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from sqlglot import ParseError, exp, parse_one, transpile
from sqlglot.helper import logger as helper_logger
from tests.dialects.test_dialect import Validator
class TestPostgres(Validator):
maxDiff = None
dialect = "postgres"
def test_ddl(self):
expr = parse_one("CREATE TABLE t (x INTERVAL day)", read="postgres")
cdef = expr.find(exp.ColumnDef)
cdef.args["kind"].assert_is(exp.DataType)
self.assertEqual(expr.sql(dialect="postgres"), "CREATE TABLE t (x INTERVAL day)")
self.validate_identity("CREATE INDEX idx_x ON x USING BTREE(x, y) WHERE (NOT y IS NULL)")
self.validate_identity("CREATE TABLE test (elems JSONB[])")
self.validate_identity("CREATE TABLE public.y (x TSTZRANGE NOT NULL)")
self.validate_identity("CREATE TABLE test (foo HSTORE)")
self.validate_identity("CREATE TABLE test (foo JSONB)")
self.validate_identity("CREATE TABLE test (foo VARCHAR(64)[])")
self.validate_identity("CREATE TABLE test (foo INT) PARTITION BY HASH(foo)")
self.validate_identity("INSERT INTO x VALUES (1, 'a', 2.0) RETURNING a")
self.validate_identity("INSERT INTO x VALUES (1, 'a', 2.0) RETURNING a, b")
self.validate_identity("INSERT INTO x VALUES (1, 'a', 2.0) RETURNING *")
self.validate_identity("UPDATE tbl_name SET foo = 123 RETURNING a")
self.validate_identity("CREATE TABLE cities_partdef PARTITION OF cities DEFAULT")
self.validate_identity(
"CREATE CONSTRAINT TRIGGER my_trigger AFTER INSERT OR DELETE OR UPDATE OF col_a, col_b ON public.my_table DEFERRABLE INITIALLY DEFERRED FOR EACH ROW EXECUTE FUNCTION do_sth()"
)
self.validate_identity(
"CREATE TABLE cust_part3 PARTITION OF customers FOR VALUES WITH (MODULUS 3, REMAINDER 2)"
)
self.validate_identity(
"CREATE TABLE measurement_y2016m07 PARTITION OF measurement (unitsales DEFAULT 0) FOR VALUES FROM ('2016-07-01') TO ('2016-08-01')"
)
self.validate_identity(
"CREATE TABLE measurement_ym_older PARTITION OF measurement_year_month FOR VALUES FROM (MINVALUE, MINVALUE) TO (2016, 11)"
)
self.validate_identity(
"CREATE TABLE measurement_ym_y2016m11 PARTITION OF measurement_year_month FOR VALUES FROM (2016, 11) TO (2016, 12)"
)
self.validate_identity(
"CREATE TABLE cities_ab PARTITION OF cities (CONSTRAINT city_id_nonzero CHECK (city_id <> 0)) FOR VALUES IN ('a', 'b')"
)
self.validate_identity(
"CREATE TABLE cities_ab PARTITION OF cities (CONSTRAINT city_id_nonzero CHECK (city_id <> 0)) FOR VALUES IN ('a', 'b') PARTITION BY RANGE(population)"
)
self.validate_identity(
"CREATE INDEX foo ON bar.baz USING btree(col1 varchar_pattern_ops ASC, col2)"
)
self.validate_identity(
"CREATE INDEX index_issues_on_title_trigram ON public.issues USING gin(title public.gin_trgm_ops)"
)
self.validate_identity(
"INSERT INTO x VALUES (1, 'a', 2.0) ON CONFLICT (id) DO NOTHING RETURNING *"
)
self.validate_identity(
"INSERT INTO x VALUES (1, 'a', 2.0) ON CONFLICT (id) DO UPDATE SET x.id = 1 RETURNING *"
)
self.validate_identity(
"INSERT INTO x VALUES (1, 'a', 2.0) ON CONFLICT (id) DO UPDATE SET x.id = excluded.id RETURNING *"
)
self.validate_identity(
"INSERT INTO x VALUES (1, 'a', 2.0) ON CONFLICT ON CONSTRAINT pkey DO NOTHING RETURNING *"
)
self.validate_identity(
"INSERT INTO x VALUES (1, 'a', 2.0) ON CONFLICT ON CONSTRAINT pkey DO UPDATE SET x.id = 1 RETURNING *"
)
self.validate_identity(
"DELETE FROM event USING sales AS s WHERE event.eventid = s.eventid RETURNING a"
)
self.validate_identity(
"CREATE TABLE test (x TIMESTAMP WITHOUT TIME ZONE[][])",
"CREATE TABLE test (x TIMESTAMP[][])",
