from sqlglot import exp, parse_one from tests.dialects.test_dialect import Validator class TestClickhouse(Validator): dialect = "clickhouse" def test_clickhouse(self): expr = parse_one("count(x)") self.assertEqual(expr.sql(dialect="clickhouse"), "COUNT(x)") self.assertIsNone(expr._meta) self.validate_identity("CAST(x AS Nested(ID UInt32, Serial UInt32, EventTime DATETIME))") self.validate_identity("CAST(x AS Enum('hello' = 1, 'world' = 2))") self.validate_identity("CAST(x AS Enum('hello', 'world'))") self.validate_identity("CAST(x AS Enum('hello' = 1, 'world'))") self.validate_identity("CAST(x AS Enum8('hello' = -123, 'world'))") self.validate_identity("CAST(x AS FixedString(1))") self.validate_identity("CAST(x AS LowCardinality(FixedString))") self.validate_identity("SELECT isNaN(1.0)") self.validate_identity("SELECT startsWith('Spider-Man', 'Spi')") self.validate_identity("SELECT xor(TRUE, FALSE)") self.validate_identity("ATTACH DATABASE DEFAULT ENGINE = ORDINARY") self.validate_identity("CAST(['hello'], 'Array(Enum8(''hello'' = 1))')") self.validate_identity("SELECT x, COUNT() FROM y GROUP BY x WITH TOTALS") self.validate_identity("SELECT INTERVAL t.days day") self.validate_identity("SELECT match('abc', '([a-z]+)')") self.validate_identity("dictGet(x, 'y')") self.validate_identity("SELECT * FROM x FINAL") self.validate_identity("SELECT * FROM x AS y FINAL") self.validate_identity("'a' IN mapKeys(map('a', 1, 'b', 2))") self.validate_identity("CAST((1, 2) AS Tuple(a Int8, b Int16))") self.validate_identity("SELECT * FROM foo LEFT ANY JOIN bla") self.validate_identity("SELECT * FROM foo LEFT ASOF JOIN bla") self.validate_identity("SELECT * FROM foo ASOF JOIN bla") self.validate_identity("SELECT * FROM foo ANY JOIN bla") self.validate_identity("SELECT * FROM foo GLOBAL ANY JOIN bla") self.validate_identity("SELECT * FROM foo GLOBAL LEFT ANY JOIN bla") self.validate_identity("SELECT quantile(0.5)(a)") self.validate_identity("SELECT quantiles(0.5)(a) AS x FROM t") self.validate_identity("SELECT quantiles(0.1, 0.2, 0.3)(a)") self.validate_identity("SELECT quantileTiming(0.5)(RANGE(100))") self.validate_identity("SELECT histogram(5)(a)") self.validate_identity("SELECT groupUniqArray(2)(a)") self.validate_identity("SELECT exponentialTimeDecayedAvg(60)(a, b)") self.validate_identity("SELECT * FROM foo WHERE x GLOBAL IN (SELECT * FROM bar)") self.validate_identity("position(haystack, needle)") self.validate_identity("position(haystack, needle, position)") self.validate_identity("CAST(x AS DATETIME)") self.validate_identity( 'SELECT CAST(tuple(1 AS "a", 2 AS "b", 3.0 AS "c").2 AS Nullable(TEXT))' ) self.validate_identity( "CREATE TABLE test (id UInt8) ENGINE=AggregatingMergeTree() ORDER BY tuple()" ) self.validate_identity( "CREATE TABLE test ON CLUSTER default (id UInt8) ENGINE=AggregatingMergeTree() ORDER BY tuple()" ) self.validate_identity( "CREATE MATERIALIZED VIEW test_view ON