# DExTer : Debugging Experience Tester
# ~~~~~~ ~ ~~ ~ ~~
#
# Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
# See https://llvm.org/LICENSE.txt for license information.
# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
"""Provides formatted/colored console output on both Windows and Linux.
Do not use this module directly, but instead use via the appropriate platform-
specific module.
"""
import abc
import re
import sys
import threading
import unittest
from io import StringIO
from dex.utils.Exceptions import Error
class _NullLock(object):
def __enter__(self):
return None
def __exit__(self, *params):
pass
_lock = threading.Lock()
_null_lock = _NullLock()
class PreserveAutoColors(object):
def __init__(self, pretty_output):
self.pretty_output = pretty_output
self.orig_values = {}
self.properties = ["auto_reds", "auto_yellows", "auto_greens", "auto_blues"]
def __enter__(self):
for p in self.properties:
self.orig_values[p] = getattr(self.pretty_output, p)[:]
return self
def __exit__(self, *args):
for p in self.properties:
setattr(self.pretty_output, p, self.orig_values[p])
class Stream(object):
def __init__(self, py_, os_=None):
self.py = py_
self.os = os_
self.orig_color = None
self.color_enabled = self.py.isatty()
class PrettyOutputBase(object, metaclass=abc.ABCMeta):
stdout = Stream(sys.stdout)
stderr = Stream(sys.stderr)
def __init__(self):
self.auto_reds = []
self.auto_yellows = []
self.auto_greens = []
self.auto_blues = []
self._stack = []
def __enter__(self):
return self
def __exit__(self, *args):
pass
def _set_valid_stream(self, stream):
if stream is None:
return self.__class__.stdout
return stream
def _write(self, text, stream):
text = str(text)
# Users can embed color control tags in their output
# (e.g. <r>hello</> <y>world</> would write the word 'hello' in red and
# 'world' in yellow).
# This function parses these tags using a very simple recursive
# descent.
colors = {
"r": self.red,
"y": self.yellow,
"g": self.green,
"b": self.blue,
"d": self.default,
"a": self.auto,
}
# Find all tags (whether open or close)
tags = [t for t in re.finditer("<([{}/])>".format("".join(colors)), text)]
if not tags:
# No tags. Just write the text to the current stream and return.
# 'unmangling' any tags that have been mangled so that they won't
# render as colors (for example in error output from this
# function).
stream = self._set_valid_stream(stream)
stream.py.write(text.replace(r"\>", ">"))
return
open_tags = [i for i in tags if i.group(1) != "/"]
close_tags = [i for i in tags if i.group(1) == "/"]
if len(open_tags) != len(close_tags) or any(
o.start() >= c.start() for (o, c) in zip(open_tags, close_tags)
):
raise Error(
'open/close tag mismatch in "{}"'.format(text.rstrip()).replace(
">", r"\>"
)
)
open_tag = open_tags.pop(0)
# We know that the tags balance correctly, so figure out where the
# corresponding close tag is to the current open tag.
tag_nesting = 1
close_tag = None
for tag in tags[1:]:
if tag.group(1) == "/":
tag_nesting -= 1
else:
tag_nesting += 1
if tag_nesting == 0:
close_tag = tag
break
else:
assert False, text
# Use the method on the top of the stack for text prior to the open
# tag.
before = text[: open_tag.start()]
if before:
self._stack[-1](before, lock=_null_lock, stream=stream)
# Use the specified color for the tag itself.
color = open_tag.group(1)
within = text[open_tag.end() : close_tag.start()]
if within:
colors[color](within, lock=_null_lock, stream=stream)
# Use the method on the top of the stack for text after the close tag.
after = text[close_tag.end() :]
if after:
self._stack[-1](after, lock=_null_lock, stream=stream)
def flush(self, stream):
stream = self._set_valid_stream(stream)
stream.py.flush()
def auto(self, text, stream=None, lock=_lock):
text = str(text)
stream = self._set_valid_stream(stream)
lines = text.splitlines(True)
with lock:
for line in lines:
# This is just being cute for the sake of cuteness, but why
# not?
line = line.replace("DExTer", "<r>D<y>E<g>x<b>T</></>e</>r</>")