)
self.validate_all(
"CREATE OR REPLACE FUNCTION function_name (input_a character varying DEFAULT NULL::character varying)",
write={
"postgres": "CREATE OR REPLACE FUNCTION function_name(input_a VARCHAR DEFAULT CAST(NULL AS VARCHAR))",
},
)
self.validate_all(
"CREATE TABLE products (product_no INT UNIQUE, name TEXT, price DECIMAL)",
write={
"postgres": "CREATE TABLE products (product_no INT UNIQUE, name TEXT, price DECIMAL)"
},
)
self.validate_all(
"CREATE TABLE products (product_no INT CONSTRAINT must_be_different UNIQUE, name TEXT CONSTRAINT present NOT NULL, price DECIMAL)",
write={
"postgres": "CREATE TABLE products (product_no INT CONSTRAINT must_be_different UNIQUE, name TEXT CONSTRAINT present NOT NULL, price DECIMAL)"
},
)
self.validate_all(
"CREATE TABLE products (product_no INT, name TEXT, price DECIMAL, UNIQUE (product_no, name))",
write={
"postgres": "CREATE TABLE products (product_no INT, name TEXT, price DECIMAL, UNIQUE (product_no, name))"
},
)
self.validate_all(
"CREATE TABLE products ("
"product_no INT UNIQUE,"
" name TEXT,"
" price DECIMAL CHECK (price > 0),"
" discounted_price DECIMAL CONSTRAINT positive_discount CHECK (discounted_price > 0),"
" CHECK (product_no > 1),"
" CONSTRAINT valid_discount CHECK (price > discounted_price))",
write={
"postgres": "CREATE TABLE products ("
"product_no INT UNIQUE,"
" name TEXT,"
" price DECIMAL CHECK (price > 0),"
" discounted_price DECIMAL CONSTRAINT positive_discount CHECK (discounted_price > 0),"
" CHECK (product_no > 1),"
" CONSTRAINT valid_discount CHECK (price > discounted_price))"
},
)
self.validate_identity(
"""
CREATE INDEX index_ci_builds_on_commit_id_and_artifacts_expireatandidpartial
ON public.ci_builds
USING btree (commit_id, artifacts_expire_at, id)
WHERE (
((type)::text = 'Ci::Build'::text)
AND ((retried = false) OR (retried IS NULL))
AND ((name)::text = ANY (ARRAY[
('sast'::character varying)::text,
('dependency_scanning'::character varying)::text,
('sast:container'::character varying)::text,
('container_scanning'::character varying)::text,
('dast'::character varying)::text
]))
)
""",
"CREATE INDEX index_ci_builds_on_commit_id_and_artifacts_expireatandidpartial ON public.ci_builds USING btree(commit_id, artifacts_expire_at, id) WHERE ((CAST((type) AS TEXT) = CAST('Ci::Build' AS TEXT)) AND ((retried = FALSE) OR (retried IS NULL)) AND (CAST((name) AS TEXT) = ANY (ARRAY[CAST((CAST('sast' AS VARCHAR)) AS TEXT), CAST((CAST('dependency_scanning' AS VARCHAR)) AS TEXT), CAST((CAST('sast:container' AS VARCHAR)) AS TEXT), CAST((CAST('container_scanning' AS VARCHAR)) AS TEXT), CAST((CAST('dast' AS VARCHAR)) AS TEXT)])))",
)
self.validate_identity(
"CREATE INDEX index_ci_pipelines_on_project_idandrefandiddesc ON public.ci_pipelines USING btree(project_id, ref, id DESC)"
)
with self.assertRaises(ParseError):
transpile("CREATE TABLE products (price DECIMAL CHECK price > 0)", read="postgres")
with self.assertRaises(ParseError):
transpile(
"CREATE TABLE products (price DECIMAL, CHECK price > 1)",
read="postgres",
)
def test_unnest(self):
self.validate_identity(
"SELECT * FROM UNNEST(ARRAY[1, 2], ARRAY['foo', 'bar', 'baz']) AS x(a, b)"
)
self.validate_all(
"SELECT UNNEST(c) FROM t",
write={
"hive": "SELECT EXPLODE(c) FROM t",
"postgres": "SELECT UNNEST(c) FROM t",
"presto": "SELECT IF(_u.pos = _u_2.pos_2, _u_2.col) AS col FROM t, UNNEST(SEQUENCE(1, GREATEST(CARDINALITY(c)))) AS _u(pos) CROSS JOIN UNNEST(c) WITH ORDINALITY AS _u_2(col, pos_2) WHERE _u.pos = _u_2.pos_2 OR (_u.pos > CARDINALITY(c) AND _u_2.pos_2 = CARDINALITY(c))",
