SUM(1) SUM(CASE WHEN x > 1 THEN 1 ELSE 0 END) / y 1 (1) 1. (1.) 1.0 (1.0) 1E2 1E+2 1E-2 1.1E10 1.12e-10 -11.023E7 * 3 0.2 (1 * 2) / (3 - 5) ((TRUE)) '' '''' 'x' '\x' "x" '\z' '\\z' '\\\z' '\\\\z' '\\\\\z' '\\\\\\z' '\n' '\\n' '\\\n' '\\\\n' '\\\\\n' '\\\\\\n' "" """x""" N'abc' x x % 1 x < 1 x <= 1 x > 1 x >= 1 x <> 1 x = y OR x > 1 x & 1 x | 1 x ^ 1 ~x x << 1 x >> 1 x >> 1 | 1 & 1 ^ 1 x || y x[ : ] x[1 : ] x[1 : 2] x[-4 : -1] 1 - -1 - -5 dec.x + y a.filter a.b.c a.b.c.d a.b.c.d.e a.b.c.d.e[0] a.b.c.d.e[0].f a[0][0].b.c[1].d.e.f[1][1] a[0].b[1] a[0].b.c['d'] a.b.C() a['x'].b.C() a.B() a['x'].C() int.x map.x SELECT update SELECT x.update SELECT call.x a.b.INT(1.234) INT(x / 100) time * 100 int * 100 dec + 1 x IN (-1, 1) x IN ('a', 'a''a') x IN ((1)) x BETWEEN -1 AND 1 x BETWEEN 'a' || b AND 'c' || d NOT x IS NULL x IS TRUE x IS FALSE x IS TRUE IS TRUE x LIKE y IS TRUE TRIM('a' || 'b') MAP() GREATEST(x) LEAST(y) MAX(a, b) MIN(a, b) time zone ARRAY CURRENT_DATE CURRENT_DATE('UTC') CURRENT_DATE AT TIME ZONE 'UTC' CURRENT_DATE AT TIME ZONE zone_column CURRENT_DATE AT TIME ZONE 'UTC' AT TIME ZONE 'Asia/Tokio' ARRAY() ARRAY(1, 2) ARRAY(time, foo) ARRAY(foo, time) ARRAY(LENGTH(waiter_name) > 0) ARRAY_CONTAINS(x, 1) x.EXTRACT(1) EXTRACT(x FROM y) EXTRACT(DATE FROM y) EXTRACT(WEEK(monday) FROM created_at) CONCAT_WS('-', 'a', 'b') CONCAT_WS('-', 'a', 'b', 'c') POSEXPLODE("x") AS ("a", "b") POSEXPLODE("x") AS ("a", "b", "c") STR_POSITION(haystack, needle) STR_POSITION(haystack, needle, pos) LEVENSHTEIN('gumbo', 'gambol', 2, 1, 1) SPLIT(SPLIT(referrer, 'utm_source=')[OFFSET(1)], "&")[OFFSET(0)] x[ORDINAL(1)][SAFE_OFFSET(2)] x GLOB '??-*' x GLOB y ILIKE(x, 'z') x LIKE SUBSTR('abc', 1, 1) x LIKE y x LIKE a.y x LIKE '%y%' x ILIKE '%y%' x LIKE '%y%' ESCAPE '\' x ILIKE '%y%' ESCAPE '\' 1 AS escape INTERVAL '1' day INTERVAL '1' MONTH INTERVAL '-1' CURRENT_DATE INTERVAL '-31' CAST(GETDATE() AS DATE) INTERVAL (1 + 3) DAYS INTERVAL '1' day * 5 5 * INTERVAL '1' day CASE WHEN TRUE THEN INTERVAL '15' days END CAST('45' AS INTERVAL DAYS) CAST(x AS UUID) FILTER(a, x -> x.a.b.c.d.e.f.g) FILTER(a, x -> FOO(x.a.b.c.d.e.f.g) + x.a.b.c.d.e.f.g) TIMESTAMP_DIFF(CURRENT_TIMESTAMP(), 1, DAY) DATETIME_DIFF(CURRENT_DATE, 1, DAY) QUANTILE(x, 0.5) REGEXP_REPLACE('new york', '(\w)(\w*)', x -> UPPER(x[1]) || LOWER(x[2])) REGEXP_LIKE('new york', '.') REGEXP_SPLIT('new york', '.') SPLIT('new york', '.') X((y AS z)).1 X(a.b = 1) (x AS y, y AS z) REPLACE(1) DATE(x) = DATE(y) TIMESTAMP(DATE(x)) TIMESTAMP_TRUNC(COALESCE(time_field, CURRENT_TIMESTAMP()), DAY) COUNT(DISTINCT CASE WHEN DATE_TRUNC(DATE(time_field), isoweek) = DATE_TRUNC(DATE(time_field2), isoweek) THEN report_id ELSE NULL END) COUNT(a, b) x[y - 1] CASE WHEN SUM(x) > 3 THEN 1 END OVER (PARTITION BY x) SUM(ROW() OVER (PARTITION BY x)) SUM(ROW() OVER (PARTITION BY x + 1)) SUM(ROW() OVER (PARTITION BY x AND y)) SUM(x) OVER (w ORDER BY y) (ROW() OVER ()) CASE WHEN (x > 1) THEN 1 ELSE 0 END CASE (1) WHEN 1 THEN 1 ELSE 0 END CASE 1 WHEN 1 THEN 1 ELSE 0 END CASE 1 WHEN 1 THEN timestamp ELSE date END x AT TIME ZONE 'UTC' CAST('2025-11-20 00:00:00+00' AS TIMESTAMP) AT TIME ZONE 'Africa/Cairo' SET x = 1 SET -v SET x = ';' SET variable = value SET GLOBAL variable = value SET LOCAL variable = value SET @user OFF @x @"x" COMMIT USE db USE role x USE warehouse x USE database x USE schema x.y NOT 1 NOT NOT 1 SELECT * FROM test SELECT * FROM db.FOO() SELECT *, 1 FROM test SELECT * FROM a.b SELECT * FROM a.b.c SELECT * FROM table SELECT 1 SELECT 1 FROM test SELECT * FROM a, b, (SELECT 1) AS c SELECT a FROM test SELECT 1 AS filter SELECT 1 AS "quoted alias" SELECT SUM(x) AS filter SELECT 1 AS range FROM test SELECT 1 AS count FROM test SELECT 1 AS comment FROM test SELECT 1 AS numeric FROM test SELECT 1 AS number FROM test SELECT COALESCE(offset, 1) SELECT t.count SELECT DISTINCT x FROM test SELECT DISTINCT x, y FROM test SELECT DISTINCT TIMESTAMP_TRUNC(time_field, MONTH) AS time_value FROM "table" SELECT DISTINCT ON (x) x, y FROM z SELECT DISTINCT ON (x, y + 1) * FROM z SELECT DISTINCT ON (x.y) * FROM z SELECT DISTINCT FROM_SOMETHING SELECT top.x SELECT TIMESTAMP(DATE_TRUNC(DATE(time_field), MONTH)) AS time_value