# Apply the appropriate color method if the expression matches
# any of
# the patterns we have set up.
for fn, regexs in (
(self.red, self.auto_reds),
(self.yellow, self.auto_yellows),
(self.green, self.auto_greens),
(self.blue, self.auto_blues),
):
if any(re.search(regex, line) for regex in regexs):
fn(line, stream=stream, lock=_null_lock)
break
else:
self.default(line, stream=stream, lock=_null_lock)
def _call_color_impl(self, fn, impl, text, *args, **kwargs):
try:
self._stack.append(fn)
return impl(text, *args, **kwargs)
finally:
fn = self._stack.pop()
@abc.abstractmethod
def red_impl(self, text, stream=None, **kwargs):
pass
def red(self, *args, **kwargs):
return self._call_color_impl(self.red, self.red_impl, *args, **kwargs)
@abc.abstractmethod
def yellow_impl(self, text, stream=None, **kwargs):
pass
def yellow(self, *args, **kwargs):
return self._call_color_impl(self.yellow, self.yellow_impl, *args, **kwargs)
@abc.abstractmethod
def green_impl(self, text, stream=None, **kwargs):
pass
def green(self, *args, **kwargs):
return self._call_color_impl(self.green, self.green_impl, *args, **kwargs)
@abc.abstractmethod
def blue_impl(self, text, stream=None, **kwargs):
pass
def blue(self, *args, **kwargs):
return self._call_color_impl(self.blue, self.blue_impl, *args, **kwargs)
@abc.abstractmethod
def default_impl(self, text, stream=None, **kwargs):
pass
def default(self, *args, **kwargs):
return self._call_color_impl(self.default, self.default_impl, *args, **kwargs)
def colortest(self):
from itertools import combinations, permutations
fns = (
(self.red, "rrr"),
(self.yellow, "yyy"),
(self.green, "ggg"),
(self.blue, "bbb"),
(self.default, "ddd"),
)
for l in range(1, len(fns) + 1):
for comb in combinations(fns, l):
for perm in permutations(comb):
for stream in (None, self.__class__.stderr):
perm[0][0]("stdout " if stream is None else "stderr ", stream)
for fn, string in perm:
fn(string, stream)
self.default("\n", stream)
tests = [
(self.auto, "default1<r>red2</>default3"),
(self.red, "red1<r>red2</>red3"),
(self.blue, "blue1<r>red2</>blue3"),
(self.red, "red1<y>yellow2</>red3"),
(self.auto, "default1<y>yellow2<r>red3</></>"),
(self.auto, "default1<g>green2<r>red3</></>"),
(self.auto, "default1<g>green2<r>red3</>green4</>default5"),
(self.auto, "default1<g>green2</>default3<g>green4</>default5"),
(self.auto, "<r>red1<g>green2</>red3<g>green4</>red5</>"),
(self.auto, "<r>red1<y><g>green2</>yellow3</>green4</>default5"),
(self.auto, "<r><y><g><b><d>default1</></><r></></></>red2</>"),
(self.auto, "<r>red1</>default2<r>red3</><g>green4</>default5"),
(self.blue, "<r>red1</>blue2<r><r>red3</><g><g>green</></></>"),
(self.blue, "<r>r<r>r<y>y<r><r><r><r>r</></></></></></></>b"),
]
for fn, text in tests:
for stream in (None, self.__class__.stderr):
stream_name = "stdout" if stream is None else "stderr"
fn("{} {}\n".format(stream_name, text), stream)
class TestPrettyOutput(unittest.TestCase):
class MockPrettyOutput(PrettyOutputBase):
def red_impl(self, text, stream=None, **kwargs):
self._write("[R]{}[/R]".format(text), stream)
def yellow_impl(self, text, stream=None, **kwargs):
self._write("[Y]{}[/Y]".format(text), stream)
def green_impl(self, text, stream=None, **kwargs):
