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cpython/Lib/_pyrepl/unix_console.py

786 lines
24 KiB
Python

# Copyright 2000-2010 Michael Hudson-Doyle <micahel@gmail.com>
# Antonio Cuni
# Armin Rigo
#
# All Rights Reserved
#
#
# Permission to use, copy, modify, and distribute this software and
# its documentation for any purpose is hereby granted without fee,
# provided that the above copyright notice appear in all copies and
# that both that copyright notice and this permission notice appear in
# supporting documentation.
#
# THE AUTHOR MICHAEL HUDSON DISCLAIMS ALL WARRANTIES WITH REGARD TO
# THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY
# AND FITNESS, IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL,
# INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER
# RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF
# CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN
# CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
from __future__ import annotations
import errno
import os
import re
import select
import signal
import struct
import termios
import time
from fcntl import ioctl
from . import curses
from .console import Console, Event
from .fancy_termios import tcgetattr, tcsetattr
from .trace import trace
from .unix_eventqueue import EventQueue
from .utils import wlen
TYPE_CHECKING = False
# types
if TYPE_CHECKING:
from typing import IO, Literal, overload
else:
overload = lambda func: None
class InvalidTerminal(RuntimeError):
pass
_error = (termios.error, curses.error, InvalidTerminal)
SIGWINCH_EVENT = "repaint"
FIONREAD = getattr(termios, "FIONREAD", None)
TIOCGWINSZ = getattr(termios, "TIOCGWINSZ", None)
# ------------ start of baudrate definitions ------------
# Add (possibly) missing baudrates (check termios man page) to termios
def add_baudrate_if_supported(dictionary: dict[int, int], rate: int) -> None:
baudrate_name = "B%d" % rate
if hasattr(termios, baudrate_name):
dictionary[getattr(termios, baudrate_name)] = rate
# Check the termios man page (Line speed) to know where these
# values come from.
potential_baudrates = [
0,
110,
115200,
1200,
134,
150,
1800,
19200,
200,
230400,
2400,
300,
38400,
460800,
4800,
50,
57600,
600,
75,
9600,
]
ratedict: dict[int, int] = {}
for rate in potential_baudrates:
add_baudrate_if_supported(ratedict, rate)
# Clean up variables to avoid unintended usage
del rate, add_baudrate_if_supported
# ------------ end of baudrate definitions ------------
delayprog = re.compile(b"\\$<([0-9]+)((?:/|\\*){0,2})>")
try:
poll: type[select.poll] = select.poll
except AttributeError:
# this is exactly the minumum necessary to support what we
# do with poll objects
class MinimalPoll:
def __init__(self):
pass
def register(self, fd, flag):
self.fd = fd
# note: The 'timeout' argument is received as *milliseconds*
def poll(self, timeout: float | None = None) -> list[int]:
if timeout is None:
r, w, e = select.select([self.fd], [], [])
else:
r, w, e = select.select([self.fd], [], [], timeout/1000)
return r
poll = MinimalPoll # type: ignore[assignment]
class UnixConsole(Console):
def __init__(
self,
f_in: IO[bytes] | int = 0,
f_out: IO[bytes] | int = 1,
term: str = "",
encoding: str = "",
):
"""
Initialize the UnixConsole.
Parameters:
- f_in (int or file-like object): Input file descriptor or object.
- f_out (int or file-like object): Output file descriptor or object.
- term (str): Terminal name.
- encoding (str): Encoding to use for I/O operations.
"""
super().__init__(f_in, f_out, term, encoding)
self.pollob = poll()
self.pollob.register(self.input_fd, select.POLLIN)
self.input_buffer = b""
self.input_buffer_pos = 0
curses.setupterm(term or None, self.output_fd)
self.term = term
@overload
def _my_getstr(cap: str, optional: Literal[False] = False) -> bytes: ...