FROM "table" SELECT GREATEST((3 + 1), LEAST(3, 4)) SELECT TRANSFORM(a, b -> b) AS x SELECT AGGREGATE(a, (a, b) -> a + b) AS x SELECT COUNT(DISTINCT a, b) SELECT COUNT(DISTINCT a, b + 1) SELECT SUM(DISTINCT x) SELECT SUM(x IGNORE NULLS) AS x SELECT COUNT(x RESPECT NULLS) SELECT TRUNCATE(a, b) SELECT ARRAY_AGG(DISTINCT x IGNORE NULLS ORDER BY a, b DESC LIMIT 10) AS x SELECT ARRAY_AGG(DISTINCT x IGNORE NULLS ORDER BY a, b DESC LIMIT 1, 10) AS x SELECT ARRAY_AGG(STRUCT(x, x AS y) ORDER BY z DESC) AS x SELECT LAST_VALUE(x IGNORE NULLS) OVER y AS x SELECT LAG(x) OVER (ORDER BY y) AS x SELECT LEAD(a) OVER (ORDER BY b) AS a SELECT LEAD(a, 1) OVER (PARTITION BY a ORDER BY a) AS x SELECT LEAD(a, 1, b) OVER (PARTITION BY a ORDER BY a) AS x SELECT X((a, b) -> a + b, z -> z) AS x SELECT X(a -> a + ("z" - 1)) SELECT EXISTS(ARRAY(2, 3), x -> x % 2 = 0) SELECT test.* FROM test SELECT a AS b FROM test SELECT "a"."b" FROM "a" SELECT "a".b FROM a SELECT a.b FROM "a" SELECT a.b FROM a SELECT '"hi' AS x FROM x SELECT 1 AS "|sum" FROM x SELECT '\"hi' AS x FROM x SELECT 1 AS b FROM test SELECT 1 AS "b" FROM test SELECT 1 + 1 FROM test SELECT 1 - 1 FROM test SELECT 1 * 1 FROM test SELECT 1 % 1 FROM test SELECT 1 / 1 FROM test SELECT 1 < 2 FROM test SELECT 1 <= 2 FROM test SELECT 1 > 2 FROM test SELECT 1 >= 2 FROM test SELECT 1 <> 2 FROM test SELECT JSON_EXTRACT(x, '$.name') SELECT JSON_EXTRACT_SCALAR(x, '$.name') SELECT x LIKE '%x%' FROM test SELECT * FROM test LIMIT 100 SELECT * FROM test LIMIT 1 + 1 SELECT * FROM test LIMIT 100 OFFSET 200 SELECT * FROM test FETCH FIRST ROWS ONLY SELECT * FROM test FETCH FIRST 1 ROWS ONLY SELECT * FROM test ORDER BY id DESC FETCH FIRST 10 ROWS WITH TIES SELECT * FROM test ORDER BY id DESC FETCH FIRST 10 PERCENT ROWS WITH TIES SELECT * FROM test FETCH NEXT 1 ROWS ONLY SELECT (1 > 2) AS x FROM test SELECT NOT (1 > 2) FROM test SELECT 1 + 2 AS x FROM test SELECT a, b, 1 < 1 FROM test SELECT a FROM test WHERE NOT FALSE SELECT a FROM test WHERE a = 1 SELECT a FROM test WHERE a = 1 AND b = 2 SELECT a FROM test WHERE a IN (SELECT b FROM z) SELECT a FROM test WHERE a IN ((SELECT 1), 2) SELECT * FROM x WHERE y IN ((SELECT 1) EXCEPT (SELECT 2)) SELECT * FROM x WHERE y IN (SELECT 1 UNION SELECT 2) SELECT * FROM x WHERE y IN ((SELECT 1 UNION SELECT 2)) SELECT * FROM x WHERE y IN (WITH z AS (SELECT 1) SELECT * FROM z) SELECT a FROM test WHERE (a > 1) SELECT a FROM test WHERE a > (SELECT 1 FROM x GROUP BY y) SELECT a FROM test WHERE EXISTS(SELECT 1) SELECT a FROM test WHERE EXISTS(SELECT * FROM x UNION SELECT * FROM Y) OR TRUE SELECT a FROM test WHERE TRUE OR NOT EXISTS(SELECT * FROM x) SELECT a AS any, b AS some, c AS all, d AS exists FROM test WHERE a = ANY (SELECT 1) SELECT a FROM test WHERE a > ALL (SELECT 1) SELECT a FROM test WHERE (a, b) IN (SELECT 1, 2) SELECT X((SELECT 1) UNION (SELECT 2)) SELECT a FROM test ORDER BY a SELECT a FROM test ORDER BY a, b SELECT x FROM tests ORDER BY a DESC, b DESC, c SELECT a FROM test ORDER BY a > 1 SELECT * FROM test ORDER BY DATE DESC, TIMESTAMP DESC SELECT a, b FROM test GROUP BY 1 SELECT a, b FROM test GROUP BY a SELECT a, b FROM test WHERE a = 1 GROUP BY a HAVING a = 2 SELECT a, b FROM test WHERE a = 1 GROUP BY a HAVING a = 2 ORDER BY a SELECT a, b FROM test WHERE a = 1 GROUP BY CASE 1 WHEN 1 THEN 1 END SELECT a FROM test GROUP BY GROUPING SETS (()) SELECT a FROM test GROUP BY GROUPING SETS (x, ()) SELECT a FROM test GROUP BY GROUPING SETS (x, (x, y), (x, y, z), q) SELECT a FROM test GROUP BY CUBE (x) SELECT a FROM test GROUP BY ROLLUP (x) SELECT t.a FROM test AS t GROUP BY ROLLUP (t.x) SELECT a FROM test GROUP BY GROUPING SETS ((x, y)), ROLLUP (b) SELECT a FROM test GROUP BY CUBE (x), ROLLUP (x, y, z) SELECT CASE WHEN a < b THEN 1 WHEN a < c THEN 2 ELSE 3 END FROM test SELECT CASE 1 WHEN 1 THEN 1 ELSE 2 END SELECT CASE 1 WHEN 1 THEN MAP('a', 'b') ELSE MAP('b', 'c') END['a'] SELECT CASE 1 + 2 WHEN 1 THEN 1 ELSE 2 END SELECT CASE TEST(1) + x[0] WHEN 1 THEN 1 ELSE 2 END SELECT CASE x[0] WHEN 1 THEN 1 ELSE 2 END SELECT CASE a.b WHEN 1 THEN 1 ELSE 2 END SELECT CASE CASE x > 1 WHEN TRUE THEN 1 END WHEN 1 THEN 1 ELSE 2 END SELECT a FROM (SELECT a FROM test) AS x SELECT