},
)
self.validate_all(
"SELECT UNNEST(ARRAY[1])",
write={
"hive": "SELECT EXPLODE(ARRAY(1))",
"postgres": "SELECT UNNEST(ARRAY[1])",
"presto": "SELECT IF(_u.pos = _u_2.pos_2, _u_2.col) AS col FROM UNNEST(SEQUENCE(1, GREATEST(CARDINALITY(ARRAY[1])))) AS _u(pos) CROSS JOIN UNNEST(ARRAY[1]) WITH ORDINALITY AS _u_2(col, pos_2) WHERE _u.pos = _u_2.pos_2 OR (_u.pos > CARDINALITY(ARRAY[1]) AND _u_2.pos_2 = CARDINALITY(ARRAY[1]))",
},
)
def test_array_offset(self):
with self.assertLogs(helper_logger) as cm:
self.validate_all(
"SELECT col[1]",
write={
"bigquery": "SELECT col[0]",
"duckdb": "SELECT col[1]",
"hive": "SELECT col[0]",
"postgres": "SELECT col[1]",
"presto": "SELECT col[1]",
},
)
self.assertEqual(
cm.output,
[
"WARNING:sqlglot:Applying array index offset (-1)",
"WARNING:sqlglot:Applying array index offset (1)",
"WARNING:sqlglot:Applying array index offset (1)",
"WARNING:sqlglot:Applying array index offset (1)",
],
)
def test_operator(self):
expr = parse_one("1 OPERATOR(+) 2 OPERATOR(*) 3", read="postgres")
expr.left.assert_is(exp.Operator)
expr.left.left.assert_is(exp.Literal)
expr.left.right.assert_is(exp.Literal)
expr.right.assert_is(exp.Literal)
self.assertEqual(expr.sql(dialect="postgres"), "1 OPERATOR(+) 2 OPERATOR(*) 3")
self.validate_identity("SELECT operator FROM t")
self.validate_identity("SELECT 1 OPERATOR(+) 2")
self.validate_identity("SELECT 1 OPERATOR(+) /* foo */ 2")
self.validate_identity("SELECT 1 OPERATOR(pg_catalog.+) 2")
def test_postgres(self):
self.validate_identity("EXEC AS myfunc @id = 123")
expr = parse_one(
"SELECT * FROM r CROSS JOIN LATERAL UNNEST(ARRAY[1]) AS s(location)", read="postgres"
)
unnest = expr.args["joins"][0].this.this
unnest.assert_is(exp.Unnest)
alter_table_only = """ALTER TABLE ONLY "Album" ADD CONSTRAINT "FK_AlbumArtistId" FOREIGN KEY ("ArtistId") REFERENCES "Artist" ("ArtistId") ON DELETE NO ACTION ON UPDATE NO ACTION"""
expr = parse_one(alter_table_only, read="postgres")
# Checks that user-defined types are parsed into DataType instead of Identifier
parse_one("CREATE TABLE t (a udt)", read="postgres").this.expressions[0].args[
"kind"
].assert_is(exp.DataType)
# Checks that OID is parsed into a DataType (ObjectIdentifier)
self.assertIsInstance(
parse_one("CREATE TABLE public.propertydata (propertyvalue oid)", read="postgres").find(
exp.DataType
),
exp.ObjectIdentifier,
)
self.assertIsInstance(expr, exp.AlterTable)
self.assertEqual(expr.sql(dialect="postgres"), alter_table_only)
self.validate_identity(
"SELECT c.oid, n.nspname, c.relname "
"FROM pg_catalog.pg_class AS c "
"LEFT JOIN pg_catalog.pg_namespace AS n ON n.oid = c.relnamespace "
"WHERE c.relname OPERATOR(pg_catalog.~) '^(courses)$' COLLATE pg_catalog.default AND "
"pg_catalog.PG_TABLE_IS_VISIBLE(c.oid) "
"ORDER BY 2, 3"
)
self.validate_identity(
"SELECT ARRAY[]::INT[] AS foo",
"SELECT CAST(ARRAY[] AS INT[]) AS foo",
)
self.validate_identity(
"""ALTER TABLE ONLY "Album" ADD CONSTRAINT "FK_AlbumArtistId" FOREIGN KEY ("ArtistId") REFERENCES "Artist" ("ArtistId") ON DELETE CASCADE"""
)
self.validate_identity(
"""ALTER TABLE ONLY "Album" ADD CONSTRAINT "FK_AlbumArtistId" FOREIGN KEY ("ArtistId") REFERENCES "Artist" ("ArtistId") ON DELETE RESTRICT"""
)
self.validate_identity(
"SELECT * FROM JSON_ARRAY_ELEMENTS('[1,true, [2,false]]') WITH ORDINALITY"
)
self.validate_identity(
"SELECT * FROM JSON_ARRAY_ELEMENTS('[1,true, [2,false]]') WITH ORDINALITY AS kv_json"
