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""" This module contains implementations for the termui module. To keep the import time of Click down, some infrequently used functionality is placed in this module and only imported as needed. """ import contextlib import math import os import sys import time import typing as t from gettext import gettext as _ from ._compat import _default_text_stdout from ._compat import CYGWIN from ._compat import get_best_encoding from ._compat import isatty from ._compat import open_stream from ._compat import strip_ansi from ._compat import term_len from ._compat import WIN from .exceptions import ClickException from .utils import echo V = t.TypeVar("V") if os.name == "nt": BEFORE_BAR = "\r" AFTER_BAR = "\n" else: BEFORE_BAR = "\r\033[?25l" AFTER_BAR = "\033[?25h\n" class ProgressBar(t.Generic[V]): def __init__( self, iterable: t.Optional[t.Iterable[V]], length: t.Optional[int] = None, fill_char: str = "#", empty_char: str = " ", bar_template: str = "%(bar)s", info_sep: str = " ", show_eta: bool = True, show_percent: t.Optional[bool] = None, show_pos: bool = False, item_show_func: t.Optional[t.Callable[[t.Optional[V]], t.Optional[str]]] = None, label: t.Optional[str] = None, file: t.Optional[t.TextIO] = None, color: t.Optional[bool] = None, update_min_steps: int = 1, width: int = 30, ) -> None: self.fill_char = fill_char self.empty_char = empty_char self.bar_template = bar_template self.info_sep = info_sep self.show_eta = show_eta self.show_percent = show_percent self.show_pos = show_pos self.item_show_func = item_show_func self.label = label or "" if file is None: file = _default_text_stdout() self.file = file self.color = color self.update_min_steps = update_min_steps self._completed_intervals = 0 self.width = width self.autowidth = width == 0 if length is None: from operator import length_hint length = length_hint(iterable, -1) if length == -1: length = None if iterable is None: if length is None: raise TypeError("iterable or length is required") iterable = t.cast(t.Iterable[V], range(length)) self.iter = iter(iterable) self.length = length self.pos = 0 self.avg: t.List[float] = [] self.start = self.last_eta = time.time() self.eta_known = False self.finished = False self.max_width: t.Optional[int] = None self.entered = False self.current_item: t.Optional[V] = None self.is_hidden = not isatty(self.file) self._last_line: t.Optional[str] = None def __enter__(self) -> "ProgressBar": self.entered = True self.render_progress() return self def __exit__(self, exc_type, exc_value, tb): # type: ignore self.render_finish() def __iter__(self) -> t.Iterator[V]: if not self.entered: raise RuntimeError("You need to use progress bars in a with block.") self.render_progress() return self.generator() def __next__(self) -> V: # Iteration is defined in terms of a generator function, # returned by iter(self); use that to define next(). This works # because `self.iter` is an iterable consumed by that generator, # so it is re-entry safe. Calling `next(self.generator())` # twice works and does "what you want". return next(iter(self)) def render_finish(self) -> None: if self.is_hidden: return self.file.write(AFTER_BAR) self.file.flush() @property def pct(self) -> float: if self.finished: return 1.0 return min(self.pos / (float(self.length or 1) or 1), 1.0) @property def time_per_iteration(self) -> float: if not self.avg: return 0.0 return sum(self.avg) / float(len(self.avg)) @property def eta(self) -> float: if self.length is not None and not self.finished: return self.time_per_iteration * (self.length - self.pos) return 0.0 def format_eta(self) -> str: if self.eta_known: t = int(self.eta) seconds = t % 60 t //= 60 minutes = t % 60 t //= 60 hours = t % 24 t //= 24 if t > 0: return f"{t}d {hours:02}:{minutes:02}:{seconds:02}" else: return f"{hours:02}:{minutes:02}:{seconds:02}" return "" def format_pos(self) -> str: pos = str(self.pos) if self.length is not None: pos += f"/{self.length}" return pos def format_pct(self) -> str: return f"{int(self.pct * 100): 4}%"[1:] def format_bar(self) -> str: if self.length is not None: bar_length = int(self.pct * self.width) bar = self.fill_char * bar_length bar += self.empty_char * (self.width - bar_length) elif self.finished: bar = self.fill_char * self.width else: chars = list(self.empty_char * (self.width or 1)) if self.time_per_iteration != 0: chars[ int( (math.cos(self.pos * self.time_per_iteration) / 2.0 + 0.5) * self.width ) ] = self.fill_char bar = "".join(chars) return bar def format_progress_line(self) -> str: show_percent = self.show_percent info_bits = [] if self.length is not None and show_percent is None: show_percent = not self.show_pos if self.show_pos: info_bits.append(self.format_pos()) if show_percent: info_bits.append(self.format_pct()) if self.show_eta and self.eta_known and not self.finished: info_bits.append(self.format_eta()) if self.item_show_func is not None: item_info = self.item_show_func(self.current_item) if item_info is not None: info_bits.append(item_info) return ( self.bar_template % { "label": self.label, "bar": self.format_bar(), "info": self.info_sep.join(info_bits), } ).rstrip() def render_progress(self) -> None: import shutil if self.is_hidden: # Only output the label as it changes if the output is not a # TTY. Use file=stderr if you expect to be piping stdout. if self._last_line != self.label: self._last_line = self.label echo(self.label, file=self.file, color=self.color) return buf = [] # Update width in case the terminal has been resized if self.autowidth: old_width = self.width self.width = 0 clutter_length = term_len(self.format_progress_line()) new_width = max(0, shutil.get_terminal_size().columns - clutter_length) if new_width < old_width: buf.append(BEFORE_BAR) buf.append(" " * self.max_width) # type: ignore self.max_width = new_width self.width = new_width clear_width = self.width if self.max_width is not None: clear_width = self.max_width buf.append(BEFORE_BAR) line = self.format_progress_line() line_len = term_len(line) if self.max_width is None or self.max_width < line_len: self.max_width = line_len buf.append(line) buf.append(" " * (clear_width - line_len)) line = "".join(buf) # Render the line only if it changed. if line != self._last_line: self._last_line = line echo(line, file=self.file, color=self.color, nl=False) self.file.flush() def make_step(self, n_steps: int) -> None: self.pos += n_steps if self.length is not None and self.pos >= self.length: self.finished = True if (time.time() - self.last_eta) < 1.0: return self.last_eta = time.time() # self.avg is a rolling list of length <= 7 of steps where steps are # defined as time elapsed divided by the total progress through # self.length. if self.pos: step = (time.time() - self.start) / self.pos else: step = time.time() - self.start self.avg = self.avg[-6:] + [step] self.eta_known = self.length is not None def update(self, n_steps: int, current_item: t.Optional[V] = None) -> None: """Update the progress bar by advancing a specified number of steps, and optionally set the ``current_item`` for this new position. :param n_steps: Number of steps to advance. :param current_item: Optional item to set as ``current_item`` for the updated position. .. versionchanged:: 8.0 Added the ``current_item`` optional parameter. .. versionchanged:: 8.0 Only render when the number of steps meets the ``update_min_steps`` threshold. """ if current_item is not None: self.current_item = current_item self._completed_intervals += n_steps if self._completed_intervals >= self.update_min_steps: self.make_step(self._completed_intervals) self.render_progress() self._completed_intervals = 0 def finish(self) -> None: self.eta_known = False self.current_item = None self.finished = True def generator(self) -> t.Iterator[V]: """Return a generator which yields the items added to the bar during construction, and updates the progress bar *after* the yielded block returns. """ # WARNING: the iterator interface for `ProgressBar` relies on # this and only works because this is a simple generator which # doesn't create or manage additional state. If this function # changes, the impact should be evaluated both against # `iter(bar)` and `next(bar)`. `next()` in particular may call # `self.generator()` repeatedly, and this must remain safe in # order for that interface to work. if not self.entered: raise RuntimeError("You need to use progress bars in a with block.") if self.is_hidden: yield from self.iter else: for rv in self.iter: self.current_item = rv # This allows show_item_func to be updated before the # item is processed. Only trigger at the beginning of # the update interval. if self._completed_intervals == 0: self.render_progress() yield rv self.update(1) self.finish() self.render_progress() def pager(generator: t.Iterable[str], color: t.Optional[bool] = None) -> None: """Decide what method to use for paging through text.""" stdout = _default_text_stdout() if not isatty(sys.stdin) or not isatty(stdout): return _nullpager(stdout, generator, color) pager_cmd = (os.environ.get("PAGER", None) or "").strip() if pager_cmd: if WIN: return _tempfilepager(generator, pager_cmd, color) return _pipepager(generator, pager_cmd, color) if os.environ.get("TERM") in ("dumb", "emacs"): return _nullpager(stdout, generator, color) if WIN or sys.platform.startswith("os2"): return _tempfilepager(generator, "more <", color) if hasattr(os, "system") and os.system("(less) 2>/dev/null") == 0: return _pipepager(generator, "less", color) import tempfile fd, filename = tempfile.mkstemp() os.close(fd) try: if hasattr(os, "system") and os.system(f'more "{filename}"') == 0: return _pipepager(generator, "more", color) return _nullpager(stdout, generator, color) finally: os.unlink(filename) def _pipepager(generator: t.Iterable[str], cmd: str, color: t.Optional[bool]) -> None: """Page through text by feeding it to another program. Invoking a pager through this might support colors. """ import subprocess env = dict(os.environ) # If we're piping to less we might support colors under the # condition that cmd_detail = cmd.rsplit("/", 1)[-1].split() if color is None and cmd_detail[0] == "less": less_flags = f"{os.environ.get('LESS', '')}{' '.join(cmd_detail[1:])}" if not less_flags: env["LESS"] = "-R" color = True elif "r" in less_flags or "R" in less_flags: color = True c = subprocess.Popen(cmd, shell=True, stdin=subprocess.PIPE, env=env) stdin = t.cast(t.BinaryIO, c.stdin) encoding = get_best_encoding(stdin) try: for text in generator: if not color: text = strip_ansi(text) stdin.write(text.encode(encoding, "replace")) except (OSError, KeyboardInterrupt): pass else: stdin.close() # Less doesn't respect ^C, but catches it for its own UI purposes (aborting # search or other commands inside less). # # That means when the user hits ^C, the parent process (click) terminates, # but less is still alive, paging the output and messing up the terminal. # # If the user wants to make the pager exit on ^C, they should set # `LESS='-K'`. It's not our decision to make. while True: try: c.wait() except KeyboardInterrupt: pass else: break def _tempfilepager( generator: t.Iterable[str], cmd: str, color: t.Optional[bool] ) -> None: """Page through text by invoking a program on a temporary file.""" import tempfile fd, filename = tempfile.mkstemp() # TODO: This never terminates if the passed generator never terminates. text = "".join(generator) if not color: text = strip_ansi(text) encoding = get_best_encoding(sys.stdout) with open_stream(filename, "wb")[0] as f: f.write(text.encode(encoding)) try: os.system(f'{cmd} "{filename}"') finally: os.close(fd) os.unlink(filename) def _nullpager( stream: t.TextIO, generator: t.Iterable[str], color: t.Optional[bool] ) -> None: """Simply print unformatted text. This is the ultimate fallback.""" for text in generator: if not color: text = strip_ansi(text) stream.write(text) class Editor: def __init__( self, editor: t.Optional[str] = None, env: t.Optional[t.Mapping[str, str]] = None, require_save: bool = True, extension: str = ".txt", ) -> None: self.editor = editor self.env = env self.require_save = require_save self.extension = extension def get_editor(self) -> str: if self.editor is not None: return self.editor for key in "VISUAL", "EDITOR": rv = os.environ.get(key) if rv: return rv if WIN: return "notepad" for editor in "sensible-editor", "vim", "nano": if os.system(f"which {editor} >/dev/null 2>&1") == 0: return editor return "vi" def edit_file(self, filename: str) -> None: import subprocess editor = self.get_editor() environ: t.Optional[t.Dict[str, str]] = None if self.env: environ = os.environ.copy() environ.update(self.env) try: c = subprocess.Popen(f'{editor} "{filename}"', env=environ, shell=True) exit_code = c.wait() if exit_code != 0: raise ClickException( _("{editor}: Editing failed").format(editor=editor) ) except OSError as e: raise ClickException( _("{editor}: Editing failed: {e}").format(editor=editor, e=e) ) from e def edit(self, text: t.Optional[t.AnyStr]) -> t.Optional[t.AnyStr]: import tempfile if not text: data = b"" elif isinstance(text, (bytes, bytearray)): data = text else: if text and not text.endswith("\n"): text += "\n" if WIN: data = text.replace("\n", "\r\n").encode("utf-8-sig") else: data = text.encode("utf-8") fd, name = tempfile.mkstemp(prefix="editor-", suffix=self.extension) f: t.BinaryIO try: with os.fdopen(fd, "wb") as f: f.write(data) # If the filesystem resolution is 1 second, like Mac OS # 10.12 Extended, or 2 seconds, like FAT32, and the editor # closes very fast, require_save can fail. Set the modified # time to be 2 seconds in the past to work around