#!/usr/bin/env python3
# -*- coding: utf-8 -*-
+# © Copyright 2021-2022, Scott Gasch
+
"""Utilities for dealing with "text"."""
import contextlib
+import enum
import logging
import math
+import os
import re
import sys
from collections import defaultdict
"""Row + Column"""
rows: int = 0
+ """Numer of rows"""
+
columns: int = 0
+ """Number of columns"""
def get_console_rows_columns() -> RowsColumns:
- """Returns the number of rows/columns on the current console."""
-
+ """
+ Returns:
+ The number of rows/columns on the current console or None
+ if we can't tell or an error occurred.
+ """
from exec_utils import cmd
- try:
- rows, columns = cmd(
- "stty size",
- timeout_seconds=1.0,
- ).split()
- except Exception as e:
- logger.exception(e)
- raise Exception('Can\'t determine console size?!') from e
- return RowsColumns(int(rows), int(columns))
+ rows: Optional[str] = os.environ.get('LINES', None)
+ cols: Optional[str] = os.environ.get('COLUMNS', None)
+ if not rows or not cols:
+ try:
+ rows, cols = cmd(
+ "stty size",
+ timeout_seconds=1.0,
+ ).split()
+ except Exception:
+ rows = None
+ cols = None
+
+ if rows is None:
+ try:
+ rows = cmd(
+ "tput rows",
+ timeout_seconds=1.0,
+ )
+ except Exception:
+ rows = None
+
+ if cols is None:
+ try:
+ cols = cmd(
+ "tput cols",
+ timeout_seconds=1.0,
+ )
+ except Exception:
+ cols = None
+
+ if not rows or not cols:
+ raise Exception('Can\'t determine console size?!')
+ return RowsColumns(int(rows), int(cols))
+
+
+class BarGraphText(enum.Enum):
+ """What kind of text to include at the end of the bar graph?"""
+
+ NONE = (0,)
+ """None, leave it blank."""
+
+ PERCENTAGE = (1,)
+ """XX.X%"""
+
+ FRACTION = (2,)
+ """N / K"""
-def progress_graph(
+def bar_graph(
current: int,
total: int,
*,
width=70,
+ text: BarGraphText = BarGraphText.PERCENTAGE,
fgcolor=fg("school bus yellow"),
left_end="[",
right_end="]",
redraw=True,
) -> None:
- """Draws a progress graph."""
-
- percent = current / total
+ """Draws a progress graph at the current cursor position.
+
+ Args:
+ current: how many have we done so far?
+ total: how many are there to do total?
+ text: how should we render the text at the end?
+ width: how many columns wide should be progress graph be?
+ fgcolor: what color should "done" part of the graph be?
+ left_end: the character at the left side of the graph
+ right_end: the character at the right side of the graph
+ redraw: if True, omit a line feed after the carriage return
+ so that subsequent calls to this method redraw the graph
+ iteratively.
+ """
ret = "\r" if redraw else "\n"
- bar = bar_graph(
- percent,
- include_text=True,
+ bar = bar_graph_string(
+ current,
+ total,
+ text=text,
width=width,
fgcolor=fgcolor,
left_end=left_end,
print(bar, end=ret, flush=True, file=sys.stderr)
-def bar_graph(
- percentage: float,
+def _make_bar_graph_text(text: BarGraphText, current: int, total: int, percentage: float):
+ if text == BarGraphText.NONE:
+ return ""
+ elif text == BarGraphText.PERCENTAGE:
+ return f'{percentage:.1f}'
+ elif text == BarGraphText.FRACTION:
+ return f'{current} / {total}'
+ raise ValueError(text)
+
+
+def bar_graph_string(
+ current: int,
+ total: int,
*,
- include_text=True,
+ text: BarGraphText = BarGraphText.PERCENTAGE,
width=70,
fgcolor=fg("school bus yellow"),
reset_seq=reset(),
) -> str:
"""Returns a string containing a bar graph.
- >>> bar_graph(0.5, fgcolor='', reset_seq='')
+ Args:
+ current: how many have we done so far?
+ total: how many are there to do total?
+ text: how should we render the text at the end?
+ width: how many columns wide should be progress graph be?
+ fgcolor: what color should "done" part of the graph be?