)
self.validate_identity(
"SELECT * FROM JSON_ARRAY_ELEMENTS('[1,true, [2,false]]') WITH ORDINALITY AS kv_json(a, b)"
)
self.validate_identity("x @@ y")
self.validate_identity("CAST(x AS MONEY)")
self.validate_identity("CAST(x AS INT4RANGE)")
self.validate_identity("CAST(x AS INT4MULTIRANGE)")
self.validate_identity("CAST(x AS INT8RANGE)")
self.validate_identity("CAST(x AS INT8MULTIRANGE)")
self.validate_identity("CAST(x AS NUMRANGE)")
self.validate_identity("CAST(x AS NUMMULTIRANGE)")
self.validate_identity("CAST(x AS TSRANGE)")
self.validate_identity("CAST(x AS TSMULTIRANGE)")
self.validate_identity("CAST(x AS TSTZRANGE)")
self.validate_identity("CAST(x AS TSTZMULTIRANGE)")
self.validate_identity("CAST(x AS DATERANGE)")
self.validate_identity("CAST(x AS DATEMULTIRANGE)")
self.validate_identity(
"""LAST_VALUE("col1") OVER (ORDER BY "col2" RANGE BETWEEN INTERVAL '1 day' PRECEDING AND '1 month' FOLLOWING)"""
)
self.validate_identity("SELECT ARRAY[1, 2, 3] @> ARRAY[1, 2]")
self.validate_identity("SELECT ARRAY[1, 2, 3] <@ ARRAY[1, 2]")
self.validate_identity("SELECT ARRAY[1, 2, 3] && ARRAY[1, 2]")
self.validate_identity("x$")
self.validate_identity("SELECT ARRAY[1, 2, 3]")
self.validate_identity("SELECT ARRAY(SELECT 1)")
self.validate_identity("SELECT ARRAY_LENGTH(ARRAY[1, 2, 3], 1)")
self.validate_identity("STRING_AGG(x, y)")
self.validate_identity("STRING_AGG(x, ',' ORDER BY y)")
self.validate_identity("STRING_AGG(x, ',' ORDER BY y DESC)")
self.validate_identity("STRING_AGG(DISTINCT x, ',' ORDER BY y DESC)")
self.validate_identity("SELECT CASE WHEN SUBSTRING('abcdefg') IN ('ab') THEN 1 ELSE 0 END")
self.validate_identity("COMMENT ON TABLE mytable IS 'this'")
self.validate_identity("SELECT e'\\xDEADBEEF'")
self.validate_identity("SELECT CAST(e'\\176' AS BYTEA)")
self.validate_identity("SELECT * FROM x WHERE SUBSTRING('Thomas' FROM '...$') IN ('mas')")
self.validate_identity("SELECT TRIM(' X' FROM ' XXX ')")
self.validate_identity("SELECT TRIM(LEADING 'bla' FROM ' XXX ' COLLATE utf8_bin)")
self.validate_identity("""SELECT * FROM JSON_TO_RECORDSET(z) AS y("rank" INT)""")
self.validate_identity("x ~ 'y'")
self.validate_identity("x ~* 'y'")
self.validate_identity(
"SELECT SUM(x) OVER a, SUM(y) OVER b FROM c WINDOW a AS (PARTITION BY d), b AS (PARTITION BY e)"
)
self.validate_identity(
"CREATE TABLE A (LIKE B INCLUDING CONSTRAINT INCLUDING COMPRESSION EXCLUDING COMMENTS)"
)
self.validate_identity(
"SELECT CASE WHEN SUBSTRING('abcdefg' FROM 1) IN ('ab') THEN 1 ELSE 0 END"
)
self.validate_identity(
"SELECT CASE WHEN SUBSTRING('abcdefg' FROM 1 FOR 2) IN ('ab') THEN 1 ELSE 0 END"
)
self.validate_identity(
'SELECT * FROM "x" WHERE SUBSTRING("x"."foo" FROM 1 FOR 2) IN (\'mas\')'
)
self.validate_identity(
"SELECT * FROM x WHERE SUBSTRING('Thomas' FROM '%#\"o_a#\"_' FOR '#') IN ('mas')"
)
self.validate_identity(
"SELECT SUBSTRING('bla' + 'foo' || 'bar' FROM 3 - 1 + 5 FOR 4 + SOME_FUNC(arg1, arg2))"
)
self.validate_identity(
"SELECT TO_TIMESTAMP(1284352323.5), TO_TIMESTAMP('05 Dec 2000', 'DD Mon YYYY')"
)
self.validate_all(
"SELECT PERCENTILE_CONT(0.5) WITHIN GROUP (ORDER BY amount)",
write={
"databricks": "SELECT PERCENTILE_APPROX(amount, 0.5)",
"postgres": "SELECT PERCENTILE_CONT(0.5) WITHIN GROUP (ORDER BY amount)",
"presto": "SELECT APPROX_PERCENTILE(amount, 0.5)",
"spark": "SELECT PERCENTILE_APPROX(amount, 0.5)",
"trino": "SELECT APPROX_PERCENTILE(amount, 0.5)",
},
)
self.validate_all(
"e'x'",
write={
"mysql": "x",
},
)
self.validate_all(
