cpython/Lib/test/test_pyrepl/test_reader.py

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import itertools
import functools
import rlcompleter
from unittest import TestCase
from unittest.mock import MagicMock
from .support import handle_all_events, handle_events_narrow_console, code_to_events, prepare_reader
from _pyrepl.console import Event
from _pyrepl.reader import Reader
class TestReader(TestCase):
def assert_screen_equals(self, reader, expected):
actual = reader.screen
expected = expected.split("\n")
self.assertListEqual(actual, expected)
def test_calc_screen_wrap_simple(self):
events = code_to_events(10 * "a")
reader, _ = handle_events_narrow_console(events)
self.assert_screen_equals(reader, f"{9*"a"}\\\na")
def test_calc_screen_wrap_wide_characters(self):
events = code_to_events(8 * "a" + "")
reader, _ = handle_events_narrow_console(events)
self.assert_screen_equals(reader, f"{8*"a"}\\\n")
def test_calc_screen_wrap_three_lines(self):
events = code_to_events(20 * "a")
reader, _ = handle_events_narrow_console(events)
self.assert_screen_equals(reader, f"{9*"a"}\\\n{9*"a"}\\\naa")
def test_calc_screen_prompt_handling(self):
def prepare_reader_keep_prompts(*args, **kwargs):
reader = prepare_reader(*args, **kwargs)
del reader.get_prompt
reader.ps1 = ">>> "
reader.ps2 = ">>> "
reader.ps3 = "... "
reader.ps4 = ""
reader.can_colorize = False
reader.paste_mode = False
return reader
events = code_to_events("if some_condition:\nsome_function()")
reader, _ = handle_events_narrow_console(
events,
prepare_reader=prepare_reader_keep_prompts,
)
# fmt: off
self.assert_screen_equals(
reader,
(
">>> if so\\\n"
"me_condit\\\n"
"ion:\n"
"... s\\\n"
"ome_funct\\\n"
"ion()"
)
)
# fmt: on
def test_calc_screen_wrap_three_lines_mixed_character(self):
# fmt: off
code = (
"def f():\n"
f" {8*"a"}\n"
f" {5*""}"
)
# fmt: on
events = code_to_events(code)
reader, _ = handle_events_narrow_console(events)
# fmt: off
self.assert_screen_equals(reader, (
"def f():\n"
f" {7*"a"}\\\n"
"a\n"
f" {3*""}\\\n"
"樂樂"
))
# fmt: on
def test_calc_screen_backspace(self):
events = itertools.chain(
code_to_events("aaa"),
[
Event(evt="key", data="backspace", raw=bytearray(b"\x7f")),
],
)
reader, _ = handle_all_events(events)
self.assert_screen_equals(reader, "aa")
def test_calc_screen_wrap_removes_after_backspace(self):
events = itertools.chain(
code_to_events(10 * "a"),
[
Event(evt="key", data="backspace", raw=bytearray(b"\x7f")),
],
)
reader, _ = handle_events_narrow_console(events)
self.assert_screen_equals(reader, 9 * "a")
def test_calc_screen_backspace_in_second_line_after_wrap(self):
events = itertools.chain(
code_to_events(11 * "a"),
[
Event(evt="key", data="backspace", raw=bytearray(b"\x7f")),
],
)
reader, _ = handle_events_narrow_console(events)
self.assert_screen_equals(reader, f"{9*"a"}\\\na")
def test_setpos_for_xy_simple(self):
events = code_to_events("11+11")
reader, _ = handle_all_events(events)
reader.setpos_from_xy(0, 0)
self.assertEqual(reader.pos, 0)
def test_control_characters(self):
code = 'flag = "🏳️‍🌈"'
events = code_to_events(code)
reader, _ = handle_all_events(events)
self.assert_screen_equals(reader, 'flag = "🏳️\\u200d🌈"')
def test_setpos_from_xy_multiple_lines(self):
# fmt: off
code = (
"def foo():\n"
" return 1"
)
# fmt: on
events = code_to_events(code)
reader, _ = handle_all_events(events)
reader.setpos_from_xy(2, 1)
self.assertEqual(reader.pos, 13)
def test_setpos_from_xy_after_wrap(self):
# fmt: off
code = (
"def foo():\n"
" hello"
)
# fmt: on
events = code_to_events(code)
reader, _ = handle_events_narrow_console(events)
reader.setpos_from_xy(2, 2)
self.assertEqual(reader.pos, 13)
def test_setpos_fromxy_in_wrapped_line(self):
# fmt: off
code = (
"def foo():\n"
" hello"
)
# fmt: on
events = code_to_events(code)
reader, _ = handle_events_narrow_console(events)
reader.setpos_from_xy(0, 1)
self.assertEqual(reader.pos, 9)
def test_up_arrow_after_ctrl_r(self):
events = iter(
[
Event(evt="key", data="\x12", raw=bytearray(b"\x12")),
Event(evt="key", data="up", raw=bytearray(b"\x1bOA")),
]
)
reader, _ = handle_all_events(events)
self.assert_screen_equals(reader, "")
def test_newline_within_block_trailing_whitespace(self):