+ reset_seq: sequence to use to turn off color
+ left_end: the character at the left side of the graph
+ right_end: the character at the right side of the graph
+
+ >>> bar_graph(5, 10, fgcolor='', reset_seq='')
'[███████████████████████████████████ ] 50.0%'
"""
+ if total != 0:
+ percentage = float(current) / float(total)
+ else:
+ percentage = 0.0
if percentage < 0.0 or percentage > 1.0:
raise ValueError(percentage)
- if include_text:
- text = f"{percentage*100.0:2.1f}%"
- else:
- text = ""
+ text = _make_bar_graph_text(text, current, total, percentage)
whole_width = math.floor(percentage * width)
if whole_width == width:
whole_width -= 1
"""
Makes a "sparkline" little inline histogram graph. Auto scales.
+ Args:
+ numbers: the population over which to create the sparkline
+
+ Returns:
+ a three tuple containing:
+
+ * the minimum number in the population
+ * the maximum number in the population
+ * a string representation of the population in a concise format
+
>>> sparkline([1, 2, 3, 5, 10, 3, 5, 7])
(1, 10, '▁▁▂▄█▂▄▆')
"""
Distributes strings into a line for justified text.
+ Args:
+ strings: a list of string tokens to distribute
+ width: the width of the line to create
+ padding: the padding character to place between string chunks
+
+ Returns:
+ The distributed, justified string.
+
>>> distribute_strings(['this', 'is', 'a', 'test'], width=40)
' this is a test '
-
"""
ret = ' ' + ' '.join(strings) + ' '
assert len(string_utils.strip_ansi_sequences(ret)) < width
return ret
-def justify_string_by_chunk(string: str, width: int = 80, padding: str = " ") -> str:
+def _justify_string_by_chunk(string: str, width: int = 80, padding: str = " ") -> str:
"""
- Justifies a string.
+ Justifies a string chunk by chunk.
+
+ Args:
+ string: the string to be justified
+ width: how wide to make the output
+ padding: what padding character to use between chunks
+
+ Returns:
+ the justified string
- >>> justify_string_by_chunk("This is a test", 40)
+ >>> _justify_string_by_chunk("This is a test", 40)
'This is a test'
- >>> justify_string_by_chunk("This is a test", 20)
+ >>> _justify_string_by_chunk("This is a test", 20)
'This is a test'
"""
def justify_string(
string: str, *, width: int = 80, alignment: str = "c", padding: str = " "
) -> str:
- """Justify a string.
+ """Justify a string to width with left, right, center of justified
+ alignment.
+
+ Args:
+ string: the string to justify
+ width: the width to justify the string to
+ alignment: a single character indicating the desired alignment:
+ * 'c' = centered within the width
+ * 'j' = justified at width
+ * 'l' = left alignment
+ * 'r' = right alignment
+ padding: the padding character to use while justifying
>>> justify_string('This is another test', width=40, alignment='c')
' This is another test '
' This is another test'
>>> justify_string('This is another test', width=40, alignment='j')
'This is another test'
-
"""
alignment = alignment[0]
padding = padding[0]
elif alignment == "r":
string = padding + string
elif alignment == "j":
- return justify_string_by_chunk(string, width=width, padding=padding)
+ return _justify_string_by_chunk(string, width=width, padding=padding)
elif alignment == "c":
if len(string) % 2 == 0:
string += padding
def justify_text(text: str, *, width: int = 80, alignment: str = "c", indent_by: int = 0) -> str:
- """
- Justifies text optionally with initial indentation.
+ """Justifies text with left, right, centered or justified alignment
+ and optionally with initial indentation.
+
+ Args:
+ text: the text to be justified
+ width: the width at which to justify text
+ alignment: a single character indicating the desired alignment:
+ * 'c' = centered within the width
+ * 'j' = justified at width
+ * 'l' = left alignment
+ * 'r' = right alignment
+ indent_by: if non-zero, adds n prefix spaces to indent the text.
+
+ Returns:
+ The justified text.
>>> justify_text('This is a test of the emergency broadcast system. This is only a test.',
... width=40, alignment='j') #doctest: +NORMALIZE_WHITESPACE
def generate_padded_columns(text: List[str]) -> Generator:
+ """Given a list of strings, break them into columns using :meth:`split`
+ and then compute the maximum width of each column. Finally,
+ distribute the columular chunks into the output padding each to
+ the proper width.
