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|
from sqlglot import exp, parse_one
from tests.dialects.test_dialect import Validator
class TestClickhouse(Validator):
dialect = "clickhouse"
def test_clickhouse(self):
self.validate_identity("SELECT * FROM x LIMIT 1 UNION ALL SELECT * FROM y")
string_types = [
"BLOB",
"LONGBLOB",
"LONGTEXT",
"MEDIUMBLOB",
"MEDIUMTEXT",
"TINYBLOB",
"TINYTEXT",
"VARCHAR(255)",
]
for string_type in string_types:
self.validate_identity(f"CAST(x AS {string_type})", "CAST(x AS String)")
expr = parse_one("count(x)")
self.assertEqual(expr.sql(dialect="clickhouse"), "COUNT(x)")
self.assertIsNone(expr._meta)
self.validate_identity("countIf(x, y)")
self.validate_identity("x = y")
self.validate_identity("x <> y")
self.validate_identity("SELECT * FROM (SELECT a FROM b SAMPLE 0.01)")
self.validate_identity("SELECT * FROM (SELECT a FROM b SAMPLE 1 / 10 OFFSET 1 / 2)")
self.validate_identity("SELECT sum(foo * bar) FROM bla SAMPLE 10000000")
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("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("WITH final AS (SELECT 1) SELECT * FROM final")
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 quantilesIf(0.5)(a, a > 1) AS x FROM t")
self.validate_identity("SELECT quantileState(0.5)(a) AS x FROM t")
self.validate_identity("SELECT deltaSumMerge(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("CAST(x as MEDIUMINT)", "CAST(x AS Int32)")
self.validate_identity("SELECT arrayJoin([1, 2, 3] AS src) AS dst, 'Hello', src")
self.validate_identity(
"ATTACH DATABASE DEFAULT ENGINE = ORDINARY", check_command_warning=True
)
self.validate_identity(
"SELECT n, source FROM (SELECT toFloat32(number % 10) AS n, 'original' AS source FROM numbers(10) WHERE number % 3 = 1) ORDER BY n WITH FILL"
)
self.validate_identity(
"SELECT n, source FROM (SELECT toFloat32(number % 10) AS n, 'original' AS source FROM numbers(10) WHERE number % 3 = 1) ORDER BY n WITH FILL FROM 0 TO 5.51 STEP 0.5"
)
self.validate_identity(
"SELECT toDate((number * 10) * 86400) AS d1, toDate(number * 86400) AS d2, 'original' AS source FROM numbers(10) WHERE (number % 3) = 1 ORDER BY d2 WITH FILL, d1 WITH FILL STEP 5"
)
self.validate_identity(
"SELECT n, source, inter FROM (SELECT toFloat32(number % 10) AS n, 'original' AS source, number AS inter FROM numbers(10) WHERE number % 3 = 1) ORDER BY n WITH FILL FROM 0 TO 5.51 STEP 0.5 INTERPOLATE (inter AS inter + 1)"
)
self.validate_identity(
"SELECT SUM(1) AS impressions, arrayJoin(cities) AS city, arrayJoin(browsers) AS browser FROM (SELECT ['Istanbul', 'Berlin', 'Bobruisk'] AS cities, ['Firefox', 'Chrome', 'Chrome'] AS browsers) GROUP BY 2, 3"
)
self.validate_identity(
"SELECT sum(1) AS impressions, (arrayJoin(arrayZip(cities, browsers)) AS t).1 AS city, t.2 AS browser FROM (SELECT ['Istanbul', 'Berlin', 'Bobruisk'] AS cities, ['Firefox', 'Chrome', 'Chrome'] AS browsers) GROUP BY 2, 3"
)
self.validate_identity(
"SELECT SUM(1) AS impressions FROM (SELECT ['Istanbul', 'Berlin', 'Bobruisk'] AS cities) WHERE arrayJoin(cities) IN ['Istanbul', 'Berlin']",
"SELECT SUM(1) AS impressions FROM (SELECT ['Istanbul', 'Berlin', 'Bobruisk'] AS cities) WHERE arrayJoin(cities) IN ('Istanbul', 'Berlin')",
)
self.validate_identity(
'SELECT CAST(tuple(1 AS "a", 2 AS "b", 3.0 AS "c").2 AS Nullable(String))'
)
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 arrayJoin([1,2,3])",
write={
"clickhouse": "SELECT arrayJoin([1, 2, 3])",
"postgres": "SELECT UNNEST(ARRAY[1, 2, 3])",
},
)
self.validate_all(
"has([1], x)",
read={
"postgres": "x = any(array[1])",
},
)
self.validate_all(
"NOT has([1], x)",
read={
"postgres": "any(array[1]) <> x",
},
)
self.validate_all(
"SELECT CAST('2020-01-01' AS TIMESTAMP) + INTERVAL '500' MICROSECOND",
read={
"duckdb": "SELECT TIMESTAMP '2020-01-01' + INTERVAL '500 us'",
"postgres": "SELECT TIMESTAMP '2020-01-01' + INTERVAL '500 us'",
},
)
self.validate_all(
"SELECT CURRENT_DATE()",
read={
"clickhouse": "SELECT CURRENT_DATE()",
"postgres": "SELECT CURRENT_DATE",
},
)
self.validate_all(
"SELECT CURRENT_TIMESTAMP()",