CLUSTER cl1 (id UInt8) ENGINE=AggregatingMergeTree() ORDER BY tuple() AS SELECT * FROM test_data" ) self.validate_identity( "CREATE MATERIALIZED VIEW test_view ON CLUSTER cl1 (id UInt8) TO table1 AS SELECT * FROM test_data" ) self.validate_identity( "CREATE MATERIALIZED VIEW test_view (id UInt8) TO db.table1 AS SELECT * FROM test_data" ) self.validate_all( "SELECT xor(1, 0)", read={ "clickhouse": "SELECT xor(1, 0)", "mysql": "SELECT 1 XOR 0", }, write={ "mysql": "SELECT 1 XOR 0", }, ) self.validate_all( "SELECT xor(0, 1, xor(1, 0, 0))", write={ "clickhouse": "SELECT xor(0, 1, xor(1, 0, 0))", "mysql": "SELECT 0 XOR 1 XOR 1 XOR 0 XOR 0", }, ) self.validate_all( "SELECT xor(xor(1, 0), 1)", read={ "clickhouse": "SELECT xor(xor(1, 0), 1)", "mysql": "SELECT 1 XOR 0 XOR 1", }, write={ "clickhouse": "SELECT xor(xor(1, 0), 1)", "mysql": "SELECT 1 XOR 0 XOR 1", }, ) self.validate_all( "CONCAT(CASE WHEN COALESCE(CAST(a AS TEXT), '') IS NULL THEN COALESCE(CAST(a AS TEXT), '') ELSE CAST(COALESCE(CAST(a AS TEXT), '') AS TEXT) END, CASE WHEN COALESCE(CAST(b AS TEXT), '') IS NULL THEN COALESCE(CAST(b AS TEXT), '') ELSE CAST(COALESCE(CAST(b AS TEXT), '') AS TEXT) END)", read={"postgres": "CONCAT(a, b)"}, ) self.validate_all( "CONCAT(CASE WHEN a IS NULL THEN a ELSE CAST(a AS TEXT) END, CASE WHEN b IS NULL THEN b ELSE CAST(b AS TEXT) END)", read={"mysql": "CONCAT(a, b)"}, ) self.validate_all( r"'Enum8(\'Sunday\' = 0)'", write={"clickhouse": "'Enum8(''Sunday'' = 0)'"} ) self.validate_all( "SELECT uniq(x) FROM (SELECT any(y) AS x FROM (SELECT 1 AS y))", read={ "bigquery": "SELECT APPROX_COUNT_DISTINCT(x) FROM (SELECT ANY_VALUE(y) x FROM (SELECT 1 y))", }, write={ "bigquery": "SELECT APPROX_COUNT_DISTINCT(x) FROM (SELECT ANY_VALUE(y) AS x FROM (SELECT 1 AS y))", }, ) self.validate_all( "SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname ASC NULLS LAST, lname", write={ "clickhouse": "SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname, lname", "spark": "SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname NULLS LAST, lname NULLS LAST", }, ) self.validate_all( "CAST(1 AS NULLABLE(Int64))", write={ "clickhouse": "CAST(1 AS Nullable(Int64))", }, ) self.validate_all( "CAST(1 AS Nullable(DateTime64(6, 'UTC')))", write={"clickhouse": "CAST(1 AS Nullable(DateTime64(6, 'UTC')))"}, ) self.validate_all( "SELECT x #! comment", write={"": "SELECT x /* comment */"}, ) self.validate_all( "SELECT quantileIf(0.5)(a, true)", write={ "clickhouse": "SELECT quantileIf(0.5)(a, TRUE)", }, ) self.validate_all( "SELECT position(needle IN haystack)", write={"clickhouse": "SELECT position(haystack, needle)"}, ) self.validate_identity( "SELECT * FROM x LIMIT 10 SETTINGS max_results = 100, result = 'break'" ) self.validate_identity("SELECT * FROM x LIMIT 10 SETTINGS max_results = 100, result_") self.validate_identity("SELECT * FROM x FORMAT PrettyCompact") self.validate_identity( "SELECT * FROM x LIMIT 10 SETTINGS