a FROM (SELECT a FROM (SELECT a FROM test) AS y) AS x SELECT a FROM test WHERE a IN (1, 2, 3) OR b BETWEEN 1 AND 4 SELECT a FROM test AS x TABLESAMPLE (BUCKET 1 OUT OF 5) SELECT a FROM test TABLESAMPLE (BUCKET 1 OUT OF 5) SELECT a FROM test TABLESAMPLE (BUCKET 1 OUT OF 5 ON x) SELECT a FROM test TABLESAMPLE (BUCKET 1 OUT OF 5 ON RAND()) SELECT a FROM test TABLESAMPLE (0.1 PERCENT) SELECT a FROM test TABLESAMPLE (100) SELECT a FROM test TABLESAMPLE (100 ROWS) SELECT a FROM test TABLESAMPLE BERNOULLI (50) SELECT a FROM test TABLESAMPLE SYSTEM (75) SELECT a FROM test PIVOT(SUM(x) FOR y IN ('z', 'q')) SELECT 1 FROM a.b.table1 AS t UNPIVOT((c3) FOR c4 IN (a, b)) SELECT a FROM test PIVOT(SOMEAGG(x, y, z) FOR q IN (1)) SELECT a FROM test PIVOT(SUM(x) FOR y IN ('z', 'q')) PIVOT(MAX(b) FOR c IN ('d')) SELECT a FROM (SELECT a, b FROM test) PIVOT(SUM(x) FOR y IN ('z', 'q')) SELECT a FROM test UNPIVOT(x FOR y IN (z, q)) AS x SELECT a FROM test PIVOT(SUM(x) FOR y IN ('z', 'q')) AS x TABLESAMPLE (0.1) SELECT a FROM test PIVOT(SUM(x) FOR y IN ('z', 'q')) UNPIVOT(x FOR y IN (z, q)) AS x SELECT ABS(a) FROM test SELECT AVG(a) FROM test SELECT CEIL(a) FROM test SELECT CEIL(a, b) FROM test SELECT COUNT(a) FROM test SELECT COUNT(1) FROM test SELECT COUNT(*) FROM test SELECT COUNT() FROM test SELECT COUNT(DISTINCT a) FROM test SELECT EXP(a) FROM test SELECT FLOOR(a) FROM test SELECT FLOOR(a, b) FROM test SELECT FIRST(a) FROM test SELECT GREATEST(a, b, c) FROM test SELECT LAST(a) FROM test SELECT LN(a) FROM test SELECT LOG10(a) FROM test SELECT MAX(a) FROM test SELECT MIN(a) FROM test SELECT POWER(a, 2) FROM test SELECT QUANTILE(a, 0.95) FROM test SELECT ROUND(a) FROM test SELECT ROUND(a, 2) FROM test SELECT SUM(a) FROM test SELECT SQRT(a) FROM test SELECT STDDEV(a) FROM test SELECT STDDEV_POP(a) FROM test SELECT STDDEV_SAMP(a) FROM test SELECT VARIANCE(a) FROM test SELECT VARIANCE_POP(a) FROM test SELECT CAST(a AS INT) FROM test SELECT CAST(a AS DATETIME) FROM test SELECT CAST(a AS VARCHAR) FROM test SELECT CAST(a < 1 AS INT) FROM test SELECT CAST(a IS NULL AS INT) FROM test SELECT COUNT(CAST(1 < 2 AS INT)) FROM test SELECT COUNT(CASE WHEN CAST(1 < 2 AS BOOLEAN) THEN 1 END) FROM test SELECT CAST(a AS DECIMAL) FROM test SELECT CAST(a AS DECIMAL(1)) FROM test SELECT CAST(a AS DECIMAL(1, 2)) FROM test SELECT CAST(a AS MAP) FROM test SELECT CAST(a AS TIMESTAMP) FROM test SELECT CAST(a AS DATE) FROM test SELECT CAST(a AS ARRAY) FROM test SELECT CAST(a AS VARIANT) FROM test SELECT TRY_CAST(a AS INT) FROM test SELECT COALESCE(a, b, c) FROM test SELECT ANY_VALUE(a) FROM test SELECT 1 FROM a JOIN b ON a.x = b.x SELECT 1 FROM a JOIN b AS c ON a.x = b.x SELECT 1 FROM a INNER JOIN b ON a.x = b.x SELECT 1 FROM a LEFT JOIN b ON a.x = b.x SELECT 1 FROM a RIGHT JOIN b ON a.x = b.x SELECT 1 FROM a CROSS JOIN b ON a.x = b.x SELECT 1 FROM a LEFT SEMI JOIN b ON a.x = b.x SELECT 1 FROM a LEFT ANTI JOIN b ON a.x = b.x SELECT 1 FROM a RIGHT SEMI JOIN b ON a.x = b.x SELECT 1 FROM a RIGHT ANTI JOIN b ON a.x = b.x SELECT 1 FROM a JOIN b USING (x) SELECT 1 FROM a JOIN b USING (x, y, z) SELECT 1 FROM a JOIN (SELECT a FROM c) AS b ON a.x = b.x AND a.x < 2 SELECT 1 FROM a UNION SELECT 2 FROM b SELECT 1 FROM a UNION ALL SELECT 2 FROM b SELECT 1 FROM a JOIN b ON a.foo = b.bar JOIN c ON a.foo = c.bar SELECT 1 FROM a LEFT JOIN b ON a.foo = b.bar JOIN c ON a.foo = c.bar SELECT 1 FROM a LEFT INNER JOIN b ON a.foo = b.bar SELECT 1 FROM a LEFT OUTER JOIN b ON a.foo = b.bar SELECT 1 FROM a NATURAL JOIN b SELECT 1 FROM a NATURAL LEFT JOIN b SELECT 1 FROM a NATURAL LEFT OUTER JOIN b SELECT 1 FROM a OUTER JOIN b ON a.foo = b.bar SELECT 1 FROM a FULL JOIN b ON a.foo = b.bar SELECT 1 UNION ALL SELECT 2 SELECT 1 EXCEPT SELECT 2 SELECT 1 EXCEPT SELECT 2 SELECT 1 INTERSECT SELECT 2 SELECT 1 INTERSECT SELECT 2 SELECT 1 AS delete, 2 AS alter SELECT * FROM (x) SELECT * FROM ((x)) SELECT * FROM ((SELECT 1)) SELECT * FROM (x CROSS JOIN foo LATERAL VIEW EXPLODE(y)) SELECT * FROM (SELECT 1) AS x SELECT * FROM (SELECT 1 UNION SELECT 2) AS x SELECT * FROM (SELECT 1 UNION ALL SELECT 2) AS x SELECT * FROM (SELECT 1 UNION ALL SELECT 2) SELECT * FROM ((SELECT 1) AS a UNION ALL (SELECT 2) AS b) SELECT * FROM ((SELECT 1) AS a(b)) SELECT * FROM ((SELECT 1) UNION (SELECT 2) UNION (SELECT 3)) SELECT * FROM x AS y(a, b) SELECT * EXCEPT (a, b) SELECT * EXCEPT (a, b) FROM y SELECT * REPLACE (a AS b, b AS C) SELECT * REPLACE (a + 1 AS b, b AS C) SELECT * EXCEPT (a, b) REPLACE (a AS b, b AS C) SELECT * EXCEPT (a, b) REPLACE (a AS b, b AS C) FROM y SELECT a.