/usr/lib/python3/dist-packages/humanfriendly/terminal.py

# Human friendly input/output in Python.
#
# Author: Peter Odding <peter@peterodding.com>
# Last Change: May 18, 2017
# URL: https://humanfriendly.readthedocs.io

"""
Interaction with UNIX terminals.

The :mod:`~humanfriendly.terminal` module makes it easy to interact with UNIX
terminals and format text for rendering on UNIX terminals. If the terms used in
the documentation of this module don't make sense to you then please refer to
the `Wikipedia article on ANSI escape sequences`_ for details about how ANSI
escape sequences work.

.. _Wikipedia article on ANSI escape sequences: http://en.wikipedia.org/wiki/ANSI_escape_code#Sequence_elements
"""

# Standard library modules.
import codecs
import os
import re
import subprocess
import sys

# The `fcntl' module is platform specific so importing it may give an error. We
# hide this implementation detail from callers by handling the import error and
# setting a flag instead.
try:
    import fcntl
    import termios
    import struct
    HAVE_IOCTL = True
except ImportError:
    HAVE_IOCTL = False

# Modules included in our package. We import find_meta_variables() here to
# preserve backwards compatibility with older versions of humanfriendly where
# that function was defined in this module.
from humanfriendly.compat import coerce_string, is_unicode
from humanfriendly.text import concatenate, format
from humanfriendly.usage import find_meta_variables, format_usage  # NOQA

ANSI_CSI = '\x1b['
"""The ANSI "Control Sequence Introducer" (a string)."""

ANSI_SGR = 'm'
"""The ANSI "Select Graphic Rendition" sequence (a string)."""

ANSI_ERASE_LINE = '%sK' % ANSI_CSI
"""The ANSI escape sequence to erase the current line (a string)."""

ANSI_RESET = '%s0%s' % (ANSI_CSI, ANSI_SGR)
"""The ANSI escape sequence to reset styling (a string)."""

ANSI_COLOR_CODES = dict(black=0, red=1, green=2, yellow=3, blue=4, magenta=5, cyan=6, white=7)
"""
A dictionary with (name, number) pairs of `portable color codes`_. Used by
:func:`ansi_style()` to generate ANSI escape sequences that change font color.

.. _portable color codes: http://en.wikipedia.org/wiki/ANSI_escape_code#Colors
"""

ANSI_TEXT_STYLES = dict(bold=1, faint=2, underline=4, inverse=7, strike_through=9)
"""
A dictionary with (name, number) pairs of text styles (effects). Used by
:func:`ansi_style()` to generate ANSI escape sequences that change text
styles. Only widely supported text styles are included here.
"""

CLEAN_OUTPUT_PATTERN = re.compile(u'(\r|\n|\b|%s)' % re.escape(ANSI_ERASE_LINE))
"""
A compiled regular expression used to separate significant characters from other text.

This pattern is used by :func:`clean_terminal_output()` to split terminal
output into regular text versus backspace, carriage return and line feed
characters and ANSI 'erase line' escape sequences.
"""

DEFAULT_LINES = 25
"""The default number of lines in a terminal (an integer)."""

DEFAULT_COLUMNS = 80
"""The default number of columns in a terminal (an integer)."""

DEFAULT_ENCODING = 'UTF-8'
"""The output encoding for Unicode strings."""

HIGHLIGHT_COLOR = os.environ.get('HUMANFRIENDLY_HIGHLIGHT_COLOR', 'green')
"""
The color used to highlight important tokens in formatted text (e.g. the usage
message of the ``humanfriendly`` program). If the environment variable
``$HUMANFRIENDLY_HIGHLIGHT_COLOR`` is set it determines the value of
:data:`HIGHLIGHT_COLOR`.
"""


def output(text, *args, **kw):
    """
    Print a formatted message to the standard output stream.

    For details about argument handling please refer to
    :func:`~humanfriendly.text.format()`.

    Renders the message using :func:`~humanfriendly.text.format()` and writes
    the resulting string (followed by a newline) to :data:`sys.stdout` using
    :func:`auto_encode()`.
    """
    auto_encode(sys.stdout, coerce_string(text) + '\n', *args, **kw)


def message(text, *args, **kw):
    """
    Print a formatted message to the standard error stream.