"SELECT DATE_PART('isodow'::varchar(6), current_date)",
write={
"postgres": "SELECT EXTRACT(CAST('isodow' AS VARCHAR(6)) FROM CURRENT_DATE)",
},
)
self.validate_all(
"SELECT DATE_PART('minute', timestamp '2023-01-04 04:05:06.789')",
write={
"postgres": "SELECT EXTRACT(minute FROM CAST('2023-01-04 04:05:06.789' AS TIMESTAMP))",
"redshift": "SELECT EXTRACT(minute FROM CAST('2023-01-04 04:05:06.789' AS TIMESTAMP))",
"snowflake": "SELECT DATE_PART(minute, CAST('2023-01-04 04:05:06.789' AS TIMESTAMPNTZ))",
},
)
self.validate_all(
"SELECT DATE_PART('month', date '20220502')",
write={
"postgres": "SELECT EXTRACT(month FROM CAST('20220502' AS DATE))",
"redshift": "SELECT EXTRACT(month FROM CAST('20220502' AS DATE))",
"snowflake": "SELECT DATE_PART(month, CAST('20220502' AS DATE))",
},
)
self.validate_all(
"SELECT (DATE '2016-01-10', DATE '2016-02-01') OVERLAPS (DATE '2016-01-20', DATE '2016-02-10')",
write={
"postgres": "SELECT (CAST('2016-01-10' AS DATE), CAST('2016-02-01' AS DATE)) OVERLAPS (CAST('2016-01-20' AS DATE), CAST('2016-02-10' AS DATE))",
"tsql": "SELECT (CAST('2016-01-10' AS DATE), CAST('2016-02-01' AS DATE)) OVERLAPS (CAST('2016-01-20' AS DATE), CAST('2016-02-10' AS DATE))",
},
)
self.validate_all(
"x ^ y",
write={
"": "POWER(x, y)",
"postgres": "x ^ y",
},
)
self.validate_all(
"x # y",
write={
"": "x ^ y",
"postgres": "x # y",
},
)
self.validate_all(
"GENERATE_SERIES(a, b, ' 2 days ')",
write={
"postgres": "GENERATE_SERIES(a, b, INTERVAL '2 days')",
"presto": "SEQUENCE(a, b, INTERVAL '2' day)",
"trino": "SEQUENCE(a, b, INTERVAL '2' day)",
},
)
self.validate_all(
"GENERATE_SERIES('2019-01-01'::TIMESTAMP, NOW(), '1day')",
write={
"postgres": "GENERATE_SERIES(CAST('2019-01-01' AS TIMESTAMP), CURRENT_TIMESTAMP, INTERVAL '1 day')",
"presto": "SEQUENCE(CAST('2019-01-01' AS TIMESTAMP), CAST(CURRENT_TIMESTAMP AS TIMESTAMP), INTERVAL '1' day)",
"trino": "SEQUENCE(CAST('2019-01-01' AS TIMESTAMP), CAST(CURRENT_TIMESTAMP AS TIMESTAMP), INTERVAL '1' day)",
},
)
self.validate_all(
"GENERATE_SERIES(a, b)",
write={
"postgres": "GENERATE_SERIES(a, b)",
"presto": "SEQUENCE(a, b)",
"trino": "SEQUENCE(a, b)",
"tsql": "GENERATE_SERIES(a, b)",
},
)
self.validate_all(
"GENERATE_SERIES(a, b)",
read={
"postgres": "GENERATE_SERIES(a, b)",
"presto": "SEQUENCE(a, b)",
"trino": "SEQUENCE(a, b)",
"tsql": "GENERATE_SERIES(a, b)",
},
)
self.validate_all(
"SELECT * FROM t CROSS JOIN GENERATE_SERIES(2, 4)",
write={
"postgres": "SELECT * FROM t CROSS JOIN GENERATE_SERIES(2, 4)",
"presto": "SELECT * FROM t CROSS JOIN UNNEST(SEQUENCE(2, 4))",
"trino": "SELECT * FROM t CROSS JOIN UNNEST(SEQUENCE(2, 4))",
"tsql": "SELECT * FROM t CROSS JOIN GENERATE_SERIES(2, 4)",
},
)
self.validate_all(
"SELECT * FROM t CROSS JOIN GENERATE_SERIES(2, 4) AS s",
write={
"postgres": "SELECT * FROM t CROSS JOIN GENERATE_SERIES(2, 4) AS s",
"presto": "SELECT * FROM t CROSS JOIN UNNEST(SEQUENCE(2, 4)) AS _u(s)",
"trino": "SELECT * FROM t CROSS JOIN UNNEST(SEQUENCE(2, 4)) AS _u(s)",
"tsql": "SELECT * FROM t CROSS JOIN GENERATE_SERIES(2, 4) AS s",
},
)
self.validate_all(
"END WORK AND NO CHAIN",
write={"postgres": "COMMIT AND NO CHAIN"},
)
self.validate_all(
"END AND CHAIN",
write={"postgres": "COMMIT AND CHAIN"},
)
self.validate_all(
"CREATE TABLE x (a UUID, b BYTEA)",
write={
"duckdb": "CREATE TABLE x (a UUID, b BLOB)",
"presto": "CREATE TABLE x (a UUID, b VARBINARY)",
"hive": "CREATE TABLE x (a UUID, b BINARY)",
"spark": "CREATE TABLE x (a UUID, b BINARY)",
},
)
self.validate_all(