@overload
def _my_getstr(cap: str, optional: bool) -> bytes | None: ...
def _my_getstr(cap: str, optional: bool = False) -> bytes | None:
r = curses.tigetstr(cap)
if not optional and r is None:
raise InvalidTerminal(
f"terminal doesn't have the required {cap} capability"
)
return r
self._bel = _my_getstr("bel")
self._civis = _my_getstr("civis", optional=True)
self._clear = _my_getstr("clear")
self._cnorm = _my_getstr("cnorm", optional=True)
self._cub = _my_getstr("cub", optional=True)
self._cub1 = _my_getstr("cub1", optional=True)
self._cud = _my_getstr("cud", optional=True)
self._cud1 = _my_getstr("cud1", optional=True)
self._cuf = _my_getstr("cuf", optional=True)
self._cuf1 = _my_getstr("cuf1", optional=True)
self._cup = _my_getstr("cup")
self._cuu = _my_getstr("cuu", optional=True)
self._cuu1 = _my_getstr("cuu1", optional=True)
self._dch1 = _my_getstr("dch1", optional=True)
self._dch = _my_getstr("dch", optional=True)
self._el = _my_getstr("el")
self._hpa = _my_getstr("hpa", optional=True)
self._ich = _my_getstr("ich", optional=True)
self._ich1 = _my_getstr("ich1", optional=True)
self._ind = _my_getstr("ind", optional=True)
self._pad = _my_getstr("pad", optional=True)
self._ri = _my_getstr("ri", optional=True)
self._rmkx = _my_getstr("rmkx", optional=True)
self._smkx = _my_getstr("smkx", optional=True)
self.__setup_movement()
self.event_queue = EventQueue(self.input_fd, self.encoding)
self.cursor_visible = 1
def __read(self, n: int) -> bytes:
if not self.input_buffer or self.input_buffer_pos >= len(self.input_buffer):
self.input_buffer = os.read(self.input_fd, 10000)
ret = self.input_buffer[self.input_buffer_pos : self.input_buffer_pos + n]
self.input_buffer_pos += len(ret)
if self.input_buffer_pos >= len(self.input_buffer):
self.input_buffer = b""
self.input_buffer_pos = 0
return ret
def change_encoding(self, encoding: str) -> None:
"""
Change the encoding used for I/O operations.
Parameters:
- encoding (str): New encoding to use.
"""
self.encoding = encoding
def refresh(self, screen, c_xy):
"""
Refresh the console screen.
Parameters:
- screen (list): List of strings representing the screen contents.
- c_xy (tuple): Cursor position (x, y) on the screen.
"""
cx, cy = c_xy
if not self.__gone_tall:
while len(self.screen) < min(len(screen), self.height):
self.__hide_cursor()
self.__move(0, len(self.screen) - 1)
self.__write("\n")
self.__posxy = 0, len(self.screen)
self.screen.append("")
else:
while len(self.screen) < len(screen):
self.screen.append("")
if len(screen) > self.height:
self.__gone_tall = 1
self.__move = self.__move_tall
px, py = self.__posxy
old_offset = offset = self.__offset
height = self.height
# we make sure the cursor is on the screen, and that we're
# using all of the screen if we can
if cy < offset:
offset = cy
elif cy >= offset + height:
offset = cy - height + 1
elif offset > 0 and len(screen) < offset + height:
offset = max(len(screen) - height, 0)
screen.append("")
oldscr = self.screen[old_offset : old_offset + height]
newscr = screen[offset : offset + height]
# use hardware scrolling if we have it.
if old_offset > offset and self._ri:
self.__hide_cursor()
self.__write_code(self._cup, 0, 0)
self.__posxy = 0, old_offset
for i in range(old_offset - offset):
self.__write_code(self._ri)
oldscr.pop(-1)
oldscr.insert(0, "")
elif old_offset < offset and self._ind:
self.__hide_cursor()
self.__write_code(self._cup, self.height - 1, 0)
self.__posxy = 0, old_offset + self.height - 1
for i in range(offset - old_offset):
self.__write_code(self._ind)
oldscr.pop(0)
oldscr.append("")
self.__offset = offset
for (
y,
oldline,
newline,
) in zip(range(offset, offset + height), oldscr, newscr):
if oldline != newline:
self.__write_changed_line(y, oldline, newline, px)
y = len(newscr)
while y < len(oldscr):
self.__hide_cursor()
self.__move(0, y)
self.__posxy = 0, y
self.__write_code(self._el)
y += 1
self.__show_cursor()
self.screen = screen.copy()
self.move_cursor(cx, cy)
self.flushoutput()
def move_cursor(self, x, y):
"""
Move the cursor to the specified position on the screen.
Parameters:
- x (int): X coordinate.