* EXCEPT (a, b), b.* REPLACE (a AS b, b AS C) SELECT a.* EXCEPT (a, b), b.* REPLACE (a AS b, b AS C) FROM x SELECT A.* EXCEPT (A.COL_1) FROM TABLE_1 AS A SELECT zoo, animals FROM (VALUES ('oakland', ARRAY('a', 'b')), ('sf', ARRAY('b', 'c'))) AS t(zoo, animals) SELECT zoo, animals FROM UNNEST(ARRAY(STRUCT('oakland' AS zoo, ARRAY('a', 'b') AS animals), STRUCT('sf' AS zoo, ARRAY('b', 'c') AS animals))) AS t(zoo, animals) WITH a AS (SELECT 1) SELECT 1 UNION ALL SELECT 2 WITH a AS (SELECT 1) SELECT 1 UNION SELECT 2 WITH a AS (SELECT 1) SELECT 1 INTERSECT SELECT 2 WITH a AS (SELECT 1) SELECT 1 EXCEPT SELECT 2 WITH a AS (SELECT 1) SELECT 1 EXCEPT SELECT 2 WITH sub_query AS (SELECT a FROM table) (SELECT a FROM sub_query) WITH sub_query AS (SELECT a FROM table) ((((SELECT a FROM sub_query)))) (SELECT 1) UNION (SELECT 2) (SELECT 1) UNION SELECT 2 SELECT 1 UNION (SELECT 2) (SELECT 1) ORDER BY x LIMIT 1 OFFSET 1 (SELECT 1 UNION SELECT 2) UNION (SELECT 2 UNION ALL SELECT 3) (SELECT 1 UNION SELECT 2) ORDER BY x LIMIT 1 OFFSET 1 SELECT 1 UNION (SELECT 2) ORDER BY x (SELECT 1) UNION SELECT 2 ORDER BY x SELECT * FROM (((SELECT 1) UNION SELECT 2) ORDER BY x LIMIT 1 OFFSET 1) SELECT * FROM ((SELECT 1 AS x) CROSS JOIN (SELECT 2 AS y)) AS z ((SELECT 1) EXCEPT (SELECT 2)) VALUES (1) UNION SELECT * FROM x WITH a AS (SELECT 1) SELECT a.* FROM a WITH a AS (SELECT 1), b AS (SELECT 2) SELECT a.*, b.* FROM a CROSS JOIN b WITH a AS (WITH b AS (SELECT 1 AS x) SELECT b.x FROM b) SELECT a.x FROM a WITH RECURSIVE T(n) AS (VALUES (1) UNION ALL SELECT n + 1 FROM t WHERE n < 100) SELECT SUM(n) FROM t WITH RECURSIVE T(n, m) AS (VALUES (1, 2) UNION ALL SELECT n + 1, n + 2 FROM t) SELECT SUM(n) FROM t WITH baz AS (SELECT 1 AS col) UPDATE bar SET cid = baz.col1 FROM baz SELECT * FROM (WITH y AS (SELECT 1 AS z) SELECT z FROM y) AS x SELECT RANK() OVER () FROM x SELECT RANK() OVER () AS y FROM x SELECT RANK() OVER (PARTITION BY a) FROM x SELECT RANK() OVER (PARTITION BY a, b) FROM x SELECT RANK() OVER (ORDER BY a) FROM x SELECT RANK() OVER (ORDER BY a, b) FROM x SELECT RANK() OVER (PARTITION BY a ORDER BY a) FROM x SELECT RANK() OVER (PARTITION BY a, b ORDER BY a, b DESC) FROM x SELECT SUM(x) OVER (PARTITION BY a) AS y FROM x SELECT SUM(x) OVER (PARTITION BY a ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW) SELECT SUM(x) OVER (PARTITION BY a ORDER BY b ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW) SELECT SUM(x) OVER (PARTITION BY a ORDER BY b ROWS BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW) SELECT SUM(x) OVER (PARTITION BY a ORDER BY b RANGE BETWEEN INTERVAL '1' DAY PRECEDING AND CURRENT ROW) SELECT SUM(x) OVER (PARTITION BY a ORDER BY b RANGE BETWEEN INTERVAL '1' DAY PRECEDING AND INTERVAL '2' DAYS FOLLOWING) SELECT SUM(x) OVER (PARTITION BY a ORDER BY b RANGE BETWEEN INTERVAL '1' DAY PRECEDING AND UNBOUNDED FOLLOWING) SELECT SUM(x) OVER (PARTITION BY a ROWS BETWEEN UNBOUNDED PRECEDING AND PRECEDING) SELECT SUM(x) OVER (PARTITION BY a ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) SELECT SUM(x) OVER (PARTITION BY a ROWS BETWEEN CURRENT ROW AND UNBOUNDED FOLLOWING) SELECT SUM(x) OVER (PARTITION BY a RANGE BETWEEN UNBOUNDED PRECEDING AND CURRENT ROW) SELECT SUM(x) OVER (PARTITION BY a RANGE BETWEEN 1 AND 3) SELECT SUM(x) OVER (PARTITION BY a RANGE BETWEEN 1 FOLLOWING AND 3) SELECT SUM(x) OVER (PARTITION BY a RANGE BETWEEN 1 FOLLOWING AND UNBOUNDED FOLLOWING) SELECT AVG(x) OVER (ROWS BETWEEN UNBOUNDED PRECEDING AND UNBOUNDED FOLLOWING) FROM t SELECT SUM(x) OVER (PARTITION BY a ORDER BY date ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING) SELECT LISTAGG(x) WITHIN GROUP (ORDER BY x) AS y SELECT LISTAGG(x) WITHIN GROUP (ORDER BY x DESC) SELECT PERCENTILE_CONT(0.5) WITHIN GROUP (ORDER BY x) SELECT PERCENTILE_DISC(0.5) WITHIN GROUP (ORDER BY x) SELECT