    For details about argument handling please refer to
    :func:`~humanfriendly.text.format()`.

    Renders the message using :func:`~humanfriendly.text.format()` and writes
    the resulting string (followed by a newline) to :data:`sys.stderr` using
    :func:`auto_encode()`.
    """
    auto_encode(sys.stderr, coerce_string(text) + '\n', *args, **kw)


def warning(text, *args, **kw):
    """
    Show a warning message on the terminal.

    For details about argument handling please refer to
    :func:`~humanfriendly.text.format()`.

    Renders the message using :func:`~humanfriendly.text.format()` and writes
    the resulting string (followed by a newline) to :data:`sys.stderr` using
    :func:`auto_encode()`.

    If :data:`sys.stderr` is connected to a terminal that supports colors,
    :func:`ansi_wrap()` is used to color the message in a red font (to make
    the warning stand out from surrounding text).
    """
    text = coerce_string(text)
    if terminal_supports_colors(sys.stderr):
        text = ansi_wrap(text, color='red')
    auto_encode(sys.stderr, text + '\n', *args, **kw)


def auto_encode(stream, text, *args, **kw):
    """
    Reliably write Unicode strings to the terminal.

    :param stream: The file-like object to write to (a value like
                   :data:`sys.stdout` or :data:`sys.stderr`).
    :param text: The text to write to the stream (a string).
    :param args: Refer to :func:`~humanfriendly.text.format()`.
    :param kw: Refer to :func:`~humanfriendly.text.format()`.

    Renders the text using :func:`~humanfriendly.text.format()` and writes it
    to the given stream. If an :exc:`~exceptions.UnicodeEncodeError` is
    encountered in doing so, the text is encoded using :data:`DEFAULT_ENCODING`
    and the write is retried. The reasoning behind this rather blunt approach
    is that it's preferable to get output on the command line in the wrong
    encoding then to have the Python program blow up with a
    :exc:`~exceptions.UnicodeEncodeError` exception.
    """
    text = format(text, *args, **kw)
    try:
        stream.write(text)
    except UnicodeEncodeError:
        stream.write(codecs.encode(text, DEFAULT_ENCODING))


def ansi_strip(text, readline_hints=True):
    """
    Strip ANSI escape sequences from the given string.

    :param text: The text from which ANSI escape sequences should be removed (a
                 string).
    :param readline_hints: If :data:`True` then :func:`readline_strip()` is
                           used to remove `readline hints`_ from the string.
    :returns: The text without ANSI escape sequences (a string).
    """
    pattern = '%s.*?%s' % (re.escape(ANSI_CSI), re.escape(ANSI_SGR))
    text = re.sub(pattern, '', text)
    if readline_hints:
        text = readline_strip(text)
    return text


def ansi_style(**kw):
    """
    Generate ANSI escape sequences for the given color and/or style(s).

    :param color: The name of a color (one of the strings 'black', 'red',
                  'green', 'yellow', 'blue', 'magenta', 'cyan' or 'white') or
                  :data:`None` (the default) which means no escape sequence to
                  switch color will be emitted.
    :param readline_hints: If :data:`True` then :func:`readline_wrap()` is
                           applied to the generated ANSI escape sequences (the
                           default is :data:`False`).
    :param kw: Any additional keyword arguments are expected to match an entry
               in the :data:`ANSI_TEXT_STYLES` dictionary. If the argument's
               value evaluates to :data:`True` the respective style will be
               enabled.
    :returns: The ANSI escape sequences to enable the requested text styles or
              an empty string if no styles were requested.
    :raises: :exc:`~exceptions.ValueError` when an invalid color name is given.
    """
    # Start with sequences that change text styles.
    sequences = [str(ANSI_TEXT_STYLES[k]) for k, v in kw.items() if k in ANSI_TEXT_STYLES and v]
    # Append the color code (if any).
    color_name = kw.get('color')
    if color_name:
        # Validate the color name.
        if color_name not in ANSI_COLOR_CODES:
            msg = "Invalid color name %r! (expected one of %s)"
            raise ValueError(msg % (color_name, concatenate(sorted(ANSI_COLOR_CODES))))
        sequences.append('3%i' % ANSI_COLOR_CODES[color_name])
    if sequences:
        encoded = ANSI_CSI + ';'.join(sequences) + ANSI_SGR
        return readline_wrap(encoded) if kw.get('readline_hints') else encoded
    else:
        return ''


def ansi_width(text):
    """
    Calculate the effective width of the given text (ignoring ANSI escape sequences).

