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|
from unittest import mock
from sqlglot import UnsupportedError, exp, parse_one
from sqlglot.optimizer.normalize_identifiers import normalize_identifiers
from tests.dialects.test_dialect import Validator
class TestSnowflake(Validator):
maxDiff = None
dialect = "snowflake"
def test_snowflake(self):
self.validate_identity("ALTER TABLE table1 CLUSTER BY (name DESC)")
self.validate_identity(
"INSERT OVERWRITE TABLE t SELECT 1", "INSERT OVERWRITE INTO t SELECT 1"
)
self.validate_identity("SELECT rename, replace")
expr = parse_one("SELECT APPROX_TOP_K(C4, 3, 5) FROM t")
expr.selects[0].assert_is(exp.AggFunc)
self.assertEqual(expr.sql(dialect="snowflake"), "SELECT APPROX_TOP_K(C4, 3, 5) FROM t")
self.assertEqual(
exp.select(exp.Explode(this=exp.column("x")).as_("y", quoted=True)).sql(
"snowflake", pretty=True
),
"""SELECT
IFF(_u.pos = _u_2.pos_2, _u_2."y", NULL) AS "y"
FROM TABLE(FLATTEN(INPUT => ARRAY_GENERATE_RANGE(0, (
GREATEST(ARRAY_SIZE(x)) - 1
) + 1))) AS _u(seq, key, path, index, pos, this)
CROSS JOIN TABLE(FLATTEN(INPUT => x)) AS _u_2(seq, key, path, pos_2, "y", this)
WHERE
_u.pos = _u_2.pos_2
OR (
_u.pos > (
ARRAY_SIZE(x) - 1
) AND _u_2.pos_2 = (
ARRAY_SIZE(x) - 1
)
)""",
)
self.validate_identity("RM @parquet_stage", check_command_warning=True)
self.validate_identity("REMOVE @parquet_stage", check_command_warning=True)
self.validate_identity("SELECT TIMESTAMP_FROM_PARTS(d, t)")
self.validate_identity("SELECT GET_PATH(v, 'attr[0].name') FROM vartab")
self.validate_identity("SELECT TO_ARRAY(CAST(x AS ARRAY))")
self.validate_identity("SELECT TO_ARRAY(CAST(['test'] AS VARIANT))")
self.validate_identity("SELECT ARRAY_UNIQUE_AGG(x)")
self.validate_identity("SELECT OBJECT_CONSTRUCT()")
self.validate_identity("SELECT DAYOFMONTH(CURRENT_TIMESTAMP())")
self.validate_identity("SELECT DAYOFYEAR(CURRENT_TIMESTAMP())")
self.validate_identity("LISTAGG(data['some_field'], ',')")
self.validate_identity("WEEKOFYEAR(tstamp)")
self.validate_identity("SELECT SUM(amount) FROM mytable GROUP BY ALL")
self.validate_identity("WITH x AS (SELECT 1 AS foo) SELECT foo FROM IDENTIFIER('x')")
self.validate_identity("WITH x AS (SELECT 1 AS foo) SELECT IDENTIFIER('foo') FROM x")
self.validate_identity("INITCAP('iqamqinterestedqinqthisqtopic', 'q')")
self.validate_identity("CAST(x AS GEOMETRY)")
self.validate_identity("OBJECT_CONSTRUCT(*)")
self.validate_identity("SELECT TO_DATE('2019-02-28') + INTERVAL '1 day, 1 year'")
self.validate_identity("SELECT CAST('2021-01-01' AS DATE) + INTERVAL '1 DAY'")
self.validate_identity("SELECT HLL(*)")
self.validate_identity("SELECT HLL(a)")
self.validate_identity("SELECT HLL(DISTINCT t.a)")
self.validate_identity("SELECT HLL(a, b, c)")
self.validate_identity("SELECT HLL(DISTINCT a, b, c)")
self.validate_identity("$x") # parameter
self.validate_identity("a$b") # valid snowflake identifier
self.validate_identity("SELECT REGEXP_LIKE(a, b, c)")
self.validate_identity("CREATE TABLE foo (bar FLOAT AUTOINCREMENT START 0 INCREMENT 1)")
self.validate_identity("ALTER TABLE IF EXISTS foo SET TAG a = 'a', b = 'b', c = 'c'")
self.validate_identity("ALTER TABLE foo UNSET TAG a, b, c")
self.validate_identity("ALTER TABLE foo SET COMMENT = 'bar'")
self.validate_identity("ALTER TABLE foo SET CHANGE_TRACKING = FALSE")
self.validate_identity("ALTER TABLE foo UNSET DATA_RETENTION_TIME_IN_DAYS, CHANGE_TRACKING")
self.validate_identity("COMMENT IF EXISTS ON TABLE foo IS 'bar'")
self.validate_identity("SELECT CONVERT_TIMEZONE('UTC', 'America/Los_Angeles', col)")
self.validate_identity("REGEXP_REPLACE('target', 'pattern', '\n')")
self.validate_identity("ALTER TABLE a SWAP WITH b")
self.validate_identity(
'DESCRIBE TABLE "SNOWFLAKE_SAMPLE_DATA"."TPCDS_SF100TCL"."WEB_SITE" type=stage'
)
self.validate_identity(
"SELECT a FROM test PIVOT(SUM(x) FOR y IN ('z', 'q')) AS x TABLESAMPLE (0.1)"
)
self.validate_identity(
"value:values::string",
"CAST(GET_PATH(value, 'values') AS TEXT)",
)
self.validate_identity(
"""SELECT GET_PATH(PARSE_JSON('{"y": [{"z": 1}]}'), 'y[0]:z')""",
"""SELECT GET_PATH(PARSE_JSON('{"y": [{"z": 1}]}'), 'y[0].z')""",
)
self.validate_identity(
"SELECT p FROM t WHERE p:val NOT IN ('2')",
"SELECT p FROM t WHERE NOT GET_PATH(p, 'val') IN ('2')",
)
self.validate_identity(
"""SELECT PARSE_JSON('{"x": "hello"}'):x LIKE 'hello'""",
"""SELECT GET_PATH(PARSE_JSON('{"x": "hello"}'), 'x') LIKE 'hello'""",
)
self.validate_identity(
"""SELECT data:x LIKE 'hello' FROM some_table""",
"""SELECT GET_PATH(data, 'x') LIKE 'hello' FROM some_table""",
)
self.validate_identity(
"SELECT SUM({ fn CONVERT(123, SQL_DOUBLE) })",
"SELECT SUM(CAST(123 AS DOUBLE))",
)
self.validate_identity(
"SELECT SUM({ fn CONVERT(123, SQL_VARCHAR) })",
"SELECT SUM(CAST(123 AS VARCHAR))",
)
self.validate_identity(
"SELECT TIMESTAMPFROMPARTS(d, t)",
"SELECT TIMESTAMP_FROM_PARTS(d, t)",
)
self.validate_identity(
"SELECT user_id, value FROM table_name SAMPLE ($s) SEED (0)",
"SELECT user_id, value FROM table_name TABLESAMPLE ($s) SEED (0)",
)
self.validate_identity(
"SELECT v:attr[0].name FROM vartab",
"SELECT GET_PATH(v, 'attr[0].name') FROM vartab",
)
self.validate_identity(
'SELECT v:"fruit" FROM vartab',
"""SELECT GET_PATH(v, 'fruit') FROM vartab""",
)
self.validate_identity(
"v:attr[0]:name",
"GET_PATH(GET_PATH(v, 'attr[0]'), 'name')",
)
self.validate_identity(
"""SELECT PARSE_JSON('{"food":{"fruit":"banana"}}'):food.fruit::VARCHAR""",
"""SELECT CAST(GET_PATH(PARSE_JSON('{"food":{"fruit":"banana"}}'), 'food.fruit') AS VARCHAR)""",
)
self.validate_identity(
"SELECT * FROM foo at",
"SELECT * FROM foo AS at",
)
self.validate_identity(
"SELECT * FROM foo before",
"SELECT * FROM foo AS before",
)
self.validate_identity(
"SELECT * FROM foo at (col)",
"SELECT * FROM foo AS at(col)",
)
self.validate_identity(
"SELECT * FROM unnest(x) with ordinality",
"SELECT * FROM TABLE(FLATTEN(INPUT => x)) AS _u(seq, key, path, index, value, this)",
)
self.validate_identity(
"CREATE TABLE foo (ID INT COMMENT $$some comment$$)",
"CREATE TABLE foo (ID INT COMMENT 'some comment')",
)
self.validate_identity(
"SELECT state, city, SUM(retail_price * quantity) AS gross_revenue FROM sales GROUP BY ALL"
)
self.validate_identity(
"SELECT * FROM foo window",
"SELECT * FROM foo AS window",
)
self.validate_identity(
r"SELECT RLIKE(a, $$regular expression with \ characters: \d{2}-\d{3}-\d{4}$$, 'i') FROM log_source",
r"SELECT REGEXP_LIKE(a, 'regular expression with \\ characters: \\d{2}-\\d{3}-\\d{4}', 'i') FROM log_source",
)
self.validate_identity(
r"SELECT $$a ' \ \t \x21 z $ $$",
r"SELECT 'a \' \\ \\t \\x21 z $ '",
)
self.validate_identity(
"SELECT {'test': 'best'}::VARIANT",
