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Reduce the number of test on Appveyor....
Reduce the number of test on Appveyor. Appveyor is way slower than Travis, in part because we test on more architecture. In particular 32 and 64 bits. And accumulate delay sometime leading to 30 min between travis success and AppVeyor response. 32 Bits OSes are starting to be rare (or not our target, like tablets). Less that 1/5 market share is some survey, and account for more than 2/3 of our testing time. So slash 3 out of 4 testing on 32 bits. Test only python 3.6 32 bits. (I know that's paradoxal are mostly old system are 32 bits... but do we expect people with old system and old python to use new IPython ?) For example: Windows Arch Share Windows 10 64 bit 36.97% Windows 7 64 bit 32.99% Windows 8.1 64 bit 12.93% Windows 8 64 bit 1.64% Windows Vista 64 bit 0.13% Windows 7 32 bit 6.97% Windows XP 32 bit 2.00% Windows 10 32 bit 1.31% Windows 8.1 32 bit 0.34% Windows Vista 32 bit 0.24% Windows 8 32 bit 0.15% Total about 83ish % of 64 bits. Source: http://www.digitaltrends.com/computing/steam-users-windows-10-market-share/ and http://store.steampowered.com/hwsurvey?platform=pc

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PyColorize.py
318 lines | 10.2 KiB | text/x-python | PythonLexer
# -*- coding: utf-8 -*-
"""
Class and program to colorize python source code for ANSI terminals.
Based on an HTML code highlighter by Jurgen Hermann found at:
http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/52298
Modifications by Fernando Perez (fperez@colorado.edu).
Information on the original HTML highlighter follows:
MoinMoin - Python Source Parser
Title: Colorize Python source using the built-in tokenizer
Submitter: Jurgen Hermann
Last Updated:2001/04/06
Version no:1.2
Description:
This code is part of MoinMoin (http://moin.sourceforge.net/) and converts
Python source code to HTML markup, rendering comments, keywords,
operators, numeric and string literals in different colors.
It shows how to use the built-in keyword, token and tokenize modules to
scan Python source code and re-emit it with no changes to its original
formatting (which is the hard part).
"""
__all__ = ['ANSICodeColors','Parser']
_scheme_default = 'Linux'
# Imports
import keyword
import os
import sys
import token
import tokenize
generate_tokens = tokenize.generate_tokens
from IPython.utils.coloransi import TermColors, InputTermColors ,ColorScheme, ColorSchemeTable
from .colorable import Colorable
from io import StringIO
#############################################################################
### Python Source Parser (does Highlighting)
#############################################################################
_KEYWORD = token.NT_OFFSET + 1
_TEXT = token.NT_OFFSET + 2
#****************************************************************************
# Builtin color schemes
Colors = TermColors # just a shorthand
# Build a few color schemes
NoColor = ColorScheme(
'NoColor',{
'header' : Colors.NoColor,
token.NUMBER : Colors.NoColor,
token.OP : Colors.NoColor,
token.STRING : Colors.NoColor,
tokenize.COMMENT : Colors.NoColor,
token.NAME : Colors.NoColor,
token.ERRORTOKEN : Colors.NoColor,
_KEYWORD : Colors.NoColor,
_TEXT : Colors.NoColor,
'in_prompt' : InputTermColors.NoColor, # Input prompt
'in_number' : InputTermColors.NoColor, # Input prompt number
'in_prompt2' : InputTermColors.NoColor, # Continuation prompt
'in_normal' : InputTermColors.NoColor, # color off (usu. Colors.Normal)
'out_prompt' : Colors.NoColor, # Output prompt
'out_number' : Colors.NoColor, # Output prompt number
'normal' : Colors.NoColor # color off (usu. Colors.Normal)
} )
LinuxColors = ColorScheme(
'Linux',{
'header' : Colors.LightRed,
token.NUMBER : Colors.LightCyan,
token.OP : Colors.Yellow,
token.STRING : Colors.LightBlue,
tokenize.COMMENT : Colors.LightRed,
token.NAME : Colors.Normal,
token.ERRORTOKEN : Colors.Red,
_KEYWORD : Colors.LightGreen,
_TEXT : Colors.Yellow,
'in_prompt' : InputTermColors.Green,
'in_number' : InputTermColors.LightGreen,
'in_prompt2' : InputTermColors.Green,
'in_normal' : InputTermColors.Normal, # color off (usu. Colors.Normal)
'out_prompt' : Colors.Red,
'out_number' : Colors.LightRed,
'normal' : Colors.Normal # color off (usu. Colors.Normal)
} )
NeutralColors = ColorScheme(
'Neutral',{
'header' : Colors.Red,
token.NUMBER : Colors.Cyan,
token.OP : Colors.Blue,
token.STRING : Colors.Blue,
tokenize.COMMENT : Colors.Red,
token.NAME : Colors.Normal,
token.ERRORTOKEN : Colors.Red,
_KEYWORD : Colors.Green,
_TEXT : Colors.Blue,
'in_prompt' : InputTermColors.Blue,
'in_number' : InputTermColors.LightBlue,
'in_prompt2' : InputTermColors.Blue,
'in_normal' : InputTermColors.Normal, # color off (usu. Colors.Normal)
'out_prompt' : Colors.Red,
'out_number' : Colors.LightRed,
'normal' : Colors.Normal # color off (usu. Colors.Normal)
} )
