lqb
/
elasticsearch
镜像自地址 https://gitee.com/mirrors/elasticsearch.git


			
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							[role="xpack"]
[testenv="basic"]
[[sql-lexical-structure]]
=== Lexical Structure

This section covers the major lexical structure of SQL, which for the most part, is going to resemble that of ANSI SQL itself hence why low-levels details are not discussed in depth.

{es-sql} currently accepts only one _command_ at a time. A command is a sequence of _tokens_ terminated by the end of input stream.

A token can be a __key word__, an _identifier_ (_quoted_ or _unquoted_), a _literal_ (or constant) or a special character symbol (typically a delimiter). Tokens are typically separated by whitespace (be it space, tab) though in some cases, where there is no ambiguity (typically due to a character symbol) this is not needed - however for readability purposes this should be avoided.

[[sql-syntax-keywords]]
==== Key Words

Take the following example:

[source, sql]
----
SELECT * FROM table
----

This query has four tokens: `SELECT`, `*`, `FROM` and `table`. The first three, namely `SELECT`, `*` and `FROM` are __key words__ meaning words that have a fixed meaning in SQL. The token `table` is an _identifier_ meaning it identifies (by name) an entity inside SQL such as a table (in this case), a column, etc...

As one can see, both key words and identifiers have the _same_ lexical structure and thus one cannot know whether a token is one or the other without knowing the SQL language; the complete list of key words is available in the <<sql-syntax-reserved, reserved appendix>>.
Do note that key words are case-insensitive meaning the previous example can be written as:

[source, sql]
----
select * fRoM table;
----

Identifiers however are not - as {es} is case sensitive, {es-sql} uses the received value verbatim.

To help differentiate between the two, through-out the documentation the SQL key words are upper-cased a convention we find increases readability and thus recommend to others.

[[sql-syntax-identifiers]]
==== Identifiers

Identifiers can be of two types: __quoted__ and __unquoted__:

[source, sql]
----
SELECT ip_address FROM "hosts-*"
----

This query has two identifiers, `ip_address` and `hosts-*` (an <<multi-index,index pattern>>). As `ip_address` does not clash with any key words it can be used verbatim, `hosts-*` on the other hand cannot as it clashes with `-` (minus operation) and `*` hence the double quotes.

Another example:

[source, sql]
----
SELECT "from" FROM "<logstash-{now/d}>"
----

The first identifier from needs to quoted as otherwise it clashes with the `FROM` key word (which is case insensitive as thus can be written as `from`) while the second identifier using {es} <<date-math-index-names>> would have otherwise confuse the parser.

Hence why in general, *especially* when dealing with user input it is *highly* recommended to use quotes for identifiers. It adds minimal increase to your queries and in return offers clarity and disambiguation.

[[sql-syntax-literals]]
==== Literals (Constants)

{es-sql} supports two kind of __implicitly-typed__ literals: strings and numbers.

[[sql-syntax-string-literals]]
[float]
===== String Literals

A string literal is an arbitrary number of characters bounded by single quotes `'`: `'Giant Robot'`. 
To include a single quote in the string, escape it using another single quote: `'Captain EO''s Voyage'`. 

NOTE: An escaped single quote is *not* a double quote (`"`), but a single quote `'` _repeated_ (`''`).

[sql-syntax-numeric-literals]
[float]
===== Numeric Literals

Numeric literals are accepted both in decimal and scientific notation with exponent marker (`e` or `E`), starting either with a digit or decimal point `.`:

[source, sql]
----
1969    -- integer notation
3.14    -- decimal notation
.1234   -- decimal notation starting with decimal point
4E5     -- scientific notation (with exponent marker)
1.2e-3  -- scientific notation with decimal point
----

Numeric literals that contain a decimal point are always interpreted as being of type `double`. Those without are considered `integer` if they fit otherwise their type is `long` (or `BIGINT` in ANSI SQL types).

[[sql-syntax-generic-literals]]
[float]
===== Generic Literals

When dealing with arbitrary type literal, one creates the object by casting, typically, the string representation to the desired type. This can be achieved through the dedicated <<sql-operators-cast, cast operator>> and <<sql-functions-type-conversion, functions>>:

[source, sql]
----
123::LONG                                   -- cast 123 to a LONG
CAST('1969-05-13T12:34:56' AS TIMESTAMP)    -- cast the given string to datetime
CONVERT('10.0.0.1', IP)                     -- cast '10.0.0.1' to an IP    
----

Do note that {es-sql} provides functions that out of the box return popular literals (like `E()`) or provide dedicated parsing for certain strings.

[[sql-syntax-single-vs-double-quotes]]
==== Single vs Double Quotes

It is worth pointing out that in SQL, single quotes `'` and double quotes `"` have different meaning and *cannot* be used interchangeably.
Single quotes are used to declare a <<sql-syntax-string-literals, string literal>> while double quotes for <<sql-syntax-identifiers, identifiers>>.

To wit:

[source, sql]
----
SELECT "first_name" <1>
  FROM "musicians"  <1>
 WHERE "last_name"  <1>
     = 'Carroll'    <2>
----

<1> Double quotes `"` used for column and table identifiers
<2> Single quotes `'` used for a string literal

[[sql-syntax-special-chars]]
==== Special characters

A few characters that are not alphanumeric have a dedicated meaning different from that of an operator. For completeness these are specified below:


[cols="^m,^15"]

|===

s|Char
s|Description

|* | The asterisk (or wildcard) is used in some contexts to denote all fields for a table. Can be also used as an argument to some aggregate functions.
|, | Commas are used to enumerate the elements of a list.
|. | Used in numeric constants or to separate identifiers qualifiers (catalog, table, column names, etc...).
|()| Parentheses are used for specific SQL commands, function declarations or to enforce precedence.
|===

[[sql-syntax-operators]]
==== Operators

Most operators in {es-sql} have the same precedence and are left-associative. As this is done at parsing time, parenthesis need to be used to enforce a different precedence.

The following table indicates the supported operators and their precendence (highest to lowest);

[cols="^2m,^,^3"]

|===

s|Operator/Element
s|Associativity
s|Description

|.
|left
|qualifier separator

|::
|left
|PostgreSQL-style type cast

|+ - 
|right
|unary plus and minus (numeric literal sign)

|* / %
|left
|multiplication, division, modulo

|+ -
|left
|addition, substraction

|BETWEEN IN LIKE
|
|range containment, string matching

|< > <= >= = <=> <> !=
|
|comparison

|NOT
|right
|logical negation

|AND
|left
|logical conjunction

|OR
|left
|logical disjunction

|===


[[sql-syntax-comments]]
==== Comments

{es-sql} allows comments which are sequence of characters ignored by the parsers.

Two styles are supported:

Single Line:: Comments start with a double dash `--` and continue until the end of the line.
Multi line:: Comments that start with `/*` and end with `*/` (also known as C-style). 


[source, sql]
----
-- single line comment
/* multi
   line
   comment
   that supports /* nested comments */
   */
----