"SELECT CAST(OBJECT_CONSTRUCT('test', 'best') AS VARIANT)",
)
self.validate_identity(
"SELECT {fn DAYNAME('2022-5-13')}",
"SELECT DAYNAME('2022-5-13')",
)
self.validate_identity(
"SELECT {fn LOG(5)}",
"SELECT LN(5)",
)
self.validate_identity(
"SELECT {fn CEILING(5.3)}",
"SELECT CEIL(5.3)",
)
self.validate_identity(
"SELECT TO_TIMESTAMP(x) FROM t",
"SELECT CAST(x AS TIMESTAMPNTZ) FROM t",
)
self.validate_identity(
"CAST(x AS BYTEINT)",
"CAST(x AS INT)",
)
self.validate_identity(
"CAST(x AS CHAR VARYING)",
"CAST(x AS VARCHAR)",
)
self.validate_identity(
"CAST(x AS CHARACTER VARYING)",
"CAST(x AS VARCHAR)",
)
self.validate_identity(
"CAST(x AS NCHAR VARYING)",
"CAST(x AS VARCHAR)",
)
self.validate_all(
"OBJECT_CONSTRUCT_KEEP_NULL('key_1', 'one', 'key_2', NULL)",
read={
"bigquery": "JSON_OBJECT(['key_1', 'key_2'], ['one', NULL])",
"duckdb": "JSON_OBJECT('key_1', 'one', 'key_2', NULL)",
},
write={
"bigquery": "JSON_OBJECT('key_1', 'one', 'key_2', NULL)",
"duckdb": "JSON_OBJECT('key_1', 'one', 'key_2', NULL)",
"snowflake": "OBJECT_CONSTRUCT_KEEP_NULL('key_1', 'one', 'key_2', NULL)",
},
)
self.validate_all(
"SELECT * FROM example TABLESAMPLE (3) SEED (82)",
read={
"databricks": "SELECT * FROM example TABLESAMPLE (3 PERCENT) REPEATABLE (82)",
"duckdb": "SELECT * FROM example TABLESAMPLE (3 PERCENT) REPEATABLE (82)",
},
write={
"databricks": "SELECT * FROM example TABLESAMPLE (3 PERCENT) REPEATABLE (82)",
"duckdb": "SELECT * FROM example TABLESAMPLE (3 PERCENT) REPEATABLE (82)",
"snowflake": "SELECT * FROM example TABLESAMPLE (3) SEED (82)",
},
)
self.validate_all(
"SELECT TIME_FROM_PARTS(12, 34, 56, 987654321)",
write={
"duckdb": "SELECT MAKE_TIME(12, 34, 56 + (987654321 / 1000000000.0))",
"snowflake": "SELECT TIME_FROM_PARTS(12, 34, 56, 987654321)",
},
)
self.validate_all(
"SELECT TIMESTAMP_FROM_PARTS(2013, 4, 5, 12, 00, 00)",
read={
"duckdb": "SELECT MAKE_TIMESTAMP(2013, 4, 5, 12, 00, 00)",
},
write={
"duckdb": "SELECT MAKE_TIMESTAMP(2013, 4, 5, 12, 00, 00)",
"snowflake": "SELECT TIMESTAMP_FROM_PARTS(2013, 4, 5, 12, 00, 00)",
},
)
self.validate_all(
"""WITH vartab(v) AS (select parse_json('[{"attr": [{"name": "banana"}]}]')) SELECT GET_PATH(v, '[0].attr[0].name') FROM vartab""",
write={
"bigquery": """WITH vartab AS (SELECT PARSE_JSON('[{"attr": [{"name": "banana"}]}]') AS v) SELECT JSON_EXTRACT(v, '$[0].attr[0].name') FROM vartab""",
"duckdb": """WITH vartab(v) AS (SELECT JSON('[{"attr": [{"name": "banana"}]}]')) SELECT v -> '$[0].attr[0].name' FROM vartab""",
"mysql": """WITH vartab(v) AS (SELECT '[{"attr": [{"name": "banana"}]}]') SELECT JSON_EXTRACT(v, '$[0].attr[0].name') FROM vartab""",
"presto": """WITH vartab(v) AS (SELECT JSON_PARSE('[{"attr": [{"name": "banana"}]}]')) SELECT JSON_EXTRACT(v, '$[0].attr[0].name') FROM vartab""",
"snowflake": """WITH vartab(v) AS (SELECT PARSE_JSON('[{"attr": [{"name": "banana"}]}]')) SELECT GET_PATH(v, '[0].attr[0].name') FROM vartab""",
"tsql": """WITH vartab(v) AS (SELECT '[{"attr": [{"name": "banana"}]}]') SELECT ISNULL(JSON_QUERY(v, '$[0].attr[0].name'), JSON_VALUE(v, '$[0].attr[0].name')) FROM vartab""",
},
)
self.validate_all(
"""WITH vartab(v) AS (select parse_json('{"attr": [{"name": "banana"}]}')) SELECT GET_PATH(v, 'attr[0].name') FROM vartab""",
write={
"bigquery": """WITH vartab AS (SELECT PARSE_JSON('{"attr": [{"name": "banana"}]}') AS v) SELECT JSON_EXTRACT(v, '$.attr[0].name') FROM vartab""",
"duckdb": """WITH vartab(v) AS (SELECT JSON('{"attr": [{"name": "banana"}]}')) SELECT v -> '$.attr[0].name' FROM vartab""",
"mysql": """WITH vartab(v) AS (SELECT '{"attr": [{"name": "banana"}]}') SELECT JSON_EXTRACT(v, '$.attr[0].name') FROM vartab""",
"presto": """WITH vartab(v) AS (SELECT JSON_PARSE('{"attr": [{"name": "banana"}]}')) SELECT JSON_EXTRACT(v, '$.attr[0].name') FROM vartab""",
"snowflake": """WITH vartab(v) AS (SELECT PARSE_JSON('{"attr": [{"name": "banana"}]}')) SELECT GET_PATH(v, 'attr[0].name') FROM vartab""",
"tsql": """WITH vartab(v) AS (SELECT '{"attr": [{"name": "banana"}]}') SELECT ISNULL(JSON_QUERY(v, '$.attr[0].name'), JSON_VALUE(v, '$.attr[0].name')) FROM vartab""",
},
)
self.validate_all(
"""SELECT PARSE_JSON('{"fruit":"banana"}'):fruit""",
write={
"bigquery": """SELECT JSON_EXTRACT(PARSE_JSON('{"fruit":"banana"}'), '$.fruit')""",
"duckdb": """SELECT JSON('{"fruit":"banana"}') -> '$.fruit'""",
"mysql": """SELECT JSON_EXTRACT('{"fruit":"banana"}', '$.fruit')""",
"presto": """SELECT JSON_EXTRACT(JSON_PARSE('{"fruit":"banana"}'), '$.fruit')""",
"snowflake": """SELECT GET_PATH(PARSE_JSON('{"fruit":"banana"}'), 'fruit')""",
"tsql": """SELECT ISNULL(JSON_QUERY('{"fruit":"banana"}', '$.fruit'), JSON_VALUE('{"fruit":"banana"}', '$.fruit'))""",
},
)
self.validate_all(
"SELECT TO_ARRAY(['test'])",
write={
"snowflake": "SELECT TO_ARRAY(['test'])",
"spark": "SELECT ARRAY('test')",
},
)
self.validate_all(
"SELECT TO_ARRAY(['test'])",
write={
"snowflake": "SELECT TO_ARRAY(['test'])",
"spark": "SELECT ARRAY('test')",
},
)
self.validate_all(
# We need to qualify the columns in this query because "value" would be ambiguous
'WITH t(x, "value") AS (SELECT [1, 2, 3], 1) SELECT IFF(_u.pos = _u_2.pos_2, _u_2."value", NULL) AS "value" FROM t CROSS JOIN TABLE(FLATTEN(INPUT => ARRAY_GENERATE_RANGE(0, (GREATEST(ARRAY_SIZE(t.x)) - 1) + 1))) AS _u(seq, key, path, index, pos, this) CROSS JOIN TABLE(FLATTEN(INPUT => t.x)) AS _u_2(seq, key, path, pos_2, "value", this) WHERE _u.pos = _u_2.pos_2 OR (_u.pos > (ARRAY_SIZE(t.x) - 1) AND _u_2.pos_2 = (ARRAY_SIZE(t.x) - 1))',
read={
"duckdb": 'WITH t(x, "value") AS (SELECT [1,2,3], 1) SELECT UNNEST(t.x) AS "value" FROM t',
},
)
self.validate_all(
"SELECT { 'Manitoba': 'Winnipeg', 'foo': 'bar' } AS province_capital",
write={
"duckdb": "SELECT {'Manitoba': 'Winnipeg', 'foo': 'bar'} AS province_capital",
"snowflake": "SELECT OBJECT_CONSTRUCT('Manitoba', 'Winnipeg', 'foo', 'bar') AS province_capital",
"spark": "SELECT STRUCT('Winnipeg' AS Manitoba, 'bar' AS foo) AS province_capital",
},
)
self.validate_all(
"SELECT COLLATE('B', 'und:ci')",
write={
"bigquery": "SELECT COLLATE('B', 'und:ci')",
"snowflake": "SELECT COLLATE('B', 'und:ci')",
},
)
self.validate_all(
"SELECT * FROM x START WITH a = b CONNECT BY c = PRIOR d",
read={
"oracle": "SELECT * FROM x START WITH a = b CONNECT BY c = PRIOR d",
},
write={
"oracle": "SELECT * FROM x START WITH a = b CONNECT BY c = PRIOR d",
"snowflake": "SELECT * FROM x START WITH a = b CONNECT BY c = PRIOR d",
},
)
self.validate_all(
"SELECT INSERT(a, 0, 0, 'b')",
read={
"mysql": "SELECT INSERT(a, 0, 0, 'b')",
"snowflake": "SELECT INSERT(a, 0, 0, 'b')",
"tsql": "SELECT STUFF(a, 0, 0, 'b')",
},
write={
"mysql": "SELECT INSERT(a, 0, 0, 'b')",
"snowflake": "SELECT INSERT(a, 0, 0, 'b')",