# Hack: the 'neutral' colours are not very visible on a dark background on
# Windows. Since Windows command prompts have a dark background by default, and
# relatively few users are likely to alter that, we will use the 'Linux' colours,
# designed for a dark background, as the default on Windows. Changing it here
# avoids affecting the prompt colours rendered by prompt_toolkit, where the
# neutral defaults do work OK.
if os.name == 'nt':
NeutralColors = LinuxColors.copy(name='Neutral')
LightBGColors = ColorScheme(
'LightBG',{
'header' : Colors.Red,
token.NUMBER : Colors.Cyan,
token.OP : Colors.Blue,
token.STRING : Colors.Blue,
tokenize.COMMENT : Colors.Red,
token.NAME : Colors.Normal,
token.ERRORTOKEN : Colors.Red,
_KEYWORD : Colors.Green,
_TEXT : Colors.Blue,
'in_prompt' : InputTermColors.Blue,
'in_number' : InputTermColors.LightBlue,
'in_prompt2' : InputTermColors.Blue,
'in_normal' : InputTermColors.Normal, # color off (usu. Colors.Normal)
'out_prompt' : Colors.Red,
'out_number' : Colors.LightRed,
'normal' : Colors.Normal # color off (usu. Colors.Normal)
} )
# Build table of color schemes (needed by the parser)
ANSICodeColors = ColorSchemeTable([NoColor,LinuxColors,LightBGColors, NeutralColors],
_scheme_default)
Undefined = object()
class Parser(Colorable):
""" Format colored Python source.
"""
def __init__(self, color_table=None, out = sys.stdout, parent=None, style=None):
""" Create a parser with a specified color table and output channel.
Call format() to process code.
"""
super(Parser, self).__init__(parent=parent)
self.color_table = color_table and color_table or ANSICodeColors
self.out = out
if not style:
self.style = self.default_style
else:
self.style = style
def format(self, raw, out=None, scheme=Undefined):
import warnings
if scheme is not Undefined:
warnings.warn('The `scheme` argument of IPython.utils.PyColorize:Parser.format is deprecated since IPython 6.0.'
'It will have no effect. Set the parser `style` directly.',
stacklevel=2)
return self.format2(raw, out)[0]
def format2(self, raw, out = None):
""" Parse and send the colored source.
If out and scheme are not specified, the defaults (given to
constructor) are used.
out should be a file-type object. Optionally, out can be given as the
string 'str' and the parser will automatically return the output in a
string."""
string_output = 0
if out == 'str' or self.out == 'str' or \
isinstance(self.out,StringIO):
# XXX - I don't really like this state handling logic, but at this
# point I don't want to make major changes, so adding the
# isinstance() check is the simplest I can do to ensure correct
# behavior.
out_old = self.out
self.out = StringIO()
string_output = 1
elif out is not None:
self.out = out
# Fast return of the unmodified input for NoColor scheme
if self.style == 'NoColor':
error = False
self.out.write(raw)
if string_output:
return raw,error
else:
return None,error
# local shorthands
colors = self.color_table[self.style].colors
self.colors = colors # put in object so __call__ sees it
# Remove trailing whitespace and normalize tabs
self.raw = raw.expandtabs().rstrip()
# store line offsets in self.lines
self.lines = [0, 0]
pos = 0
raw_find = self.raw.find
lines_append = self.lines.append
while 1:
pos = raw_find('\n', pos) + 1
if not pos: break
lines_append(pos)
lines_append(len(self.raw))
# parse the source and write it
self.pos = 0
text = StringIO(self.raw)
error = False
try:
for atoken in generate_tokens(text.readline):
self(*atoken)
except tokenize.TokenError as ex:
msg = ex.args[0]
line = ex.args[1][0]
self.out.write("%s\n\n*** ERROR: %s%s%s\n" %
(colors[token.ERRORTOKEN],
msg, self.raw[self.lines[line]:],
colors.normal)
)
error = True
self.out.write(colors.normal+'\n')
if string_output:
output = self.out.getvalue()
self.out = out_old
return (output, error)
return (None, error)
def __call__(self, toktype, toktext, start_pos, end_pos, line):
""" Token handler, with syntax highlighting."""
(srow,scol) = start_pos
(erow,ecol) = end_pos
colors = self.colors
owrite = self.out.write
# line separator, so this works across platforms
linesep = os.linesep
# calculate new positions
oldpos = self.pos
newpos = self.lines[srow] + scol
self.pos = newpos + len(toktext)
# send the original whitespace, if needed
if newpos > oldpos:
owrite(self.raw[oldpos:newpos])
# skip indenting tokens
if toktype in [token.INDENT, token.DEDENT]:
self.pos = newpos
return
# map token type to a color group
if token.LPAR <= toktype <= token.OP:
toktype = token.OP
elif toktype == token.NAME and keyword.iskeyword(toktext):
toktype = _KEYWORD
color = colors.get(toktype, colors[_TEXT])
#print '<%s>' % toktext, # dbg
# Triple quoted strings must be handled carefully so that backtracking
# in pagers works correctly. We need color terminators on _each_ line.
if linesep in toktext:
toktext = toktext.replace(linesep, '%s%s%s' %
(colors.normal,linesep,color))
# send text
owrite('%s%s%s' % (color,toktext,colors.normal))