    :param text: The text whose width should be calculated (a string).
    :returns: The width of the text without ANSI escape sequences (an
              integer).

    This function uses :func:`ansi_strip()` to strip ANSI escape sequences from
    the given string and returns the length of the resulting string.
    """
    return len(ansi_strip(text))


def ansi_wrap(text, **kw):
    """
    Wrap text in ANSI escape sequences for the given color and/or style(s).

    :param text: The text to wrap (a string).
    :param kw: Any keyword arguments are passed to :func:`ansi_style()`.
    :returns: The result of this function depends on the keyword arguments:

              - If :func:`ansi_style()` generates an ANSI escape sequence based
                on the keyword arguments, the given text is prefixed with the
                generated ANSI escape sequence and suffixed with
                :data:`ANSI_RESET`.

              - If :func:`ansi_style()` returns an empty string then the text
                given by the caller is returned unchanged.
    """
    start_sequence = ansi_style(**kw)
    if start_sequence:
        end_sequence = ANSI_RESET
        if kw.get('readline_hints'):
            end_sequence = readline_wrap(end_sequence)
        return start_sequence + text + end_sequence
    else:
        return text


def readline_wrap(expr):
    """
    Wrap an ANSI escape sequence in `readline hints`_.

    :param text: The text with the escape sequence to wrap (a string).
    :returns: The wrapped text.

    .. _readline hints: http://superuser.com/a/301355
    """
    return '\001' + expr + '\002'


def readline_strip(expr):
    """
    Remove `readline hints`_ from a string.

    :param text: The text to strip (a string).
    :returns: The stripped text.
    """
    return expr.replace('\001', '').replace('\002', '')


def clean_terminal_output(text):
    """
    Clean up the terminal output of a command.

    :param text: The raw text with special characters (a Unicode string).
    :returns: A list of Unicode strings (one for each line).

    This function emulates the effect of backspace (0x08), carriage return
    (0x0D) and line feed (0x0A) characters and the ANSI 'erase line' escape
    sequence on interactive terminals. It's intended to clean up command output
    that was originally meant to be rendered on an interactive terminal and
    that has been captured using e.g. the script_ program [#]_ or the
    :mod:`pty` module [#]_.

    .. [#] My coloredlogs_ package supports the ``coloredlogs --to-html``
           command which uses script_ to fool a subprocess into thinking that
           it's connected to an interactive terminal (in order to get it to
           emit ANSI escape sequences).

    .. [#] My capturer_ package uses the :mod:`pty` module to fool the current
           process and subprocesses into thinking they are connected to an
           interactive terminal (in order to get them to emit ANSI escape
           sequences).

    **Some caveats about the use of this function:**

    - Strictly speaking the effect of carriage returns cannot be emulated
      outside of an actual terminal due to the interaction between overlapping
      output, terminal widths and line wrapping. The goal of this function is
      to sanitize noise in terminal output while preserving useful output.
      Think of it as a useful and pragmatic but possibly lossy conversion.

    - The algorithm isn't smart enough to properly handle a pair of ANSI escape
      sequences that open before a carriage return and close after the last
      carriage return in a linefeed delimited string; the resulting string will
      contain only the closing end of the ANSI escape sequence pair. Tracking
      this kind of complexity requires a state machine and proper parsing.