read={
"clickhouse": "SELECT CURRENT_TIMESTAMP()",
"postgres": "SELECT CURRENT_TIMESTAMP",
},
)
self.validate_all(
"SELECT match('ThOmAs', CONCAT('(?i)', 'thomas'))",
read={
"postgres": "SELECT 'ThOmAs' ~* 'thomas'",
},
)
self.validate_all(
"SELECT match('ThOmAs', CONCAT('(?i)', x)) FROM t",
read={
"postgres": "SELECT 'ThOmAs' ~* x FROM t",
},
)
self.validate_all(
"SELECT '\\0'",
read={
"mysql": "SELECT '\0'",
},
write={
"clickhouse": "SELECT '\\0'",
"mysql": "SELECT '\0'",
},
)
self.validate_all(
"DATE_ADD(DAY, 1, x)",
read={
"clickhouse": "dateAdd(DAY, 1, x)",
"presto": "DATE_ADD('DAY', 1, x)",
},
write={
"clickhouse": "DATE_ADD(DAY, 1, x)",
"presto": "DATE_ADD('DAY', 1, x)",
"": "DATE_ADD(x, 1, 'DAY')",
},
)
self.validate_all(
"DATE_DIFF(DAY, a, b)",
read={
"clickhouse": "dateDiff(DAY, a, b)",
"presto": "DATE_DIFF('DAY', a, b)",
},
write={
"clickhouse": "DATE_DIFF(DAY, a, b)",
"presto": "DATE_DIFF('DAY', a, b)",
"": "DATEDIFF(b, a, DAY)",
},
)
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(a, b)",
read={
"clickhouse": "CONCAT(a, b)",
"mysql": "CONCAT(a, b)",
},
write={
"mysql": "CONCAT(a, b)",
"postgres": "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 ASC, lname",
"spark": "SELECT fname, lname, age FROM person ORDER BY age DESC NULLS FIRST, fname ASC 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 ASC"
},
)
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"
)
self.validate_all(
"SELECT quantile(0.5)(a)",
read={"duckdb": "SELECT quantile(a, 0.5)"},
write={"clickhouse": "SELECT quantile(0.5)(a)"},
)
self.validate_all(
"SELECT quantiles(0.5, 0.4)(a)",
read={"duckdb": "SELECT quantile(a, [0.5, 0.4])"},
write={"clickhouse": "SELECT quantiles(0.5, 0.4)(a)"},
)
self.validate_all(
"SELECT quantiles(0.5)(a)",
read={"duckdb": "SELECT quantile(a, [0.5])"},
write={"clickhouse": "SELECT quantiles(0.5)(a)"},
)
self.validate_identity("SELECT isNaN(x)")
self.validate_all(
"SELECT IS_NAN(x), ISNAN(x)",
write={"clickhouse": "SELECT isNaN(x), isNaN(x)"},
)
self.validate_identity("SELECT startsWith('a', 'b')")
self.validate_all(
"SELECT STARTS_WITH('a', 'b'), STARTSWITH('a', 'b')",
write={"clickhouse": "SELECT startsWith('a', 'b'), startsWith('a', 'b')"},
)
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")
query = parse_one("""WITH (SELECT 1) AS y SELECT * FROM y""", read="clickhouse")
self.assertIsInstance(query.args["with"].expressions[0].this, exp.Subquery)
self.assertEqual(query.args["with"].expressions[0].alias, "y")
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: String}, {c: DATETIME}, {d: Map(String, 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 data5 ("x" UInt32, "y" UInt32) ENGINE=MergeTree ORDER BY (round(y / 1000000000), cityHash64(x)) SAMPLE BY cityHash64(x)'
)
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 String TTL timestamp + INTERVAL '1' DAY,
z String
)
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 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)""",
},
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 String,
data String
)
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 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""",
},
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 String,
asn UInt32,
cca2 String 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 String
)
PRIMARY KEY (key)
SOURCE(CLICKHOUSE(
TABLE 'polygons_test_table'
))
LAYOUT(POLYGON(
STORE_POLYGON_KEY_COLUMN 1
))
LIFETIME(MIN 0 MAX 0)""",
},
pretty=True,
)
self.validate_identity("""CREATE TABLE ip_data (ip4 IPv4, ip6 IPv6) ENGINE=TinyLog()""")
self.validate_identity("""CREATE TABLE dates (dt1 Date32) ENGINE=TinyLog()""")
self.validate_all(
"""
CREATE TABLE t (
a AggregateFunction(quantiles(0.5, 0.9), UInt64),
b AggregateFunction(quantiles, UInt64),
c SimpleAggregateFunction(sum, Float64)
)""",
write={
"clickhouse": """CREATE TABLE t (
a AggregateFunction(quantiles(0.5, 0.9), UInt64),
b AggregateFunction(quantiles, UInt64),
c SimpleAggregateFunction(sum, Float64)
)"""
},
pretty=True,
)
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