SUM(x) FILTER(WHERE x > 1) SELECT SUM(x) FILTER(WHERE x > 1) OVER (ORDER BY y) SELECT COUNT(DISTINCT a) OVER (PARTITION BY c ORDER BY d ROWS BETWEEN 1 PRECEDING AND 1 FOLLOWING) SELECT a['1'], b[0], x.c[0], "x".d['1'] FROM x SELECT ARRAY(1, 2, 3) FROM x SELECT ARRAY(ARRAY(1), ARRAY(2)) FROM x SELECT MAP[ARRAY(1), ARRAY(2)] FROM x SELECT MAP(ARRAY(1), ARRAY(2)) FROM x SELECT MAX(ARRAY(1, 2, 3)) FROM x SELECT ARRAY(ARRAY(0))[0][0] FROM x SELECT MAP[ARRAY('x'), ARRAY(0)]['x'] FROM x SELECT student, score FROM tests LATERAL VIEW EXPLODE(scores) SELECT student, score FROM tests LATERAL VIEW EXPLODE(scores) AS score SELECT student, score FROM tests LATERAL VIEW EXPLODE(scores) t AS score SELECT student, score FROM tests LATERAL VIEW EXPLODE(scores) t AS score, name SELECT student, score FROM tests LATERAL VIEW OUTER EXPLODE(scores) t AS score, name SELECT tf.* FROM (SELECT 0) AS t LATERAL VIEW STACK(1, 2) tf SELECT tf.* FROM (SELECT 0) AS t LATERAL VIEW STACK(1, 2) tf AS col0, col1, col2 SELECT student, score FROM tests CROSS JOIN UNNEST(scores) AS t(score) SELECT student, score FROM tests CROSS JOIN UNNEST(scores) AS t(a, b) SELECT student, score FROM tests CROSS JOIN UNNEST(scores) WITH ORDINALITY AS t(a, b) SELECT student, score FROM tests CROSS JOIN UNNEST(x.scores) AS t(score) SELECT student, score FROM tests CROSS JOIN UNNEST(ARRAY(x.scores)) AS t(score) CREATE TABLE foo AS (SELECT 1) UNION ALL (SELECT 2) CREATE TABLE foo (id INT PRIMARY KEY ASC) CREATE TABLE a.b AS SELECT 1 CREATE TABLE a.b AS SELECT 1 WITH DATA AND STATISTICS CREATE TABLE a.b AS SELECT 1 WITH NO DATA AND NO STATISTICS CREATE TABLE a.b AS (SELECT 1) NO PRIMARY INDEX CREATE TABLE a.b AS (SELECT 1) UNIQUE PRIMARY INDEX index1 (a) UNIQUE INDEX index2 (b) CREATE TABLE a.b AS (SELECT 1) PRIMARY AMP INDEX index1 (a) UNIQUE INDEX index2 (b) CREATE TABLE a.b AS SELECT a FROM a.c CREATE TABLE IF NOT EXISTS x AS SELECT a FROM d CREATE TABLE z (a INT, b VARCHAR, c VARCHAR(100), d DECIMAL(5, 3)) CREATE TABLE z (end INT) CREATE TABLE z (a ARRAY, b MAP, c DECIMAL(5, 3)) CREATE TABLE z (a INT, b VARCHAR COMMENT 'z', c VARCHAR(100) COMMENT 'z', d DECIMAL(5, 3)) CREATE TABLE z (a INT(11) DEFAULT UUID()) CREATE TABLE z (n INT DEFAULT 0 NOT NULL) CREATE TABLE z (a INT(11) DEFAULT NULL COMMENT '客户id') CREATE TABLE z (a INT(11) NOT NULL DEFAULT 1) CREATE TABLE z (a INT(11) NOT NULL DEFAULT -1) CREATE TABLE z (a INT(11) NOT NULL COLLATE utf8_bin AUTO_INCREMENT) CREATE TABLE z (a INT, PRIMARY KEY (a)) CREATE TABLE z WITH (FORMAT='parquet') AS SELECT 1 CREATE TABLE z WITH (FORMAT='ORC', x='2') AS SELECT 1 CREATE TABLE z WITH (TABLE_FORMAT='iceberg', FORMAT='parquet') AS SELECT 1 CREATE TABLE z WITH (TABLE_FORMAT='iceberg', FORMAT='ORC', x='2') AS SELECT 1 CREATE TABLE z (z INT) WITH (PARTITIONED_BY=(x INT, y INT)) CREATE TABLE z (z INT) WITH (PARTITIONED_BY=(x INT)) AS SELECT 1 CREATE TABLE z AS (WITH cte AS (SELECT 1) SELECT * FROM cte) CREATE TABLE z AS ((WITH cte AS (SELECT 1) SELECT * FROM cte)) CREATE TABLE z (a INT UNIQUE) CREATE TABLE z (a INT AUTO_INCREMENT) CREATE TABLE z (a INT UNIQUE AUTO_INCREMENT) CREATE TABLE z (a INT REFERENCES parent(b, c)) CREATE TABLE z (a INT PRIMARY KEY, b INT REFERENCES foo(id)) CREATE TABLE z (a INT, FOREIGN KEY (a) REFERENCES parent(b, c)) CREATE TABLE foo (bar INT REFERENCES baz(baz_id) ON DELETE NO ACTION) CREATE TABLE foo (bar INT REFERENCES baz(baz_id) ON DELETE CASCADE) CREATE TABLE foo (bar INT REFERENCES baz(baz_id) ON DELETE SET NULL) CREATE TABLE foo (bar INT REFERENCES baz(baz_id) ON DELETE SET DEFAULT) CREATE TABLE foo (bar INT REFERENCES baz(baz_id) ON UPDATE NO ACTION) CREATE TABLE foo (bar INT REFERENCES baz(baz_id) ON UPDATE CASCADE) CREATE TABLE foo (bar INT REFERENCES baz(baz_id) ON UPDATE SET NULL) CREATE TABLE foo (bar INT REFERENCES baz(baz_id) ON UPDATE SET DEFAULT) CREATE TABLE asd AS SELECT asd FROM asd WITH NO DATA CREATE TABLE asd AS SELECT asd FROM asd WITH DATA CREATE TABLE products (x INT GENERATED BY DEFAULT AS IDENTITY) CREATE TABLE products (x INT GENERATED BY DEFAULT ON NULL AS IDENTITY) CREATE TABLE products (x INT GENERATED ALWAYS AS IDENTITY) CREATE TABLE konyvszerzo (szerzo_azon INT