"123::CHARACTER VARYING",
write={"postgres": "CAST(123 AS VARCHAR)"},
)
self.validate_all(
"TO_TIMESTAMP(123::DOUBLE PRECISION)",
write={"postgres": "TO_TIMESTAMP(CAST(123 AS DOUBLE PRECISION))"},
)
self.validate_all(
"SELECT to_timestamp(123)::time without time zone",
write={"postgres": "SELECT CAST(TO_TIMESTAMP(123) AS TIME)"},
)
self.validate_all(
"SELECT SUM(x) OVER (PARTITION BY a ORDER BY d ROWS 1 PRECEDING)",
write={
"postgres": "SELECT SUM(x) OVER (PARTITION BY a ORDER BY d ROWS BETWEEN 1 PRECEDING AND CURRENT ROW)",
},
)
self.validate_all(
"SELECT * FROM x FETCH 1 ROW",
write={
"postgres": "SELECT * FROM x FETCH FIRST 1 ROWS ONLY",
"presto": "SELECT * FROM x FETCH FIRST 1 ROWS ONLY",
"hive": "SELECT * FROM x LIMIT 1",
"spark": "SELECT * FROM x LIMIT 1",
"sqlite": "SELECT * FROM x LIMIT 1",
},
)
self.validate_all(
"SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname ASC NULLS LAST, lname",
write={
"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",
},
)
self.validate_all(
"SELECT CASE WHEN SUBSTRING('abcdefg' FROM 1 FOR 2) IN ('ab') THEN 1 ELSE 0 END",
write={
"hive": "SELECT CASE WHEN SUBSTRING('abcdefg', 1, 2) IN ('ab') THEN 1 ELSE 0 END",
"spark": "SELECT CASE WHEN SUBSTRING('abcdefg', 1, 2) IN ('ab') THEN 1 ELSE 0 END",
},
)
self.validate_all(
"SELECT * FROM x WHERE SUBSTRING(col1 FROM 3 + LENGTH(col1) - 10 FOR 10) IN (col2)",
write={
"hive": "SELECT * FROM x WHERE SUBSTRING(col1, 3 + LENGTH(col1) - 10, 10) IN (col2)",
"spark": "SELECT * FROM x WHERE SUBSTRING(col1, 3 + LENGTH(col1) - 10, 10) IN (col2)",
},
)
self.validate_all(
"SELECT SUBSTRING(CAST(2022 AS CHAR(4)) || LPAD(CAST(3 AS CHAR(2)), 2, '0') FROM 3 FOR 4)",
read={
"postgres": "SELECT SUBSTRING(2022::CHAR(4) || LPAD(3::CHAR(2), 2, '0') FROM 3 FOR 4)",
},
)
self.validate_all(
"SELECT TRIM(BOTH ' XXX ')",
write={
"mysql": "SELECT TRIM(' XXX ')",
"postgres": "SELECT TRIM(' XXX ')",
"hive": "SELECT TRIM(' XXX ')",
},
)
self.validate_all(
"TRIM(LEADING FROM ' XXX ')",
write={
"mysql": "LTRIM(' XXX ')",
"postgres": "LTRIM(' XXX ')",
"hive": "LTRIM(' XXX ')",
"presto": "LTRIM(' XXX ')",
},
)
self.validate_all(
"TRIM(TRAILING FROM ' XXX ')",
write={
"mysql": "RTRIM(' XXX ')",
"postgres": "RTRIM(' XXX ')",
"hive": "RTRIM(' XXX ')",
"presto": "RTRIM(' XXX ')",
},
)
self.validate_all(
"SELECT * FROM foo, LATERAL (SELECT * FROM bar WHERE bar.id = foo.bar_id) AS ss",
read={
"postgres": "SELECT * FROM foo, LATERAL (SELECT * FROM bar WHERE bar.id = foo.bar_id) AS ss"
},
)
self.validate_all(
"SELECT m.name FROM manufacturers AS m LEFT JOIN LATERAL GET_PRODUCT_NAMES(m.id) pname ON TRUE WHERE pname IS NULL",
write={
"postgres": "SELECT m.name FROM manufacturers AS m LEFT JOIN LATERAL GET_PRODUCT_NAMES(m.id) AS pname ON TRUE WHERE pname IS NULL",
},
)
self.validate_all(
"SELECT p1.id, p2.id, v1, v2 FROM polygons AS p1, polygons AS p2, LATERAL VERTICES(p1.poly) v1, LATERAL VERTICES(p2.poly) v2 WHERE (v1 <-> v2) < 10 AND p1.id <> p2.id",
write={
"postgres": "SELECT p1.id, p2.id, v1, v2 FROM polygons AS p1, polygons AS p2, LATERAL VERTICES(p1.poly) AS v1, LATERAL VERTICES(p2.poly) AS v2 WHERE (v1 <-> v2) < 10 AND p1.id <> p2.id",
},
)
self.validate_all(
"SELECT * FROM r CROSS JOIN LATERAL UNNEST(ARRAY[1]) AS s(location)",
write={
"postgres": "SELECT * FROM r CROSS JOIN LATERAL UNNEST(ARRAY[1]) AS s(location)",
},
)
self.validate_all(
"SELECT id, email, CAST(deleted AS TEXT) FROM users WHERE NOT deleted IS NULL",
read={
"postgres": "SELECT id, email, CAST(deleted AS TEXT) FROM users WHERE deleted NOTNULL"