    .. _capturer: https://pypi.python.org/pypi/capturer
    .. _coloredlogs: https://pypi.python.org/pypi/coloredlogs
    .. _script: http://man7.org/linux/man-pages/man1/script.1.html
    """
    cleaned_lines = []
    current_line = ''
    current_position = 0
    for token in CLEAN_OUTPUT_PATTERN.split(text):
        if token == '\r':
            # Seek back to the start of the current line.
            current_position = 0
        elif token == '\b':
            # Seek back one character in the current line.
            current_position = max(0, current_position - 1)
        else:
            if token == '\n':
                # Capture the current line.
                cleaned_lines.append(current_line)
            if token in ('\n', ANSI_ERASE_LINE):
                # Clear the current line.
                current_line = ''
                current_position = 0
            elif token:
                # Merge regular output into the current line.
                new_position = current_position + len(token)
                prefix = current_line[:current_position]
                suffix = current_line[new_position:]
                current_line = prefix + token + suffix
                current_position = new_position
    # Capture the last line (if any).
    cleaned_lines.append(current_line)
    # Remove any empty trailing lines.
    while cleaned_lines and not cleaned_lines[-1]:
        cleaned_lines.pop(-1)
    return cleaned_lines


def connected_to_terminal(stream=None):
    """
    Check if a stream is connected to a terminal.

    :param stream: The stream to check (a file-like object,
                   defaults to :data:`sys.stdout`).
    :returns: :data:`True` if the stream is connected to a terminal,
              :data:`False` otherwise.

    See also :func:`terminal_supports_colors()`.
    """
    stream = sys.stdout if stream is None else stream
    try:
        return stream.isatty()
    except Exception:
        return False


def terminal_supports_colors(stream=None):
    """
    Check if a stream is connected to a terminal that supports ANSI escape sequences.

    :param stream: The stream to check (a file-like object,
                   defaults to :data:`sys.stdout`).
    :returns: :data:`True` if the terminal supports ANSI escape sequences,
              :data:`False` otherwise.

    This function is inspired by the implementation of
    `django.core.management.color.supports_color()
    <https://github.com/django/django/blob/master/django/core/management/color.py>`_.
    """
    return (sys.platform != 'Pocket PC' and
            (sys.platform != 'win32' or 'ANSICON' in os.environ) and
            connected_to_terminal(stream))


def find_terminal_size():
    """
    Determine the number of lines and columns visible in the terminal.

    :returns: A tuple of two integers with the line and column count.

    The result of this function is based on the first of the following three
    methods that works:

    1. First :func:`find_terminal_size_using_ioctl()` is tried,
    2. then :func:`find_terminal_size_using_stty()` is tried,
    3. finally :data:`DEFAULT_LINES` and :data:`DEFAULT_COLUMNS` are returned.

    .. note:: The :func:`find_terminal_size()` function performs the steps
              above every time it is called, the result is not cached. This is
              because the size of a virtual terminal can change at any time and
              the result of :func:`find_terminal_size()` should be correct.

              `Pre-emptive snarky comment`_: It's possible to cache the result
              of this function and use :data:`signal.SIGWINCH` to refresh the
              cached values!

              Response: As a library I don't consider it the role of the
              :mod:`humanfriendly.terminal` module to install a process wide
              signal handler ...

    .. _Pre-emptive snarky comment: http://blogs.msdn.com/b/oldnewthing/archive/2008/01/30/7315957.aspx
    """
    # The first method. Any of the standard streams may have been redirected
    # somewhere and there's no telling which, so we'll just try them all.
    for stream in sys.stdin, sys.stdout, sys.stderr:
        try:
            result = find_terminal_size_using_ioctl(stream)
            if min(result) >= 1:
                return result
        except Exception:
            pass
    # The second method.
    try:
        result = find_terminal_size_using_stty()
        if min(result) >= 1:
            return result
    except Exception:
        pass
    # Fall back to conservative defaults.
    return DEFAULT_LINES, DEFAULT_COLUMNS


def find_terminal_size_using_ioctl(stream):
    """
    Find the terminal size using :func:`fcntl.ioctl()`.

    :param stream: A stream connected to the terminal (a file object with a
                   ``fileno`` attribute).
    :returns: A tuple of two integers with the line and column count.
    :raises: This function can raise exceptions but I'm not going to document
             them here, you should be using :func:`find_terminal_size()`.