"tsql": "SELECT STUFF(a, 0, 0, 'b')",
},
)
self.validate_all(
"ARRAY_GENERATE_RANGE(0, 3)",
write={
"bigquery": "GENERATE_ARRAY(0, 3 - 1)",
"postgres": "GENERATE_SERIES(0, 3 - 1)",
"presto": "SEQUENCE(0, 3 - 1)",
"snowflake": "ARRAY_GENERATE_RANGE(0, (3 - 1) + 1)",
},
)
self.validate_all(
"ARRAY_GENERATE_RANGE(0, 3 + 1)",
read={
"bigquery": "GENERATE_ARRAY(0, 3)",
"postgres": "GENERATE_SERIES(0, 3)",
"presto": "SEQUENCE(0, 3)",
},
)
self.validate_all(
"SELECT DATE_PART('year', TIMESTAMP '2020-01-01')",
write={
"hive": "SELECT EXTRACT(year FROM CAST('2020-01-01' AS TIMESTAMP))",
"snowflake": "SELECT DATE_PART('year', CAST('2020-01-01' AS TIMESTAMPNTZ))",
"spark": "SELECT EXTRACT(year FROM CAST('2020-01-01' AS TIMESTAMP))",
},
)
self.validate_all(
"SELECT * FROM (VALUES (0) foo(bar))",
write={"snowflake": "SELECT * FROM (VALUES (0)) AS foo(bar)"},
)
self.validate_all(
"OBJECT_CONSTRUCT(a, b, c, d)",
read={
"": "STRUCT(a as b, c as d)",
},
write={
"duckdb": "{'a': b, 'c': d}",
"snowflake": "OBJECT_CONSTRUCT(a, b, c, d)",
},
)
self.validate_all(
"SELECT i, p, o FROM qt QUALIFY ROW_NUMBER() OVER (PARTITION BY p ORDER BY o) = 1",
write={
"": "SELECT i, p, o FROM qt QUALIFY ROW_NUMBER() OVER (PARTITION BY p ORDER BY o NULLS LAST) = 1",
"databricks": "SELECT i, p, o FROM qt QUALIFY ROW_NUMBER() OVER (PARTITION BY p ORDER BY o NULLS LAST) = 1",
"hive": "SELECT i, p, o FROM (SELECT i, p, o, ROW_NUMBER() OVER (PARTITION BY p ORDER BY o NULLS LAST) AS _w FROM qt) AS _t WHERE _w = 1",
"presto": "SELECT i, p, o FROM (SELECT i, p, o, ROW_NUMBER() OVER (PARTITION BY p ORDER BY o) AS _w FROM qt) AS _t WHERE _w = 1",
"snowflake": "SELECT i, p, o FROM qt QUALIFY ROW_NUMBER() OVER (PARTITION BY p ORDER BY o) = 1",
"spark": "SELECT i, p, o FROM (SELECT i, p, o, ROW_NUMBER() OVER (PARTITION BY p ORDER BY o NULLS LAST) AS _w FROM qt) AS _t WHERE _w = 1",
"sqlite": "SELECT i, p, o FROM (SELECT i, p, o, ROW_NUMBER() OVER (PARTITION BY p ORDER BY o NULLS LAST) AS _w FROM qt) AS _t WHERE _w = 1",
"trino": "SELECT i, p, o FROM (SELECT i, p, o, ROW_NUMBER() OVER (PARTITION BY p ORDER BY o) AS _w FROM qt) AS _t WHERE _w = 1",
},
)
self.validate_all(
"SELECT BOOLOR_AGG(c1), BOOLOR_AGG(c2) FROM test",
write={
"": "SELECT LOGICAL_OR(c1), LOGICAL_OR(c2) FROM test",
"duckdb": "SELECT BOOL_OR(c1), BOOL_OR(c2) FROM test",
"postgres": "SELECT BOOL_OR(c1), BOOL_OR(c2) FROM test",
"snowflake": "SELECT BOOLOR_AGG(c1), BOOLOR_AGG(c2) FROM test",
"spark": "SELECT BOOL_OR(c1), BOOL_OR(c2) FROM test",
"sqlite": "SELECT MAX(c1), MAX(c2) FROM test",
},
)
self.validate_all(
"SELECT BOOLAND_AGG(c1), BOOLAND_AGG(c2) FROM test",
write={
"": "SELECT LOGICAL_AND(c1), LOGICAL_AND(c2) FROM test",
"duckdb": "SELECT BOOL_AND(c1), BOOL_AND(c2) FROM test",
"postgres": "SELECT BOOL_AND(c1), BOOL_AND(c2) FROM test",
"snowflake": "SELECT BOOLAND_AGG(c1), BOOLAND_AGG(c2) FROM test",
"spark": "SELECT BOOL_AND(c1), BOOL_AND(c2) FROM test",
"sqlite": "SELECT MIN(c1), MIN(c2) FROM test",
},
)
self.validate_all(
"TO_CHAR(x, y)",
read={
"": "TO_CHAR(x, y)",
"snowflake": "TO_VARCHAR(x, y)",
},
write={
"": "CAST(x AS TEXT)",
"databricks": "TO_CHAR(x, y)",
"drill": "TO_CHAR(x, y)",
"oracle": "TO_CHAR(x, y)",
"postgres": "TO_CHAR(x, y)",
"snowflake": "TO_CHAR(x, y)",
"teradata": "TO_CHAR(x, y)",
},
)
self.validate_all(
"SQUARE(x)",
write={
"bigquery": "POWER(x, 2)",
"clickhouse": "POWER(x, 2)",
"databricks": "POWER(x, 2)",
"drill": "POW(x, 2)",
"duckdb": "POWER(x, 2)",
"hive": "POWER(x, 2)",
"mysql": "POWER(x, 2)",
"oracle": "POWER(x, 2)",
"postgres": "x ^ 2",
"presto": "POWER(x, 2)",
"redshift": "POWER(x, 2)",
"snowflake": "POWER(x, 2)",
"spark": "POWER(x, 2)",
"sqlite": "POWER(x, 2)",
"starrocks": "POWER(x, 2)",
"teradata": "x ** 2",
"trino": "POWER(x, 2)",
"tsql": "POWER(x, 2)",
},
)
self.validate_all(
"POWER(x, 2)",
read={
"oracle": "SQUARE(x)",
"snowflake": "SQUARE(x)",
"tsql": "SQUARE(x)",
},
)
self.validate_all(
"DIV0(foo, bar)",
write={
"snowflake": "IFF(bar = 0, 0, foo / bar)",
"sqlite": "IIF(bar = 0, 0, CAST(foo AS REAL) / bar)",
"presto": "IF(bar = 0, 0, CAST(foo AS DOUBLE) / bar)",
"spark": "IF(bar = 0, 0, foo / bar)",
"hive": "IF(bar = 0, 0, foo / bar)",
"duckdb": "CASE WHEN bar = 0 THEN 0 ELSE foo / bar END",
},
)
self.validate_all(
"ZEROIFNULL(foo)",
write={
"snowflake": "IFF(foo IS NULL, 0, foo)",
"sqlite": "IIF(foo IS NULL, 0, foo)",
"presto": "IF(foo IS NULL, 0, foo)",
"spark": "IF(foo IS NULL, 0, foo)",
"hive": "IF(foo IS NULL, 0, foo)",
"duckdb": "CASE WHEN foo IS NULL THEN 0 ELSE foo END",
},
)
self.validate_all(
"NULLIFZERO(foo)",
write={
"snowflake": "IFF(foo = 0, NULL, foo)",
"sqlite": "IIF(foo = 0, NULL, foo)",
"presto": "IF(foo = 0, NULL, foo)",
"spark": "IF(foo = 0, NULL, foo)",
"hive": "IF(foo = 0, NULL, foo)",
"duckdb": "CASE WHEN foo = 0 THEN NULL ELSE foo END",
},
)
self.validate_all(
"CREATE OR REPLACE TEMPORARY TABLE x (y NUMBER IDENTITY(0, 1))",
write={
"snowflake": "CREATE OR REPLACE TEMPORARY TABLE x (y DECIMAL AUTOINCREMENT START 0 INCREMENT 1)",
},
)
self.validate_all(
"CREATE TEMPORARY TABLE x (y NUMBER AUTOINCREMENT(0, 1))",
write={
"snowflake": "CREATE TEMPORARY TABLE x (y DECIMAL AUTOINCREMENT START 0 INCREMENT 1)",
},
)
self.validate_all(
"CREATE TABLE x (y NUMBER IDENTITY START 0 INCREMENT 1)",
write={
"snowflake": "CREATE TABLE x (y DECIMAL AUTOINCREMENT START 0 INCREMENT 1)",
},
)
self.validate_all(
"ALTER TABLE foo ADD COLUMN id INT identity(1, 1)",
write={
"snowflake": "ALTER TABLE foo ADD COLUMN id INT AUTOINCREMENT START 1 INCREMENT 1",
},
)
self.validate_all(
"SELECT DAYOFWEEK('2016-01-02T23:39:20.123-07:00'::TIMESTAMP)",
write={
"snowflake": "SELECT DAYOFWEEK(CAST('2016-01-02T23:39:20.123-07:00' AS TIMESTAMPNTZ))",
},
)
self.validate_all(
"SELECT * FROM xxx WHERE col ilike '%Don''t%'",
write={
"snowflake": "SELECT * FROM xxx WHERE col ILIKE '%Don\\'t%'",
},
)
self.validate_all(
"SELECT * EXCLUDE a, b FROM xxx",
write={
"snowflake": "SELECT * EXCLUDE (a), b FROM xxx",
},
)
self.validate_all(
"SELECT * RENAME a AS b, c AS d FROM xxx",
write={
"snowflake": "SELECT * RENAME (a AS b), c AS d FROM xxx",
},
)
self.validate_all(
"SELECT * EXCLUDE (a, b) RENAME (c AS d, E AS F) FROM xxx",
read={
"duckdb": "SELECT * EXCLUDE (a, b) REPLACE (c AS d, E AS F) FROM xxx",
},
write={
"snowflake": "SELECT * EXCLUDE (a, b) RENAME (c AS d, E AS F) FROM xxx",
"duckdb": "SELECT * EXCLUDE (a, b) REPLACE (c AS d, E AS F) FROM xxx",
},
)
self.validate_all(
'''SELECT PARSE_JSON('{"a": {"b c": "foo"}}'):a:"b c"''',
write={
"duckdb": """SELECT JSON('{"a": {"b c": "foo"}}') -> '$.a' -> '$."b c"'""",
"mysql": """SELECT JSON_EXTRACT(JSON_EXTRACT('{"a": {"b c": "foo"}}', '$.a'), '$."b c"')""",