},
)
self.validate_all(
"SELECT id, email, CAST(deleted AS TEXT) FROM users WHERE NOT deleted IS NULL",
read={
"postgres": "SELECT id, email, CAST(deleted AS TEXT) FROM users WHERE NOT deleted ISNULL"
},
)
self.validate_all(
"'[1,2,3]'::json->2",
write={"postgres": "CAST('[1,2,3]' AS JSON) -> 2"},
)
self.validate_all(
"""'{"a":1,"b":2}'::json->'b'""",
write={
"postgres": """CAST('{"a":1,"b":2}' AS JSON) -> 'b'""",
"redshift": """CAST('{"a":1,"b":2}' AS JSON)."b\"""",
},
)
self.validate_all(
"""'{"x": {"y": 1}}'::json->'x'->'y'""",
write={"postgres": """CAST('{"x": {"y": 1}}' AS JSON) -> 'x' -> 'y'"""},
)
self.validate_all(
"""'{"x": {"y": 1}}'::json->'x'::json->'y'""",
write={"postgres": """CAST(CAST('{"x": {"y": 1}}' AS JSON) -> 'x' AS JSON) -> 'y'"""},
)
self.validate_all(
"""'[1,2,3]'::json->>2""",
write={"postgres": "CAST('[1,2,3]' AS JSON) ->> 2"},
)
self.validate_all(
"""'{"a":1,"b":2}'::json->>'b'""",
write={"postgres": """CAST('{"a":1,"b":2}' AS JSON) ->> 'b'"""},
)
self.validate_all(
"""'{"a":[1,2,3],"b":[4,5,6]}'::json#>'{a,2}'""",
write={"postgres": """CAST('{"a":[1,2,3],"b":[4,5,6]}' AS JSON) #> '{a,2}'"""},
)
self.validate_all(
"""'{"a":[1,2,3],"b":[4,5,6]}'::json#>>'{a,2}'""",
write={"postgres": """CAST('{"a":[1,2,3],"b":[4,5,6]}' AS JSON) #>> '{a,2}'"""},
)
self.validate_all(
"""SELECT JSON_ARRAY_ELEMENTS((foo->'sections')::JSON) AS sections""",
write={
"postgres": """SELECT JSON_ARRAY_ELEMENTS(CAST((foo -> 'sections') AS JSON)) AS sections""",
"presto": """SELECT JSON_ARRAY_ELEMENTS(CAST((JSON_EXTRACT(foo, 'sections')) AS JSON)) AS sections""",
},
)
self.validate_all(
"""x ? 'x'""",
write={"postgres": "x ? 'x'"},
)
self.validate_all(
"SELECT $$a$$",
write={"postgres": "SELECT 'a'"},
)
self.validate_all(
"SELECT $$Dianne's horse$$",
write={"postgres": "SELECT 'Dianne''s horse'"},
)
self.validate_all(
"UPDATE MYTABLE T1 SET T1.COL = 13",
write={"postgres": "UPDATE MYTABLE AS T1 SET T1.COL = 13"},
)
self.validate_all(
"x !~ 'y'",
write={"postgres": "NOT x ~ 'y'"},
)
self.validate_all(
"x !~* 'y'",
write={"postgres": "NOT x ~* 'y'"},
)
self.validate_all(
"x ~~ 'y'",
write={"postgres": "x LIKE 'y'"},
)
self.validate_all(
"x ~~* 'y'",
write={"postgres": "x ILIKE 'y'"},
)
self.validate_all(
"x !~~ 'y'",
write={"postgres": "NOT x LIKE 'y'"},
)
self.validate_all(
"x !~~* 'y'",
write={"postgres": "NOT x ILIKE 'y'"},
)
self.validate_all(
"'45 days'::interval day",
write={"postgres": "CAST('45 days' AS INTERVAL day)"},
)
self.validate_all(
"'x' 'y' 'z'",
write={"postgres": "CONCAT('x', 'y', 'z')"},
)
self.validate_all(
"x::cstring",
write={"postgres": "CAST(x AS CSTRING)"},
)
self.validate_all(
"x::oid",
write={"postgres": "CAST(x AS OID)"},
)
self.validate_all(
"x::regclass",
write={"postgres": "CAST(x AS REGCLASS)"},
)
self.validate_all(
"x::regcollation",
write={"postgres": "CAST(x AS REGCOLLATION)"},
)
self.validate_all(
"x::regconfig",
write={"postgres": "CAST(x AS REGCONFIG)"},
)
self.validate_all(
"x::regdictionary",
write={"postgres": "CAST(x AS REGDICTIONARY)"},
)
self.validate_all(
"x::regnamespace",
write={"postgres": "CAST(x AS REGNAMESPACE)"},
)
self.validate_all(
"x::regoper",
write={"postgres": "CAST(x AS REGOPER)"},
)
self.validate_all(
"x::regoperator",
write={"postgres": "CAST(x AS REGOPERATOR)"},
)
self.validate_all(
"x::regproc",
write={"postgres": "CAST(x AS REGPROC)"},
)
self.validate_all(
"x::regprocedure",
write={"postgres": "CAST(x AS REGPROCEDURE)"},
)