- y (int): Y coordinate.
"""
if y < self.__offset or y >= self.__offset + self.height:
self.event_queue.insert(Event("scroll", None))
else:
self.__move(x, y)
self.__posxy = x, y
self.flushoutput()
def prepare(self):
"""
Prepare the console for input/output operations.
"""
self.__svtermstate = tcgetattr(self.input_fd)
raw = self.__svtermstate.copy()
raw.iflag &= ~(termios.INPCK | termios.ISTRIP | termios.IXON)
raw.oflag &= ~(termios.OPOST)
raw.cflag &= ~(termios.CSIZE | termios.PARENB)
raw.cflag |= termios.CS8
raw.iflag |= termios.BRKINT
raw.lflag &= ~(termios.ICANON | termios.ECHO | termios.IEXTEN)
raw.lflag |= termios.ISIG
raw.cc[termios.VMIN] = 1
raw.cc[termios.VTIME] = 0
tcsetattr(self.input_fd, termios.TCSADRAIN, raw)
self.screen = []
self.height, self.width = self.getheightwidth()
self.__buffer = []
self.__posxy = 0, 0
self.__gone_tall = 0
self.__move = self.__move_short
self.__offset = 0
self.__maybe_write_code(self._smkx)
try:
self.old_sigwinch = signal.signal(signal.SIGWINCH, self.__sigwinch)
except ValueError:
pass
self.__enable_bracketed_paste()
def restore(self):
"""
Restore the console to the default state
"""
self.__disable_bracketed_paste()
self.__maybe_write_code(self._rmkx)
self.flushoutput()
tcsetattr(self.input_fd, termios.TCSADRAIN, self.__svtermstate)
if hasattr(self, "old_sigwinch"):
signal.signal(signal.SIGWINCH, self.old_sigwinch)
del self.old_sigwinch
def push_char(self, char: int | bytes) -> None:
"""
Push a character to the console event queue.
"""
trace("push char {char!r}", char=char)
self.event_queue.push(char)
def get_event(self, block: bool = True) -> Event | None:
"""
Get an event from the console event queue.
Parameters:
- block (bool): Whether to block until an event is available.
Returns:
- Event: Event object from the event queue.
"""
if not block and not self.wait(timeout=0):
return None
while self.event_queue.empty():
while True:
try:
self.push_char(self.__read(1))
except OSError as err:
if err.errno == errno.EINTR:
if not self.event_queue.empty():
return self.event_queue.get()
else:
continue
else:
raise
else:
break
return self.event_queue.get()
def wait(self, timeout: float | None = None) -> bool:
"""
Wait for events on the console.
"""
return bool(self.pollob.poll(timeout))
def set_cursor_vis(self, visible):
"""
Set the visibility of the cursor.
Parameters:
- visible (bool): Visibility flag.
"""
if visible:
self.__show_cursor()
else:
self.__hide_cursor()
if TIOCGWINSZ:
def getheightwidth(self):
"""
Get the height and width of the console.
Returns:
- tuple: Height and width of the console.
"""
try:
return int(os.environ["LINES"]), int(os.environ["COLUMNS"])
except KeyError:
height, width = struct.unpack(
"hhhh", ioctl(self.input_fd, TIOCGWINSZ, b"\000" * 8)
)[0:2]
if not height:
return 25, 80
return height, width
else:
def getheightwidth(self):
"""
Get the height and width of the console.
Returns:
- tuple: Height and width of the console.
"""
try:
return int(os.environ["LINES"]), int(os.environ["COLUMNS"])
except KeyError:
return 25, 80
def forgetinput(self):
"""
Discard any pending input on the console.
"""
termios.tcflush(self.input_fd, termios.TCIFLUSH)
def flushoutput(self):
"""
Flush the output buffer.
"""
for text, iscode in self.__buffer:
if iscode:
self.__tputs(text)
else:
os.write(self.output_fd, text.encode(self.encoding, "replace"))
del self.__buffer[:]
def finish(self):
"""
Finish console operations and flush the output buffer.
"""
y = len(self.screen) - 1
while y >= 0 and not self.screen[y]:
y -= 1
self.__move(0, min(y, self.height + self.__offset - 1))
self.__write("\n\r")
self.flushoutput()
def beep(self):
"""
Emit a beep sound.