CONSTRAINT konyvszerzo_szerzo_fk REFERENCES szerzo) CREATE TABLE IF NOT EXISTS customer (pk BIGINT NOT NULL GENERATED ALWAYS AS IDENTITY (INCREMENT BY 1)) CREATE TABLE customer (pk BIGINT NOT NULL GENERATED ALWAYS AS IDENTITY (START WITH 10 INCREMENT BY 1 MINVALUE -1 MAXVALUE 1 NO CYCLE)) CREATE TABLE customer (pk BIGINT NOT NULL GENERATED ALWAYS AS IDENTITY (START WITH 10)) CREATE TABLE customer (pk BIGINT NOT NULL GENERATED ALWAYS AS IDENTITY (CYCLE)) CREATE TABLE foo (baz_id INT REFERENCES baz(id) DEFERRABLE) CREATE TABLE foo (baz CHAR(4) CHARACTER SET LATIN UPPERCASE NOT CASESPECIFIC COMPRESS 'a') CREATE TABLE foo (baz DATE FORMAT 'YYYY/MM/DD' TITLE 'title' INLINE LENGTH 1 COMPRESS ('a', 'b')) CREATE TABLE t (title TEXT) CREATE TABLE foo (baz INT, inline TEXT) CREATE SET GLOBAL TEMPORARY TABLE a, NO BEFORE JOURNAL, NO AFTER JOURNAL, MINIMUM DATABLOCKSIZE, BLOCKCOMPRESSION=NEVER (a INT) CREATE ALGORITHM=UNDEFINED DEFINER=foo@% SQL SECURITY DEFINER VIEW a AS (SELECT a FROM b) CREATE TEMPORARY TABLE x AS SELECT a FROM d CREATE TEMPORARY TABLE IF NOT EXISTS x AS SELECT a FROM d CREATE TABLE a (b INT) ON COMMIT PRESERVE ROWS CREATE VIEW x AS SELECT a FROM b CREATE VIEW IF NOT EXISTS x AS SELECT a FROM b CREATE VIEW z (a, b COMMENT 'b', c COMMENT 'c') AS SELECT a, b, c FROM d CREATE VIEW IF NOT EXISTS z (a, b COMMENT 'b', c COMMENT 'c') AS SELECT a, b, c FROM d CREATE OR REPLACE VIEW x AS SELECT * CREATE OR REPLACE TEMPORARY VIEW x AS SELECT * CREATE TEMPORARY VIEW x AS SELECT a FROM d CREATE TEMPORARY VIEW IF NOT EXISTS x AS SELECT a FROM d CREATE TEMPORARY VIEW x AS WITH y AS (SELECT 1) SELECT * FROM y CREATE MATERIALIZED VIEW x.y.z AS SELECT a FROM b CREATE VIEW z (a, b) CREATE VIEW z (a, b COMMENT 'b', c COMMENT 'c') CREATE VIEW z AS LOCKING ROW FOR ACCESS SELECT a FROM b CREATE TEMPORARY FUNCTION f CREATE TEMPORARY FUNCTION f AS 'g' CREATE FUNCTION f CREATE FUNCTION f AS 'g' CREATE FUNCTION a(b INT, c VARCHAR) AS 'SELECT 1' CREATE FUNCTION a() LANGUAGE sql CREATE FUNCTION a() LANGUAGE sql RETURNS INT CREATE FUNCTION a.b(x INT) RETURNS INT AS RETURN x + 1 CREATE FUNCTION a.b.c() CREATE INDEX abc ON t (a) CREATE INDEX abc ON t (a, b, b) CREATE INDEX abc ON t (a NULLS LAST) CREATE INDEX pointloc ON points USING GIST(BOX(location, location)) CREATE UNIQUE INDEX abc ON t (a, b, b) CREATE UNIQUE INDEX IF NOT EXISTS my_idx ON tbl (a, b) CREATE SCHEMA x CREATE SCHEMA IF NOT EXISTS y CREATE DATABASE x CREATE DATABASE IF NOT EXISTS y CREATE PROCEDURE IF NOT EXISTS a.b.c() AS 'DECLARE BEGIN; END' CREATE OR REPLACE STAGE DESCRIBE x DROP INDEX a.b.c DROP FUNCTION a.b.c (INT) DROP MATERIALIZED VIEW x.y.z CACHE TABLE x CACHE LAZY TABLE x CACHE LAZY TABLE x OPTIONS('storageLevel' = 'value') CACHE LAZY TABLE x OPTIONS('storageLevel' = 'value') AS SELECT 1 CACHE LAZY TABLE x OPTIONS('storageLevel' = 'value') AS WITH a AS (SELECT 1) SELECT a.* FROM a CACHE LAZY TABLE x AS WITH a AS (SELECT 1) SELECT a.* FROM a CACHE TABLE x AS WITH a AS (SELECT 1) SELECT a.* FROM a CACHE TABLE x AS (SELECT 1 AS y) CALL catalog.system.iceberg_procedure_name(named_arg_1 => 'arg_1', named_arg_2 => 'arg_2') DROP PROCEDURE a.b.c (INT) INSERT OVERWRITE TABLE a.b PARTITION(ds) SELECT x FROM y INSERT OVERWRITE TABLE a.b PARTITION(ds = 'YYYY-MM-DD') SELECT x FROM y INSERT OVERWRITE TABLE a.b PARTITION(ds, hour) SELECT x FROM y INSERT OVERWRITE TABLE a.b PARTITION(ds = 'YYYY-MM-DD', hour = 'hh') SELECT x FROM y ALTER SESSION SET STATEMENT_TIMEOUT_IN_SECONDS=3 ALTER AGGREGATE bla(foo) OWNER TO CURRENT_USER ALTER RULE foo ON bla RENAME TO baz ALTER ROLE CURRENT_USER WITH REPLICATION ALTER SEQUENCE IF EXISTS baz RESTART WITH boo ALTER TYPE electronic_mail RENAME TO email ALTER VIEW foo ALTER COLUMN bla SET DEFAULT 'NOT SET' ALTER DOMAIN foo VALIDATE CONSTRAINT bla ALTER schema doo ANALYZE a.y DELETE FROM x WHERE y > 1 DELETE FROM y DELETE FROM event USING sales WHERE event.eventid = sales.eventid DELETE FROM event USING sales, USING bla WHERE event.eventid = sales.eventid DELETE FROM event USING sales AS s WHERE event.eventid = s.eventid DELETE FROM event AS event USING sales AS s WHERE event.eventid = s.eventid PREPARE statement EXECUTE statement DROP TABLE