    Based on an `implementation found on StackOverflow <http://stackoverflow.com/a/3010495/788200>`_.
    """
    if not HAVE_IOCTL:
        raise NotImplementedError("It looks like the `fcntl' module is not available!")
    h, w, hp, wp = struct.unpack('HHHH', fcntl.ioctl(stream, termios.TIOCGWINSZ, struct.pack('HHHH', 0, 0, 0, 0)))
    return h, w


def find_terminal_size_using_stty():
    """
    Find the terminal size using the external command ``stty size``.

    :param stream: A stream connected to the terminal (a file object).
    :returns: A tuple of two integers with the line and column count.
    :raises: This function can raise exceptions but I'm not going to document
             them here, you should be using :func:`find_terminal_size()`.
    """
    stty = subprocess.Popen(['stty', 'size'],
                            stdout=subprocess.PIPE,
                            stderr=subprocess.PIPE)
    stdout, stderr = stty.communicate()
    tokens = stdout.split()
    if len(tokens) != 2:
        raise Exception("Invalid output from `stty size'!")
    return tuple(map(int, tokens))


def usage(usage_text):
    """
    Print a human friendly usage message to the terminal.

    :param text: The usage message to print (a string).

    This function does two things:

    1. If :data:`sys.stdout` is connected to a terminal (see
       :func:`connected_to_terminal()`) then the usage message is formatted
       using :func:`.format_usage()`.
    2. The usage message is shown using a pager (see :func:`show_pager()`).
    """
    if terminal_supports_colors(sys.stdout):
        usage_text = format_usage(usage_text)
    show_pager(usage_text)


def show_pager(formatted_text, encoding=DEFAULT_ENCODING):
    """
    Print a large text to the terminal using a pager.

    :param formatted_text: The text to print to the terminal (a string).
    :param encoding: The name of the text encoding used to encode the formatted
                     text if the formatted text is a Unicode string (a string,
                     defaults to :data:`DEFAULT_ENCODING`).

    When :func:`connected_to_terminal()` returns :data:`True` a pager is used
    to show the text on the terminal, otherwise the text is printed directly
    without invoking a pager.

    The use of a pager helps to avoid the wall of text effect where the user
    has to scroll up to see where the output began (not very user friendly).

    Refer to :func:`get_pager_command()` for details about the command line
    that's used to invoke the pager.
    """
    if connected_to_terminal():
        command_line = get_pager_command(formatted_text)
        pager = subprocess.Popen(command_line, stdin=subprocess.PIPE)
        if is_unicode(formatted_text):
            formatted_text = formatted_text.encode(encoding)
        pager.communicate(input=formatted_text)
    else:
        output(formatted_text)


def get_pager_command(text=None):
    """
    Get the command to show a text on the terminal using a pager.

    :param text: The text to print to the terminal (a string).
    :returns: A list of strings with the pager command and arguments.

    The use of a pager helps to avoid the wall of text effect where the user
    has to scroll up to see where the output began (not very user friendly).

    If the given text contains ANSI escape sequences the command ``less
    --RAW-CONTROL-CHARS`` is used, otherwise the environment variable
    ``$PAGER`` is used (if ``$PAGER`` isn't set less_ is used).

    When the selected pager is less_, the following options are used to make
    the experience more user friendly:

    - ``--quit-if-one-screen`` causes less_ to automatically exit if the entire
      text can be displayed on the first screen. This makes the use of a pager
      transparent for smaller texts (because the operator doesn't have to quit
      the pager).

    - ``--no-init`` prevents less_ from clearing the screen when it exits. This
      ensures that the operator gets a chance to review the text (for example a
      usage message) after quitting the pager, while composing the next command.

    .. _less: http://man7.org/linux/man-pages/man1/less.1.html
    """
    # Compose the pager command.
    if text and ANSI_CSI in text:
        command_line = ['less', '--RAW-CONTROL-CHARS']
    else:
        command_line = [os.environ.get('PAGER', 'less')]
    # Pass some additional options to `less' (to make it more
    # user friendly) without breaking support for other pagers.
    if os.path.basename(command_line[0]) == 'less':
        command_line.append('--no-init')
        command_line.append('--quit-if-one-screen')
    return command_line
python3-humanfriendly 4.4.1-1 / usr / lib / python3 / dist-packages / humanfriendly / terminal.py
