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# General Updates Fix an old solver crash that occurs in the presence of cyclic `requires()` ## New Solver - Improvements to Luau user-defined type function library - Avoid asserting on unexpected metatable types - Properties in user defined type functions should have a consistent iteration order - in this case it is insertion ordering # Runtime - Track VM allocations for telemetry --- Co-authored-by: Aaron Weiss <aaronweiss@roblox.com> Co-authored-by: Andy Friesen <afriesen@roblox.com> Co-authored-by: Hunter Goldstein <hgoldstein@roblox.com> Co-authored-by: James McNellis <jmcnellis@roblox.com> Co-authored-by: Varun Saini <vsaini@roblox.com> Co-authored-by: Vighnesh Vijay <vvijay@roblox.com> Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com> --------- Co-authored-by: Aaron Weiss <aaronweiss@roblox.com> Co-authored-by: Alexander McCord <amccord@roblox.com> Co-authored-by: Andy Friesen <afriesen@roblox.com> Co-authored-by: Aviral Goel <agoel@roblox.com> Co-authored-by: David Cope <dcope@roblox.com> Co-authored-by: Lily Brown <lbrown@roblox.com> Co-authored-by: Vyacheslav Egorov <vegorov@roblox.com> Co-authored-by: Junseo Yoo <jyoo@roblox.com>
459 lines
21 KiB
Python
459 lines
21 KiB
Python
#!/usr/bin/python3
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# This file is part of the Luau programming language and is licensed under MIT License; see LICENSE.txt for details
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import argparse
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import asyncio
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import copy
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import json
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import math
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import os
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import platform
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import re
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import subprocess
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import sys
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import textwrap
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from enum import Enum
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def add_parser(subparsers):
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flag_bisect_command = subparsers.add_parser('flag-bisect',
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help=help(),
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description=help(),
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epilog=epilog(),
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formatter_class=argparse.RawDescriptionHelpFormatter,
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)
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add_argument_parsers(flag_bisect_command)
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flag_bisect_command.set_defaults(func=flag_bisect_main)
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return flag_bisect_command
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def help():
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return 'Search for a set of flags triggering the faulty behavior in unit tests'
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def get_terminal_width():
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try:
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return os.get_terminal_size().columns
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except:
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# Return a reasonable default when a terminal is not available
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return 80
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def wrap_text(text, width):
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leading_whitespace_re = re.compile('( *)')
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def get_paragraphs_and_indent(string):
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lines = string.split('\n')
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result = ''
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line_count = 0
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initial_indent = ''
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subsequent_indent = ''
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for line in lines:
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if len(line.strip()) == 0:
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if line_count > 0:
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yield result, initial_indent, subsequent_indent
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result = ''
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line_count = 0
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else:
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line_count += 1
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if line_count == 1:
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initial_indent = leading_whitespace_re.match(line).group(1)
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subsequent_indent = initial_indent
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elif line_count == 2:
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subsequent_indent = leading_whitespace_re.match(line).group(1)
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result += line.strip() + '\n'
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result = ''
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for paragraph, initial_indent, subsequent_indent in get_paragraphs_and_indent(text):
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result += textwrap.fill(paragraph, width=width, initial_indent=initial_indent, subsequent_indent=subsequent_indent, break_on_hyphens=False) + '\n\n'
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return result
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def wrap_text_for_terminal(text):
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right_margin = 2 # This margin matches what argparse uses when formatting argument documentation
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min_width = 20
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width = max(min_width, get_terminal_width() - right_margin)
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return wrap_text(text, width)
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def epilog():
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return wrap_text_for_terminal('''
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This tool uses the delta debugging algorithm to minimize the set of flags to the ones that are faulty in your unit tests,
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and the usage is trivial. Just provide a path to the unit test and you're done, the tool will do the rest.
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There are many use cases with flag-bisect. Included but not limited to:
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1: If your test is failing when you omit `--fflags=true` but it works when passing `--fflags=true`, then you can
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use this tool to find that set of flag requirements to see which flags are missing that will help to fix it. Ditto
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for the opposite too, this tool is generalized for that case.
