Current Path : /usr/local/lib/python2.5/test/ |
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Current File : //usr/local/lib/python2.5/test/test_bsddb.py |
#! /usr/bin/env python """Test script for the bsddb C module by Roger E. Masse Adapted to unittest format and expanded scope by Raymond Hettinger """ import os, sys import copy import bsddb import dbhash # Just so we know it's imported import unittest from test import test_support class TestBSDDB(unittest.TestCase): openflag = 'c' def setUp(self): self.f = self.openmethod[0](self.fname, self.openflag, cachesize=32768) self.d = dict(q='Guido', w='van', e='Rossum', r='invented', t='Python', y='') for k, v in self.d.iteritems(): self.f[k] = v def tearDown(self): self.f.sync() self.f.close() if self.fname is None: return try: os.remove(self.fname) except os.error: pass def test_getitem(self): for k, v in self.d.iteritems(): self.assertEqual(self.f[k], v) def test_len(self): self.assertEqual(len(self.f), len(self.d)) def test_change(self): self.f['r'] = 'discovered' self.assertEqual(self.f['r'], 'discovered') self.assert_('r' in self.f.keys()) self.assert_('discovered' in self.f.values()) def test_close_and_reopen(self): if self.fname is None: # if we're using an in-memory only db, we can't reopen it # so finish here. return self.f.close() self.f = self.openmethod[0](self.fname, 'w') for k, v in self.d.iteritems(): self.assertEqual(self.f[k], v) def assertSetEquals(self, seqn1, seqn2): self.assertEqual(set(seqn1), set(seqn2)) def test_mapping_iteration_methods(self): f = self.f d = self.d self.assertSetEquals(d, f) self.assertSetEquals(d.keys(), f.keys()) self.assertSetEquals(d.values(), f.values()) self.assertSetEquals(d.items(), f.items()) self.assertSetEquals(d.iterkeys(), f.iterkeys()) self.assertSetEquals(d.itervalues(), f.itervalues()) self.assertSetEquals(d.iteritems(), f.iteritems()) def test_iter_while_modifying_values(self): if not hasattr(self.f, '__iter__'): return di = iter(self.d) while 1: try: key = di.next() self.d[key] = 'modified '+key except StopIteration: break # it should behave the same as a dict. modifying values # of existing keys should not break iteration. (adding # or removing keys should) fi = iter(self.f) while 1: try: key = fi.next() self.f[key] = 'modified '+key except StopIteration: break self.test_mapping_iteration_methods() def test_iteritems_while_modifying_values(self): if not hasattr(self.f, 'iteritems'): return di = self.d.iteritems() while 1: try: k, v = di.next() self.d[k] = 'modified '+v except StopIteration: break # it should behave the same as a dict. modifying values # of existing keys should not break iteration. (adding # or removing keys should) fi = self.f.iteritems() while 1: try: k, v = fi.next() self.f[k] = 'modified '+v except StopIteration: break self.test_mapping_iteration_methods() def test_first_next_looping(self): items = [self.f.first()] for i in xrange(1, len(self.f)): items.append(self.f.next()) self.assertSetEquals(items, self.d.items()) def test_previous_last_looping(self): items = [self.f.last()] for i in xrange(1, len(self.f)): items.append(self.f.previous()) self.assertSetEquals(items, self.d.items()) def test_first_while_deleting(self): # Test for bug 1725856 self.assert_(len(self.d) >= 2, "test requires >=2 items") for _ in self.d: key = self.f.first()[0] del self.f[key] self.assertEqual([], self.f.items(), "expected empty db after test") def test_last_while_deleting(self): # Test for bug 1725856's evil twin self.assert_(len(self.d) >= 2, "test requires >=2 items") for _ in self.d: key = self.f.last()[0] del self.f[key] self.assertEqual([], self.f.items(), "expected empty db after test") def test_set_location(self): self.assertEqual(self.f.set_location('e'), ('e', self.d['e'])) def test_contains(self): for k in self.d: self.assert_(k in self.f) self.assert_('not here' not in self.f) def test_has_key(self): for k in self.d: self.assert_(self.f.has_key(k)) self.assert_(not self.f.has_key('not here')) def