The syntax of the SQL programming language is defined and maintained by ISO/IEC SC 32 as part of ISO/IEC 9075. This standard is not freely available. Despite the existence of the standard, SQL code is not completely portable among different database systems without adjustments.
The SQL language is subdivided into several language elements, including:
SELECT
, COUNT
and YEAR
), or non-reserved (e.g. ASC
, DOMAIN
and KEY
). List of SQL reserved words.YEAR
is specifed as "YEAR"
.Operator | Description | Example |
---|---|---|
=
|
Equal to | Author = 'Alcott'
|
<>
|
Not equal to (many DBMSs accept != in addition to <> )
|
Dept <> 'Sales'
|
>
|
Greater than | Hire_Date > '2012-01-31'
|
<
|
Less than | Bonus < 50000.00
|
>=
|
Greater than or equal | Dependents >= 2
|
<=
|
Less than or equal | Rate <= 0.05
|
[NOT] BETWEEN [SYMMETRIC]
|
Between an inclusive range. SYMMETRIC inverts the range bounds if the first is higher than the second. | Cost BETWEEN 100.00 AND 500.00
|
[NOT] LIKE [ESCAPE]
|
Begins with a character pattern | Full_Name LIKE 'Will%'
|
Contains a character pattern | Full_Name LIKE '%Will%'
| |
[NOT] IN
|
Equal to one of multiple possible values | DeptCode IN (101, 103, 209)
|
IS [NOT] NULL
|
Compare to null (missing data) | Address IS NOT NULL
|
IS [NOT] TRUE or IS [NOT] FALSE
|
Boolean truth value test | PaidVacation IS TRUE
|
IS NOT DISTINCT FROM
|
Is equal to value or both are nulls (missing data) | Debt IS NOT DISTINCT FROM - Receivables
|
AS
|
Used to change a column name when viewing results | SELECT employee AS department1
|
Other operators have at times been suggested or implemented, such as the skyline operator (for finding only those rows that are not 'worse' than any others).
SQL has the case
expression, which was introduced in SQL-92. In its most general form, which is called a "searched case" in the SQL standard:
CASE WHEN n > 0
THEN 'positive'
WHEN n < 0
THEN 'negative'
ELSE 'zero'
END
SQL tests WHEN
conditions in the order they appear in the source. If the source does not specify an ELSE
expression, SQL defaults to ELSE NULL
. An abbreviated syntax called "simple case" can also be used:
CASE n WHEN 1
THEN 'One'
WHEN 2
THEN 'Two'
ELSE 'I cannot count that high'
END
This syntax uses implicit equality comparisons, with the usual caveats for comparing with NULL.
There are two short forms for special CASE
expressions: COALESCE
and NULLIF
.
The COALESCE
expression returns the value of the first non-NULL operand, found by working from left to right, or NULL if all the operands equal NULL.
COALESCE(x1,x2)
is equivalent to:
CASE WHEN x1 IS NOT NULL THEN x1
ELSE x2
END
The NULLIF
expression has two operands and returns NULL if the operands have the same value, otherwise it has the value of the first operand.
NULLIF(x1, x2)
is equivalent to
CASE WHEN x1 = x2 THEN NULL ELSE x1 END
Standard SQL allows two formats for comments: -- comment
, which is ended by the first newline, and /* comment */
, which can span multiple lines.
The most common operation in SQL, the query, makes use of the declarative SELECT
statement. SELECT
retrieves data from one or more tables, or expressions. Standard SELECT
statements have no persistent effects on the database. Some non-standard implementations of SELECT
can have persistent effects, such as the SELECT INTO
syntax provided in some databases.[2]
Queries allow the user to describe desired data, leaving the database management system (DBMS) to carry out planning, optimizing, and performing the physical operations necessary to produce that result as it chooses.