"""
self.__maybe_write_code(self._bel)
self.flushoutput()
if FIONREAD:
def getpending(self):
"""
Get pending events from the console event queue.
Returns:
- Event: Pending event from the event queue.
"""
e = Event("key", "", b"")
while not self.event_queue.empty():
e2 = self.event_queue.get()
e.data += e2.data
e.raw += e.raw
amount = struct.unpack("i", ioctl(self.input_fd, FIONREAD, b"\0\0\0\0"))[0]
raw = self.__read(amount)
data = str(raw, self.encoding, "replace")
e.data += data
e.raw += raw
return e
else:
def getpending(self):
"""
Get pending events from the console event queue.
Returns:
- Event: Pending event from the event queue.
"""
e = Event("key", "", b"")
while not self.event_queue.empty():
e2 = self.event_queue.get()
e.data += e2.data
e.raw += e.raw
amount = 10000
raw = self.__read(amount)
data = str(raw, self.encoding, "replace")
e.data += data
e.raw += raw
return e
def clear(self):
"""
Clear the console screen.
"""
self.__write_code(self._clear)
self.__gone_tall = 1
self.__move = self.__move_tall
self.__posxy = 0, 0
self.screen = []
@property
def input_hook(self):
try:
import posix
except ImportError:
return None
if posix._is_inputhook_installed():
return posix._inputhook
def __enable_bracketed_paste(self) -> None:
os.write(self.output_fd, b"\x1b[?2004h")
def __disable_bracketed_paste(self) -> None:
os.write(self.output_fd, b"\x1b[?2004l")
def __setup_movement(self):
"""
Set up the movement functions based on the terminal capabilities.
"""
if 0 and self._hpa: # hpa don't work in windows telnet :-(
self.__move_x = self.__move_x_hpa
elif self._cub and self._cuf:
self.__move_x = self.__move_x_cub_cuf
elif self._cub1 and self._cuf1:
self.__move_x = self.__move_x_cub1_cuf1
else:
raise RuntimeError("insufficient terminal (horizontal)")
if self._cuu and self._cud:
self.__move_y = self.__move_y_cuu_cud
elif self._cuu1 and self._cud1:
self.__move_y = self.__move_y_cuu1_cud1
else:
raise RuntimeError("insufficient terminal (vertical)")
if self._dch1:
self.dch1 = self._dch1
elif self._dch:
self.dch1 = curses.tparm(self._dch, 1)
else:
self.dch1 = None
if self._ich1:
self.ich1 = self._ich1
elif self._ich:
self.ich1 = curses.tparm(self._ich, 1)
else:
self.ich1 = None
self.__move = self.__move_short
def __write_changed_line(self, y, oldline, newline, px_coord):
# this is frustrating; there's no reason to test (say)
# self.dch1 inside the loop -- but alternative ways of
# structuring this function are equally painful (I'm trying to
# avoid writing code generators these days...)
minlen = min(wlen(oldline), wlen(newline))
x_pos = 0
x_coord = 0
px_pos = 0
j = 0
for c in oldline:
if j >= px_coord:
break
j += wlen(c)
px_pos += 1
# reuse the oldline as much as possible, but stop as soon as we
# encounter an ESCAPE, because it might be the start of an escape
# sequene
while (
x_coord < minlen
and oldline[x_pos] == newline[x_pos]
and newline[x_pos] != "\x1b"
):
x_coord += wlen(newline[x_pos])
x_pos += 1
# if we need to insert a single character right after the first detected change
if oldline[x_pos:] == newline[x_pos + 1 :] and self.ich1:
if (
y == self.__posxy[1]
and x_coord > self.__posxy[0]
and oldline[px_pos:x_pos] == newline[px_pos + 1 : x_pos + 1]
):
x_pos = px_pos
x_coord = px_coord
character_width = wlen(newline[x_pos])
self.__move(x_coord, y)
self.__write_code(self.ich1)
self.__write(newline[x_pos])
self.__posxy = x_coord + character_width, y
# if it's a single character change in the middle of the line
elif (
x_coord < minlen
and oldline[x_pos + 1 :] == newline[x_pos + 1 :]
and wlen(oldline[x_pos]) == wlen(newline[x_pos])
):
character_width = wlen(newline[x_pos])
self.__move(x_coord, y)
self.__write(newline[x_pos])
self.__posxy = x_coord + character_width, y
# if this is the last character to fit in the line and we edit in the middle of the line
elif (
self.dch1
and self.ich1
and wlen(newline) == self.width
and x_coord < wlen(newline) - 2
and newline[x_pos + 1 : -1] == oldline[x_pos:-2]
):
self.__hide_cursor()
self.__move(self.width - 2, y)
self.__posxy = self.width - 2, y
self.__write_code(self.dch1)
character_width = wlen(newline[x_pos])
self.__move(x_coord, y)
self.__write_code(self.ich1)
self.__write(newline[x_pos])
self.__posxy = character_width + 1, y
else:
self.__hide_cursor()
self.__move(x_coord, y)
if wlen(oldline) > wlen(newline):
self.__write_code(self._el)
self.__write(newline[x_pos:])
self.__posxy = wlen(newline), y
if "\x1b" in newline:
