(readline.get_current_history_length(), 2) self.assertEqual(readline.get_history_item(1), "first line") self.assertEqual(readline.get_history_item(2), "second line") # test append readline.append_history_file(1, hfilename) readline.clear_history() readline.read_history_file(hfilename) self.assertEqual(readline.get_current_history_length(), 3) self.assertEqual(readline.get_history_item(1), "first line") self.assertEqual(readline.get_history_item(2), "second line") self.assertEqual(readline.get_history_item(3), "second line") # test 'no such file' behaviour os.unlink(hfilename) with self.assertRaises(FileNotFoundError): readline.append_history_file(1, hfilename) # write_history_file can create the target readline.write_history_file(hfilename) def test_nonascii_history(self): readline.clear_history() try: readline.add_history("entrée 1") except UnicodeEncodeError as err: self.skipTest("Locale cannot encode test data: " + format(err)) readline.add_history("entrée 2") readline.replace_history_item(1, "entrée 22") readline.write_history_file(TESTFN) self.addCleanup(os.remove, TESTFN) readline.clear_history() readline.read_history_file(TESTFN) if is_editline: # An add_history() call seems to be required for get_history_ # item() to register items from the file readline.add_history("dummy") self.assertEqual(readline.get_history_item(1), "entrée 1") self.assertEqual(readline.get_history_item(2), "entrée 22") class TestReadline(unittest.TestCase): @unittest.skipIf(readline._READLINE_VERSION < 0x0600 and not is_editline, "not supported in this library version") def test_init(self): # Issue #19884: Ensure that the ANSI sequence "\033[1034h" is not # written into stdout when the readline module is imported and stdout # is redirected to a pipe. rc, stdout, stderr = assert_python_ok('-c', 'import readline', TERM='xterm-256color') self.assertEqual(stdout, b'') def test_nonascii(self): try: readline.add_history("\xEB\xEF") except UnicodeEncodeError as err: self.skipTest("Locale cannot encode test data: " + format(err)) script = r"""import readline is_editline = readline.__doc__ and "libedit" in readline.__doc__ inserted = "[\xEFnserted]" macro = "|t\xEB[after]" set_pre_input_hook = getattr(readline, "set_pre_input_hook", None) if is_editline or not set_pre_input_hook: # The insert_line() call via pre_input_hook() does nothing with Editline, # so include the extra text that would have been inserted here macro = inserted + macro if is_editline: readline.parse_and_bind(r'bind ^B ed-prev-char') readline.parse_and_bind(r'bind "\t" rl_complete') readline.parse_and_bind(r'bind -s ^A "{}"'.format(macro)) else: readline.parse_and_bind(r'Control-b: backward-char') readline.parse_and_bind(r'"\t": complete') readline.parse_and_bind(r'set disable-completion off') readline.parse_and_bind(r'set show-all-if-ambiguous off') readline.parse_and_bind(r'set show-all-if-unmodified off') readline.parse_and_bind(r'Control-a: "{}"'.format(macro)) def pre_input_hook(): readline.insert_text(inserted) readline.redisplay() if set_pre_input_hook: set_pre_input_hook(pre_input_hook) def completer(text, state): if text == "t\xEB": if state == 0: print("text", ascii(text)) print("line", ascii(readline.get_line_buffer())) print("indexes", readline.get_begidx(), readline.get_endidx()) return "t\xEBnt" if state == 1: return "t\xEBxt" if text == "t\xEBx" and state == 0: return "t\xEBxt" return None readline.set_completer(completer) def display(substitution, matches, longest_match_length): print("substitution", ascii(substitution)) print("matches", ascii(matches)) readline.set_completion_display_matches_hook(display) print("result", ascii(input())) print("history", ascii(readline.get_history_item(1))) """ input = b"\x01" # Ctrl-A, expands to "|t\xEB[after]" input += b"\x02" * len("[after]") # Move cursor back input += b"\t\t" # Display possible completions input += b"x\t" # Complete "t\xEBx" -> "t\xEBxt" input += b"\r" output = run_pty(script, input) self.assertIn(b"text 't\\xeb'\r\n", output) self.assertIn(b"line '[\\xefnserted]|t\\xeb[after]'\r\n", output) self.assertIn(b"indexes 11 13\r\n", output) if not is_editline and hasattr(readline, "set_pre_input_hook"): self.assertIn(b"substitution 't\\xeb'\r\n", output) self.assertIn(b"matches ['t\\xebnt', 't\\xebxt']\r\n", output) expected = br"'[\xefnserted]|t\xebxt[after]'" self.assertIn(b"result " + expected + b"\r\n", output) self.assertIn(b"history " + expected + b"\r\n", output) def run_pty(script, input=b"dummy input\r"): pty = import_module('pty') output = bytearray() [master, slave] = pty.openpty() args = (sys.executable, '-c', script) proc = subprocess.Popen(args, stdin=slave, stdout=slave, stderr=slave) os.close(slave) with ExitStack() as cleanup: cleanup.enter_context(proc) def terminate(proc): try: proc.terminate() except ProcessLookupError: # Workaround for Open/Net BSD bug (Issue 16762) pass cleanup.callback(terminate, proc) cleanup.callback(os.close, master) # Avoid using DefaultSelector and PollSelector. Kqueue() does not # work with pseudo-terminals on OS X < 10.9 (Issue 20365) and Open # BSD (Issue 20667). Poll() does not work with OS X 10.6 or 10.4 # either (Issue 20472). Hopefully the file descriptor is low enough # to use with select(). sel = cleanup.enter_context(selectors.SelectSelector()) sel.register(master, selectors.EVENT_READ | selectors.EVENT_WRITE) os.set_blocking(master, False) while True: for [_, events] in sel.select(): if events & selectors.EVENT_READ: try: chunk = os.read(master, 0x10000) except OSError as err: # Linux raises EIO when slave is closed (Issue 5380) if err.errno != EIO: raise chunk = b"" if not chunk: return output output.extend(chunk) if events & selectors.EVENT_WRITE: try: input = input[os.write(master, input):] except OSError as err: # Apparently EIO means the slave was closed if err.errno != EIO: raise input = b"" # Stop writing if not input: sel.modify(master, selectors.EVENT_READ) if __name__ == "__main__": unittest.main()