Mercurial > hg
view tests/test-lrucachedict.py @ 45125:f55099982bc5
absorb: make it explicit if empty changeset was created
If the config rewrite.empty-successor=skip is set, a message "became empty and
was dropped" is shown if the changeset became empty. If the config
rewrite.empty-successor=keep is set, absorb may create changesets even if they
became empty. It’s probably a good idea to make that explicit. Therefore the
message is changed to be a combination of both: "became empty and became ...".
Repeating the word "became" is not very elegant. This results from the fact
that "became" was and is overloaded to indicate both the change from non-empty
to empty and the successor relation. In the combinated message, both meanings
are used in one sentence.
author | Manuel Jacob <me@manueljacob.de> |
---|---|
date | Mon, 01 Jun 2020 09:55:31 +0200 |
parents | 2372284d9457 |
children | 6000f5b25c9b |
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from __future__ import absolute_import, print_function import unittest import silenttestrunner from mercurial import util class testlrucachedict(unittest.TestCase): def testsimple(self): d = util.lrucachedict(4) self.assertEqual(d.capacity, 4) d.insert('a', 'va', cost=2) d['b'] = 'vb' d['c'] = 'vc' d.insert('d', 'vd', cost=42) self.assertEqual(d['a'], 'va') self.assertEqual(d['b'], 'vb') self.assertEqual(d['c'], 'vc') self.assertEqual(d['d'], 'vd') self.assertEqual(d.totalcost, 44) # 'a' should be dropped because it was least recently used. d['e'] = 've' self.assertNotIn('a', d) self.assertIsNone(d.get('a')) self.assertEqual(d.totalcost, 42) self.assertEqual(d['b'], 'vb') self.assertEqual(d['c'], 'vc') self.assertEqual(d['d'], 'vd') self.assertEqual(d['e'], 've') # Replacing item with different cost adjusts totalcost. d.insert('e', 've', cost=4) self.assertEqual(d.totalcost, 46) # Touch entries in some order (both get and set). d['e'] d['c'] = 'vc2' d['d'] d['b'] = 'vb2' # 'e' should be dropped now d['f'] = 'vf' self.assertNotIn('e', d) self.assertEqual(d['b'], 'vb2') self.assertEqual(d['c'], 'vc2') self.assertEqual(d['d'], 'vd') self.assertEqual(d['f'], 'vf') d.clear() for key in ('a', 'b', 'c', 'd', 'e', 'f'): self.assertNotIn(key, d) def testunfull(self): d = util.lrucachedict(4) d['a'] = 1 d['b'] = 2 d['a'] d['b'] for key in ('a', 'b'): self.assertIn(key, d) def testget(self): d = util.lrucachedict(4) d['a'] = 'va' d['b'] = 'vb' d['c'] = 'vc' self.assertIsNone(d.get('missing')) self.assertEqual(list(d), ['c', 'b', 'a']) self.assertEqual(d.get('a'), 'va') self.assertEqual(list(d), ['a', 'c', 'b']) def testpeek(self): d = util.lrucachedict(4) d['a'] = 'va' d['b'] = 'vb' d['c'] = 'vc' with self.assertRaises(KeyError): d.peek('missing') self.assertEqual(list(d), ['c', 'b', 'a']) self.assertIsNone(d.peek('missing', None)) self.assertEqual(list(d), ['c', 'b', 'a']) self.assertEqual(d.peek('a'), 'va') self.assertEqual(list(d), ['c', 'b', 'a']) def testpop(self): d = util.lrucachedict(4) d['a'] = 'va' d['b'] = 'vb' d['c'] = 'vc' with self.assertRaises(KeyError): d.pop('missing') self.assertEqual(list(d), ['c', 'b', 