"snowflake": """SELECT GET_PATH(GET_PATH(PARSE_JSON('{"a": {"b c": "foo"}}'), 'a'), '["b c"]')""",
},
)
self.validate_all(
"SELECT a FROM test WHERE a = 1 GROUP BY a HAVING a = 2 QUALIFY z ORDER BY a LIMIT 10",
write={
"bigquery": "SELECT a FROM test WHERE a = 1 GROUP BY a HAVING a = 2 QUALIFY z ORDER BY a NULLS LAST LIMIT 10",
"snowflake": "SELECT a FROM test WHERE a = 1 GROUP BY a HAVING a = 2 QUALIFY z ORDER BY a LIMIT 10",
},
)
self.validate_all(
"SELECT a FROM test AS t QUALIFY ROW_NUMBER() OVER (PARTITION BY a ORDER BY Z) = 1",
write={
"bigquery": "SELECT a FROM test AS t QUALIFY ROW_NUMBER() OVER (PARTITION BY a ORDER BY Z NULLS LAST) = 1",
"snowflake": "SELECT a FROM test AS t QUALIFY ROW_NUMBER() OVER (PARTITION BY a ORDER BY Z) = 1",
},
)
self.validate_all(
"SELECT TO_TIMESTAMP(1659981729)",
write={
"bigquery": "SELECT TIMESTAMP_SECONDS(1659981729)",
"snowflake": "SELECT TO_TIMESTAMP(1659981729)",
"spark": "SELECT CAST(FROM_UNIXTIME(1659981729) AS TIMESTAMP)",
},
)
self.validate_all(
"SELECT TO_TIMESTAMP(1659981729000, 3)",
write={
"bigquery": "SELECT TIMESTAMP_MILLIS(1659981729000)",
"snowflake": "SELECT TO_TIMESTAMP(1659981729000, 3)",
"spark": "SELECT TIMESTAMP_MILLIS(1659981729000)",
},
)
self.validate_all(
"SELECT TO_TIMESTAMP(16599817290000, 4)",
write={
"bigquery": "SELECT TIMESTAMP_SECONDS(CAST(16599817290000 / POWER(10, 4) AS INT64))",
"snowflake": "SELECT TO_TIMESTAMP(16599817290000, 4)",
"spark": "SELECT TIMESTAMP_SECONDS(16599817290000 / POWER(10, 4))",
},
)
self.validate_all(
"SELECT TO_TIMESTAMP('1659981729')",
write={
"snowflake": "SELECT TO_TIMESTAMP('1659981729')",
"spark": "SELECT CAST(FROM_UNIXTIME('1659981729') AS TIMESTAMP)",
},
)
self.validate_all(
"SELECT TO_TIMESTAMP(1659981729000000000, 9)",
write={
"bigquery": "SELECT TIMESTAMP_SECONDS(CAST(1659981729000000000 / POWER(10, 9) AS INT64))",
"duckdb": "SELECT TO_TIMESTAMP(1659981729000000000 / POWER(10, 9))",
"presto": "SELECT FROM_UNIXTIME(CAST(1659981729000000000 AS DOUBLE) / POW(10, 9))",
"snowflake": "SELECT TO_TIMESTAMP(1659981729000000000, 9)",
"spark": "SELECT TIMESTAMP_SECONDS(1659981729000000000 / POWER(10, 9))",
},
)
self.validate_all(
"SELECT TO_TIMESTAMP('2013-04-05 01:02:03')",
write={
"bigquery": "SELECT PARSE_TIMESTAMP('%Y-%m-%d %H:%M:%S', '2013-04-05 01:02:03')",
"snowflake": "SELECT TO_TIMESTAMP('2013-04-05 01:02:03', 'yyyy-mm-DD hh24:mi:ss')",
"spark": "SELECT TO_TIMESTAMP('2013-04-05 01:02:03', 'yyyy-MM-dd HH:mm:ss')",
},
)
self.validate_all(
"SELECT TO_TIMESTAMP('04/05/2013 01:02:03', 'mm/DD/yyyy hh24:mi:ss')",
read={
"bigquery": "SELECT PARSE_TIMESTAMP('%m/%d/%Y %H:%M:%S', '04/05/2013 01:02:03')",
"duckdb": "SELECT STRPTIME('04/05/2013 01:02:03', '%m/%d/%Y %H:%M:%S')",
},
write={
"bigquery": "SELECT PARSE_TIMESTAMP('%m/%d/%Y %H:%M:%S', '04/05/2013 01:02:03')",
"snowflake": "SELECT TO_TIMESTAMP('04/05/2013 01:02:03', 'mm/DD/yyyy hh24:mi:ss')",
"spark": "SELECT TO_TIMESTAMP('04/05/2013 01:02:03', 'MM/dd/yyyy HH:mm:ss')",
},
)
self.validate_all(
"SELECT IFF(TRUE, 'true', 'false')",
write={
"snowflake": "SELECT IFF(TRUE, 'true', 'false')",
"spark": "SELECT IF(TRUE, 'true', 'false')",
},
)
self.validate_all(
"SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname ASC NULLS LAST, lname",
write={
"duckdb": "SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname ASC, lname",
"postgres": "SELECT fname, lname, age FROM person ORDER BY age DESC, fname ASC, lname",
"presto": "SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname ASC, lname",
"hive": "SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname ASC NULLS LAST, lname NULLS LAST",
"spark": "SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname ASC NULLS LAST, lname NULLS LAST",
"snowflake": "SELECT fname, lname, age FROM person ORDER BY age DESC, fname ASC, lname",
},
)
self.validate_all(
"SELECT ARRAY_AGG(DISTINCT a)",
write={
"spark": "SELECT COLLECT_LIST(DISTINCT a)",
"snowflake": "SELECT ARRAY_AGG(DISTINCT a)",
},
)
self.validate_all(
"ARRAY_TO_STRING(x, '')",
write={
"spark": "ARRAY_JOIN(x, '')",
"snowflake": "ARRAY_TO_STRING(x, '')",
},
)
self.validate_all(
"TO_ARRAY(x)",
write={
"spark": "IF(x IS NULL, NULL, ARRAY(x))",
"snowflake": "TO_ARRAY(x)",
},
)
self.validate_all(
"SELECT * FROM a INTERSECT ALL SELECT * FROM b",
write={
"snowflake": UnsupportedError,
},
)
self.validate_all(
"SELECT * FROM a EXCEPT ALL SELECT * FROM b",
write={
"snowflake": UnsupportedError,
},
)
self.validate_all(
"SELECT ARRAY_UNION_AGG(a)",
write={
"snowflake": "SELECT ARRAY_UNION_AGG(a)",
},
)
self.validate_all(
"SELECT $$a$$",
write={
"snowflake": "SELECT 'a'",
},
)
self.validate_all(
"SELECT RLIKE(a, b)",
write={
"hive": "SELECT a RLIKE b",
"snowflake": "SELECT REGEXP_LIKE(a, b)",
"spark": "SELECT a RLIKE b",
},
)
self.validate_all(
"SELECT a FROM test pivot",
write={
"snowflake": "SELECT a FROM test AS pivot",
},
)
self.validate_all(
"SELECT a FROM test unpivot",
write={
"snowflake": "SELECT a FROM test AS unpivot",
},
)
self.validate_all(
"trim(date_column, 'UTC')",
write={
"bigquery": "TRIM(date_column, 'UTC')",
"snowflake": "TRIM(date_column, 'UTC')",
"postgres": "TRIM('UTC' FROM date_column)",
},
)
self.validate_all(
"trim(date_column)",
write={
"snowflake": "TRIM(date_column)",
"bigquery": "TRIM(date_column)",
},
)
self.validate_all(
"DECODE(x, a, b, c, d, e)",
write={
"": "CASE WHEN x = a OR (x IS NULL AND a IS NULL) THEN b WHEN x = c OR (x IS NULL AND c IS NULL) THEN d ELSE e END",
"snowflake": "CASE WHEN x = a OR (x IS NULL AND a IS NULL) THEN b WHEN x = c OR (x IS NULL AND c IS NULL) THEN d ELSE e END",
},
)
def test_null_treatment(self):
self.validate_all(
r"SELECT FIRST_VALUE(TABLE1.COLUMN1) OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1",
write={
"snowflake": r"SELECT FIRST_VALUE(TABLE1.COLUMN1) OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1"
},
)
self.validate_all(
r"SELECT FIRST_VALUE(TABLE1.COLUMN1 RESPECT NULLS) OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1",
write={
"snowflake": r"SELECT FIRST_VALUE(TABLE1.COLUMN1) RESPECT NULLS OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1"
},
)
self.validate_all(
r"SELECT FIRST_VALUE(TABLE1.COLUMN1) RESPECT NULLS OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1",
write={
"snowflake": r"SELECT FIRST_VALUE(TABLE1.COLUMN1) RESPECT NULLS OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1"
},
)
self.validate_all(
r"SELECT FIRST_VALUE(TABLE1.COLUMN1 IGNORE NULLS) OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1",
write={
"snowflake": r"SELECT FIRST_VALUE(TABLE1.COLUMN1) IGNORE NULLS OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1"
},
)
self.validate_all(
