def test_resets_caching(self): self.called_foo = False def foo(): self.called_foo = True caching.register(foo) ModelBridge(SuccessAdapter())(**self.options) self.assertEqual(self.called_foo, True)
def test_calls_each_registry_item(self): self.called = False def foo(): self.called = True caching.register(foo) self.assertEqual(self.called, False) caching.reset() self.assertEqual(self.called, True)
# Use configured cache expiry interval if set expires_at = None if self.options.has_key('interval'): expires_at = (datetime.now() + timedelta(seconds=self.options.get('interval'))) # Only store records < configured max_entry_size if set if (not self.options.has_key('max_entry_size') or self.options['max_entry_size'] > len(result)): self.cache_store.write(key, result, expires_at) return result cache_store = LocalCache.cache_store caching.register(cache_store.empty) ## # Add features to Relation needed for caching # if not Relation.singular_query_methods.count('fresh'): Relation.singular_query_methods.append('fresh') def fresh(self, value=True): self = self.clone() self.params['fresh'] = value self._query = None self._records = None return self setattr(Relation, 'fresh', fresh)
expires_at = None if self.options.has_key('interval'): expires_at = (datetime.now() + timedelta(seconds=self.options.get('interval'))) # Only store records < configured max_entry_size if set if (not self.options.has_key('max_entry_size') or self.options['max_entry_size'] > len(result)): self.cache_store.write(key, result, expires_at) return result cache_store = LocalCache.cache_store caching.register(cache_store.empty) ## # Add features to Relation needed for caching # if not Relation.singular_query_methods.count('fresh'): Relation.singular_query_methods.append('fresh') def fresh(self, value=True): self = self.clone() self.params['fresh'] = value self._query = None self._records = None return self setattr(Relation, 'fresh', fresh)