'a']) self.assertIsNone(d.pop('missing', None)) self.assertEqual(list(d), ['c', 'b', 'a']) self.assertEqual(d.pop('b'), 'vb') self.assertEqual(list(d), ['c', 'a']) def testcopypartial(self): d = util.lrucachedict(4) d.insert('a', 'va', cost=4) d.insert('b', 'vb', cost=2) dc = d.copy() self.assertEqual(len(dc), 2) self.assertEqual(dc.totalcost, 6) for key in ('a', 'b'): self.assertIn(key, dc) self.assertEqual(dc[key], 'v%s' % key) self.assertEqual(len(d), 2) for key in ('a', 'b'): self.assertIn(key, d) self.assertEqual(d[key], 'v%s' % key) d['c'] = 'vc' del d['b'] self.assertEqual(d.totalcost, 4) dc = d.copy() self.assertEqual(len(dc), 2) self.assertEqual(dc.totalcost, 4) for key in ('a', 'c'): self.assertIn(key, dc) self.assertEqual(dc[key], 'v%s' % key) def testcopyempty(self): d = util.lrucachedict(4) dc = d.copy() self.assertEqual(len(dc), 0) def testcopyfull(self): d = util.lrucachedict(4) d.insert('a', 'va', cost=42) d['b'] = 'vb' d['c'] = 'vc' d['d'] = 'vd' dc = d.copy() for key in ('a', 'b', 'c', 'd'): self.assertIn(key, dc) self.assertEqual(dc[key], 'v%s' % key) self.assertEqual(d.totalcost, 42) self.assertEqual(dc.totalcost, 42) # 'a' should be dropped because it was least recently used. dc['e'] = 've' self.assertNotIn('a', dc) for key in ('b', 'c', 'd', 'e'): self.assertIn(key, dc) self.assertEqual(dc[key], 'v%s' % key) self.assertEqual(d.totalcost, 42) self.assertEqual(dc.totalcost, 0) # Contents and order of original dict should remain unchanged. dc['b'] = 'vb_new' self.assertEqual(list(iter(d)), ['d', 'c', 'b', 'a']) for key in ('a', 'b', 'c', 'd'): self.assertEqual(d[key], 'v%s' % key) d = util.lrucachedict(4, maxcost=42) d.insert('a', 'va', cost=5) d.insert('b', 'vb', cost=4) d.insert('c', 'vc', cost=3) dc = d.copy() self.assertEqual(dc.maxcost, 42) self.assertEqual(len(dc), 3) # Max cost can be lowered as part of copy. dc = d.copy(maxcost=10) self.assertEqual(dc.maxcost, 10) self.assertEqual(len(dc), 2) self.assertEqual(dc.totalcost, 7) self.assertIn('b', dc) self.assertIn('c', dc) def testcopydecreasecapacity(self): d = util.lrucachedict(5) d.insert('a', 'va', cost=4) d.insert('b', 'vb', cost=2) d['c'] = 'vc' d['d'] = 'vd' dc = d.copy(2) self.assertEqual(dc.totalcost, 0) for key in ('a', 'b'): self.assertNotIn(key, dc) for key in ('c', 'd'): self.assertIn(key, dc) self.assertEqual(dc[key], 'v%s' % key) dc.insert('e', 've', cost=7) self.assertEqual(dc.totalcost, 7) self.assertNotIn('c', dc) for key in ('d', 'e'): self.assertIn(key, dc) self.assertEqual(dc[key], 'v%s' % key) # Original should remain unchanged. self.assertEqual(d.totalcost, 6) for key in ('a', 'b', 'c', 'd'): self.assertIn(key, d) self.assertEqual(d[key], 'v%s' % key) def testcopyincreasecapacity(self): d = util.lrucachedict(5) d['a'] = 'va' d['b'] = 'vb' d['c'] = 'vc' d['d'] = 'vd' dc = d.copy(6) for key in ('a', 'b', 'c', 'd'): self.assertIn(key, dc) self.assertEqual(dc[key], 'v%s' % key) dc['e'] = 've' dc['f'] = 'vf' for key in ('a', 'b', 'c', 'd', 'e', 'f'): self.assertIn(key, dc) self.assertEqual(dc[key], 'v%s' % key) dc['g'] = 'vg' self.assertNotIn('a', dc) for key in ('b', 'c', 