#!/usr/bin/env python # # extras_dictcursor - test if DictCursor extension class works # # Copyright (C) 2004-2010 Federico Di Gregorio # # psycopg2 is free software: you can redistribute it and/or modify it # under the terms of the GNU Lesser General Public License as published # by the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # psycopg2 is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or # FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public # License for more details. import psycopg2 import psycopg2.extras from testutils import unittest import tests class ExtrasDictCursorTests(unittest.TestCase): """Test if DictCursor extension class works.""" def setUp(self): self.conn = psycopg2.connect(tests.dsn) curs = self.conn.cursor() curs.execute("CREATE TEMPORARY TABLE ExtrasDictCursorTests (foo text)") curs.execute("INSERT INTO ExtrasDictCursorTests VALUES ('bar')") self.conn.commit() def tearDown(self): self.conn.close() def testDictCursorWithPlainCursorFetchOne(self): self._testWithPlainCursor(lambda curs: curs.fetchone()) def testDictCursorWithPlainCursorFetchMany(self): self._testWithPlainCursor(lambda curs: curs.fetchmany(100)[0]) def testDictCursorWithPlainCursorFetchAll(self): self._testWithPlainCursor(lambda curs: curs.fetchall()[0]) def testDictCursorWithPlainCursorIter(self): def getter(curs): for row in curs: return row self._testWithPlainCursor(getter) def testDictCursorWithPlainCursorRealFetchOne(self): self._testWithPlainCursorReal(lambda curs: curs.fetchone()) def testDictCursorWithPlainCursorRealFetchMany(self): self._testWithPlainCursorReal(lambda curs: curs.fetchmany(100)[0]) def testDictCursorWithPlainCursorRealFetchAll(self): self._testWithPlainCursorReal(lambda curs: curs.fetchall()[0]) def testDictCursorWithPlainCursorRealIter(self): def getter(curs): for row in curs: return row self._testWithPlainCursorReal(getter) def testDictCursorWithNamedCursorFetchOne(self): self._testWithNamedCursor(lambda curs: curs.fetchone()) def testDictCursorWithNamedCursorFetchMany(self): self._testWithNamedCursor(lambda curs: curs.fetchmany(100)[0]) def testDictCursorWithNamedCursorFetchAll(self): self._testWithNamedCursor(lambda curs: curs.fetchall()[0]) def testDictCursorWithNamedCursorIter(self): def getter(curs): for row in curs: return row self._testWithNamedCursor(getter) def _testWithPlainCursor(self, getter): curs = self.conn.cursor(cursor_factory=psycopg2.extras.DictCursor) curs.execute("SELECT * FROM ExtrasDictCursorTests") row = getter(curs) self.failUnless(row['foo'] == 'bar') self.failUnless(row[0] == 'bar') return row def _testWithNamedCursor(self, getter): curs = self.conn.cursor('aname', cursor_factory=psycopg2.extras.DictCursor) curs.execute("SELECT * FROM ExtrasDictCursorTests") row = getter(curs) self.failUnless(row['foo'] == 'bar') self.failUnless(row[0] == 'bar') def _testWithPlainCursorReal(self, getter): curs = self.conn.cursor(cursor_factory=psycopg2.extras.RealDictCursor) curs.execute("SELECT * FROM ExtrasDictCursorTests") row = getter(curs) self.failUnless(row['foo'] == 'bar') def _testWithNamedCursorReal(self, getter): curs = self.conn.cursor('aname', cursor_factory=psycopg2.extras.RealDictCursor) curs.execute("SELECT * FROM ExtrasDictCursorTests") row = getter(curs) self.failUnless(row['foo'] == 'bar') def testUpdateRow(self): row = self._testWithPlainCursor(lambda curs: curs.fetchone()) row['foo'] = 'qux' self.failUnless(row['foo'] == 'qux') self.failUnless(row[0] == 'qux') def if_has_namedtuple(f): def if_has_namedtuple_(self): try: from collections import namedtuple except ImportError: return self.skipTest("collections.namedtuple not available") else: return f(self) if_has_namedtuple_.__name__ = f.