a DROP TABLE a.b DROP TABLE IF EXISTS a DROP TABLE IF EXISTS a.b DROP TABLE a CASCADE DROP TABLE s_hajo CASCADE CONSTRAINTS DROP TABLE a PURGE DROP VIEW a DROP VIEW a.b DROP VIEW IF EXISTS a DROP VIEW IF EXISTS a.b SHOW TABLES USE db BEGIN ROLLBACK ROLLBACK TO b EXPLAIN SELECT * FROM x INSERT INTO x SELECT * FROM y INSERT INTO x (SELECT * FROM y) INSERT INTO x WITH y AS (SELECT 1) SELECT * FROM y INSERT INTO x.z IF EXISTS SELECT * FROM y INSERT INTO x VALUES (1, 'a', 2.0) INSERT INTO x VALUES (1, 'a', 2.0), (1, 'a', 3.0), (X(), y[1], z.x) INSERT INTO y (a, b, c) SELECT a, b, c FROM x INSERT INTO y (SELECT 1) UNION (SELECT 2) INSERT INTO result_table (WITH test AS (SELECT * FROM source_table) SELECT * FROM test) INSERT INTO "tests_user" ("username", "first_name", "last_name") VALUES ('fiara', 'Fiara', 'Ironhide') RETURNING "tests_user"."id" INSERT OVERWRITE TABLE x IF EXISTS SELECT * FROM y INSERT OVERWRITE TABLE a.b IF EXISTS SELECT * FROM y INSERT OVERWRITE DIRECTORY 'x' SELECT 1 INSERT OVERWRITE LOCAL DIRECTORY 'x' SELECT 1 INSERT OVERWRITE LOCAL DIRECTORY 'x' ROW FORMAT DELIMITED FIELDS TERMINATED BY '1' COLLECTION ITEMS TERMINATED BY '2' MAP KEYS TERMINATED BY '3' LINES TERMINATED BY '4' NULL DEFINED AS '5' SELECT 1 LOAD foo LOAD DATA INPATH 'x' INTO TABLE y PARTITION(ds = 'yyyy') LOAD DATA LOCAL INPATH 'x' INTO TABLE y PARTITION(ds = 'yyyy') LOAD DATA LOCAL INPATH 'x' INTO TABLE y PARTITION(ds = 'yyyy') INPUTFORMAT 'y' LOAD DATA LOCAL INPATH 'x' INTO TABLE y PARTITION(ds = 'yyyy') INPUTFORMAT 'y' SERDE 'z' LOAD DATA INPATH 'x' INTO TABLE y INPUTFORMAT 'y' SERDE 'z' LOAD DATA INPATH 'x' INTO TABLE y.b INPUTFORMAT 'y' SERDE 'z' SELECT 1 FROM PARQUET_SCAN('/x/y/*') AS y UNCACHE TABLE x UNCACHE TABLE IF EXISTS x UPDATE tbl_name SET foo = 123 UPDATE tbl_name SET foo = 123, bar = 345 UPDATE db.tbl_name SET foo = 123 WHERE tbl_name.bar = 234 UPDATE db.tbl_name SET foo = 123, foo_1 = 234 WHERE tbl_name.bar = 234 TRUNCATE TABLE x OPTIMIZE TABLE y VACUUM FREEZE my_table COMMENT ON ACCESS METHOD gin IS 'GIN index access method' COMMENT ON COLUMN my_schema.my_table.my_column IS 'Employee ID number' COMMENT ON DATABASE my_database IS 'Development Database' COMMENT ON PROCEDURE my_proc(integer, integer) IS 'Runs a report' COMMENT ON TABLE my_schema.my_table IS 'Employee Information' WITH a AS (SELECT 1) INSERT INTO b SELECT * FROM a WITH a AS (SELECT * FROM b) UPDATE a SET col = 1 WITH a AS (SELECT * FROM b) CREATE TABLE b AS SELECT * FROM a WITH a AS (SELECT * FROM b) DELETE FROM a WITH a AS (SELECT * FROM b) CACHE TABLE a SELECT ? AS ? FROM x WHERE b BETWEEN ? AND ? GROUP BY ?, 1 LIMIT ? SELECT :hello, ? FROM x LIMIT :my_limit SELECT * FROM x OFFSET @skip FETCH NEXT @take ROWS ONLY WITH a AS ((SELECT b.foo AS foo, b.bar AS bar FROM b) UNION ALL (SELECT c.foo AS foo, c.bar AS bar FROM c)) SELECT * FROM a WITH a AS ((SELECT 1 AS b) UNION ALL (SELECT 1 AS b)) SELECT * FROM a SELECT (WITH x AS (SELECT 1 AS y) SELECT * FROM x) AS z SELECT ((SELECT 1) + 1) SELECT * FROM project.dataset.INFORMATION_SCHEMA.TABLES SELECT * FROM (table1 AS t1 LEFT JOIN table2 AS t2 ON 1 = 1) SELECT * FROM (tbl1 LEFT JOIN tbl2 ON 1 = 1) SELECT * FROM (tbl1, tbl2 JOIN tbl3 ON TRUE) SELECT * FROM (tbl1 JOIN (tbl2 CROSS JOIN tbl3) ON bla = foo) SELECT * FROM (tbl1, LATERAL (SELECT * FROM bla) AS tbl) SELECT CAST(x AS INT) /* comment */ FROM foo SELECT a /* x */, b /* x */ SELECT a /* x */ /* y */ /* z */, b /* k */ /* m */ SELECT * FROM foo /* x */, bla /* x */ SELECT 1 /* comment */ + 1 SELECT 1 /* c1 */ + 2 /* c2 */ SELECT 1 /* c1 */ + /* c2 */ 2 /* c3 */ SELECT 1 /* c1 */ + 2 /* c2 */ + 3 /* c3 */ SELECT 1 /* c1 */ + 2 /* c2 */, 3 /* c3 */ SELECT x FROM a.b.c /* x */, e.f.g /* x */ SELECT FOO(x /* c */) /* FOO */, b /* b */ SELECT FOO(x /* c1 */ + y /* c2 */ + BLA(5 /* c3 */)) FROM (VALUES (1 /* c4 */, "test" /* c5 */)) /* c6 */ INSERT INTO foo SELECT * FROM bar /* comment */ /* c */ WITH x AS (SELECT 1) SELECT * FROM x SELECT a FROM x WHERE a COLLATE 'utf8_general_ci' = 'b' SELECT x AS INTO FROM bla SELECT * INTO newevent FROM event SELECT * INTO TEMPORARY newevent FROM event SELECT * INTO UNLOGGED newevent FROM event ALTER TABLE integers