this. os.utime(name, (os.path.getatime(name), os.path.getmtime(name) - 2)) # Depending on the resolution, the exact value might not be # recorded, so get the new recorded value. timestamp = os.path.getmtime(name) self.edit_file(name) if self.require_save and os.path.getmtime(name) == timestamp: return None with open(name, "rb") as f: rv = f.read() if isinstance(text, (bytes, bytearray)): return rv return rv.decode("utf-8-sig").replace("\r\n", "\n") # type: ignore finally: os.unlink(name) def open_url(url: str, wait: bool = False, locate: bool = False) -> int: import subprocess def _unquote_file(url: str) -> str: from urllib.parse import unquote if url.startswith("file://"): url = unquote(url[7:]) return url if sys.platform == "darwin": args = ["open"] if wait: args.append("-W") if locate: args.append("-R") args.append(_unquote_file(url)) null = open("/dev/null", "w") try: return subprocess.Popen(args, stderr=null).wait() finally: null.close() elif WIN: if locate: url = _unquote_file(url.replace('"', "")) args = f'explorer /select,"{url}"' else: url = url.replace('"', "") wait_str = "/WAIT" if wait else "" args = f'start {wait_str} "" "{url}"' return os.system(args) elif CYGWIN: if locate: url = os.path.dirname(_unquote_file(url).replace('"', "")) args = f'cygstart "{url}"' else: url = url.replace('"', "") wait_str = "-w" if wait else "" args = f'cygstart {wait_str} "{url}"' return os.system(args) try: if locate: url = os.path.dirname(_unquote_file(url)) or "." else: url = _unquote_file(url) c = subprocess.Popen(["xdg-open", url]) if wait: return c.wait() return 0 except OSError: if url.startswith(("http://", "https://")) and not locate and not wait: import webbrowser webbrowser.open(url) return 0 return 1 def _translate_ch_to_exc(ch: str) -> t.Optional[BaseException]: if ch == "\x03": raise KeyboardInterrupt() if ch == "\x04" and not WIN: # Unix-like, Ctrl+D raise EOFError() if ch == "\x1a" and WIN: # Windows, Ctrl+Z raise EOFError() return None if WIN: import msvcrt @contextlib.contextmanager def raw_terminal() -> t.Iterator[int]: yield -1 def getchar(echo: bool) -> str: # The function `getch` will return a bytes object corresponding to # the pressed character. Since Windows 10 build 1803, it will also # return \x00 when called a second time after pressing a regular key. # # `getwch` does not share this probably-bugged behavior. Moreover, it # returns a Unicode object by default, which is what we want. # # Either of these functions will return \x00 or \xe0 to indicate # a special key, and you need to call the same function again to get # the "rest" of the code. The fun part is that \u00e0 is # "latin small letter a with grave", so if you type that on a French # keyboard, you _also_ get a \xe0. # E.g., consider the Up arrow. This returns \xe0 and then \x48. The # resulting Unicode string reads as "a with grave" + "capital H". # This is indistinguishable from when the user actually types # "a with grave" and then "capital H". # # When \xe0 is returned, we assume it's part of a special-key sequence # and call `getwch` again, but that means that when the user types # the \u00e0 character, `getchar` doesn't return until a second # character is typed. # The alternative is returning immediately, but that would mess up # cross-platform handling of arrow keys and others that start with # \xe0. Another option is using `getch`, but then we can't reliably # read non-ASCII characters, because return values of `getch` are # limited to the current 8-bit codepage. # # Anyway, Click doesn't claim to do this Right(tm), and using `getwch` # is doing the right thing in more situations than with `getch`. func: t.Callable[[], str] if echo: func = msvcrt.getwche # type: ignore else: func = msvcrt.getwch # type: ignore rv = func() if rv in ("\x00", "\xe0"): # \x00 and \xe0 are control characters that indicate special key, # see above. rv += func() _translate_ch_to_exc(rv) return rv else: import tty import termios @contextlib.contextmanager def raw_terminal() -> t.Iterator[int]: f: t.Optional[t.TextIO] fd: int if not isatty(sys.stdin): f = open("/dev/tty") fd = f.fileno() else: fd = sys.stdin.fileno() f = None try: old_settings = termios.tcgetattr(fd) try: tty.setraw(fd) yield fd finally: termios.tcsetattr(fd, termios.TCSADRAIN, old_settings) sys.stdout.flush() if f is not None: f.close() except termios.error: pass def getchar(echo: bool) -> str: with raw_terminal() as fd: ch = os.read(fd, 32).decode(get_best_encoding(sys.stdin), "replace") if echo and isatty(sys.stdout): sys.stdout.write(ch) _translate_ch_to_exc(ch) return ch