# fmt: off
code = (
"def foo():\n"
"a = 1\n"
)
# fmt: on
events = itertools.chain(
code_to_events(code),
[
# go to the end of the first line
Event(evt="key", data="up", raw=bytearray(b"\x1bOA")),
Event(evt="key", data="up", raw=bytearray(b"\x1bOA")),
Event(evt="key", data="\x05", raw=bytearray(b"\x1bO5")),
# new lines in-block shouldn't terminate the block
Event(evt="key", data="\n", raw=bytearray(b"\n")),
Event(evt="key", data="\n", raw=bytearray(b"\n")),
# end of line 2
Event(evt="key", data="down", raw=bytearray(b"\x1bOB")),
Event(evt="key", data="\x05", raw=bytearray(b"\x1bO5")),
# a double new line in-block should terminate the block
# even if its followed by whitespace
Event(evt="key", data="\n", raw=bytearray(b"\n")),
Event(evt="key", data="\n", raw=bytearray(b"\n")),
],
)
no_paste_reader = functools.partial(prepare_reader, paste_mode=False)
reader, _ = handle_all_events(events, prepare_reader=no_paste_reader)
expected = (
"def foo():\n"
" \n"
" \n"
" a = 1\n"
" \n"
" " # HistoricalReader will trim trailing whitespace
)
self.assert_screen_equals(reader, expected)
self.assertTrue(reader.finished)
def test_input_hook_is_called_if_set(self):
input_hook = MagicMock()
def _prepare_console(events):
console = MagicMock()
console.get_event.side_effect = events
console.height = 100
console.width = 80
console.input_hook = input_hook
return console
events = code_to_events("a")
reader, _ = handle_all_events(events, prepare_console=_prepare_console)
self.assertEqual(len(input_hook.mock_calls), 4)
def test_keyboard_interrupt_clears_screen(self):
namespace = {"itertools": itertools}
code = "import itertools\nitertools."
events = itertools.chain(code_to_events(code), [
Event(evt='key', data='\t', raw=bytearray(b'\t')), # Two tabs for completion
Event(evt='key', data='\t', raw=bytearray(b'\t')),
Event(evt='key', data='\x03', raw=bytearray(b'\x03')), # Ctrl-C
])
completing_reader = functools.partial(
prepare_reader,
readline_completer=rlcompleter.Completer(namespace).complete
)
reader, _ = handle_all_events(events, prepare_reader=completing_reader)
self.assertEqual(reader.calc_screen(), code.split("\n"))
def test_prompt_length(self):
# Handles simple ASCII prompt
ps1 = ">>> "
prompt, l = Reader.process_prompt(ps1)
self.assertEqual(prompt, ps1)
self.assertEqual(l, 4)
# Handles ANSI escape sequences
ps1 = "\033[0;32m>>> \033[0m"
prompt, l = Reader.process_prompt(ps1)
self.assertEqual(prompt, "\033[0;32m>>> \033[0m")
self.assertEqual(l, 4)
# Handles ANSI escape sequences bracketed in \001 .. \002
ps1 = "\001\033[0;32m\002>>> \001\033[0m\002"
prompt, l = Reader.process_prompt(ps1)
self.assertEqual(prompt, "\033[0;32m>>> \033[0m")
self.assertEqual(l, 4)
# Handles wide characters in prompt
ps1 = "樂>> "
prompt, l = Reader.process_prompt(ps1)
self.assertEqual(prompt, ps1)
self.assertEqual(l, 5)
# Handles wide characters AND ANSI sequences together
ps1 = "\001\033[0;32m\002樂>\001\033[0m\002> "
prompt, l = Reader.process_prompt(ps1)
self.assertEqual(prompt, "\033[0;32m樂>\033[0m> ")
self.assertEqual(l, 5)
def test_completions_updated_on_key_press(self):
namespace = {"itertools": itertools}
code = "itertools."
events = itertools.chain(code_to_events(code), [
Event(evt='key', data='\t', raw=bytearray(b'\t')), # Two tabs for completion
Event(evt='key', data='\t', raw=bytearray(b'\t')),
], code_to_events("a"))
completing_reader = functools.partial(
prepare_reader,
readline_completer=rlcompleter.Completer(namespace).complete
)
reader, _ = handle_all_events(events, prepare_reader=completing_reader)
actual = reader.screen
self.assertEqual(len(actual), 2)
self.assertEqual(actual[0].rstrip(), "itertools.accumulate(")
self.assertEqual(actual[1], f"{code}a")
def test_key_press_on_tab_press_once(self):
namespace = {"itertools": itertools}
code = "itertools."
events = itertools.chain(code_to_events(code), [
Event(evt='key', data='\t', raw=bytearray(b'\t')),
], code_to_events("a"))
completing_reader = functools.partial(
prepare_reader,
readline_completer=rlcompleter.Completer(namespace).complete
)
reader, _ = handle_all_events(events, prepare_reader=completing_reader)
self.assert_screen_equals(reader, f"{code}a")