ADD COLUMN k INT ALTER TABLE integers ADD COLUMN k INT FIRST ALTER TABLE integers ADD COLUMN k INT AFTER m ALTER TABLE integers ADD COLUMN IF NOT EXISTS k INT ALTER TABLE IF EXISTS integers ADD COLUMN k INT ALTER TABLE integers ADD COLUMN l INT DEFAULT 10 ALTER TABLE measurements ADD COLUMN mtime TIMESTAMPTZ DEFAULT NOW() ALTER TABLE integers DROP COLUMN k ALTER TABLE integers DROP PRIMARY KEY ALTER TABLE integers DROP COLUMN IF EXISTS k ALTER TABLE integers DROP COLUMN k CASCADE ALTER TABLE integers ALTER COLUMN i TYPE VARCHAR ALTER TABLE integers ALTER COLUMN i TYPE VARCHAR USING CONCAT(i, '_', j) ALTER TABLE integers ALTER COLUMN i SET DEFAULT 10 ALTER TABLE integers ALTER COLUMN i DROP DEFAULT ALTER TABLE mydataset.mytable DROP COLUMN A, DROP COLUMN IF EXISTS B ALTER TABLE mydataset.mytable ADD COLUMN A TEXT, ADD COLUMN IF NOT EXISTS B INT ALTER TABLE orders DROP PARTITION(dt = '2014-05-14', country = 'IN') ALTER TABLE orders DROP IF EXISTS PARTITION(dt = '2014-05-14', country = 'IN') ALTER TABLE orders DROP PARTITION(dt = '2014-05-14', country = 'IN'), PARTITION(dt = '2014-05-15', country = 'IN') ALTER TABLE mydataset.mytable DELETE WHERE x = 1 ALTER TABLE table1 MODIFY COLUMN name1 SET TAG foo='bar' SELECT div.a FROM test_table AS div WITH view AS (SELECT 1 AS x) SELECT * FROM view ARRAY>> ARRAY[1, 2, 3] ARRAY[] STRUCT STRUCT("bla") STRUCT("bla") STRUCT(5) STRUCT("2011-05-05") STRUCT(1, t.str_col) STRUCT SELECT CAST(NULL AS ARRAY) IS NULL AS array_is_null ALTER TABLE "schema"."tablename" ADD CONSTRAINT "CHK_Name" CHECK (NOT "IdDwh" IS NULL AND "IdDwh" <> (0)) ALTER TABLE persons ADD CONSTRAINT persons_pk PRIMARY KEY (first_name, last_name) ALTER TABLE pets ADD CONSTRAINT pets_persons_fk FOREIGN KEY (owner_first_name, owner_last_name) REFERENCES persons ALTER TABLE pets ADD CONSTRAINT pets_name_not_cute_chk CHECK (LENGTH(name) < 20) ALTER TABLE people10m ADD CONSTRAINT dateWithinRange CHECK (birthDate > '1900-01-01') ALTER TABLE people10m ADD CONSTRAINT validIds CHECK (id > 1 AND id < 99999999) ENFORCED ALTER TABLE s_ut ADD CONSTRAINT s_ut_uq UNIQUE hajo ALTER TABLE baa ADD CONSTRAINT boo PRIMARY KEY (x, y) NOT ENFORCED DEFERRABLE INITIALLY DEFERRED NORELY ALTER TABLE baa ADD CONSTRAINT boo PRIMARY KEY (x, y) NOT ENFORCED DEFERRABLE INITIALLY DEFERRED NORELY ALTER TABLE baa ADD CONSTRAINT boo FOREIGN KEY (x, y) REFERENCES persons ON UPDATE NO ACTION ON DELETE NO ACTION MATCH FULL ALTER TABLE a ADD PRIMARY KEY (x, y) NOT ENFORCED ALTER TABLE a ADD FOREIGN KEY (x, y) REFERENCES bla SELECT partition FROM a SELECT end FROM a SELECT id FROM b.a AS a QUALIFY ROW_NUMBER() OVER (PARTITION BY br ORDER BY sadf DESC) = 1 SELECT LEFT.FOO FROM BLA AS LEFT SELECT RIGHT.FOO FROM BLA AS RIGHT SELECT LEFT FROM LEFT LEFT JOIN RIGHT RIGHT JOIN LEFT SELECT * FROM x WHERE name ILIKE ANY XXX('a', 'b') SELECT * FROM x WHERE name LIKE ANY XXX('a', 'b') a OVERLAPS b GRANT INSERT ON foo TO bla PRAGMA quick_check PRAGMA QUICK_CHECK(0) PRAGMA QUICK_CHECK('sqlite_master') PRAGMA schema.quick_check PRAGMA schema.QUICK_CHECK(0) PRAGMA schema.QUICK_CHECK('sqlite_master') PRAGMA synchronous = 2 PRAGMA synchronous = FULL PRAGMA memory_limit = '1GB' PRAGMA schema.synchronous = 2 PRAGMA schema.synchronous = FULL PRAGMA schema.memory_limit = '1GB' JSON_OBJECT() JSON_OBJECT(*) JSON_OBJECT('key1': 1, 'key2': TRUE) JSON_OBJECT('id': '5', 'fld1': 'bla', 'fld2': 'bar') JSON_OBJECT('x': NULL, 'y': 1 NULL ON NULL) JSON_OBJECT('x': NULL, 'y': 1 WITH UNIQUE KEYS) JSON_OBJECT('x': NULL, 'y': 1 ABSENT ON NULL WITH UNIQUE KEYS) JSON_OBJECT('x': 1 RETURNING VARCHAR(100)) JSON_OBJECT('x': 1 RETURNING VARBINARY FORMAT JSON ENCODING UTF8) SELECT if.x SELECT NEXT VALUE FOR db.schema.sequence_name SELECT NEXT VALUE FOR db.schema.sequence_name OVER (ORDER BY foo), col SELECT PERCENTILE_CONT(x, 0.5) OVER () SELECT PERCENTILE_CONT(x, 0.5 RESPECT NULLS) OVER () SELECT PERCENTILE_CONT(x, 0.5 IGNORE NULLS) OVER () WITH my_cte AS (SELECT 'a' AS desc) SELECT desc AS description FROM my_cte WITH my_cte AS (SELECT 'a' AS asc) SELECT asc AS description FROM my_cte SELECT * FROM case SELECT * FROM schema.case SELECT * FROM current_date SELECT * FROM schema.current_date