A query includes a list of columns to include in the final result, normally immediately following the SELECT
keyword. An asterisk ("*
") can be used to specify that the query should return all columns of the queried tables. SELECT
is the most complex statement in SQL, with optional keywords and clauses that include:
FROM
clause, which indicates the table(s) to retrieve data from. The FROM
clause can include optional JOIN
subclauses to specify the rules for joining tables.WHERE
clause includes a comparison predicate, which restricts the rows returned by the query. The WHERE
clause eliminates all rows from the result set where the comparison predicate does not evaluate to True.GROUP BY
clause projects rows having common values into a smaller set of rows.[clarification needed]GROUP BY
is often used in conjunction with SQL aggregation functions or to eliminate duplicate rows from a result set. The WHERE
clause is applied before the GROUP BY
clause.HAVING
clause includes a predicate used to filter rows resulting from the GROUP BY
clause. Because it acts on the results of the GROUP BY
clause, aggregation functions can be used in the HAVING
clause predicate.ORDER BY
clause identifies which column[s] to use to sort the resulting data, and in which direction to sort them (ascending or descending). Without an ORDER BY
clause, the order of rows returned by an SQL query is undefined.DISTINCT
keyword[3] eliminates duplicate data.[4]OFFSET
clause specifies the number of rows to skip before starting to return data.FETCH FIRST
clause specifies the number of rows to return. Some SQL databases instead have non-standard alternatives, e.g. LIMIT
, TOP
or ROWNUM
.The clauses of a query have a particular order of execution,[5] which is denoted by the number on the right hand side. It is as follows:
SELECT <columns> |
5. |
FROM <table> |
1. |
WHERE <predicate on rows> |
2. |
GROUP BY <columns> |
3. |
HAVING <predicate on groups> |
4. |
ORDER BY <columns> |
6. |
OFFSET |
7. |
FETCH FIRST |
8. |
The following example of a SELECT
query returns a list of expensive books. The query retrieves all rows from the Book table in which the price column contains a value greater than 100.00. The result is sorted in ascending order by title. The asterisk (*) in the select list indicates that all columns of the Book table should be included in the result set.
SELECT *
FROM Book
WHERE price > 100.00
ORDER BY title;
The example below demonstrates a query of multiple tables, grouping, and aggregation, by returning a list of books and the number of authors associated with each book.
SELECT Book.title AS Title,
count(*) AS Authors
FROM Book
JOIN Book_author
ON Book.isbn = Book_author.isbn
GROUP BY Book.title;
Example output might resemble the following:
Title Authors ---------------------- ------- SQL Examples and Guide 4 The Joy of SQL 1 An Introduction to SQL 2 Pitfalls of SQL 1
Under the precondition that isbn is the only common column name of the two tables and that a column named title only exists in the Book table, one could re-write the query above in the following form:
SELECT title,
count(*) AS Authors
FROM Book
NATURAL JOIN Book_author
GROUP BY title;
However, many[quantify] vendors either do not support this approach, or require certain column-naming conventions for natural joins to work effectively.
SQL includes operators and functions for calculating values on stored values. SQL allows the use of expressions in the select list to project data, as in the following example, which returns a list of books that cost more than 100.00 with an additional sales_tax column containing a sales tax figure calculated at 6% of the price.
SELECT isbn,
title,
price,
price * 0.06 AS sales_tax
FROM Book
WHERE price > 100.00
ORDER BY title;
Queries can be nested so that the results of one query can be used in another query via a relational operator or aggregation function. A nested query is also known as a subquery. While joins and other table operations provide computationally superior (i.e. faster) alternatives in many cases, the use of subqueries introduces a hierarchy in execution that can be useful or necessary. In the following example, the aggregation function AVG
receives as input the result of a subquery:
SELECT isbn,
title,
price
FROM Book
WHERE price < (SELECT AVG(price) FROM Book)
ORDER BY title;
A subquery can use values from the outer query, in which case it is known as a correlated subquery.
Since 1999 the SQL standard allows WITH
clauses for subqueries, i.e. named subqueries, usually called common table expressions (also called subquery factoring). CTEs can also be recursive by referring to themselves; the resulting mechanism allows tree or graph traversals (when represented as relations), and more generally fixpoint computations.
