# Author: Paul Kippes import unittest import sqlite3 as sqlite from .test_dbapi import memory_database class DumpTests(unittest.TestCase): def setUp(self): self.cx = sqlite.connect(":memory:") self.cu = self.cx.cursor() def tearDown(self): self.cx.close() def test_table_dump(self): expected_sqls = [ """CREATE TABLE "index"("index" blob);""" , """INSERT INTO "index" VALUES(X'01');""" , """CREATE TABLE "quoted""table"("quoted""field" text);""" , """INSERT INTO "quoted""table" VALUES('quoted''value');""" , "CREATE TABLE t1(id integer primary key, s1 text, " \ "t1_i1 integer not null, i2 integer, unique (s1), " \ "constraint t1_idx1 unique (i2));" , "INSERT INTO \"t1\" VALUES(1,'foo',10,20);" , "INSERT INTO \"t1\" VALUES(2,'foo2',30,30);" , "CREATE TABLE t2(id integer, t2_i1 integer, " \ "t2_i2 integer, primary key (id)," \ "foreign key(t2_i1) references t1(t1_i1));" , "CREATE TRIGGER trigger_1 update of t1_i1 on t1 " \ "begin " \ "update t2 set t2_i1 = new.t1_i1 where t2_i1 = old.t1_i1; " \ "end;" , "CREATE VIEW v1 as select * from t1 left join t2 " \ "using (id);" ] [self.cu.execute(s) for s in expected_sqls] i = self.cx.iterdump() actual_sqls = [s for s in i] expected_sqls = ['BEGIN TRANSACTION;'] + expected_sqls + \ ['COMMIT;'] [self.assertEqual(expected_sqls[i], actual_sqls[i]) for i in range(len(expected_sqls))] def test_dump_autoincrement(self): expected = [ 'CREATE TABLE "t1" (id integer primary key autoincrement);', 'INSERT INTO "t1" VALUES(NULL);', 'CREATE TABLE "t2" (id integer primary key autoincrement);', ] self.cu.executescript("".join(expected)) # the NULL value should now be automatically be set to 1 expected[1] = expected[1].replace("NULL", "1") expected.insert(0, "BEGIN TRANSACTION;") expected.extend([ 'DELETE FROM "sqlite_sequence";', 'INSERT INTO "sqlite_sequence" VALUES(\'t1\',1);', 'COMMIT;', ]) actual = [stmt for stmt in self.cx.iterdump()] self.assertEqual(expected, actual) def test_dump_autoincrement_create_new_db(self): self.cu.execute("BEGIN TRANSACTION") self.cu.execute("CREATE TABLE t1 (id integer primary key autoincrement)") self.cu.execute("CREATE TABLE t2 (id integer primary key autoincrement)") self.cu.executemany("INSERT INTO t1 VALUES(?)", ((None,) for _ in range(9))) self.cu.executemany("INSERT INTO t2 VALUES(?)", ((None,) for _ in range(4))) self.cx.commit() with memory_database() as cx2: query = "".join(self.cx.iterdump()) cx2.executescript(query) cu2 = cx2.cursor() dataset = ( ("t1", 9), ("t2", 4), ) for table, seq in dataset: with self.subTest(table=table, seq=seq): res = cu2.execute(""" SELECT "seq" FROM "sqlite_sequence" WHERE "name" == ? """, (table,)) rows = res.fetchall() self.assertEqual(rows[0][0], seq) def test_unorderable_row(self): # iterdump() should be able to cope with unorderable row types (issue #15545) class UnorderableRow: def __init__(self, cursor, row): self.row = row def __getitem__(self, index): return self.row[index] self.cx.row_factory = UnorderableRow CREATE_ALPHA = """CREATE TABLE "alpha" ("one");""" CREATE_BETA = """CREATE TABLE "beta" ("two");""" expected = [ "BEGIN TRANSACTION;", CREATE_ALPHA, CREATE_BETA, "COMMIT;" ] self.cu.execute(CREATE_BETA) self.cu.execute(CREATE_ALPHA) got = list(self.cx.iterdump()) self.assertEqual(expected, got) if __name__ == "__main__": unittest.main()