# ANSI escape characters are present, so we can't assume
# anything about the position of the cursor. Moving the cursor
# to the left margin should work to get to a known position.
self.move_cursor(0, y)
def __write(self, text):
self.__buffer.append((text, 0))
def __write_code(self, fmt, *args):
self.__buffer.append((curses.tparm(fmt, *args), 1))
def __maybe_write_code(self, fmt, *args):
if fmt:
self.__write_code(fmt, *args)
def __move_y_cuu1_cud1(self, y):
dy = y - self.__posxy[1]
if dy > 0:
self.__write_code(dy * self._cud1)
elif dy < 0:
self.__write_code((-dy) * self._cuu1)
def __move_y_cuu_cud(self, y):
dy = y - self.__posxy[1]
if dy > 0:
self.__write_code(self._cud, dy)
elif dy < 0:
self.__write_code(self._cuu, -dy)
def __move_x_hpa(self, x: int) -> None:
if x != self.__posxy[0]:
self.__write_code(self._hpa, x)
def __move_x_cub1_cuf1(self, x: int) -> None:
dx = x - self.__posxy[0]
if dx > 0:
self.__write_code(self._cuf1 * dx)
elif dx < 0:
self.__write_code(self._cub1 * (-dx))
def __move_x_cub_cuf(self, x: int) -> None:
dx = x - self.__posxy[0]
if dx > 0:
self.__write_code(self._cuf, dx)
elif dx < 0:
self.__write_code(self._cub, -dx)
def __move_short(self, x, y):
self.__move_x(x)
self.__move_y(y)
def __move_tall(self, x, y):
assert 0 <= y - self.__offset < self.height, y - self.__offset
self.__write_code(self._cup, y - self.__offset, x)
def __sigwinch(self, signum, frame):
self.height, self.width = self.getheightwidth()
self.event_queue.insert(Event("resize", None))
def __hide_cursor(self):
if self.cursor_visible:
self.__maybe_write_code(self._civis)
self.cursor_visible = 0
def __show_cursor(self):
if not self.cursor_visible:
self.__maybe_write_code(self._cnorm)
self.cursor_visible = 1
def repaint(self):
if not self.__gone_tall:
self.__posxy = 0, self.__posxy[1]
self.__write("\r")
ns = len(self.screen) * ["\000" * self.width]
self.screen = ns
else:
self.__posxy = 0, self.__offset
self.__move(0, self.__offset)
ns = self.height * ["\000" * self.width]
self.screen = ns
def __tputs(self, fmt, prog=delayprog):
"""A Python implementation of the curses tputs function; the
curses one can't really be wrapped in a sane manner.
I have the strong suspicion that this is complexity that
will never do anyone any good."""
# using .get() means that things will blow up
# only if the bps is actually needed (which I'm
# betting is pretty unlkely)
bps = ratedict.get(self.__svtermstate.ospeed)
while 1:
m = prog.search(fmt)
if not m:
os.write(self.output_fd, fmt)
break
x, y = m.span()
os.write(self.output_fd, fmt[:x])
fmt = fmt[y:]
delay = int(m.group(1))
if b"*" in m.group(2):
delay *= self.height
if self._pad and bps is not None:
nchars = (bps * delay) / 1000
os.write(self.output_fd, self._pad * nchars)
else:
time.sleep(float(delay) / 1000.0)