A derived table is the use of referencing an SQL subquery in a FROM clause. Essentially, the derived table is a subquery that can be selected from or joined to. The derived table functionality allows the user to reference the subquery as a table. The inline view is also referred to as an inline view or a subselect.
In the following example, the SQL statement involves a join from the initial "Book" table to the derived table "sales". This derived table captures associated book sales information using the ISBN to join to the "Book" table. As a result, the derived table provides the result set with additional columns (the number of items sold and the company that sold the books):
SELECT b.isbn, b.title, b.price, sales.items_sold, sales.company_nm
FROM Book b
JOIN (SELECT SUM(Items_Sold) Items_Sold, Company_Nm, ISBN
FROM Book_Sales
GROUP BY Company_Nm, ISBN) sales
ON sales.isbn = b.isbn
The concept of Null allows SQL to deal with missing information in the relational model. The word NULL
is a reserved keyword in SQL, used to identify the Null special marker. Comparisons with Null, for instance equality (=) in WHERE clauses, results in an Unknown truth value. In SELECT statements SQL returns only results for which the WHERE clause returns a value of True; i.e., it excludes results with values of False and also excludes those whose value is Unknown.
Along with True and False, the Unknown resulting from direct comparisons with Null thus brings a fragment of three-valued logic to SQL. The truth tables SQL uses for AND, OR, and NOT correspond to a common fragment of the Kleene and Lukasiewicz three-valued logic (which differ in their definition of implication, however SQL defines no such operation).[6]
|
|
|
|
There are however disputes about the semantic interpretation of Nulls in SQL because of its treatment outside direct comparisons. As seen in the table above, direct equality comparisons between two NULLs in SQL (e.g. {{{1}}}
) return a truth value of Unknown. This is in line with the interpretation that Null does not have a value (and is not a member of any data domain) but is rather a placeholder or "mark" for missing information. However, the principle that two Nulls aren't equal to each other is effectively violated in the SQL specification for the UNION
and INTERSECT
operators, which do identify nulls with each other.[7] Consequently, these set operations in SQL may produce results not representing sure information, unlike operations involving explicit comparisons with NULL (e.g. those in a WHERE
clause discussed above). In Codd's 1979 proposal (which was basically adopted by SQL92) this semantic inconsistency is rationalized by arguing that removal of duplicates in set operations happens "at a lower level of detail than equality testing in the evaluation of retrieval operations".[6] However, computer-science professor Ron van der Meyden concluded that "The inconsistencies in the SQL standard mean that it is not possible to ascribe any intuitive logical semantics to the treatment of nulls in SQL."[7]
Additionally, because SQL operators return Unknown when comparing anything with Null directly, SQL provides two Null-specific comparison predicates: IS NULL
and IS NOT NULL
test whether data is or is not Null.[8] SQL does not explicitly support universal quantification, and must work it out as a negated existential quantification.[9][10][11] There is also the "<row value expression> IS DISTINCT FROM <row value expression>" infixed comparison operator, which returns TRUE unless both operands are equal or both are NULL. Likewise, IS NOT DISTINCT FROM is defined as "NOT (<row value expression> IS DISTINCT FROM <row value expression>)". SQL:1999 also introduced BOOLEAN
type variables, which according to the standard can also hold Unknown values if it is nullable. In practice, a number of systems (e.g. PostgreSQL) implement the BOOLEAN Unknown as a BOOLEAN NULL, which the standard says that the NULL BOOLEAN and UNKNOWN "may be used interchangeably to mean exactly the same thing".C. Date (2011). SQL and Relational Theory: How to Write Accurate SQL Code. O'Reilly Media, Inc. p. 83. ISBN 978-1-4493-1640-2.</ref>[12]
The Data Manipulation Language (DML) is the subset of SQL used to add, update and delete data:
INSERT
adds rows (formally tuples) to an existing table, e.g.:INSERT INTO example
(column1, column2, column3)
VALUES
('test', 'N', NULL);
UPDATE
modifies a set of existing table rows, e.g.:UPDATE example
SET column1 = 'updated value'
WHERE column2 = 'N';
DELETE
removes existing rows from a table, e.g.:DELETE FROM example
WHERE column2 = 'N';
MERGE
is used to combine the data of multiple tables. It combines the INSERT
and UPDATE
elements. It is defined in the SQL:2003 standard; prior to that, some databases provided similar functionality via different syntax, sometimes called "upsert". MERGE INTO table_name USING table_reference ON (condition)
WHEN MATCHED THEN
UPDATE SET column1 = value1 [, column2 = value2 ...]