max_results = 100, result_ FORMAT PrettyCompact" ) self.validate_all( "SELECT * FROM foo JOIN bar USING id, name", write={"clickhouse": "SELECT * FROM foo JOIN bar USING (id, name)"}, ) self.validate_all( "SELECT * FROM foo ANY LEFT JOIN bla ON foo.c1 = bla.c2", write={"clickhouse": "SELECT * FROM foo LEFT ANY JOIN bla ON foo.c1 = bla.c2"}, ) self.validate_all( "SELECT * FROM foo GLOBAL ANY LEFT JOIN bla ON foo.c1 = bla.c2", write={"clickhouse": "SELECT * FROM foo GLOBAL LEFT ANY JOIN bla ON foo.c1 = bla.c2"}, ) self.validate_all( """ SELECT loyalty, count() FROM hits SEMI LEFT JOIN users USING (UserID) GROUP BY loyalty ORDER BY loyalty ASC """, write={ "clickhouse": "SELECT loyalty, count() FROM hits LEFT SEMI JOIN users USING (UserID)" + " GROUP BY loyalty ORDER BY loyalty" }, ) self.validate_identity("SELECT s, arr FROM arrays_test ARRAY JOIN arr") self.validate_identity("SELECT s, arr, a FROM arrays_test LEFT ARRAY JOIN arr AS a") self.validate_identity( "SELECT s, arr_external FROM arrays_test ARRAY JOIN [1, 2, 3] AS arr_external" ) def test_cte(self): self.validate_identity("WITH 'x' AS foo SELECT foo") self.validate_identity("WITH SUM(bytes) AS foo SELECT foo FROM system.parts") self.validate_identity("WITH (SELECT foo) AS bar SELECT bar + 5") self.validate_identity("WITH test1 AS (SELECT i + 1, j + 1 FROM test1) SELECT * FROM test1") def test_ternary(self): self.validate_all("x ? 1 : 2", write={"clickhouse": "CASE WHEN x THEN 1 ELSE 2 END"}) self.validate_all( "IF(BAR(col), sign > 0 ? FOO() : 0, 1)", write={ "clickhouse": "CASE WHEN BAR(col) THEN CASE WHEN sign > 0 THEN FOO() ELSE 0 END ELSE 1 END" }, ) self.validate_all( "x AND FOO() > 3 + 2 ? 1 : 2", write={"clickhouse": "CASE WHEN x AND FOO() > 3 + 2 THEN 1 ELSE 2 END"}, ) self.validate_all( "x ? (y ? 1 : 2) : 3", write={"clickhouse": "CASE WHEN x THEN (CASE WHEN y THEN 1 ELSE 2 END) ELSE 3 END"}, ) self.validate_all( "x AND (foo() ? FALSE : TRUE) ? (y ? 1 : 2) : 3", write={ "clickhouse": "CASE WHEN x AND (CASE WHEN foo() THEN FALSE ELSE TRUE END) THEN (CASE WHEN y THEN 1 ELSE 2 END) ELSE 3 END" }, ) ternary = parse_one("x ? (y ? 1 : 2) : 3", read="clickhouse") self.assertIsInstance(ternary, exp.If) self.assertIsInstance(ternary.this, exp.Column) self.assertIsInstance(ternary.args["true"], exp.Paren) self.assertIsInstance(ternary.args["false"], exp.Literal) nested_ternary = ternary.args["true"].this self.assertIsInstance(nested_ternary.this, exp.Column) self.assertIsInstance(nested_ternary.args["true"], exp.Literal) self.assertIsInstance(nested_ternary.args["false"], exp.Literal) parse_one("a and b ? 