r"SELECT FIRST_VALUE(TABLE1.COLUMN1) IGNORE NULLS OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1",
write={
"snowflake": r"SELECT FIRST_VALUE(TABLE1.COLUMN1) IGNORE NULLS OVER (PARTITION BY RANDOM_COLUMN1, RANDOM_COLUMN2 ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) AS MY_ALIAS FROM TABLE1"
},
)
def test_staged_files(self):
# Ensure we don't treat staged file paths as identifiers (i.e. they're not normalized)
staged_file = parse_one("SELECT * FROM @foo", read="snowflake")
self.assertEqual(
normalize_identifiers(staged_file, dialect="snowflake").sql(dialect="snowflake"),
staged_file.sql(dialect="snowflake"),
)
self.validate_identity("SELECT metadata$filename FROM @s1/")
self.validate_identity("SELECT * FROM @~")
self.validate_identity("SELECT * FROM @~/some/path/to/file.csv")
self.validate_identity("SELECT * FROM @mystage")
self.validate_identity("SELECT * FROM '@mystage'")
self.validate_identity("SELECT * FROM @namespace.mystage/path/to/file.json.gz")
self.validate_identity("SELECT * FROM @namespace.%table_name/path/to/file.json.gz")
self.validate_identity("SELECT * FROM '@external/location' (FILE_FORMAT => 'path.to.csv')")
self.validate_identity("PUT file:///dir/tmp.csv @%table", check_command_warning=True)
self.validate_identity(
'COPY INTO NEW_TABLE ("foo", "bar") FROM (SELECT $1, $2, $3, $4 FROM @%old_table)',
check_command_warning=True,
)
self.validate_identity(
"SELECT * FROM @foo/bar (FILE_FORMAT => ds_sandbox.test.my_csv_format, PATTERN => 'test') AS bla"
)
self.validate_identity(
"SELECT t.$1, t.$2 FROM @mystage1 (FILE_FORMAT => 'myformat', PATTERN => '.*data.*[.]csv.gz') AS t"
)
self.validate_identity(
"SELECT parse_json($1):a.b FROM @mystage2/data1.json.gz",
"SELECT GET_PATH(PARSE_JSON($1), 'a.b') FROM @mystage2/data1.json.gz",
)
self.validate_identity(
"SELECT * FROM @mystage t (c1)",
"SELECT * FROM @mystage AS t(c1)",
)
self.validate_identity(
"SELECT * FROM @foo/bar (PATTERN => 'test', FILE_FORMAT => ds_sandbox.test.my_csv_format) AS bla",
"SELECT * FROM @foo/bar (FILE_FORMAT => ds_sandbox.test.my_csv_format, PATTERN => 'test') AS bla",
)
def test_sample(self):
self.validate_identity("SELECT * FROM testtable TABLESAMPLE BERNOULLI (20.3)")
self.validate_identity("SELECT * FROM testtable TABLESAMPLE (100)")
self.validate_identity("SELECT * FROM testtable TABLESAMPLE SYSTEM (3) SEED (82)")
self.validate_identity("SELECT * FROM testtable TABLESAMPLE (10 ROWS)")
self.validate_identity(
"SELECT i, j FROM table1 AS t1 INNER JOIN table2 AS t2 TABLESAMPLE (50) WHERE t2.j = t1.i"
)
self.validate_identity(
"SELECT * FROM (SELECT * FROM t1 JOIN t2 ON t1.a = t2.c) TABLESAMPLE (1)"
)
self.validate_identity(
"SELECT * FROM testtable SAMPLE (10)",
"SELECT * FROM testtable TABLESAMPLE (10)",
)
self.validate_identity(
"SELECT * FROM testtable SAMPLE ROW (0)",
"SELECT * FROM testtable TABLESAMPLE ROW (0)",
)
self.validate_identity(
"SELECT a FROM test SAMPLE BLOCK (0.5) SEED (42)",
"SELECT a FROM test TABLESAMPLE BLOCK (0.5) SEED (42)",
)
self.validate_all(
"""
SELECT i, j
FROM
table1 AS t1 SAMPLE (25) -- 25% of rows in table1
INNER JOIN
table2 AS t2 SAMPLE (50) -- 50% of rows in table2
WHERE t2.j = t1.i""",
write={
"snowflake": "SELECT i, j FROM table1 AS t1 TABLESAMPLE (25) /* 25% of rows in table1 */ INNER JOIN table2 AS t2 TABLESAMPLE (50) /* 50% of rows in table2 */ WHERE t2.j = t1.i",
},
)
self.validate_all(
"SELECT * FROM testtable SAMPLE BLOCK (0.012) REPEATABLE (99992)",
write={
"snowflake": "SELECT * FROM testtable TABLESAMPLE BLOCK (0.012) SEED (99992)",
},
)
self.validate_all(
"SELECT * FROM (SELECT * FROM t1 join t2 on t1.a = t2.c) SAMPLE (1)",
write={
"snowflake": "SELECT * FROM (SELECT * FROM t1 JOIN t2 ON t1.a = t2.c) TABLESAMPLE (1)",
"spark": "SELECT * FROM (SELECT * FROM t1 JOIN t2 ON t1.a = t2.c) TABLESAMPLE (1 PERCENT)",
},
)
def test_timestamps(self):
self.validate_identity("SELECT CAST('12:00:00' AS TIME)")
self.validate_identity("SELECT DATE_PART(month, a)")
self.validate_all(
"SELECT CAST(a AS TIMESTAMP)",
write={
"snowflake": "SELECT CAST(a AS TIMESTAMPNTZ)",
},
)
self.validate_all(
"SELECT a::TIMESTAMP_LTZ(9)",
write={
"snowflake": "SELECT CAST(a AS TIMESTAMPLTZ(9))",
},
)
self.validate_all(
"SELECT a::TIMESTAMPLTZ",
write={
"snowflake": "SELECT CAST(a AS TIMESTAMPLTZ)",
},
)
self.validate_all(
"SELECT a::TIMESTAMP WITH LOCAL TIME ZONE",
write={
"snowflake": "SELECT CAST(a AS TIMESTAMPLTZ)",
},
)
self.validate_all(
"SELECT EXTRACT('month', a)",
write={
"snowflake": "SELECT DATE_PART('month', a)",
},
)
self.validate_all(
"SELECT DATE_PART('month', a)",
write={
"snowflake": "SELECT DATE_PART('month', a)",
},
)
self.validate_all(
"SELECT DATE_PART(month, a::DATETIME)",
write={
"snowflake": "SELECT DATE_PART(month, CAST(a AS DATETIME))",
},
)
self.validate_all(
"SELECT DATE_PART(epoch_second, foo) as ddate from table_name",
write={
"snowflake": "SELECT EXTRACT(epoch_second FROM CAST(foo AS TIMESTAMPNTZ)) AS ddate FROM table_name",
"presto": "SELECT TO_UNIXTIME(CAST(foo AS TIMESTAMP)) AS ddate FROM table_name",
},
)
self.validate_all(
"SELECT DATE_PART(epoch_milliseconds, foo) as ddate from table_name",
write={
"snowflake": "SELECT EXTRACT(epoch_second FROM CAST(foo AS TIMESTAMPNTZ)) * 1000 AS ddate FROM table_name",
"presto": "SELECT TO_UNIXTIME(CAST(foo AS TIMESTAMP)) * 1000 AS ddate FROM table_name",
},
)
self.validate_all(
"DATEADD(DAY, 5, CAST('2008-12-25' AS DATE))",
write={
"bigquery": "DATE_ADD(CAST('2008-12-25' AS DATE), INTERVAL 5 DAY)",
"snowflake": "DATEADD(DAY, 5, CAST('2008-12-25' AS DATE))",
},
)
self.validate_identity(
"DATEDIFF(DAY, CAST('2007-12-25' AS DATE), CAST('2008-12-25' AS DATE))"
)
self.validate_identity(
"TIMEDIFF(DAY, CAST('2007-12-25' AS DATE), CAST('2008-12-25' AS DATE))",
"DATEDIFF(DAY, CAST('2007-12-25' AS DATE), CAST('2008-12-25' AS DATE))",
)
self.validate_identity(
"TIMESTAMPDIFF(DAY, CAST('2007-12-25' AS DATE), CAST('2008-12-25' AS DATE))",
"DATEDIFF(DAY, CAST('2007-12-25' AS DATE), CAST('2008-12-25' AS DATE))",
)
self.validate_identity("DATEADD(y, 5, x)", "DATEADD(YEAR, 5, x)")
self.validate_identity("DATEADD(y, 5, x)", "DATEADD(YEAR, 5, x)")
self.validate_identity("DATE_PART(yyy, x)", "DATE_PART(YEAR, x)")
self.validate_identity("DATE_TRUNC(yr, x)", "DATE_TRUNC('YEAR', x)")
def test_semi_structured_types(self):
self.validate_identity("SELECT CAST(a AS VARIANT)")
self.validate_identity("SELECT CAST(a AS ARRAY)")
self.validate_all(
"SELECT a::VARIANT",
write={
"snowflake": "SELECT CAST(a AS VARIANT)",
"tsql": "SELECT CAST(a AS SQL_VARIANT)",
},
)
self.validate_all(
"ARRAY_CONSTRUCT(0, 1, 2)",
write={
"snowflake": "[0, 1, 2]",
"bigquery": "[0, 1, 2]",
"duckdb": "[0, 1, 2]",
"presto": "ARRAY[0, 1, 2]",
"spark": "ARRAY(0, 1, 2)",
},
)