+
+ Args:
+ text: a list of strings to chunk into padded columns
+
+ Returns:
+ padded columns based on text.split()
+
+ >>> for x in generate_padded_columns(
+ ... [ 'reading writing arithmetic',
+ ... 'mathematics psychology physics',
+ ... 'communications sociology anthropology' ]):
+ ... print(x.strip())
+ reading writing arithmetic
+ mathematics psychology physics
+ communications sociology anthropology
+ """
max_width: Dict[int, int] = defaultdict(int)
for line in text:
for pos, word in enumerate(line.split()):
def wrap_string(text: str, n: int) -> str:
+ """
+ Args:
+ text: the string to be wrapped
+ n: the width after which to wrap text
+
+ Returns:
+ The wrapped form of text
+ """
chunks = text.split()
out = ''
width = 0
class Indenter(contextlib.AbstractContextManager):
"""
- with Indenter(pad_count = 8) as i:
- i.print('test')
- with i:
- i.print('-ing')
+ Context manager that indents stuff (even recursively). e.g.::
+
+ with Indenter(pad_count = 8) as i:
+ i.print('test')
with i:
- i.print('1, 2, 3')
+ i.print('-ing')
+ with i:
+ i.print('1, 2, 3')
+
+ Yields::
+ test
+ -ing
+ 1, 2, 3
"""
def __init__(
pad_char: str = ' ',
pad_count: int = 4,
):
+ """Construct an Indenter.
+
+ Args:
+ pad_prefix: an optional prefix to prepend to each line
+ pad_char: the character used to indent
+ pad_count: the number of pad_chars to use to indent
+ """
self.level = -1
if pad_prefix is not None:
self.pad_prefix = pad_prefix
width: Optional[int] = None,
align: Optional[str] = None,
style: Optional[str] = 'solid',
+ color: Optional[str] = None,
):
"""
- Returns a nice header line with a title.
+ Creates a nice header line with a title.
+
+ Args:
+ title: the title
+ width: how wide to make the header
+ align: "left" or "right"
+ style: "ascii", "solid" or "dashed"
+
+ Returns:
+ The header as a string.
>>> header('title', width=60, style='ascii')
'----[ title ]-----------------------------------------------'
-
"""
if not width:
- width = get_console_rows_columns().columns
+ try:
+ width = get_console_rows_columns().columns
+ except Exception:
+ width = 80
if not align:
align = 'left'
if not style:
line_char = '-'
begin = '['
end = ']'
- return line_char * left + begin + ' ' + title + ' ' + end + line_char * right
+ if color:
+ col = color
+ reset_seq = reset()
+ else:
+ col = ''
+ reset_seq = ''
+ return line_char * left + begin + col + ' ' + title + ' ' + reset_seq + end + line_char * right
def box(
title: Optional[str] = None, text: Optional[str] = None, *, width: int = 80, color: str = ''
) -> str:
+ """
+ Make a nice unicode box (optionally with color) around some text.
+
+ Args:
+ title: the title of the box
+ text: the text in the box
+ width: the box's width
+ color: the box's color
+
+ Returns:
+ the box as a string
+
+ >>> print(box('title', 'this is some text', width=20).strip())
+ ╭──────────────────╮
+ │ title │
+ │ │
+ │ this is some │
+ │ text │
+ ╰──────────────────╯
+ """
+ assert width > 4
+ if text is not None:
+ text = justify_text(text, width=width - 4, alignment='l')
+ return preformatted_box(title, text, width=width, color=color)
+
+
+def preformatted_box(
+ title: Optional[str] = None, text: Optional[str] = None, *, width=80, color: str = ''
+) -> str:
+ """Creates a nice box with rounded corners and returns it as a string.
+
+ Args:
+ title: the title of the box
+ text: the text inside the box
+ width: the width of the box
+ color: the box's color
+
+ Returns:
+ the box as a string
+
+ >>> print(preformatted_box('title', 'this\\nis\\nsome\\ntext', width=20).strip())
+ ╭──────────────────╮
+ │ title │
+ │ │
+ │ this │
+ │ is │
+ │ some │
+ │ text │
+ ╰──────────────────╯
+ """
assert width > 4
ret = ''
if color == '':
)
ret += color + '│' + ' ' * w + '│' + rset + '\n'
if text is not None:
- for line in justify_text(text, width=w - 2, alignment='l').split('\n'):
+ for line in text.split('\n'):
tw = len(string_utils.strip_ansi_sequences(line))
- assert tw < w
+ assert tw <= w
ret += color + '│ ' + rset + line + ' ' * (w - tw - 2) + color + ' │' + rset + '\n'
ret += color + '╰' + '─' * w + '╯' + rset + '\n'
return ret
╭────╮
│ OK │
╰────╯
-
"""
- print(box(title, text, width=width, color=color), end='')
+ print(preformatted_box(title, text, width=width, color=color), end='')
if __name__ == '__main__':