1 : 2", read="clickhouse").assert_is(exp.If).this.assert_is(exp.And) def test_parameterization(self): self.validate_all( "SELECT {abc: UInt32}, {b: String}, {c: DateTime},{d: Map(String, Array(UInt8))}, {e: Tuple(UInt8, String)}", write={ "clickhouse": "SELECT {abc: UInt32}, {b: TEXT}, {c: DATETIME}, {d: Map(TEXT, Array(UInt8))}, {e: Tuple(UInt8, String)}", "": "SELECT :abc, :b, :c, :d, :e", }, ) self.validate_all( "SELECT * FROM {table: Identifier}", write={"clickhouse": "SELECT * FROM {table: Identifier}"}, ) def test_signed_and_unsigned_types(self): data_types = [ "UInt8", "UInt16", "UInt32", "UInt64", "UInt128", "UInt256", "Int8", "Int16", "Int32", "Int64", "Int128", "Int256", ] for data_type in data_types: self.validate_all( f"pow(2, 32)::{data_type}", write={"clickhouse": f"CAST(pow(2, 32) AS {data_type})"}, ) def test_ddl(self): self.validate_identity( "CREATE TABLE foo (x UInt32) TTL time_column + INTERVAL '1' MONTH DELETE WHERE column = 'value'" ) self.validate_all( """ CREATE TABLE example1 ( timestamp DateTime, x UInt32 TTL now() + INTERVAL 1 MONTH, y String TTL timestamp + INTERVAL 1 DAY, z String ) ENGINE = MergeTree ORDER BY tuple() """, write={ "clickhouse": """CREATE TABLE example1 ( timestamp DATETIME, x UInt32 TTL now() + INTERVAL '1' MONTH, y TEXT TTL timestamp + INTERVAL '1' DAY, z TEXT ) ENGINE=MergeTree ORDER BY tuple()""", }, pretty=True, ) self.validate_all( """ CREATE TABLE test (id UInt64, timestamp DateTime64, data String, max_hits UInt64, sum_hits UInt64) ENGINE = MergeTree PRIMARY KEY (id, toStartOfDay(timestamp), timestamp) TTL timestamp + INTERVAL 1 DAY GROUP BY id, toStartOfDay(timestamp) SET max_hits = max(max_hits), sum_hits = sum(sum_hits) """, write={ "clickhouse": """CREATE TABLE test ( id UInt64, timestamp DateTime64, data TEXT, max_hits UInt64, sum_hits UInt64 ) ENGINE=MergeTree PRIMARY KEY (id, toStartOfDay(timestamp), timestamp) TTL timestamp + INTERVAL '1' DAY GROUP BY id, toStartOfDay(timestamp) SET max_hits = max(max_hits), sum_hits = sum(sum_hits)""", }, pretty=True, ) self.validate_all( """ CREATE TABLE test (id String, data String) ENGINE = AggregatingMergeTree() ORDER BY tuple() SETTINGS max_suspicious_broken_parts=500, parts_to_throw_insert=100 """, write={ "clickhouse": """CREATE TABLE test ( id TEXT, data TEXT ) ENGINE=AggregatingMergeTree() ORDER BY tuple() SETTINGS max_suspicious_broken_parts = 500, parts_to_throw_insert = 100""", }, pretty=True, ) self.validate_all( """ CREATE TABLE example_table ( d DateTime, a Int ) ENGINE = MergeTree PARTITION BY toYYYYMM(d) ORDER BY d TTL d + INTERVAL 1 MONTH DELETE, d + INTERVAL 1 WEEK TO VOLUME 'aaa', d + INTERVAL 2 WEEK TO DISK 'bbb'; """, write={ "clickhouse": """CREATE TABLE example_table ( d DATETIME, a Int32 ) ENGINE=MergeTree PARTITION BY toYYYYMM(d) ORDER BY d TTL d + INTERVAL '1' MONTH DELETE, d + INTERVAL '1' WEEK TO VOLUME 'aaa', d + INTERVAL '2' WEEK TO DISK 'bbb'""", }, pretty=True, ) self.validate_all( """ CREATE TABLE table_with_where ( d DateTime, a Int ) ENGINE = MergeTree PARTITION BY toYYYYMM(d) ORDER BY d TTL d + INTERVAL 1 MONTH DELETE WHERE toDayOfWeek(d) = 1; """, write={ "clickhouse": """CREATE TABLE table_with_where ( d DATETIME, a Int32 ) ENGINE=MergeTree PARTITION BY