self.validate_all(
"SELECT a::OBJECT",
write={
"snowflake": "SELECT CAST(a AS OBJECT)",
},
)
def test_historical_data(self):
self.validate_identity("SELECT * FROM my_table AT (STATEMENT => $query_id_var)")
self.validate_identity("SELECT * FROM my_table AT (OFFSET => -60 * 5)")
self.validate_identity("SELECT * FROM my_table BEFORE (STATEMENT => $query_id_var)")
self.validate_identity("SELECT * FROM my_table BEFORE (OFFSET => -60 * 5)")
self.validate_identity("CREATE SCHEMA restored_schema CLONE my_schema AT (OFFSET => -3600)")
self.validate_identity(
"CREATE TABLE restored_table CLONE my_table AT (TIMESTAMP => CAST('Sat, 09 May 2015 01:01:00 +0300' AS TIMESTAMPTZ))",
)
self.validate_identity(
"CREATE DATABASE restored_db CLONE my_db BEFORE (STATEMENT => '8e5d0ca9-005e-44e6-b858-a8f5b37c5726')"
)
self.validate_identity(
"SELECT * FROM my_table AT (TIMESTAMP => TO_TIMESTAMP(1432669154242, 3))"
)
self.validate_identity(
"SELECT * FROM my_table AT (OFFSET => -60 * 5) AS T WHERE T.flag = 'valid'"
)
self.validate_identity(
"SELECT * FROM my_table AT (STATEMENT => '8e5d0ca9-005e-44e6-b858-a8f5b37c5726')"
)
self.validate_identity(
"SELECT * FROM my_table BEFORE (STATEMENT => '8e5d0ca9-005e-44e6-b858-a8f5b37c5726')"
)
self.validate_identity(
"SELECT * FROM my_table AT (TIMESTAMP => 'Fri, 01 May 2015 16:20:00 -0700'::timestamp)",
"SELECT * FROM my_table AT (TIMESTAMP => CAST('Fri, 01 May 2015 16:20:00 -0700' AS TIMESTAMPNTZ))",
)
self.validate_identity(
"SELECT * FROM my_table AT(TIMESTAMP => 'Fri, 01 May 2015 16:20:00 -0700'::timestamp_tz)",
"SELECT * FROM my_table AT (TIMESTAMP => CAST('Fri, 01 May 2015 16:20:00 -0700' AS TIMESTAMPTZ))",
)
self.validate_identity(
"SELECT * FROM my_table BEFORE (TIMESTAMP => 'Fri, 01 May 2015 16:20:00 -0700'::timestamp_tz);",
"SELECT * FROM my_table BEFORE (TIMESTAMP => CAST('Fri, 01 May 2015 16:20:00 -0700' AS TIMESTAMPTZ))",
)
self.validate_identity(
"""
SELECT oldt.* , newt.*
FROM my_table BEFORE(STATEMENT => '8e5d0ca9-005e-44e6-b858-a8f5b37c5726') AS oldt
FULL OUTER JOIN my_table AT(STATEMENT => '8e5d0ca9-005e-44e6-b858-a8f5b37c5726') AS newt
ON oldt.id = newt.id
WHERE oldt.id IS NULL OR newt.id IS NULL;
""",
"SELECT oldt.*, newt.* FROM my_table BEFORE (STATEMENT => '8e5d0ca9-005e-44e6-b858-a8f5b37c5726') AS oldt FULL OUTER JOIN my_table AT (STATEMENT => '8e5d0ca9-005e-44e6-b858-a8f5b37c5726') AS newt ON oldt.id = newt.id WHERE oldt.id IS NULL OR newt.id IS NULL",
)
def test_ddl(self):
self.validate_identity(
"""create external table et2(
col1 date as (parse_json(metadata$external_table_partition):COL1::date),
col2 varchar as (parse_json(metadata$external_table_partition):COL2::varchar),
col3 number as (parse_json(metadata$external_table_partition):COL3::number))
partition by (col1,col2,col3)
location=@s2/logs/
partition_type = user_specified
file_format = (type = parquet)""",
"CREATE EXTERNAL TABLE et2 (col1 DATE AS (CAST(GET_PATH(PARSE_JSON(metadata$external_table_partition), 'COL1') AS DATE)), col2 VARCHAR AS (CAST(GET_PATH(PARSE_JSON(metadata$external_table_partition), 'COL2') AS VARCHAR)), col3 DECIMAL AS (CAST(GET_PATH(PARSE_JSON(metadata$external_table_partition), 'COL3') AS DECIMAL))) LOCATION @s2/logs/ PARTITION BY (col1, col2, col3) partition_type=user_specified file_format=(type = parquet)",
)
self.validate_identity("CREATE OR REPLACE VIEW foo (uid) COPY GRANTS AS (SELECT 1)")
self.validate_identity("CREATE TABLE geospatial_table (id INT, g GEOGRAPHY)")
self.validate_identity("CREATE MATERIALIZED VIEW a COMMENT='...' AS SELECT 1 FROM x")
self.validate_identity("CREATE DATABASE mytestdb_clone CLONE mytestdb")
self.validate_identity("CREATE SCHEMA mytestschema_clone CLONE testschema")
self.validate_identity("CREATE TABLE IDENTIFIER('foo') (COLUMN1 VARCHAR, COLUMN2 VARCHAR)")
self.validate_identity("CREATE TABLE IDENTIFIER($foo) (col1 VARCHAR, col2 VARCHAR)")
self.validate_identity(
"CREATE TABLE orders_clone_restore CLONE orders AT (TIMESTAMP => TO_TIMESTAMP_TZ('04/05/2013 01:02:03', 'mm/dd/yyyy hh24:mi:ss'))"
)
self.validate_identity(
"CREATE TABLE orders_clone_restore CLONE orders BEFORE (STATEMENT => '8e5d0ca9-005e-44e6-b858-a8f5b37c5726')"
)
self.validate_identity(
"CREATE TABLE a (x DATE, y BIGINT) PARTITION BY (x) integration='q' auto_refresh=TRUE file_format=(type = parquet)"
)
self.validate_identity(
"CREATE SCHEMA mytestschema_clone_restore CLONE testschema BEFORE (TIMESTAMP => TO_TIMESTAMP(40 * 365 * 86400))"
)
self.validate_identity(
"CREATE OR REPLACE TABLE EXAMPLE_DB.DEMO.USERS (ID DECIMAL(38, 0) NOT NULL, PRIMARY KEY (ID), FOREIGN KEY (CITY_CODE) REFERENCES EXAMPLE_DB.DEMO.CITIES (CITY_CODE))"
)
self.validate_all(
"CREATE TABLE orders_clone CLONE orders",
read={
"bigquery": "CREATE TABLE orders_clone CLONE orders",
},
write={
"bigquery": "CREATE TABLE orders_clone CLONE orders",
"snowflake": "CREATE TABLE orders_clone CLONE orders",
},
)
self.validate_all(
"CREATE OR REPLACE TRANSIENT TABLE a (id INT)",
read={
"postgres": "CREATE OR REPLACE TRANSIENT TABLE a (id INT)",
"snowflake": "CREATE OR REPLACE TRANSIENT TABLE a (id INT)",
},
write={
"postgres": "CREATE OR REPLACE TABLE a (id INT)",
"mysql": "CREATE OR REPLACE TABLE a (id INT)",
"snowflake": "CREATE OR REPLACE TRANSIENT TABLE a (id INT)",
},
)
self.validate_all(
"CREATE TABLE a (b INT)",
read={"teradata": "CREATE MULTISET TABLE a (b INT)"},
write={"snowflake": "CREATE TABLE a (b INT)"},
)
def test_user_defined_functions(self):
self.validate_all(
"CREATE FUNCTION a(x DATE, y BIGINT) RETURNS ARRAY LANGUAGE JAVASCRIPT AS $$ SELECT 1 $$",
write={
"snowflake": "CREATE FUNCTION a(x DATE, y BIGINT) RETURNS ARRAY LANGUAGE JAVASCRIPT AS ' SELECT 1 '",
},
)
self.validate_all(
"CREATE FUNCTION a() RETURNS TABLE (b INT) AS 'SELECT 1'",
write={
"snowflake": "CREATE FUNCTION a() RETURNS TABLE (b INT) AS 'SELECT 1'",
"bigquery": "CREATE TABLE FUNCTION a() RETURNS TABLE <b INT64> AS SELECT 1",
},
)
self.validate_all(
"CREATE FUNCTION a() RETURNS INT IMMUTABLE AS 'SELECT 1'",
write={
"snowflake": "CREATE FUNCTION a() RETURNS INT IMMUTABLE AS 'SELECT 1'",
},
)
def test_stored_procedures(self):
self.validate_identity("CALL a.b.c(x, y)", check_command_warning=True)
self.validate_identity(
"CREATE PROCEDURE a.b.c(x INT, y VARIANT) RETURNS OBJECT EXECUTE AS CALLER AS 'BEGIN SELECT 1; END;'"
)
def test_table_literal(self):
# All examples from https://docs.snowflake.com/en/sql-reference/literals-table.html
self.validate_all(
r"""SELECT * FROM TABLE('MYTABLE')""",
write={"snowflake": r"""SELECT * FROM TABLE('MYTABLE')"""},
)
self.validate_all(
r"""SELECT * FROM TABLE('MYDB."MYSCHEMA"."MYTABLE"')""",
write={"snowflake": r"""SELECT * FROM TABLE('MYDB."MYSCHEMA"."MYTABLE"')"""},
)
