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ClickHouse/docs/en/query_language/operators.md
Ivan Blinkov 0a4a5b36cc
Some WIP on documentation refactoring (#2659) 
* Additional .gitignore entries

* Merge a bunch of small articles about system tables into single one

* Merge a bunch of small articles about formats into single one

* Adapt table with formats to English docs too

* Add SPb meetup link to main page

* Move Utilities out of top level of docs (the location is probably not yet final) + translate couple articles

* Merge MacOS.md into build_osx.md

* Move Data types higher in ToC

* Publish changelog on website alongside documentation

* Few fixes for en/table_engines/file.md

* Use smaller header sizes in changelogs

* Group up table engines inside ToC

* Move table engines out of top level too

* Specificy in ToC that query language is SQL based. Thats a bit excessive, but catches eye.

* Move stuff that is part of query language into respective folder

* Move table functions lower in ToC

* Lost redirects.txt update

* Do not rely on comments in yaml + fix few ru titles

* Extract major parts of queries.md into separate articles

* queries.md has been supposed to be removed

* Fix weird translation

* Fix a bunch of links

* There is only table of contents left

* "Query language" is actually part of SQL abbreviation

* Change filename in README.md too

* fix mistype
2018-07-18 13:00:53 +03:00

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# Operators
All operators are transformed to the corresponding functions at the query parsing stage, in accordance with their precedence and associativity.
Groups of operators are listed in order of priority (the higher it is in the list, the earlier the operator is connected to its arguments).
## Access operators
`a[N]` Access to an element of an array; ` arrayElement(a, N) function`.
`a.N` Access to a tuble element; `tupleElement(a, N)` function.
## Numeric negation operator
`-a` The `negate (a)` function.
## Multiplication and division operators
`a * b` The `multiply (a, b) function.`
`a / b` The ` divide(a, b) function.`
`a % b` The `modulo(a, b) function.`
## Addition and subtraction operators
`a + b` The `plus(a, b) function.`
`a - b` The `minus(a, b) function.`
## Comparison operators
`a = b` The `equals(a, b) function.`
`a == b` The ` equals(a, b) function.`
`a != b` The `notEquals(a, b) function.`
`a <> b` The `notEquals(a, b) function.`
`a <= b` The `lessOrEquals(a, b) function.`
`a >= b` The `greaterOrEquals(a, b) function.`
`a < b` The `less(a, b) function.`
`a > b` The `greater(a, b) function.`
`a LIKE s` The `like(a, b) function.`
`a NOT LIKE s` The `notLike(a, b) function.`
`a BETWEEN b AND c` The same as `a >= b AND a <= c.`
## Operators for working with data sets
*See the section "IN operators".*
`a IN ...` The `in(a, b) function`
`a NOT IN ...` The `notIn(a, b) function.`
`a GLOBAL IN ...` The `globalIn(a, b) function.`
`a GLOBAL NOT IN ...` The `globalNotIn(a, b) function.`
## Logical negation operator
`NOT a` The `not(a) function.`
## Logical AND operator
`a AND b` The`and(a, b) function.`
## Logical OR operator
`a OR b` The `or(a, b) function.`
## Conditional operator
`a ? b : c` The `if(a, b, c) function.`
Note:
The conditional operator calculates the values of b and c, then checks whether condition a is met, and then returns the corresponding value. If "b" or "c" is an arrayJoin() function, each row will be replicated regardless of the "a" condition.
## Conditional expression
```sql
CASE [x]
WHEN a THEN b
[WHEN ... THEN ...]
ELSE c
END
```
If "x" is specified, then transform(x, \[a, ...\], \[b, ...\], c). Otherwise multiIf(a, b, ..., c).
## Concatenation operator
`s1 || s2` The `concat(s1, s2) function.`
## Lambda creation operator
`x -> expr` The `lambda(x, expr) function.`
The following operators do not have a priority, since they are brackets:
## Array creation operator
`[x1, ...]` The `array(x1, ...) function.`
## Tuple creation operator
`(x1, x2, ...)` The `tuple(x2, x2, ...) function.`
## Associativity
All binary operators have left associativity. For example, `1 + 2 + 3` is transformed to `plus(plus(1, 2), 3)`.
Sometimes this doesn't work the way you expect. For example, ` SELECT 4 > 2 > 3` will result in 0.
For efficiency, the `and` and `or` functions accept any number of arguments. The corresponding chains of `AND` and `OR` operators are transformed to a single call of these functions.
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