test_clear(self): self.f.clear() self.assertEqual(len(self.f), 0) def test__no_deadlock_first(self, debug=0): # do this so that testers can see what function we're in in # verbose mode when we deadlock. sys.stdout.flush() # in pybsddb's _DBWithCursor this causes an internal DBCursor # object is created. Other test_ methods in this class could # inadvertently cause the deadlock but an explicit test is needed. if debug: print "A" k,v = self.f.first() if debug: print "B", k self.f[k] = "deadlock. do not pass go. do not collect $200." if debug: print "C" # if the bsddb implementation leaves the DBCursor open during # the database write and locking+threading support is enabled # the cursor's read lock will deadlock the write lock request.. # test the iterator interface (if present) if hasattr(self.f, 'iteritems'): if debug: print "D" i = self.f.iteritems() k,v = i.next() if debug: print "E" self.f[k] = "please don't deadlock" if debug: print "F" while 1: try: k,v = i.next() except StopIteration: break if debug: print "F2" i = iter(self.f) if debug: print "G" while i: try: if debug: print "H" k = i.next() if debug: print "I" self.f[k] = "deadlocks-r-us" if debug: print "J" except StopIteration: i = None if debug: print "K" # test the legacy cursor interface mixed with writes self.assert_(self.f.first()[0] in self.d) k = self.f.next()[0] self.assert_(k in self.d) self.f[k] = "be gone with ye deadlocks" self.assert_(self.f[k], "be gone with ye deadlocks") def test_for_cursor_memleak(self): if not hasattr(self.f, 'iteritems'): return # do the bsddb._DBWithCursor _iter_mixin internals leak cursors? nc1 = len(self.f._cursor_refs) # create iterator i = self.f.iteritems() nc2 = len(self.f._cursor_refs) # use the iterator (should run to the first yeild, creating the cursor) k, v = i.next() nc3 = len(self.f._cursor_refs) # destroy the iterator; this should cause the weakref callback # to remove the cursor object from self.f._cursor_refs del i nc4 = len(self.f._cursor_refs) self.assertEqual(nc1, nc2) self.assertEqual(nc1, nc4) self.assert_(nc3 == nc1+1) def test_popitem(self): k, v = self.f.popitem() self.assert_(k in self.d) self.assert_(v in self.d.values()) self.assert_(k not in self.f) self.assertEqual(len(self.d)-1, len(self.f)) def test_pop(self): k = 'w' v = self.f.pop(k) self.assertEqual(v, self.d[k]) self.assert_(k not in self.f) self.assert_(v not in self.f.values()) self.assertEqual(len(self.d)-1, len(self.f)) def test_get(self): self.assertEqual(self.f.get('NotHere'), None) self.assertEqual(self.f.get('NotHere', 'Default'), 'Default') self.assertEqual(self.f.get('q', 'Default'), self.d['q']) def test_setdefault(self): self.assertEqual(self.f.setdefault('new', 'dog'), 'dog') self.assertEqual(self.f.setdefault('r', 'cat'), self.d['r']) def test_update(self): new = dict(y='life', u='of', i='brian') self.f.update(new) self.d.update(new) for k, v in self.d.iteritems(): self.assertEqual(self.f[k], v) def test_keyordering(self): if self.openmethod[0] is not bsddb.btopen: return keys = self.d.keys() keys.sort() self.assertEqual(self.f.first()[0], keys[0]) self.assertEqual(self.f.next()[0], keys[1]) self.assertEqual(self.f.last()[0], keys[-1]) self.assertEqual(self.f.previous()[0], keys[-2]) self.assertEqual(list(self.f), keys) class TestBTree(TestBSDDB): fname = test_support.TESTFN openmethod = [bsddb.btopen] class TestBTree_InMemory(TestBSDDB): fname = None openmethod = [bsddb.btopen] class TestBTree_InMemory_Truncate(TestBSDDB): fname = None openflag = 'n' openmethod = [bsddb.btopen] class TestHashTable(TestBSDDB): fname = test_support.TESTFN openmethod = [bsddb.hashopen] class TestHashTable_InMemory(TestBSDDB): fname = None openmethod = [bsddb.hashopen] ## # (bsddb.rnopen,'Record Numbers'), 'put' for RECNO for bsddb 1.85 ## # appears broken... at least on ## # Solaris Intel - rmasse 1/97 def test_main(verbose=None): test_support.run_unittest( TestBTree, TestHashTable, TestBTree_InMemory, TestHashTable_InMemory, TestBTree_InMemory_Truncate, ) if __name__ == "__main__": test_main(verbose=True)