# Per Snowflake documentation at https://docs.snowflake.com/en/sql-reference/literals-table.html
# one can use either a " ' " or " $$ " to enclose the object identifier.
# Capturing the single tokens seems like lot of work. Hence adjusting tests to use these interchangeably,
self.validate_all(
r"""SELECT * FROM TABLE($$MYDB. "MYSCHEMA"."MYTABLE"$$)""",
write={"snowflake": r"""SELECT * FROM TABLE('MYDB. "MYSCHEMA"."MYTABLE"')"""},
)
self.validate_all(
r"""SELECT * FROM TABLE($MYVAR)""",
write={"snowflake": r"""SELECT * FROM TABLE($MYVAR)"""},
)
self.validate_all(
r"""SELECT * FROM TABLE(?)""",
write={"snowflake": r"""SELECT * FROM TABLE(?)"""},
)
self.validate_all(
r"""SELECT * FROM TABLE(:BINDING)""",
write={"snowflake": r"""SELECT * FROM TABLE(:BINDING)"""},
)
self.validate_all(
r"""SELECT * FROM TABLE($MYVAR) WHERE COL1 = 10""",
write={"snowflake": r"""SELECT * FROM TABLE($MYVAR) WHERE COL1 = 10"""},
)
def test_flatten(self):
self.validate_all(
"""
select
dag_report.acct_id,
dag_report.report_date,
dag_report.report_uuid,
dag_report.airflow_name,
dag_report.dag_id,
f.value::varchar as operator
from cs.telescope.dag_report,
table(flatten(input=>split(operators, ','))) f
""",
write={
"snowflake": """SELECT
dag_report.acct_id,
dag_report.report_date,
dag_report.report_uuid,
dag_report.airflow_name,
dag_report.dag_id,
CAST(f.value AS VARCHAR) AS operator
FROM cs.telescope.dag_report, TABLE(FLATTEN(input => SPLIT(operators, ','))) AS f"""
},
pretty=True,
)
# All examples from https://docs.snowflake.com/en/sql-reference/functions/flatten.html#syntax
self.validate_all(
"SELECT * FROM TABLE(FLATTEN(input => parse_json('[1, ,77]'))) f",
write={
"snowflake": "SELECT * FROM TABLE(FLATTEN(input => PARSE_JSON('[1, ,77]'))) AS f"
},
)
self.validate_all(
"""SELECT * FROM TABLE(FLATTEN(input => parse_json('{"a":1, "b":[77,88]}'), outer => true)) f""",
write={
"snowflake": """SELECT * FROM TABLE(FLATTEN(input => PARSE_JSON('{"a":1, "b":[77,88]}'), outer => TRUE)) AS f"""
},
)
self.validate_all(
"""SELECT * FROM TABLE(FLATTEN(input => parse_json('{"a":1, "b":[77,88]}'), path => 'b')) f""",
write={
"snowflake": """SELECT * FROM TABLE(FLATTEN(input => PARSE_JSON('{"a":1, "b":[77,88]}'), path => 'b')) AS f"""
},
)
self.validate_all(
"""SELECT * FROM TABLE(FLATTEN(input => parse_json('[]'))) f""",
write={"snowflake": """SELECT * FROM TABLE(FLATTEN(input => PARSE_JSON('[]'))) AS f"""},
)
self.validate_all(
"""SELECT * FROM TABLE(FLATTEN(input => parse_json('[]'), outer => true)) f""",
write={
"snowflake": """SELECT * FROM TABLE(FLATTEN(input => PARSE_JSON('[]'), outer => TRUE)) AS f"""
},
)
self.validate_all(
"""SELECT * FROM TABLE(FLATTEN(input => parse_json('{"a":1, "b":[77,88], "c": {"d":"X"}}'))) f""",
write={
"snowflake": """SELECT * FROM TABLE(FLATTEN(input => PARSE_JSON('{"a":1, "b":[77,88], "c": {"d":"X"}}'))) AS f"""
},
)
self.validate_all(
"""SELECT * FROM TABLE(FLATTEN(input => parse_json('{"a":1, "b":[77,88], "c": {"d":"X"}}'), recursive => true)) f""",
write={
"snowflake": """SELECT * FROM TABLE(FLATTEN(input => PARSE_JSON('{"a":1, "b":[77,88], "c": {"d":"X"}}'), recursive => TRUE)) AS f"""
},
)
self.validate_all(
"""SELECT * FROM TABLE(FLATTEN(input => parse_json('{"a":1, "b":[77,88], "c": {"d":"X"}}'), recursive => true, mode => 'object')) f""",
write={
"snowflake": """SELECT * FROM TABLE(FLATTEN(input => PARSE_JSON('{"a":1, "b":[77,88], "c": {"d":"X"}}'), recursive => TRUE, mode => 'object')) AS f"""
},
)
self.validate_all(
"""
SELECT id as "ID",
f.value AS "Contact",
f1.value:type AS "Type",
f1.value:content AS "Details"
FROM persons p,
lateral flatten(input => p.c, path => 'contact') f,
lateral flatten(input => f.value:business) f1
""",
write={
"snowflake": """SELECT
id AS "ID",
f.value AS "Contact",
GET_PATH(f1.value, 'type') AS "Type",
GET_PATH(f1.value, 'content') AS "Details"
FROM persons AS p, LATERAL FLATTEN(input => p.c, path => 'contact') AS f(SEQ, KEY, PATH, INDEX, VALUE, THIS), LATERAL FLATTEN(input => GET_PATH(f.value, 'business')) AS f1(SEQ, KEY, PATH, INDEX, VALUE, THIS)""",
},
pretty=True,
)
self.validate_all(
"""
SELECT id as "ID",
value AS "Contact"
FROM persons p,
lateral flatten(input => p.c, path => 'contact')
""",
write={
"snowflake": """SELECT
id AS "ID",
value AS "Contact"
FROM persons AS p, LATERAL FLATTEN(input => p.c, path => 'contact') AS _flattened(SEQ, KEY, PATH, INDEX, VALUE, THIS)""",
},
pretty=True,
)
def test_minus(self):
self.validate_all(
"SELECT 1 EXCEPT SELECT 1",
read={
"oracle": "SELECT 1 MINUS SELECT 1",
"snowflake": "SELECT 1 MINUS SELECT 1",
},
)
def test_values(self):
self.validate_all(
'SELECT "c0", "c1" FROM (VALUES (1, 2), (3, 4)) AS "t0"("c0", "c1")',
read={
"spark": "SELECT `c0`, `c1` FROM (VALUES (1, 2), (3, 4)) AS `t0`(`c0`, `c1`)",
},
)
self.validate_all(
"""SELECT $1 AS "_1" FROM VALUES ('a'), ('b')""",
write={
"snowflake": """SELECT $1 AS "_1" FROM (VALUES ('a'), ('b'))""",
"spark": """SELECT ${1} AS `_1` FROM VALUES ('a'), ('b')""",
},
)
def test_describe_table(self):
self.validate_all(
"DESCRIBE TABLE db.table",
write={
"snowflake": "DESCRIBE TABLE db.table",
"spark": "DESCRIBE db.table",
},
)
self.validate_all(
"DESCRIBE db.table",
write={
"snowflake": "DESCRIBE TABLE db.table",
"spark": "DESCRIBE db.table",
},
)
self.validate_all(
"DESC TABLE db.table",
write={
"snowflake": "DESCRIBE TABLE db.table",
"spark": "DESCRIBE db.table",
},
)
self.validate_all(
"DESC VIEW db.table",
write={
"snowflake": "DESCRIBE VIEW db.table",
"spark": "DESCRIBE db.table",
},
)
def test_parse_like_any(self):
like = parse_one("a LIKE ANY fun('foo')", read="snowflake")
ilike = parse_one("a ILIKE ANY fun('foo')", read="snowflake")
self.assertIsInstance(like, exp.LikeAny)
self.assertIsInstance(ilike, exp.ILikeAny)
like.sql() # check that this doesn't raise
@mock.patch("sqlglot.generator.logger")
def test_regexp_substr(self, logger):
self.validate_all(
"REGEXP_SUBSTR(subject, pattern, pos, occ, params, group)",
write={
"bigquery": "REGEXP_EXTRACT(subject, pattern, pos, occ)",
"hive": "REGEXP_EXTRACT(subject, pattern, group)",
"presto": "REGEXP_EXTRACT(subject, pattern, group)",
"snowflake": "REGEXP_SUBSTR(subject, pattern, pos, occ, params, group)",
"spark": "REGEXP_EXTRACT(subject, pattern, group)",
},
)
self.validate_all(
"REGEXP_SUBSTR(subject, pattern)",
read={
"bigquery": "REGEXP_EXTRACT(subject, pattern)",
"hive": "REGEXP_EXTRACT(subject, pattern)",
"presto": "REGEXP_EXTRACT(subject, pattern)",
"spark": "REGEXP_EXTRACT(subject, pattern)",
},
write={
"bigquery": "REGEXP_EXTRACT(subject, pattern)",
"hive": "REGEXP_EXTRACT(subject, pattern)",
"presto": "REGEXP_EXTRACT(subject, pattern)",
"snowflake": "REGEXP_SUBSTR(subject, pattern)",
"spark": "REGEXP_EXTRACT(subject, pattern)",
},
)
self.validate_all(
"REGEXP_SUBSTR(subject, pattern, 1, 1, 'c', group)",
read={
"bigquery": "REGEXP_SUBSTR(subject, pattern, 1, 1, 'c', group)",
"duckdb": "REGEXP_EXTRACT(subject, pattern, group)",
"hive": "REGEXP_EXTRACT(subject, pattern, group)",
"presto": "REGEXP_EXTRACT(subject, pattern, group)",
"snowflake": "REGEXP_SUBSTR(subject, pattern, 1, 1, 'c', group)",
"spark": "REGEXP_EXTRACT(subject, pattern, group)",
},
)
@mock.patch("sqlglot.generator.logger")
def test_regexp_replace(self, logger):
self.validate_all(
"REGEXP_REPLACE(subject, pattern)",
write={
"bigquery": "REGEXP_REPLACE(subject, pattern, '')",
"duckdb": "REGEXP_REPLACE(subject, pattern, '')",
"hive": "REGEXP_REPLACE(subject, pattern, '')",
"snowflake": "REGEXP_REPLACE(subject, pattern, '')",
