--- slug: /en/sql-reference/statements/select/except sidebar_label: EXCEPT --- # EXCEPT Clause The `EXCEPT` clause returns only those rows that result from the first query without the second. The queries must match the number of columns, order, and type. The result of `EXCEPT` can contain duplicate rows. Multiple `EXCEPT` statements are executed left to right if parenthesis are not specified. The `EXCEPT` operator has the same priority as the `UNION` clause and lower priority than the `INTERSECT` clause. ``` sql SELECT column1 [, column2 ] FROM table1 [WHERE condition] EXCEPT SELECT column1 [, column2 ] FROM table2 [WHERE condition] ``` The condition could be any expression based on your requirements. ## Examples Here is a simple example that returns the numbers 1 to 10 that are _not_ a part of the numbers 3 to 8: Query: ``` sql SELECT number FROM numbers(1,10) EXCEPT SELECT number FROM numbers(3,6); ``` Result: ```response ┌─number─┐ │ 1 │ │ 2 │ │ 9 │ │ 10 │ └────────┘ ``` `EXCEPT` and `INTERSECT` can often be used interchangeably with different Boolean logic, and they are both useful if you have two tables that share a common column (or columns). For example, suppose we have a few million rows of historical cryptocurrency data that contains trade prices and volume: ```sql CREATE TABLE crypto_prices ( trade_date Date, crypto_name String, volume Float32, price Float32, market_cap Float32, change_1_day Float32 ) ENGINE = MergeTree PRIMARY KEY (crypto_name, trade_date); INSERT INTO crypto_prices SELECT * FROM s3( 'https://learn-clickhouse.s3.us-east-2.amazonaws.com/crypto_prices.csv', 'CSVWithNames' ); SELECT * FROM crypto_prices WHERE crypto_name = 'Bitcoin' ORDER BY trade_date DESC LIMIT 10; ``` ```response ┌─trade_date─┬─crypto_name─┬──────volume─┬────price─┬───market_cap─┬──change_1_day─┐ │ 2020-11-02 │ Bitcoin │ 30771456000 │ 13550.49 │ 251119860000 │ -0.013585099 │ │ 2020-11-01 │ Bitcoin │ 24453857000 │ 13737.11 │ 254569760000 │ -0.0031840964 │ │ 2020-10-31 │ Bitcoin │ 30306464000 │ 13780.99 │ 255372070000 │ 0.017308505 │ │ 2020-10-30 │ Bitcoin │ 30581486000 │ 13546.52 │ 251018150000 │ 0.008084608 │ │ 2020-10-29 │ Bitcoin │ 56499500000 │ 13437.88 │ 248995320000 │ 0.012552661 │ │ 2020-10-28 │ Bitcoin │ 35867320000 │ 13271.29 │ 245899820000 │ -0.02804481 │ │ 2020-10-27 │ Bitcoin │ 33749879000 │ 13654.22 │ 252985950000 │ 0.04427984 │ │ 2020-10-26 │ Bitcoin │ 29461459000 │ 13075.25 │ 242251000000 │ 0.0033826586 │ │ 2020-10-25 │ Bitcoin │ 24406921000 │ 13031.17 │ 241425220000 │ -0.0058658565 │ │ 2020-10-24 │ Bitcoin │ 24542319000 │ 13108.06 │ 242839880000 │ 0.013650347 │ └────────────┴─────────────┴─────────────┴──────────┴──────────────┴───────────────┘ ``` Now suppose we have a table named `holdings` that contains a list of cryptocurrencies that we own, along with the number of coins: ```sql CREATE TABLE holdings ( crypto_name String, quantity UInt64 ) ENGINE = MergeTree PRIMARY KEY (crypto_name); INSERT INTO holdings VALUES ('Bitcoin', 1000), ('Bitcoin', 200), ('Ethereum', 250), ('Ethereum', 5000), ('DOGEFI', 10); ('Bitcoin Diamond', 5000); ``` We can use `EXCEPT` to answer a question like **"Which coins do we own have never traded below $10?"**: ```sql SELECT crypto_name FROM holdings EXCEPT SELECT crypto_name FROM crypto_prices WHERE price < 10; ``` Result: ```response ┌─crypto_name─┐ │ Bitcoin │ │ Bitcoin │ └─────────────┘ ``` This means of the four cryptocurrencies we own, only Bitcoin has never dropped below $10 (based on the limited data we have here in this example). ## EXCEPT DISTINCT Notice in the previous query we had multiple Bitcoin holdings in the result. You can add `DISTINCT` to `EXCEPT` to eliminate duplicate rows from the result: ```sql SELECT crypto_name FROM holdings EXCEPT DISTINCT SELECT crypto_name FROM crypto_prices WHERE price < 10; ``` Result: ```response ┌─crypto_name─┐ │ Bitcoin │ └─────────────┘ ``` **See Also** - [UNION](union.md#union-clause) - [INTERSECT](intersect.md#intersect-clause)