toYYYYMM(d) ORDER BY d TTL d + INTERVAL '1' MONTH DELETE WHERE toDayOfWeek(d) = 1""", }, pretty=True, ) self.validate_all( """ CREATE TABLE table_for_recompression ( d DateTime, key UInt64, value String ) ENGINE MergeTree() ORDER BY tuple() PARTITION BY key TTL d + INTERVAL 1 MONTH RECOMPRESS CODEC(ZSTD(17)), d + INTERVAL 1 YEAR RECOMPRESS CODEC(LZ4HC(10)) SETTINGS min_rows_for_wide_part = 0, min_bytes_for_wide_part = 0; """, write={ "clickhouse": """CREATE TABLE table_for_recompression ( d DATETIME, key UInt64, value TEXT ) ENGINE=MergeTree() ORDER BY tuple() PARTITION BY key TTL d + INTERVAL '1' MONTH RECOMPRESS CODEC(ZSTD(17)), d + INTERVAL '1' YEAR RECOMPRESS CODEC(LZ4HC(10)) SETTINGS min_rows_for_wide_part = 0, min_bytes_for_wide_part = 0""", }, pretty=True, ) self.validate_all( """ CREATE TABLE table_for_aggregation ( d DateTime, k1 Int, k2 Int, x Int, y Int ) ENGINE = MergeTree ORDER BY (k1, k2) TTL d + INTERVAL 1 MONTH GROUP BY k1, k2 SET x = max(x), y = min(y); """, write={ "clickhouse": """CREATE TABLE table_for_aggregation ( d DATETIME, k1 Int32, k2 Int32, x Int32, y Int32 ) ENGINE=MergeTree ORDER BY (k1, k2) TTL d + INTERVAL '1' MONTH GROUP BY k1, k2 SET x = max(x), y = min(y)""", }, pretty=True, ) self.validate_all( """ CREATE DICTIONARY discounts_dict ( advertiser_id UInt64, discount_start_date Date, discount_end_date Date, amount Float64 ) PRIMARY KEY id SOURCE(CLICKHOUSE(TABLE 'discounts')) LIFETIME(MIN 1 MAX 1000) LAYOUT(RANGE_HASHED(range_lookup_strategy 'max')) RANGE(MIN discount_start_date MAX discount_end_date) """, write={ "clickhouse": """CREATE DICTIONARY discounts_dict ( advertiser_id UInt64, discount_start_date DATE, discount_end_date DATE, amount Float64 ) PRIMARY KEY (id) SOURCE(CLICKHOUSE( TABLE 'discounts' )) LIFETIME(MIN 1 MAX 1000) LAYOUT(RANGE_HASHED( range_lookup_strategy 'max' )) RANGE(MIN discount_start_date MAX discount_end_date)""", }, pretty=True, ) self.validate_all( """ CREATE DICTIONARY my_ip_trie_dictionary ( prefix String, asn UInt32, cca2 String DEFAULT '??' ) PRIMARY KEY prefix SOURCE(CLICKHOUSE(TABLE 'my_ip_addresses')) LAYOUT(IP_TRIE) LIFETIME(3600); """, write={ "clickhouse": """CREATE DICTIONARY my_ip_trie_dictionary ( prefix TEXT, asn UInt32, cca2 TEXT DEFAULT '??' ) PRIMARY KEY (prefix) SOURCE(CLICKHOUSE( TABLE 'my_ip_addresses' )) LAYOUT(IP_TRIE()) LIFETIME(MIN 0 MAX 3600)""", }, pretty=True, ) self.validate_all( """ CREATE DICTIONARY polygons_test_dictionary ( key Array(Array(Array(Tuple(Float64, Float64)))), name String ) PRIMARY KEY key SOURCE(CLICKHOUSE(TABLE 'polygons_test_table')) LAYOUT(POLYGON(STORE_POLYGON_KEY_COLUMN 1)) LIFETIME(0); """, write={ "clickhouse": """CREATE DICTIONARY polygons_test_dictionary ( key Array(Array(Array(Tuple(Float64, Float64)))), name TEXT ) PRIMARY KEY (key) SOURCE(CLICKHOUSE( TABLE 'polygons_test_table' )) LAYOUT(POLYGON( STORE_POLYGON_KEY_COLUMN 1 )) LIFETIME(MIN 0 MAX 0)""", }, pretty=True, )