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Merge pull request #892 from minrk/show...
Merge pull request #892 from minrk/show Allow users to configure whether the inline backend closes figures immediately or not. By default, the inline backend closes all rendered figures, which means that calls like gcf() return no output, but it enables users to create new plots each time without having to call figure() manually. This enables users to configure the inline backend to *not* close on render, behaving more like interactive backends (but requiring manual figure() calls to create new figures).

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astyle.py
400 lines | 10.8 KiB | text/x-python | PythonLexer
"""
``astyle`` provides classes for adding style (foreground and background color;
bold; blink; etc.) to terminal and curses output.
"""
import sys, os
try:
import curses
except ImportError:
curses = None
COLOR_BLACK = 0
COLOR_RED = 1
COLOR_GREEN = 2
COLOR_YELLOW = 3
COLOR_BLUE = 4
COLOR_MAGENTA = 5
COLOR_CYAN = 6
COLOR_WHITE = 7
A_BLINK = 1<<0 # Blinking text
A_BOLD = 1<<1 # Extra bright or bold text
A_DIM = 1<<2 # Half bright text
A_REVERSE = 1<<3 # Reverse-video text
A_STANDOUT = 1<<4 # The best highlighting mode available
A_UNDERLINE = 1<<5 # Underlined text
class Style(object):
"""
Store foreground color, background color and attribute (bold, underlined
etc.).
"""
__slots__ = ("fg", "bg", "attrs")
COLORNAMES = {
"black": COLOR_BLACK,
"red": COLOR_RED,
"green": COLOR_GREEN,
"yellow": COLOR_YELLOW,
"blue": COLOR_BLUE,
"magenta": COLOR_MAGENTA,
"cyan": COLOR_CYAN,
"white": COLOR_WHITE,
}
ATTRNAMES = {
"blink": A_BLINK,
"bold": A_BOLD,
"dim": A_DIM,
"reverse": A_REVERSE,
"standout": A_STANDOUT,
"underline": A_UNDERLINE,
}
def __init__(self, fg, bg, attrs=0):
"""
Create a ``Style`` object with ``fg`` as the foreground color,
``bg`` as the background color and ``attrs`` as the attributes.
Examples:
>>> Style(COLOR_RED, COLOR_BLACK)
<Style fg=red bg=black attrs=0>
>>> Style(COLOR_YELLOW, COLOR_BLUE, A_BOLD|A_UNDERLINE)
<Style fg=yellow bg=blue attrs=bold|underline>
"""
self.fg = fg
self.bg = bg
self.attrs = attrs
def __call__(self, *args):
text = Text()
for arg in args:
if isinstance(arg, Text):
text.extend(arg)
else:
text.append((self, arg))
return text
def __eq__(self, other):
return self.fg == other.fg and self.bg == other.bg and self.attrs == other.attrs
def __neq__(self, other):
return self.fg != other.fg or self.bg != other.bg or self.attrs != other.attrs
def __repr__(self):
color2name = ("black", "red", "green", "yellow", "blue", "magenta", "cyan", "white")
attrs2name = ("blink", "bold", "dim", "reverse", "standout", "underline")
return "<%s fg=%s bg=%s attrs=%s>" % (
self.__class__.__name__, color2name[self.fg], color2name[self.bg],
"|".join([attrs2name[b] for b in xrange(6) if self.attrs&(1<<b)]) or 0)
def fromstr(cls, value):
"""
Create a ``Style`` object from a string. The format looks like this:
``"red:black:bold|blink"``.
"""
# defaults
fg = COLOR_WHITE
bg = COLOR_BLACK
attrs = 0
parts = value.split(":")
if len(parts) > 0:
fg = cls.COLORNAMES[parts[0].lower()]
if len(parts) > 1:
bg = cls.COLORNAMES[parts[1].lower()]
if len(parts) > 2:
for strattr in parts[2].split("|"):
attrs |= cls.ATTRNAMES[strattr.lower()]
return cls(fg, bg, attrs)
fromstr = classmethod(fromstr)
def fromenv(cls, name, default):
"""
Create a ``Style`` from an environment variable named ``name``
(using ``default`` if the environment variable doesn't exist).
"""
return cls.fromstr(os.environ.get(name, default))
fromenv = classmethod(fromenv)
def switchstyle(s1, s2):
"""
Return the ANSI escape sequence needed to switch from style ``s1`` to
style ``s2``.
"""
attrmask = (A_BLINK|A_BOLD|A_UNDERLINE|A_REVERSE)
a1 = s1.attrs & attrmask
a2 = s2.attrs & attrmask
args = []
if s1 != s2:
# do we have to get rid of the bold/underline/blink bit?
# (can only be done by a reset)
# use reset when our target color is the default color
# (this is shorter than 37;40)
if (a1 & ~a2 or s2==style_default):
args.append("0")
s1 = style_default
a1 = 0
# now we know that old and new color have the same boldness,
# or the new color is bold and the old isn't,
# i.e. we only might have to switch bold on, not off
if not (a1 & A_BOLD) and (a2 & A_BOLD):
args.append("1")
# Fix underline
if not (a1 & A_UNDERLINE) and (a2 & A_UNDERLINE):
args.append("4")
# Fix blink
if not (a1 & A_BLINK) and (a2 & A_BLINK):
args.append("5")
# Fix reverse
if not (a1 & A_REVERSE) and (a2 & A_REVERSE):
args.append("7")
# Fix foreground color
if s1.fg != s2.fg:
args.append("3%d" % s2.fg)
# Finally fix the background color
if s1.bg != s2.bg:
args.append("4%d" % s2.bg)
if args:
return "\033[%sm" % ";".join(args)
return ""
class Text(list):
"""
A colored string. A ``Text`` object is a sequence, the sequence
items will be ``(style, string)`` tuples.