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2: If you happen to run into a problem on production, and you're not sure which flags is the problem and you can easily
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create a unit test, you can run flag-bisect on that unit test to rapidly find the set of flags.
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3: If you have a flag that causes a performance regression, there's also the `--timeout=N` where `N` is in seconds.
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4: If you have tests that are demonstrating flakiness behavior, you can also use `--tries=N` where `N` is the number of
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attempts to run the same set of flags before moving on to the new set. This will eventually drill down to the flaky flag(s).
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Generally 8 tries should be more than enough, but it depends on the rarity. The more rare it is, the higher the attempts count
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needs to be. Note that this comes with a performance cost the higher you go, but certainly still faster than manual search.
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This argument will disable parallel mode by default. If this is not desired, explicitly write `--parallel=on`.
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5: By default flag-bisect runs in parallel mode which uses a slightly modified version of delta debugging algorithm to support
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trying multiple sets of flags concurrently. This means that the number of sets the algorithm will try at once is equal to the
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number of concurrent jobs. There is currently no upper bound to that, so heed this warning that your machine may slow down
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significantly. In this mode, we display the number of jobs it is running in parallel. Use `--parallel=off` to disable parallel
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mode.
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Be aware that this introduces some level of *non-determinism*, and it is fundamental due to the interaction with flag dependencies
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and the fact one job may finish faster than another job that got ran in the same cycle. However, it generally shouldn't matter
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if your test is deterministic and has no implicit flag dependencies in the codebase.
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The tool will try to automatically figure out which of `--pass` or `--fail` to use if you omit them or use `--auto` by applying
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heuristics. For example, if the tests works using `--fflags=true` and crashes if omitting `--fflags=true`, then it knows
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to use `--pass` to give you set of flags that will cause that crash. As usual, vice versa is also true. Since this is a
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heuristic, if it gets that guess wrong, you can override with `--pass` or `--fail`.
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You can speed this process up by scoping it to as few tests as possible, for example if you're using doctest then you'd
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pass `--tc=my_test` as an argument after `--`, so `flag-bisect ./path/to/binary -- --tc=my_test`.
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''')
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class InterestnessMode(Enum):
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AUTO = 0,
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FAIL = 1,
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PASS = 2,
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def add_argument_parsers(parser):
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parser.add_argument('binary_path', help='Path to the unit test binary that will be bisected for a set of flags')
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parser.add_argument('--tries', dest='attempts', type=int, default=1, metavar='N',
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help='If the tests are flaky, flag-bisect will try again with the same set by N amount of times before moving on')
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parser.add_argument('--parallel', dest='parallel', choices=['on', 'off'], default='default',
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help='Test multiple sets of flags in parallel, useful when the test takes a while to run.')
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parser.add_argument('--explicit', dest='explicit', action='store_true', default=False, help='Explicitly set flags to false')
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parser.add_argument('--filter', dest='filter', default=None, help='Regular expression to filter for a subset of flags to test')
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parser.add_argument('--verbose', dest='verbose', action='store_true', default=False, help='Show stdout and stderr of the program being run')
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interestness_parser = parser.add_mutually_exclusive_group()
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interestness_parser.add_argument('--auto', dest='mode', action='store_const', const=InterestnessMode.AUTO,
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default=InterestnessMode.AUTO, help='Automatically figure out which one of --pass or --fail should be used')
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interestness_parser.add_argument('--fail', dest='mode', action='store_const', const=InterestnessMode.FAIL,
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help='You want this if passing --fflags=true causes tests to fail')
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interestness_parser.add_argument('--pass', dest='mode', action='store_const', const=InterestnessMode.PASS,
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help='You want this if passing --fflags=true causes tests to pass')
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interestness_parser.add_argument('--timeout', dest='timeout', type=int, default=0, metavar='SECONDS',
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help='Find the flag(s) causing performance regression if time to run exceeds the timeout in seconds')
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class Options:
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def __init__(self, args, other_args, sense):
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self.path = args.binary_path
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self.explicit = args.explicit
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self.sense = sense
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self.timeout = args.timeout
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self.interested_in_timeouts = args.timeout != 0
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self.attempts = args.attempts
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self.parallel = (args.parallel == 'on' or args.parallel == 'default') if args.attempts == 1 else args.parallel == 'on'
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self.filter = re.compile(".*" + args.filter + ".*") if args.filter else None
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self.verbose = args.verbose
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self.other_args = [arg for arg in other_args if arg != '--'] # Useless to have -- here, discard.
