Mercurial > hg
view contrib/perf-utils/search-discovery-case @ 48903:0bb28b7736bc
chgserver: remove Python 2 support code
The logic here is more complicated than most Python 2/3 support code.
But the rewritten logic should be identical.
Differential Revision: https://phab.mercurial-scm.org/D12306
author | Gregory Szorc <gregory.szorc@gmail.com> |
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date | Mon, 21 Feb 2022 10:43:58 -0700 |
parents | 6000f5b25c9b |
children | a2bd6b23881d |
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#!/usr/bin/env python3 # Search for interesting discovery instance # # search-discovery-case REPO [REPO]… # # This use a subsetmaker extension (next to this script) to generate a steam of # random discovery instance. When interesting case are discovered, information # about them are print on the stdout. import json import os import queue import random import signal import subprocess import sys import threading this_script = os.path.abspath(sys.argv[0]) this_dir = os.path.dirname(this_script) hg_dir = os.path.join(this_dir, '..', '..') HG_REPO = os.path.normpath(hg_dir) HG_BIN = os.path.join(HG_REPO, 'hg') JOB = int(os.environ.get('NUMBER_OF_PROCESSORS', 8)) SLICING = ('scratch', 'randomantichain', 'rev') def nb_revs(repo_path): cmd = [ HG_BIN, '--repository', repo_path, 'log', '--template', '{rev}', '--rev', 'tip', ] s = subprocess.Popen(cmd, stdout=subprocess.PIPE) out, err = s.communicate() return int(out) repos = [] for repo in sys.argv[1:]: size = nb_revs(repo) repos.append((repo, size)) def pick_one(repo): pick = random.choice(SLICING) seed = random.randint(0, 100000) if pick == 'scratch': start = int(repo[1] * 0.3) end = int(repo[1] * 0.7) nb = random.randint(start, end) return ('scratch', nb, seed) elif pick == 'randomantichain': return ('randomantichain', seed) elif pick == 'rev': start = int(repo[1] * 0.3) end = int(repo[1]) rev = random.randint(start, end) return ('rev', rev) else: assert False done = threading.Event() cases = queue.Queue(maxsize=10 * JOB) results = queue.Queue() def worker(): while not done.is_set(): c = cases.get() if c is None: return try: res = process(c) results.put((c, res)) except Exception as exc: print('processing-failed: %s %s' % (c, exc), file=sys.stderr) c = (c[0], c[2], c[1]) try: res = process(c) results.put((c, res)) except Exception as exc: print('processing-failed: %s %s' % (c, exc), file=sys.stderr) SUBSET_PATH = os.path.join(HG_REPO, 'contrib', 'perf-utils', 'subsetmaker.py') CMD_BASE = ( HG_BIN, 'debugdiscovery', '--template', 'json', '--config', 'extensions.subset=%s' % SUBSET_PATH, ) # '--local-as-revs "$left" --local-as-revs "$right"' # > /data/discovery-references/results/disco-mozilla-unified-$1-$2.txt # ) def to_revsets(case): t = case[0] if t == 'scratch': return 'not scratch(all(), %d, "%d")' % (case[1], case[2]) elif t == 'randomantichain': return '::randomantichain(all(), "%d")' % case[1] elif t == 'rev': return '::%d' % case[1] else: assert False def process(case): (repo, left, right) = case cmd = list(CMD_BASE) cmd.append('-R') cmd.append(repo[0]) cmd.append('--local-as-revs') cmd.append(to_revsets(left)) cmd.append('--remote-as-revs') cmd.append(to_revsets(right)) s = subprocess.Popen(cmd, stdout=subprocess.PIPE) out, err = s.communicate() return json.loads(out)[0] def interesting_boundary(res): """check if a case is interesting or not For now we are mostly interrested in case were we do multiple roundstrip and where the boundary is somewhere in the middle of the undecided set. Ideally, we would make this configurable, but this is not a focus for now return None or (round-trip, undecided-common, undecided-missing) """ roundtrips = res["total-roundtrips"] if roundtrips <= 1: return None undecided_common = res["nb-ini_und-common"] undecided_missing = res["nb-ini_und-missing"] if undecided_common == 0: return None if undecided_missing == 0: return None return (roundtrips, undecided_common, undecided_missing) def end(*args, **kwargs): done.set() def format_case(case): return '-'.join(str(s) for s in case) signal.signal(signal.SIGINT, end) for i in range(JOB): threading.Thread(target=worker).start() nb_cases = 0 while not done.is_set(): repo = random.choice(repos) left = pick_one(repo) right = pick_one(repo) cases.put((repo, left, right)) while not results.empty(): # results has a single reader so this is fine c, res = results.get_nowait() boundary = interesting_boundary(res) if boundary is not None: print(c[0][0], format_case(c[1]), format_case(c[2]), *boundary) sys.stdout.flush() nb_cases += 1 if not nb_cases % 100: print('[%d cases generated]' % nb_cases, file=sys.stderr) for i in range(JOB): try: cases.put_nowait(None) except queue.Full: pass print('[%d cases generated]' % nb_cases, file=sys.stderr) print('[ouput generation is over]' % nb_cases, file=sys.stderr)