self._write("[G]{}[/G]".format(text), stream)
def blue_impl(self, text, stream=None, **kwargs):
self._write("[B]{}[/B]".format(text), stream)
def default_impl(self, text, stream=None, **kwargs):
self._write("[D]{}[/D]".format(text), stream)
def test_red(self):
with TestPrettyOutput.MockPrettyOutput() as o:
stream = Stream(StringIO())
o.red("hello", stream)
self.assertEqual(stream.py.getvalue(), "[R]hello[/R]")
def test_yellow(self):
with TestPrettyOutput.MockPrettyOutput() as o:
stream = Stream(StringIO())
o.yellow("hello", stream)
self.assertEqual(stream.py.getvalue(), "[Y]hello[/Y]")
def test_green(self):
with TestPrettyOutput.MockPrettyOutput() as o:
stream = Stream(StringIO())
o.green("hello", stream)
self.assertEqual(stream.py.getvalue(), "[G]hello[/G]")
def test_blue(self):
with TestPrettyOutput.MockPrettyOutput() as o:
stream = Stream(StringIO())
o.blue("hello", stream)
self.assertEqual(stream.py.getvalue(), "[B]hello[/B]")
def test_default(self):
with TestPrettyOutput.MockPrettyOutput() as o:
stream = Stream(StringIO())
o.default("hello", stream)
self.assertEqual(stream.py.getvalue(), "[D]hello[/D]")
def test_auto(self):
with TestPrettyOutput.MockPrettyOutput() as o:
stream = Stream(StringIO())
o.auto_reds.append("foo")
o.auto("bar\n", stream)
o.auto("foo\n", stream)
o.auto("baz\n", stream)
self.assertEqual(
stream.py.getvalue(), "[D]bar\n[/D][R]foo\n[/R][D]baz\n[/D]"
)
stream = Stream(StringIO())
o.auto("bar\nfoo\nbaz\n", stream)
self.assertEqual(
stream.py.getvalue(), "[D]bar\n[/D][R]foo\n[/R][D]baz\n[/D]"
)
stream = Stream(StringIO())
o.auto("barfoobaz\nbardoobaz\n", stream)
self.assertEqual(
stream.py.getvalue(), "[R]barfoobaz\n[/R][D]bardoobaz\n[/D]"
)
o.auto_greens.append("doo")
stream = Stream(StringIO())
o.auto("barfoobaz\nbardoobaz\n", stream)
self.assertEqual(
stream.py.getvalue(), "[R]barfoobaz\n[/R][G]bardoobaz\n[/G]"
)
def test_PreserveAutoColors(self):
with TestPrettyOutput.MockPrettyOutput() as o:
o.auto_reds.append("foo")
with PreserveAutoColors(o):
o.auto_greens.append("bar")
stream = Stream(StringIO())
o.auto("foo\nbar\nbaz\n", stream)
self.assertEqual(
stream.py.getvalue(), "[R]foo\n[/R][G]bar\n[/G][D]baz\n[/D]"
)
stream = Stream(StringIO())
o.auto("foo\nbar\nbaz\n", stream)
self.assertEqual(
stream.py.getvalue(), "[R]foo\n[/R][D]bar\n[/D][D]baz\n[/D]"
)
stream = Stream(StringIO())
o.yellow("<a>foo</>bar<a>baz</>", stream)
self.assertEqual(
stream.py.getvalue(),
"[Y][Y][/Y][R]foo[/R][Y][Y]bar[/Y][D]baz[/D][Y][/Y][/Y][/Y]",
)
def test_tags(self):
with TestPrettyOutput.MockPrettyOutput() as o:
stream = Stream(StringIO())
o.auto("<r>hi</>", stream)
self.assertEqual(stream.py.getvalue(), "[D][D][/D][R]hi[/R][D][/D][/D]")
stream = Stream(StringIO())
o.auto("<r><y>a</>b</>c", stream)
self.assertEqual(
stream.py.getvalue(),
"[D][D][/D][R][R][/R][Y]a[/Y][R]b[/R][/R][D]c[/D][/D]",
)
with self.assertRaisesRegex(Error, "tag mismatch"):
o.auto("<r>hi", stream)
with self.assertRaisesRegex(Error, "tag mismatch"):
o.auto("hi</>", stream)
with self.assertRaisesRegex(Error, "tag mismatch"):
o.auto("<r><y>hi</>", stream)
with self.assertRaisesRegex(Error, "tag mismatch"):
o.auto("<r><y>hi</><r></>", stream)
with self.assertRaisesRegex(Error, "tag mismatch"):
o.auto("</>hi<r>", stream)