'd', 'e', 'f', 'g'): self.assertIn(key, dc) self.assertEqual(dc[key], 'v%s' % key) # Original should remain unchanged. for key in ('a', 'b', 'c', 'd'): self.assertIn(key, d) self.assertEqual(d[key], 'v%s' % key) def testpopoldest(self): d = util.lrucachedict(4) d.insert('a', 'va', cost=10) d.insert('b', 'vb', cost=5) self.assertEqual(len(d), 2) self.assertEqual(d.popoldest(), ('a', 'va')) self.assertEqual(len(d), 1) self.assertEqual(d.totalcost, 5) self.assertEqual(d.popoldest(), ('b', 'vb')) self.assertEqual(len(d), 0) self.assertEqual(d.totalcost, 0) self.assertIsNone(d.popoldest()) d['a'] = 'va' d['b'] = 'vb' d['c'] = 'vc' d['d'] = 'vd' self.assertEqual(d.popoldest(), ('a', 'va')) self.assertEqual(len(d), 3) for key in ('b', 'c', 'd'): self.assertEqual(d[key], 'v%s' % key) d['a'] = 'va' self.assertEqual(d.popoldest(), ('b', 'vb')) def testmaxcost(self): # Item cost is zero by default. d = util.lrucachedict(6, maxcost=10) d['a'] = 'va' d['b'] = 'vb' d['c'] = 'vc' d['d'] = 'vd' self.assertEqual(len(d), 4) self.assertEqual(d.totalcost, 0) d.clear() # Insertion to exact cost threshold works without eviction. d.insert('a', 'va', cost=6) d.insert('b', 'vb', cost=4) self.assertEqual(len(d), 2) self.assertEqual(d['a'], 'va') self.assertEqual(d['b'], 'vb') # Inserting a new element with 0 cost works. d['c'] = 'vc' self.assertEqual(len(d), 3) # Inserting a new element with cost putting us above high # water mark evicts oldest single item. d.insert('d', 'vd', cost=1) self.assertEqual(len(d), 3) self.assertEqual(d.totalcost, 5) self.assertNotIn('a', d) for key in ('b', 'c', 'd'): self.assertEqual(d[key], 'v%s' % key) # Inserting a new element with enough room for just itself # evicts all items before. d.insert('e', 've', cost=10) self.assertEqual(len(d), 1) self.assertEqual(d.totalcost, 10) self.assertIn('e', d) # Inserting a new element with cost greater than threshold # still retains that item. d.insert('f', 'vf', cost=11) self.assertEqual(len(d), 1) self.assertEqual(d.totalcost, 11) self.assertIn('f', d) # Inserting a new element will evict the last item since it is # too large. d['g'] = 'vg' self.assertEqual(len(d), 1) self.assertEqual(d.totalcost, 0) self.assertIn('g', d) d.clear() d.insert('a', 'va', cost=7) d.insert('b', 'vb', cost=3) self.assertEqual(len(d), 2) # Replacing a value with smaller cost won't result in eviction. d.insert('b', 'vb2', cost=2) self.assertEqual(len(d), 2) # Replacing a value with a higher cost will evict when threshold # exceeded. d.insert('b', 'vb3', cost=4) self.assertEqual(len(d), 1) self.assertNotIn('a', d) def testmaxcostcomplex(self): d = util.lrucachedict(100, maxcost=100) d.insert('a', 'va', cost=9) d.insert('b', 'vb', cost=21) d.insert('c', 'vc', cost=7) d.insert('d', 'vc', cost=50) self.assertEqual(d.totalcost, 87) # Inserting new element should free multiple elements so we hit # low water mark. d.insert('e', 'vd', cost=25) self.assertEqual(len(d), 2) self.assertNotIn('a', d) self.assertNotIn('b', d) self.assertNotIn('c', d) self.assertIn('d', d) self.assertIn('e', d) if __name__ == '__main__': silenttestrunner.main(__name__)