WHEN NOT MATCHED THEN
INSERT (column1 [, column2 ...]) VALUES (value1 [, value2 ...])
Transactions, if available, wrap DML operations:
START TRANSACTION
(or BEGIN WORK
, or BEGIN TRANSACTION
, depending on SQL dialect) marks the start of a database transaction, which either completes entirely or not at all.SAVE TRANSACTION
(or SAVEPOINT
) saves the state of the database at the current point in transactionCREATE TABLE tbl_1(id int);
INSERT INTO tbl_1(id) VALUES(1);
INSERT INTO tbl_1(id) VALUES(2);
COMMIT;
UPDATE tbl_1 SET id=200 WHERE id=1;
SAVEPOINT id_1upd;
UPDATE tbl_1 SET id=1000 WHERE id=2;
ROLLBACK to id_1upd;
SELECT id from tbl_1;
COMMIT
makes all data changes in a transaction permanent.ROLLBACK
discards all data changes since the last COMMIT
or ROLLBACK
, leaving the data as it was prior to those changes. Once the COMMIT
statement completes, the transaction's changes cannot be rolled back.COMMIT
and ROLLBACK
terminate the current transaction and release data locks. In the absence of a START TRANSACTION
or similar statement, the semantics of SQL are implementation-dependent.
The following example shows a classic transfer of funds transaction, where money is removed from one account and added to another. If either the removal or the addition fails, the entire transaction is rolled back.
START TRANSACTION;
UPDATE Account SET amount=amount-200 WHERE account_number=1234;
UPDATE Account SET amount=amount+200 WHERE account_number=2345;
IF ERRORS=0 COMMIT;
IF ERRORS<>0 ROLLBACK;
The Data Definition Language (DDL) manages table and index structure. The most basic items of DDL are the CREATE
, ALTER
, RENAME
, DROP
and TRUNCATE
statements:
CREATE
creates an object (a table, for example) in the database, e.g.:CREATE TABLE example(
column1 INTEGER,
column2 VARCHAR(50),
column3 DATE NOT NULL,
PRIMARY KEY (column1, column2)
);
ALTER
modifies the structure of an existing object in various ways, for example, adding a column to an existing table or a constraint, e.g.:ALTER TABLE example ADD column4 INTEGER DEFAULT 25 NOT NULL;
TRUNCATE
deletes all data from a table in a very fast way, deleting the data inside the table and not the table itself. It usually implies a subsequent COMMIT operation, i.e., it cannot be rolled back (data is not written to the logs for rollback later, unlike DELETE).TRUNCATE TABLE example;
DROP
deletes an object in the database, usually irretrievably, i.e., it cannot be rolled back, e.g.:DROP TABLE example;
Each column in an SQL table declares the type(s) that column may contain. ANSI SQL includes the following data types.[13]
CHARACTER(n)
(or CHAR(n)
): fixed-width n-character string, padded with spaces as neededCHARACTER VARYING(n)
(or VARCHAR(n)
): variable-width string with a maximum size of n charactersCHARACTER LARGE OBJECT(n [ K | M | G | T ])
(or CLOB(n [ K | M | G | T ])
): character large object with a maximum size of n [ K | M | G | T ] charactersNATIONAL CHARACTER(n)
(or NCHAR(n)
): fixed width string supporting an international character setNATIONAL CHARACTER VARYING(n)
(or NVARCHAR(n)
): variable-width NCHAR
stringNATIONAL CHARACTER LARGE OBJECT(n [ K | M | G | T ])
(or NCLOB(n [ K | M | G | T ])
): national character large object with a maximum size of n [ K | M | G | T ] charactersFor the CHARACTER LARGE OBJECT
and NATIONAL CHARACTER LARGE OBJECT
data types, the multipliers K
(1 024), M
(1 048 576), G
(1 073 741 824) and T
(1 099 511 627 776) can be optionally used when specifying the length.