"""
def __init__(self, *args):
list.__init__(self)
self.append(*args)
def __repr__(self):
return "%s.%s(%s)" % (
self.__class__.__module__, self.__class__.__name__,
list.__repr__(self)[1:-1])
def append(self, *args):
for arg in args:
if isinstance(arg, Text):
self.extend(arg)
elif isinstance(arg, tuple): # must be (style, string)
list.append(self, arg)
elif isinstance(arg, unicode):
list.append(self, (style_default, arg))
else:
list.append(self, (style_default, str(arg)))
def insert(self, index, *args):
self[index:index] = Text(*args)
def __add__(self, other):
new = Text()
new.append(self)
new.append(other)
return new
def __iadd__(self, other):
self.append(other)
return self
def format(self, styled=True):
"""
This generator yields the strings that will make up the final
colorized string.
"""
if styled:
oldstyle = style_default
for (style, string) in self:
if not isinstance(style, (int, long)):
switch = switchstyle(oldstyle, style)
if switch:
yield switch
if string:
yield string
oldstyle = style
switch = switchstyle(oldstyle, style_default)
if switch:
yield switch
else:
for (style, string) in self:
if not isinstance(style, (int, long)):
yield string
def string(self, styled=True):
"""
Return the resulting string (with escape sequences, if ``styled``
is true).
"""
return "".join(self.format(styled))
def __str__(self):
"""
Return ``self`` as a string (without ANSI escape sequences).
"""
return self.string(False)
def write(self, stream, styled=True):
"""
Write ``self`` to the output stream ``stream`` (with escape sequences,
if ``styled`` is true).
"""
for part in self.format(styled):
stream.write(part)
try:
import ipipe
except ImportError:
pass
else:
def xrepr_astyle_text(self, mode="default"):
yield (-1, True)
for info in self:
yield info
ipipe.xrepr.when_type(Text)(xrepr_astyle_text)
def streamstyle(stream, styled=None):
"""
If ``styled`` is ``None``, return whether ``stream`` refers to a terminal.
If this can't be determined (either because ``stream`` doesn't refer to a
real OS file, or because you're on Windows) return ``False``. If ``styled``
is not ``None`` ``styled`` will be returned unchanged.
"""
if styled is None:
try:
styled = os.isatty(stream.fileno())
except (KeyboardInterrupt, SystemExit):
raise
except Exception:
styled = False
return styled
def write(stream, styled, *texts):
"""
Write ``texts`` to ``stream``.
"""
text = Text(*texts)
text.write(stream, streamstyle(stream, styled))
def writeln(stream, styled, *texts):
"""
Write ``texts`` to ``stream`` and finish with a line feed.
"""
write(stream, styled, *texts)
stream.write("\n")
class Stream(object):
"""
Stream wrapper that adds color output.
"""
def __init__(self, stream, styled=None):
self.stream = stream
self.styled = streamstyle(stream, styled)
def write(self, *texts):
write(self.stream, self.styled, *texts)
def writeln(self, *texts):
writeln(self.stream, self.styled, *texts)
def __getattr__(self, name):
return getattr(self.stream, name)
class stdout(object):
"""
Stream wrapper for ``sys.stdout`` that adds color output.
"""
def write(self, *texts):
write(sys.stdout, None, *texts)
def writeln(self, *texts):
writeln(sys.stdout, None, *texts)
def __getattr__(self, name):
return getattr(sys.stdout, name)
stdout = stdout()
class stderr(object):
"""
Stream wrapper for ``sys.stderr`` that adds color output.
"""
def write(self, *texts):
write(sys.stderr, None, *texts)
def writeln(self, *texts):
writeln(sys.stderr, None, *texts)
def __getattr__(self, name):
return getattr(sys.stdout, name)
stderr = stderr()
if curses is not None:
# This is probably just range(8)
COLOR2CURSES = [
COLOR_BLACK,
COLOR_RED,
COLOR_GREEN,
COLOR_YELLOW,
COLOR_BLUE,
COLOR_MAGENTA,
COLOR_CYAN,
COLOR_WHITE,
]
A2CURSES = {
A_BLINK: curses.A_BLINK,
A_BOLD: curses.A_BOLD,
A_DIM: curses.A_DIM,
A_REVERSE: curses.A_REVERSE,
A_STANDOUT: curses.A_STANDOUT,
A_UNDERLINE: curses.A_UNDERLINE,
}
# default style
style_default = Style.fromstr("white:black")
# Styles for datatypes
style_type_none = Style.fromstr("magenta:black")
style_type_bool = Style.fromstr("magenta:black")
style_type_number = Style.fromstr("yellow:black")
style_type_datetime = Style.fromstr("magenta:black")
style_type_type = Style.fromstr("cyan:black")
# Style for URLs and file/directory names
style_url = Style.fromstr("green:black")
style_dir = Style.fromstr("cyan:black")
style_file = Style.fromstr("green:black")
# Style for ellipsis (when an output has been shortened
style_ellisis = Style.fromstr("red:black")
# Style for displaying exceptions
style_error = Style.fromstr("red:black")
# Style for displaying non-existing attributes
style_nodata = Style.fromstr("red:black")