"spark": "REGEXP_REPLACE(subject, pattern, '')",
},
)
self.validate_all(
"REGEXP_REPLACE(subject, pattern, replacement)",
read={
"bigquery": "REGEXP_REPLACE(subject, pattern, replacement)",
"duckdb": "REGEXP_REPLACE(subject, pattern, replacement)",
"hive": "REGEXP_REPLACE(subject, pattern, replacement)",
"spark": "REGEXP_REPLACE(subject, pattern, replacement)",
},
write={
"bigquery": "REGEXP_REPLACE(subject, pattern, replacement)",
"duckdb": "REGEXP_REPLACE(subject, pattern, replacement)",
"hive": "REGEXP_REPLACE(subject, pattern, replacement)",
"snowflake": "REGEXP_REPLACE(subject, pattern, replacement)",
"spark": "REGEXP_REPLACE(subject, pattern, replacement)",
},
)
self.validate_all(
"REGEXP_REPLACE(subject, pattern, replacement, position)",
read={
"spark": "REGEXP_REPLACE(subject, pattern, replacement, position)",
},
write={
"bigquery": "REGEXP_REPLACE(subject, pattern, replacement)",
"duckdb": "REGEXP_REPLACE(subject, pattern, replacement)",
"hive": "REGEXP_REPLACE(subject, pattern, replacement)",
"snowflake": "REGEXP_REPLACE(subject, pattern, replacement, position)",
"spark": "REGEXP_REPLACE(subject, pattern, replacement, position)",
},
)
self.validate_all(
"REGEXP_REPLACE(subject, pattern, replacement, position, occurrence, parameters)",
write={
"bigquery": "REGEXP_REPLACE(subject, pattern, replacement)",
"duckdb": "REGEXP_REPLACE(subject, pattern, replacement)",
"hive": "REGEXP_REPLACE(subject, pattern, replacement)",
"snowflake": "REGEXP_REPLACE(subject, pattern, replacement, position, occurrence, parameters)",
"spark": "REGEXP_REPLACE(subject, pattern, replacement, position)",
},
)
def test_match_recognize(self):
for row in (
"ONE ROW PER MATCH",
"ALL ROWS PER MATCH",
"ALL ROWS PER MATCH SHOW EMPTY MATCHES",
"ALL ROWS PER MATCH OMIT EMPTY MATCHES",
"ALL ROWS PER MATCH WITH UNMATCHED ROWS",
):
for after in (
"AFTER MATCH SKIP",
"AFTER MATCH SKIP PAST LAST ROW",
"AFTER MATCH SKIP TO NEXT ROW",
"AFTER MATCH SKIP TO FIRST x",
"AFTER MATCH SKIP TO LAST x",
):
self.validate_identity(
f"""SELECT
*
FROM x
MATCH_RECOGNIZE (
PARTITION BY a, b
ORDER BY
x DESC
MEASURES
y AS b
{row}
{after}
PATTERN (^ S1 S2*? ( {{- S3 -}} S4 )+ | PERMUTE(S1, S2){{1,2}} $)
DEFINE
x AS y
)""",
pretty=True,
)
def test_show(self):
# Parsed as Show
self.validate_identity("SHOW PRIMARY KEYS")
self.validate_identity("SHOW PRIMARY KEYS IN ACCOUNT")
self.validate_identity("SHOW PRIMARY KEYS IN DATABASE")
self.validate_identity("SHOW PRIMARY KEYS IN DATABASE foo")
self.validate_identity("SHOW PRIMARY KEYS IN TABLE")
self.validate_identity("SHOW PRIMARY KEYS IN TABLE foo")
self.validate_identity(
'SHOW PRIMARY KEYS IN "TEST"."PUBLIC"."customers"',
'SHOW PRIMARY KEYS IN TABLE "TEST"."PUBLIC"."customers"',
)
self.validate_identity(
'SHOW TERSE PRIMARY KEYS IN "TEST"."PUBLIC"."customers"',
'SHOW PRIMARY KEYS IN TABLE "TEST"."PUBLIC"."customers"',
)
self.validate_identity(
"show terse schemas in database db1 starts with 'a' limit 10 from 'b'",
"SHOW TERSE SCHEMAS IN DATABASE db1 STARTS WITH 'a' LIMIT 10 FROM 'b'",
)
self.validate_identity(
"show terse objects in schema db1.schema1 starts with 'a' limit 10 from 'b'",
"SHOW TERSE OBJECTS IN SCHEMA db1.schema1 STARTS WITH 'a' LIMIT 10 FROM 'b'",
)
self.validate_identity(
"show terse objects in db1.schema1 starts with 'a' limit 10 from 'b'",
"SHOW TERSE OBJECTS IN SCHEMA db1.schema1 STARTS WITH 'a' LIMIT 10 FROM 'b'",
)
self.validate_identity(
"SHOW TABLES LIKE 'line%' IN tpch.public",
"SHOW TABLES LIKE 'line%' IN SCHEMA tpch.public",
)
self.validate_identity(
"SHOW TABLES HISTORY IN tpch.public",
"SHOW TABLES HISTORY IN SCHEMA tpch.public",
)
self.validate_identity(
"show terse tables in schema db1.schema1 starts with 'a' limit 10 from 'b'",
"SHOW TERSE TABLES IN SCHEMA db1.schema1 STARTS WITH 'a' LIMIT 10 FROM 'b'",
)
self.validate_identity(
"show terse tables in db1.schema1 starts with 'a' limit 10 from 'b'",
"SHOW TERSE TABLES IN SCHEMA db1.schema1 STARTS WITH 'a' LIMIT 10 FROM 'b'",
)
ast = parse_one('SHOW PRIMARY KEYS IN "TEST"."PUBLIC"."customers"', read="snowflake")
table = ast.find(exp.Table)
self.assertEqual(table.sql(dialect="snowflake"), '"TEST"."PUBLIC"."customers"')
self.validate_identity("SHOW COLUMNS")
self.validate_identity("SHOW COLUMNS IN TABLE dt_test")
self.validate_identity("SHOW COLUMNS LIKE '_foo%' IN TABLE dt_test")
self.validate_identity("SHOW COLUMNS IN VIEW")
self.validate_identity("SHOW COLUMNS LIKE '_foo%' IN VIEW dt_test")
self.validate_identity("SHOW USERS")
self.validate_identity("SHOW TERSE USERS")
self.validate_identity("SHOW USERS LIKE '_foo%' STARTS WITH 'bar' LIMIT 5 FROM 'baz'")
ast = parse_one("SHOW COLUMNS LIKE '_testing%' IN dt_test", read="snowflake")
table = ast.find(exp.Table)
literal = ast.find(exp.Literal)
self.assertEqual(table.sql(dialect="snowflake"), "dt_test")
self.assertEqual(literal.sql(dialect="snowflake"), "'_testing%'")
ast = parse_one("SHOW SCHEMAS IN DATABASE db1", read="snowflake")
self.assertEqual(ast.args.get("scope_kind"), "DATABASE")
table = ast.find(exp.Table)
self.assertEqual(table.sql(dialect="snowflake"), "db1")
ast = parse_one("SHOW OBJECTS IN db1.schema1", read="snowflake")
self.assertEqual(ast.args.get("scope_kind"), "SCHEMA")
table = ast.find(exp.Table)
self.assertEqual(table.sql(dialect="snowflake"), "db1.schema1")
ast = parse_one("SHOW TABLES IN db1.schema1", read="snowflake")
self.assertEqual(ast.args.get("scope_kind"), "SCHEMA")
table = ast.find(exp.Table)
self.assertEqual(table.sql(dialect="snowflake"), "db1.schema1")
users_exp = self.validate_identity("SHOW USERS")
self.assertTrue(isinstance(users_exp, exp.Show))
self.assertEqual(users_exp.this, "USERS")
def test_storage_integration(self):
self.validate_identity(
"""CREATE STORAGE INTEGRATION s3_int
TYPE=EXTERNAL_STAGE
STORAGE_PROVIDER='S3'
STORAGE_AWS_ROLE_ARN='arn:aws:iam::001234567890:role/myrole'
ENABLED=TRUE
STORAGE_ALLOWED_LOCATIONS=('s3://mybucket1/path1/', 's3://mybucket2/path2/')""",
pretty=True,
)
def test_swap(self):
ast = parse_one("ALTER TABLE a SWAP WITH b", read="snowflake")
assert isinstance(ast, exp.AlterTable)
assert isinstance(ast.args["actions"][0], exp.SwapTable)
def test_try_cast(self):
self.validate_identity("SELECT TRY_CAST(x AS DOUBLE)")
self.validate_all("TRY_CAST('foo' AS TEXT)", read={"hive": "CAST('foo' AS STRING)"})
self.validate_all("CAST(5 + 5 AS TEXT)", read={"hive": "CAST(5 + 5 AS STRING)"})
self.validate_all(
"CAST(TRY_CAST('2020-01-01' AS DATE) AS TEXT)",
read={
"hive": "CAST(CAST('2020-01-01' AS DATE) AS STRING)",
"snowflake": "CAST(TRY_CAST('2020-01-01' AS DATE) AS TEXT)",
},
)
self.validate_all(
"TRY_CAST(x AS TEXT)",
read={
"hive": "CAST(x AS STRING)",
"snowflake": "TRY_CAST(x AS TEXT)",
},
)
from sqlglot.optimizer.annotate_types import annotate_types
expression = parse_one("SELECT CAST(t.x AS STRING) FROM t", read="hive")
expression = annotate_types(expression, schema={"t": {"x": "string"}})
self.assertEqual(expression.sql(dialect="snowflake"), "SELECT TRY_CAST(t.x AS TEXT) FROM t")
expression = annotate_types(expression, schema={"t": {"x": "int"}})
self.assertEqual(expression.sql(dialect="snowflake"), "SELECT CAST(t.x AS TEXT) FROM t")
# We can't infer FOO's type since it's a UDF in this case, so we don't get rid of TRY_CAST
expression = parse_one("SELECT TRY_CAST(FOO() AS TEXT)", read="snowflake")
expression = annotate_types(expression)
self.assertEqual(expression.sql(dialect="snowflake"), "SELECT TRY_CAST(FOO() AS TEXT)")
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