self.validate_all(
"x::regrole",
write={"postgres": "CAST(x AS REGROLE)"},
)
self.validate_all(
"x::regtype",
write={"postgres": "CAST(x AS REGTYPE)"},
)
self.validate_all(
"TRIM(BOTH 'as' FROM 'as string as')",
write={
"postgres": "TRIM(BOTH 'as' FROM 'as string as')",
"spark": "TRIM(BOTH 'as' FROM 'as string as')",
},
)
self.validate_all(
"""merge into x as x using (select id) as y on a = b WHEN matched then update set X."A" = y.b""",
write={
"postgres": """MERGE INTO x AS x USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET "A" = y.b""",
"snowflake": """MERGE INTO x AS x USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET X."A" = y.b""",
},
)
self.validate_all(
"merge into x as z using (select id) as y on a = b WHEN matched then update set X.a = y.b",
write={
"postgres": "MERGE INTO x AS z USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET a = y.b",
"snowflake": "MERGE INTO x AS z USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET X.a = y.b",
},
)
self.validate_all(
"merge into x as z using (select id) as y on a = b WHEN matched then update set Z.a = y.b",
write={
"postgres": "MERGE INTO x AS z USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET a = y.b",
"snowflake": "MERGE INTO x AS z USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET Z.a = y.b",
},
)
self.validate_all(
"merge into x using (select id) as y on a = b WHEN matched then update set x.a = y.b",
write={
"postgres": "MERGE INTO x USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET a = y.b",
"snowflake": "MERGE INTO x USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET x.a = y.b",
},
)
self.validate_all(
"MERGE INTO x USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET x.a = y.b WHEN NOT MATCHED THEN INSERT (a, b) VALUES (y.a, y.b)",
write={
"postgres": "MERGE INTO x USING (SELECT id) AS y ON a = b WHEN MATCHED THEN UPDATE SET a = y.b WHEN NOT MATCHED THEN INSERT (a, b) VALUES (y.a, y.b)",
},
)
self.validate_all(
"x / y ^ z",
write={
"": "x / POWER(y, z)",
"postgres": "x / y ^ z",
},
)
self.assertIsInstance(parse_one("id::UUID", read="postgres"), exp.Cast)
def test_bool_or(self):
self.validate_all(
"SELECT a, LOGICAL_OR(b) FROM table GROUP BY a",
write={"postgres": "SELECT a, BOOL_OR(b) FROM table GROUP BY a"},
)
def test_string_concat(self):
self.validate_identity("SELECT CONCAT('abcde', 2, NULL, 22)")
self.validate_all(
"CONCAT(a, b)",
write={
"": "CONCAT(COALESCE(a, ''), COALESCE(b, ''))",
"clickhouse": "CONCAT(COALESCE(a, ''), COALESCE(b, ''))",
"duckdb": "CONCAT(a, b)",
"postgres": "CONCAT(a, b)",
"presto": "CONCAT(COALESCE(CAST(a AS VARCHAR), ''), COALESCE(CAST(b AS VARCHAR), ''))",
},
)
self.validate_all(
"a || b",
write={
"": "a || b",
"clickhouse": "a || b",
"duckdb": "a || b",
"postgres": "a || b",
"presto": "CONCAT(CAST(a AS VARCHAR), CAST(b AS VARCHAR))",
},
)
def test_variance(self):
self.validate_all("VAR_SAMP(x)", write={"postgres": "VAR_SAMP(x)"})
self.validate_all("VAR_POP(x)", write={"postgres": "VAR_POP(x)"})
self.validate_all("VARIANCE(x)", write={"postgres": "VAR_SAMP(x)"})
self.validate_all(
"VAR_POP(x)", read={"": "VARIANCE_POP(x)"}, write={"postgres": "VAR_POP(x)"}
)
def test_regexp_binary(self):
"""See https://github.com/tobymao/sqlglot/pull/2404 for details."""
self.assertIsInstance(parse_one("'thomas' ~ '.*thomas.*'", read="postgres"), exp.Binary)
self.assertIsInstance(parse_one("'thomas' ~* '.*thomas.*'", read="postgres"), exp.Binary)
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