__name__ return if_has_namedtuple_ class NamedTupleCursorTest(unittest.TestCase): def setUp(self): from psycopg2.extras import NamedTupleConnection try: from collections import namedtuple except ImportError: self.conn = None return self.conn = psycopg2.connect(tests.dsn, connection_factory=NamedTupleConnection) curs = self.conn.cursor() curs.execute("CREATE TEMPORARY TABLE nttest (i int, s text)") curs.execute("INSERT INTO nttest VALUES (1, 'foo')") curs.execute("INSERT INTO nttest VALUES (2, 'bar')") curs.execute("INSERT INTO nttest VALUES (3, 'baz')") self.conn.commit() def tearDown(self): if self.conn is not None: self.conn.close() @if_has_namedtuple def test_fetchone(self): curs = self.conn.cursor() curs.execute("select * from nttest where i = 1") t = curs.fetchone() self.assertEqual(t[0], 1) self.assertEqual(t.i, 1) self.assertEqual(t[1], 'foo') self.assertEqual(t.s, 'foo') @if_has_namedtuple def test_fetchmany(self): curs = self.conn.cursor() curs.execute("select * from nttest order by 1") res = curs.fetchmany(2) self.assertEqual(2, len(res)) self.assertEqual(res[0].i, 1) self.assertEqual(res[0].s, 'foo') self.assertEqual(res[1].i, 2) self.assertEqual(res[1].s, 'bar') @if_has_namedtuple def test_fetchall(self): curs = self.conn.cursor() curs.execute("select * from nttest order by 1") res = curs.fetchall() self.assertEqual(3, len(res)) self.assertEqual(res[0].i, 1) self.assertEqual(res[0].s, 'foo') self.assertEqual(res[1].i, 2) self.assertEqual(res[1].s, 'bar') self.assertEqual(res[2].i, 3) self.assertEqual(res[2].s, 'baz') @if_has_namedtuple def test_iter(self): curs = self.conn.cursor() curs.execute("select * from nttest order by 1") i = iter(curs) t = i.next() self.assertEqual(t.i, 1) self.assertEqual(t.s, 'foo') t = i.next() self.assertEqual(t.i, 2) self.assertEqual(t.s, 'bar') t = i.next() self.assertEqual(t.i, 3) self.assertEqual(t.s, 'baz') self.assertRaises(StopIteration, i.next) def test_error_message(self): try: from collections import namedtuple except ImportError: # an import error somewhere from psycopg2.extras import NamedTupleConnection try: if self.conn is not None: self.conn.close() self.conn = psycopg2.connect(tests.dsn, connection_factory=NamedTupleConnection) curs = self.conn.cursor() curs.execute("select 1") curs.fetchone() except ImportError: pass else: self.fail("expecting ImportError") else: # skip the test pass @if_has_namedtuple def test_record_updated(self): curs = self.conn.cursor() curs.execute("select 1 as foo;") r = curs.fetchone() self.assertEqual(r.foo, 1) curs.execute("select 2 as bar;") r = curs.fetchone() self.assertEqual(r.bar, 2) self.assertRaises(AttributeError, getattr, r, 'foo') @if_has_namedtuple def test_no_result_no_surprise(self): curs = self.conn.cursor() curs.execute("update nttest set s = s") self.assertRaises(psycopg2.ProgrammingError, curs.fetchone) curs.execute("update nttest set s = s") self.assertRaises(psycopg2.ProgrammingError, curs.fetchall) @if_has_namedtuple def test_minimal_generation(self): # Instrument the class to verify it gets called the minimum number of times. from psycopg2.extras import NamedTupleCursor f_orig = NamedTupleCursor._make_nt calls = [0] def f_patched(self_): calls[0] += 1 return f_orig(self_) NamedTupleCursor._make_nt = f_patched try: curs = self.conn.cursor() curs.execute("select * from nttest order by 1") curs.fetchone() curs.fetchone() curs.fetchone() self.assertEqual(1, calls[0]) curs.execute("select * from nttest order by 1") curs.fetchone() curs.fetchall() self.assertEqual(2, calls[0]) curs.execute("select * from nttest order by 1") curs.fetchone() curs.fetchmany(1) self.assertEqual(3, calls[0]) finally: NamedTupleCursor._make_nt = f_orig def test_suite(): return unittest.TestLoader().loadTestsFromName(__name__) if __name__ == "__main__": unittest.main()