BINARY(n)
: Fixed length binary string, maximum length n.BINARY VARYING(n)
(or VARBINARY(n)
): Variable length binary string, maximum length n.BINARY LARGE OBJECT(n [ K | M | G | T ])
(or BLOB(n [ K | M | G | T ])
): binary large object with a maximum length n [ K | M | G | T ].For the BINARY LARGE OBJECT
data type, the multipliers K
(1 024), M
(1 048 576), G
(1 073 741 824) and T
(1 099 511 627 776) can be optionally used when specifying the length.
BOOLEAN
The BOOLEAN
data type can store the values TRUE
and FALSE
.
INTEGER
(or INT
), SMALLINT
and BIGINT
FLOAT
, REAL
and DOUBLE PRECISION
NUMERIC(precision, scale)
or DECIMAL(precision, scale)
DECFLOAT(precision
)For example, the number 123.45 has a precision of 5 and a scale of 2. The precision is a positive integer that determines the number of significant digits in a particular radix (binary or decimal). The scale is a non-negative integer. A scale of 0 indicates that the number is an integer. For a decimal number with scale S, the exact numeric value is the integer value of the significant digits divided by 10S.
SQL provides the functions CEILING
and FLOOR
to round numerical values. (Popular vendor specific functions are TRUNC
(Informix, DB2, PostgreSQL, Oracle and MySQL) and ROUND
(Informix, SQLite, Sybase, Oracle, PostgreSQL, Microsoft SQL Server and Mimer SQL.))
DATE
: for date values (e.g. 2011-05-03
).TIME
: for time values (e.g. 15:51:36
).TIME WITH TIME ZONE
: the same as TIME
, but including details about the time zone in question.TIMESTAMP
: This is a DATE
and a TIME
put together in one variable (e.g. 2011-05-03 15:51:36.123456
).TIMESTAMP WITH TIME ZONE
: the same as TIMESTAMP
, but including details about the time zone in question.The SQL function EXTRACT
can be used for extracting a single field (seconds, for instance) of a datetime or interval value. The current system date / time of the database server can be called by using functions like CURRENT_DATE
, CURRENT_TIMESTAMP
, LOCALTIME
, or LOCALTIMESTAMP
. (Popular vendor specific functions are TO_DATE
, TO_TIME
, TO_TIMESTAMP
, YEAR
, MONTH
, DAY
, HOUR
, MINUTE
, SECOND
, DAYOFYEAR
, DAYOFMONTH
and DAYOFWEEK
.)
YEAR(precision)
: a number of yearsYEAR(precision) TO MONTH
: a number of years and monthsMONTH(precision)
: a number of monthsDAY(precision)
: a number of daysDAY(precision) TO HOUR
: a number of days and hoursDAY(precision) TO MINUTE
: a number of days, hours and minutesDAY(precision) TO SECOND(scale)
: a number of days, hours, minutes and secondsHOUR(precision)
: a number of hoursHOUR(precision) TO MINUTE
: a number of hours and minutesHOUR(precision) TO SECOND(scale)
: a number of hours, minutes and secondsMINUTE(precision)
: a number of minutesMINUTE(precision) TO SECOND(scale)
: a number of minutes and secondsThe Data Control Language (DCL) authorizes users to access and manipulate data. Its two main statements are:
GRANT
authorizes one or more users to perform an operation or a set of operations on an object.REVOKE
eliminates a grant, which may be the default grant.Example:
GRANT SELECT, UPDATE
ON example
TO some_user, another_user;
REVOKE SELECT, UPDATE
ON example
FROM some_user, another_user;
Although the UNIQUE argument is identical to DISTINCT, it is not an ANSI standard.
[...] the keyword DISTINCT [...] eliminates the duplicates from the result set.
By: Wikipedia.org
Edited: 2021-06-19 12:43:00
Source: Wikipedia.org