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def copy_with_sense(self, sense):
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new_copy = copy.copy(self)
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new_copy.sense = sense
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return new_copy
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class InterestnessResult(Enum):
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FAIL = 0,
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PASS = 1,
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TIMED_OUT = 2,
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class Progress:
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def __init__(self, count, n_of_jobs=None):
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self.count = count
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self.steps = 0
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self.n_of_jobs = n_of_jobs
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self.buffer = None
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def show(self):
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# remaining is actually the height of the current search tree.
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remain = int(math.log2(self.count))
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flag_plural = 'flag' if self.count == 1 else 'flags'
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node_plural = 'node' if remain == 1 else 'nodes'
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jobs_info = f', running {self.n_of_jobs} jobs' if self.n_of_jobs is not None else ''
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return f'flag bisection: testing {self.count} {flag_plural} (step {self.steps}, {remain} {node_plural} remain{jobs_info})'
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def hide(self):
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if self.buffer:
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sys.stdout.write('\b \b' * len(self.buffer))
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def update(self, len, n_of_jobs=None):
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self.hide()
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self.count = len
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self.steps += 1
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self.n_of_jobs = n_of_jobs
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self.buffer = self.show()
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sys.stdout.write(self.buffer)
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sys.stdout.flush()
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def list_fflags(options):
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try:
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out = subprocess.check_output([options.path, '--list-fflags'], encoding='UTF-8')
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flag_names = []
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# It's unlikely that a program we're going to test has no flags.
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# So if the output doesn't start with FFlag, assume it doesn't support --list-fflags and therefore cannot be bisected.
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if not out.startswith('FFlag') and not out.startswith('DFFlag') and not out.startswith('SFFlag'):
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return None
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flag_names = out.split('\n')[:-1]
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subset = [flag for flag in flag_names if options.filter.match(flag) is not None] if options.filter else flag_names
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return subset if subset else None
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except:
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return None
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def mk_flags_argument(options, flags, initial_flags):
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lst = [flag + '=true' for flag in flags]
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# When --explicit is provided, we'd like to find the set of flags from initial_flags that's not in active flags.
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# This is so that we can provide a =false value instead of leaving them out to be the default value.
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if options.explicit:
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for flag in initial_flags:
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if flag not in flags:
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lst.append(flag + '=false')
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return '--fflags=' + ','.join(lst)
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def mk_command_line(options, flags_argument):
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arguments = [options.path, *options.other_args]
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if flags_argument is not None:
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arguments.append(flags_argument)
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return arguments
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async def get_interestness(options, flags_argument):
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try:
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timeout = options.timeout if options.interested_in_timeouts else None
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cmd = mk_command_line(options, flags_argument)
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stdout = subprocess.PIPE if not options.verbose else None
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stderr = subprocess.PIPE if not options.verbose else None
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process = subprocess.run(cmd, stdout=stdout, stderr=stderr, timeout=timeout)
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return InterestnessResult.PASS if process.returncode == 0 else InterestnessResult.FAIL
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except subprocess.TimeoutExpired:
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return InterestnessResult.TIMED_OUT
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async def is_hot(options, flags_argument, pred=any):
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results = await asyncio.gather(*[get_interestness(options, flags_argument) for _ in range(options.attempts)])
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if options.interested_in_timeouts:
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return pred([InterestnessResult.TIMED_OUT == x for x in results])
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else:
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return pred([(InterestnessResult.PASS if options.sense else InterestnessResult.FAIL) == x for x in results])
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def pairwise_disjoints(flags, granularity):
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offset = 0
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per_slice_len = len(flags) // granularity
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while offset < len(flags):
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yield flags[offset:offset + per_slice_len]
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offset += per_slice_len
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def subsets_and_complements(flags, granularity):
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for disjoint_set in pairwise_disjoints(flags, granularity):
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yield disjoint_set, [flag for flag in flags if flag not in disjoint_set]
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# https://www.cs.purdue.edu/homes/xyzhang/fall07/Papers/delta-debugging.pdf
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async def ddmin(options, initial_flags):
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current = initial_flags
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granularity = 2
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progress = Progress(len(current))
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progress.update(len(current))
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while len(current) >= 2:
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changed = False
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for (subset, complement) in subsets_and_complements(current, granularity):
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progress.update(len(current))
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if await is_hot(options, mk_flags_argument(options, complement, initial_flags)):
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current = complement
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granularity = max(granularity - 1, 2)
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changed = True
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break
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elif await is_hot(options, mk_flags_argument(options, subset, initial_flags)):
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current = subset
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granularity = 2
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changed = True
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break
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if not changed:
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if granularity == len(current):
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break
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granularity = min(granularity * 2, len(current))
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progress.hide()
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return current
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async def ddmin_parallel(options, initial_flags):
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current = initial_flags
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granularity = 2
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progress = Progress(len(current))
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progress.update(len(current), granularity)
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while len(current) >= 2:
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changed = False
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subset_jobs = []
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complement_jobs = []
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def advance(task):
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nonlocal current
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nonlocal granularity
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nonlocal changed
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# task.cancel() calls the callback passed to add_done_callback...
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if task.cancelled():
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return
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hot, new_delta, new_granularity = task.result()
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if hot and not changed:
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current = new_delta
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granularity = new_granularity
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changed = True
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for job in subset_jobs:
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job.cancel()
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for job in complement_jobs:
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job.cancel()
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for (subset, complement) in subsets_and_complements(current, granularity):
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async def work(flags, new_granularity):
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hot = await is_hot(options, mk_flags_argument(options, flags, initial_flags))
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return (hot, flags, new_granularity)
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# We want to run subset jobs in parallel first.
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subset_job = asyncio.create_task(work(subset, 2))
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subset_job.add_done_callback(advance)
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subset_jobs.append(subset_job)
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# Then the complements afterwards, but only if we didn't find a new subset.
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complement_job = asyncio.create_task(work(complement, max(granularity - 1, 2)))
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complement_job.add_done_callback(advance)
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complement_jobs.append(complement_job)
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# When we cancel jobs, the asyncio.gather will be waiting pointlessly.
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# In that case, we'd like to return the control to this routine.
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await asyncio.gather(*subset_jobs, return_exceptions=True)
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if not changed:
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await asyncio.gather(*complement_jobs, return_exceptions=True)
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progress.update(len(current), granularity)
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if not changed:
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if granularity == len(current):
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break
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granularity = min(granularity * 2, len(current))
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progress.hide()
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return current
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def search(options, initial_flags):
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if options.parallel:
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return ddmin_parallel(options, initial_flags)
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else:
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return ddmin(options, initial_flags)
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async def do_work(args, other_args):
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sense = None
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# If --timeout isn't used, try to apply a heuristic to figure out which of --pass or --fail we want.
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if args.timeout == 0 and args.mode == InterestnessMode.AUTO:
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inner_options = Options(args, other_args, sense)
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# We aren't interested in timeout for this heuristic. It just makes no sense to assume timeouts.
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# This actually cannot happen by this point, but if we make timeout a non-exclusive switch to --auto, this will go wrong.
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inner_options.timeout = 0
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inner_options.interested_in_timeouts = False
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all_tasks = asyncio.gather(
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is_hot(inner_options.copy_with_sense(True), '--fflags=true', all),
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is_hot(inner_options.copy_with_sense(False), '--fflags=false' if inner_options.explicit else None, all),
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)
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# If it times out, we can print a message saying that this is still working. We intentionally want to continue doing work.
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done, pending = await asyncio.wait([all_tasks], timeout=1.5)
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if all_tasks not in done:
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print('Hang on! I\'m running your program to try and figure out which of --pass or --fail to use!')
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print('Need to find out faster? Cancel the work and explicitly write --pass or --fail')
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is_pass_hot, is_fail_hot = await all_tasks
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# This is a bit counter-intuitive, but the following table tells us which of the sense we want.
