import os import random from collections import defaultdict from itertools import chain from unittest import TestCase
import mozunit from manifestparser.filters import chunk_by_dir, chunk_by_runtime, chunk_by_slice
here = os.path.dirname(os.path.abspath(__file__))
class ChunkBySlice(TestCase): """Test chunking related filters"""
def generate_tests(self, num, disabled=None):
disabled = disabled or []
tests = [] for i in range(num):
test = {"name": "test%i" % i} if i in disabled:
test["disabled"] = ""
tests.append(test) return tests
for total in range(1, num_tests + 1):
res = []
res_disabled = [] for chunk in range(1, total + 1):
f = chunk_by_slice(chunk, total)
res.append(list(f(tests, {}))) if disabled:
f.disabled = True
res_disabled.append(list(f(tests, {})))
lengths = [len([t for t in c if"disabled"notin t]) for c in res] # the chunk with the most tests should have at most one more test # than the chunk with the least tests
self.assertLessEqual(max(lengths) - min(lengths), 1)
# chaining all chunks back together should equal the original list # of tests
self.assertEqual(list(chain.from_iterable(res)), list(tests))
if disabled:
lengths = [len(c) for c in res_disabled]
self.assertLessEqual(max(lengths) - min(lengths), 1)
self.assertEqual(list(chain.from_iterable(res_disabled)), list(tests))
num_tests = 67
disabled = list(i for i in range(num_tests) if i % 4 == 0)
self.run_all_combos(num_tests=num_tests, disabled=disabled)
def test_two_times_more_chunks_than_tests(self): # test case for bug 1182817
tests = self.generate_tests(5)
total_chunks = 10 for i in range(1, total_chunks + 1): # ensure IndexError is not raised
chunk_by_slice(i, total_chunks)(tests, {})
class ChunkByDir(TestCase): """Test chunking related filters"""
def generate_tests(self, dirs): """
:param dirs: dict of the form,
{ <dir>: <num tests> } """
i = 0 for d, num in dirs.items(): for _ in range(num):
i += 1
name = "test%i" % i
test = {"name": name, "relpath": os.path.join(d, name)} yield test
deepest = max(len(t["relpath"].split(os.sep)) - 1 for t in tests) for depth in range(1, deepest + 1):
def num_groups(tests):
unique = set() for rp in [t["relpath"] for t in tests]:
p = rp.split(os.sep)
p = p[: min(depth, len(p) - 1)]
unique.add(os.sep.join(p)) return len(unique)
for total in range(1, num_groups(tests) + 1):
res = [] for this in range(1, total + 1):
f = chunk_by_dir(this, total, depth)
res.append(list(f(tests, {})))
lengths = list(map(num_groups, res)) # the chunk with the most dirs should have at most one more # dir than the chunk with the least dirs
self.assertLessEqual(max(lengths) - min(lengths), 1)
all_chunks = list(chain.from_iterable(res)) # chunk_by_dir will mess up order, but chained chunks should # contain all of the original tests and be the same length
self.assertEqual(len(all_chunks), len(tests)) for t in tests:
self.assertIn(t, all_chunks)
class ChunkByRuntime(TestCase): """Test chunking related filters"""
def generate_tests(self, dirs): """
:param dirs: dict of the form,
{ <dir>: <num tests> } """
i = 0 for d, num in dirs.items(): for _ in range(num):
i += 1
name = "test%i" % i
manifest = os.path.join(d, "manifest.toml")
test = { "name": name, "relpath": os.path.join(d, name), "manifest": manifest, "manifest_relpath": manifest,
} yield test
def get_runtimes(self, tests):
runtimes = defaultdict(int) for test in tests:
runtimes[test["manifest_relpath"]] += random.randint(0, 100) return runtimes
def chunk_by_round_robin(self, tests, total, runtimes):
tests_by_manifest = [] for manifest, runtime in runtimes.items():
mtests = [t for t in tests if t["manifest_relpath"] == manifest]
tests_by_manifest.append((runtime, mtests))
tests_by_manifest.sort(key=lambda x: x[0], reverse=False)
chunks = [[] for i in range(total)]
d = 1 # direction
i = 0 for runtime, batch in tests_by_manifest:
chunks[i].extend(batch)
# "draft" style (last pick goes first in the next round) if (i == 0 and d == -1) or (i == total - 1 and d == 1):
d = -d else:
i += d
# make sure this test algorithm is valid
all_chunks = list(chain.from_iterable(chunks))
self.assertEqual(len(all_chunks), len(tests)) for t in tests:
self.assertIn(t, all_chunks) return chunks
for total in range(1, len(dirs) + 1):
chunks = [] for this in range(1, total + 1):
f = chunk_by_runtime(this, total, runtimes)
ret = list(f(tests, {}))
chunks.append(ret)
# chunk_by_runtime will mess up order, but chained chunks should # contain all of the original tests and be the same length
all_chunks = list(chain.from_iterable(chunks))
self.assertEqual(len(all_chunks), len(tests)) for t in tests:
self.assertIn(t, all_chunks)
# calculate delta between slowest and fastest chunks def runtime_delta(chunks):
totals = [] for chunk in chunks:
manifests = set([t["manifest_relpath"] for t in chunk])
total = sum(runtimes[m] for m in manifests)
totals.append(total) return max(totals) - min(totals)
delta = runtime_delta(chunks)
# redo the chunking a second time using a round robin style # algorithm
chunks = self.chunk_by_round_robin(tests, total, runtimes) # sanity check the round robin algorithm
all_chunks = list(chain.from_iterable(chunks))
self.assertEqual(len(all_chunks), len(tests)) for t in tests:
self.assertIn(t, all_chunks)
# since chunks will never have exactly equal runtimes, it's hard # to tell if they were chunked optimally. Make sure it at least # beats a naive round robin approach.
self.assertLessEqual(delta, runtime_delta(chunks))
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