Mercurial > hg
view tests/test-util.py @ 40176:41263df08109
wireprotov2: change how revisions are specified to changesetdata
Right now, we have a handful of arguments for specifying the revisions
whose data should be returned. Defining how all these arguments
interact when various combinations are present is difficult.
This commit establishes a new, generic mechanism for specifying
revisions. Instead of a hodgepodge of arguments defining things, we
have a list of dicts that specify revision selectors. The final set
of revisions is a union of all these selectors.
We implement support for specifying revisions based on:
* An explicit list of changeset revisions
* An explicit list of changeset revisions plus ancestry depth
* A DAG range between changeset roots and heads
If you squint hard enough, this problem has already been solved by
revsets. But I'm reluctant to expose revsets to the wire protocol
because that would require servers to implement a revset parser.
Plus there are security and performance implications: the set
of revision selectors needs to be narrowly and specifically tailored
for what is appropriate to be executing on a server. Perhaps there
would be a way for us to express the "parse tree" of a revset
query, for example. I'm not sure. We can explore this space another
time. For now, the new mechanism should bring sufficient flexibility
while remaining relatively simple.
The selector "types" are prefixed with "changeset" because I plan
to add manifest and file-flavored selectors as well. This will enable
us to e.g. select file revisions based on a range of changeset
revisions.
Differential Revision: https://phab.mercurial-scm.org/D4979
| author | Gregory Szorc <gregory.szorc@gmail.com> |
|---|---|
| date | Mon, 08 Oct 2018 18:17:12 -0700 |
| parents | 331ab85e910b |
| children | 2372284d9457 |
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# unit tests for mercuril.util utilities from __future__ import absolute_import import contextlib import itertools import unittest from mercurial import pycompat, util, utils @contextlib.contextmanager def mocktimer(incr=0.1, *additional_targets): """Replaces util.timer and additional_targets with a mock The timer starts at 0. On each call the time incremented by the value of incr. If incr is an iterable, then the time is incremented by the next value from that iterable, looping in a cycle when reaching the end. additional_targets must be a sequence of (object, attribute_name) tuples; the mock is set with setattr(object, attribute_name, mock). """ time = [0] try: incr = itertools.cycle(incr) except TypeError: incr = itertools.repeat(incr) def timer(): time[0] += next(incr) return time[0] # record original values orig = util.timer additional_origs = [(o, a, getattr(o, a)) for o, a in additional_targets] # mock out targets util.timer = timer for obj, attr in additional_targets: setattr(obj, attr, timer) try: yield finally: # restore originals util.timer = orig for args in additional_origs: setattr(*args) # attr.s default factory for util.timedstats.start binds the timer we # need to mock out. _start_default = (util.timedcmstats.start.default, 'factory') @contextlib.contextmanager def capturestderr(): """Replace utils.procutil.stderr with a pycompat.bytesio instance The instance is made available as the return value of __enter__. This contextmanager is reentrant. """ orig = utils.procutil.stderr utils.procutil.stderr = pycompat.bytesio() try: yield utils.procutil.stderr finally: utils.procutil.stderr = orig class timedtests(unittest.TestCase): def testtimedcmstatsstr(self): stats = util.timedcmstats() self.assertEqual(str(stats), '<unknown>') self.assertEqual(bytes(stats), b'<unknown>') stats.elapsed = 12.34 self.assertEqual(str(stats), pycompat.sysstr(util.timecount(12.34))) self.assertEqual(bytes(stats), util.timecount(12.34)) def testtimedcmcleanexit(self): # timestamps 1, 4, elapsed time of 4 - 1 = 3 with mocktimer([1, 3], _start_default): with util.timedcm('pass') as stats: # actual context doesn't matter pass self.assertEqual(stats.start, 1) self.assertEqual(stats.elapsed, 3) self.assertEqual(stats.level, 1) def testtimedcmnested(self): # timestamps 1, 3, 6, 10, elapsed times of 6 - 3 = 3 and 10 - 1 = 9 with mocktimer([1, 2, 3, 4], _start_default): with util.timedcm('outer') as outer_stats: with util.timedcm('inner') as inner_stats: # actual context doesn't matter pass self.assertEqual(outer_stats.start, 1) self.assertEqual(outer_stats.elapsed, 9) self.assertEqual(outer_stats.level, 1) self.assertEqual(inner_stats.start, 3) self.assertEqual(inner_stats.elapsed, 3) self.assertEqual(inner_stats.level, 2) def testtimedcmexception(self): # timestamps 1, 4, elapsed time of 4 - 1 = 3 with mocktimer([1, 3], _start_default): try: with util.timedcm('exceptional') as stats: raise ValueError() except ValueError: pass self.assertEqual(stats.start, 1) self.assertEqual(stats.elapsed, 3) self.assertEqual(stats.level, 1) def testtimeddecorator(self): @util.timed def testfunc(callcount=1): callcount -= 1 if callcount: testfunc(callcount) # timestamps 1, 2, 3, 4, elapsed time of 3 - 2 = 1 and 4 - 1 = 3 with mocktimer(1, _start_default): with capturestderr() as out: testfunc(2) self.assertEqual(out.getvalue(), ( b' testfunc: 1.000 s\n' b' testfunc: 3.000 s\n' )) if __name__ == '__main__': import silenttestrunner silenttestrunner.main(__name__)