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# Because when you omit --fflags=true argument and it fails, then is_fail_hot is True.
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# Consequently, you need to use --pass to find out what that set of flags is. And vice versa.
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#
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# Also, when is_pass_hot is True and is_fail_hot is False, then that program is working as expected.
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# There should be no reason to run flag bisection.
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# However, this can be ambiguous in the opposite of the aforementioned outcome!
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#
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# is_pass_hot | is_fail_hot | is ambiguous?
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#-------------|-------------|---------------
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# True | True | No! Pick --pass.
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# False | False | No! Pick --fail.
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# True | False | No! But this is the exact situation where you shouldn't need to flag-bisect. Raise an error.
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# False | True | Yes! But we'll pragmatically pick --fail here in the hope it gives the correct set of flags.
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if is_pass_hot and not is_fail_hot:
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print('The tests seems to be working fine for me. If you really need to flag-bisect, please try again with an explicit --pass or --fail', file=sys.stderr)
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return 1
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if not is_pass_hot and is_fail_hot:
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print('I couldn\'t quite figure out which of --pass or --fail to use, but I\'ll carry on anyway')
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sense = is_pass_hot
|
|
argument = '--pass' if sense else '--fail'
|
|
print(f'I\'m bisecting flags as if {argument} was used')
|
|
else:
|
|
sense = True if args.mode == InterestnessMode.PASS else False
|
|
|
|
options = Options(args, other_args, sense)
|
|
|
|
initial_flags = list_fflags(options)
|
|
if initial_flags is None:
|
|
print('I cannot bisect flags with ' + options.path, file=sys.stderr)
|
|
print('These are required for me to be able to cooperate:', file=sys.stderr)
|
|
print('\t--list-fflags must print a list of flags separated by newlines, including FFlag prefix', file=sys.stderr)
|
|
print('\t--fflags=... to accept a comma-separated pair of flag names and their value in the form FFlagFoo=true', file=sys.stderr)
|
|
return 1
|
|
|
|
# On Windows, there is an upper bound on the numbers of characters for a command line incantation.
|
|
# If we don't handle this ourselves, the runtime error is going to look nothing like the actual problem.
|
|
# It'd say "file name way too long" or something to that effect. We can teed up a better error message and
|
|
# tell the user how to work around it by using --filter.
|
|
if platform.system() == 'Windows':
|
|
cmd_line = ' '.join(mk_command_line(options, mk_flags_argument(options, initial_flags, [])))
|
|
if len(cmd_line) >= 8191:
|
|
print(f'Never mind! The command line is too long because we have {len(initial_flags)} flags to test', file=sys.stderr)
|
|
print('Consider using `--filter=<regex>` to narrow it down upfront, or use any version of WSL instead', file=sys.stderr)
|
|
return 1
|
|
|
|
hot_flags = await search(options, initial_flags)
|
|
if hot_flags:
|
|
print('I narrowed down to these flags:')
|
|
print(textwrap.indent('\n'.join(hot_flags), prefix='\t'))
|
|
|
|
# If we showed the command line in explicit mode, all flags would be listed here.
|
|
# This would pollute the terminal with 3000 flags. We don't want that. Don't show it.
|
|
# Ditto for when the number flags we bisected are equal.
|
|
if not options.explicit and len(hot_flags) != len(initial_flags):
|
|
print('$ ' + ' '.join(mk_command_line(options, mk_flags_argument(options, hot_flags, initial_flags))))
|
|
|
|
return 0
|
|
|
|
print('I found nothing, sorry', file=sys.stderr)
|
|
return 1
|
|
|
|
def flag_bisect_main(args, other_args):
|
|
return asyncio.run(do_work(args, other_args))
|
|
|
|
def main():
|
|
parser = argparse.ArgumentParser(description=help(), epilog=epilog(), formatter_class=argparse.RawTextHelpFormatter)
|
|
add_argument_parsers(parser)
|
|
args, other_args = parser.parse_known_args()
|
|
return flag_bisect_main(args, other_args)
|
|
|
|
if __name__ == '__main__':
|
|
sys.exit(main())
|