MySQL 9.3 Reference Manual Including MySQL NDB Cluster 9.3
Table 14.14 Regular Expression Functions and Operators
| Name | Description |
|---|---|
NOT REGEXP |
Negation of REGEXP |
REGEXP |
Whether string matches regular expression |
REGEXP_INSTR() |
Starting index of substring matching regular expression |
REGEXP_LIKE() |
Whether string matches regular expression |
REGEXP_REPLACE() |
Replace substrings matching regular expression |
REGEXP_SUBSTR() |
Return substring matching regular expression |
RLIKE |
Whether string matches regular expression |
A regular expression is a powerful way of specifying a pattern for a complex search. This section discusses the functions and operators available for regular expression matching and illustrates, with examples, some of the special characters and constructs that can be used for regular expression operations. See also Section 5.3.4.7, “Pattern Matching”.
MySQL implements regular expression support using International Components for Unicode (ICU), which provides full Unicode support and is multibyte safe.
Use of a binary string with any of the MySQL regular expression
functions is rejected with
ER_CHARACTER_SET_MISMATCH.
expr
NOT REGEXP patexpr
NOT RLIKE pat
This is the same as NOT
(.
expr REGEXP
pat)
expr
REGEXP patexpr
RLIKE pat
Returns 1 if the string expr
matches the regular expression specified by the pattern
pat, 0 otherwise. If
expr or
pat is NULL,
the return value is NULL.
REGEXP and
RLIKE are
synonyms for REGEXP_LIKE().
For additional information about how matching occurs, see
the description for
REGEXP_LIKE().
mysql>SELECT 'Michael!' REGEXP '.*';+------------------------+ | 'Michael!' REGEXP '.*' | +------------------------+ | 1 | +------------------------+ mysql>SELECT 'new*\n*line' REGEXP 'new\\*.\\*line';+---------------------------------------+ | 'new*\n*line' REGEXP 'new\\*.\\*line' | +---------------------------------------+ | 0 | +---------------------------------------+ mysql>SELECT 'a' REGEXP '^[a-d]';+---------------------+ | 'a' REGEXP '^[a-d]' | +---------------------+ | 1 | +---------------------+
REGEXP_INSTR(
expr,
pat[,
pos[,
occurrence[,
return_option[,
match_type]]]])
Returns the starting index of the substring of the string
expr that matches the regular
expression specified by the pattern
pat, 0 if there is no match. If
expr or
pat is NULL,
the return value is NULL. Character
indexes begin at 1.
REGEXP_INSTR() takes these
optional arguments:
pos: The position in
expr at which to start the
search. If omitted, the default is 1.
occurrence: Which
occurrence of a match to search for. If omitted, the
default is 1.
return_option: Which type
of position to return. If this value is 0,
REGEXP_INSTR() returns
the position of the matched substring's first
character. If this value is 1,
REGEXP_INSTR() returns
the position following the matched substring. If
omitted, the default is 0.
match_type: A string that
specifies how to perform matching. The meaning is as
described for
REGEXP_LIKE().
For additional information about how matching occurs, see
the description for
REGEXP_LIKE().
mysql>SELECT REGEXP_INSTR('dog cat dog', 'dog');+------------------------------------+ | REGEXP_INSTR('dog cat dog', 'dog') | +------------------------------------+ | 1 | +------------------------------------+ mysql>SELECT REGEXP_INSTR('dog cat dog', 'dog', 2);+---------------------------------------+ | REGEXP_INSTR('dog cat dog', 'dog', 2) | +---------------------------------------+ | 9 | +---------------------------------------+ mysql>SELECT REGEXP_INSTR('aa aaa aaaa', 'a{2}');+-------------------------------------+ | REGEXP_INSTR('aa aaa aaaa', 'a{2}') | +-------------------------------------+ | 1 | +-------------------------------------+ mysql>SELECT REGEXP_INSTR('aa aaa aaaa', 'a{4}');+-------------------------------------+ | REGEXP_INSTR('aa aaa aaaa', 'a{4}') | +-------------------------------------+ | 8 | +-------------------------------------+
REGEXP_LIKE(
expr,
pat[,
match_type])
Returns 1 if the string expr
matches the regular expression specified by the pattern
pat, 0 otherwise. If
expr or
pat is NULL,
the return value is NULL.
The pattern can be an extended regular expression, the syntax for which is discussed in Regular Expression Syntax. The pattern need not be a literal string. For example, it can be specified as a string expression or table column.
The optional match_type
argument is a string that may contain any or all the
following characters specifying how to perform matching:
c: Case-sensitive matching.
i: Case-insensitive matching.
m: Multiple-line mode. Recognize
line terminators within the string. The default
behavior is to match line terminators only at the
start and end of the string expression.
n: The .
character matches line terminators. The default is for
. matching to stop at the end of a
line.
u: Unix-only line endings. Only the
newline character is recognized as a line ending by
the ., ^, and
$ match operators.
If characters specifying contradictory options are
specified within match_type,
the rightmost one takes precedence.
By default, regular expression operations use the
character set and collation of the
expr and
pat arguments when deciding the
type of a character and performing the comparison. If the
arguments have different character sets or collations,
coercibility rules apply as described in
Section 12.8.4, “Collation Coercibility in Expressions”.
Arguments may be specified with explicit collation
indicators to change comparison behavior.
mysql>SELECT REGEXP_LIKE('CamelCase', 'CAMELCASE');+---------------------------------------+ | REGEXP_LIKE('CamelCase', 'CAMELCASE') | +---------------------------------------+ | 1 | +---------------------------------------+ mysql>SELECT REGEXP_LIKE('CamelCase', 'CAMELCASE' COLLATE utf8mb4_0900_as_cs);+------------------------------------------------------------------+ | REGEXP_LIKE('CamelCase', 'CAMELCASE' COLLATE utf8mb4_0900_as_cs) | +------------------------------------------------------------------+ | 0 | +------------------------------------------------------------------+
match_type may be specified
with the c or i
characters to override the default case sensitivity.
Exception: If either argument is a binary string, the
arguments are handled in case-sensitive fashion as binary
strings, even if match_type
contains the i character.
MySQL uses C escape syntax in strings (for example,
\n to represent the newline
character). If you want your
expr or
pat argument to contain a
literal \, you must double it.
(Unless the
NO_BACKSLASH_ESCAPES
SQL mode is enabled, in which case no escape character
is used.)
mysql>SELECT REGEXP_LIKE('Michael!', '.*');+-------------------------------+ | REGEXP_LIKE('Michael!', '.*') | +-------------------------------+ | 1 | +-------------------------------+ mysql>SELECT REGEXP_LIKE('new*\n*line', 'new\\*.\\*line');+----------------------------------------------+ | REGEXP_LIKE('new*\n*line', 'new\\*.\\*line') | +----------------------------------------------+ | 0 | +----------------------------------------------+ mysql>SELECT REGEXP_LIKE('a', '^[a-d]');+----------------------------+ | REGEXP_LIKE('a', '^[a-d]') | +----------------------------+ | 1 | +----------------------------+
mysql>SELECT REGEXP_LIKE('abc', 'ABC');+---------------------------+ | REGEXP_LIKE('abc', 'ABC') | +---------------------------+ | 1 | +---------------------------+ mysql>SELECT REGEXP_LIKE('abc', 'ABC', 'c');+--------------------------------+ | REGEXP_LIKE('abc', 'ABC', 'c') | +--------------------------------+ | 0 | +--------------------------------+
REGEXP_REPLACE(
expr,
pat,
repl[,
pos[,
occurrence[,
match_type]]])
Replaces occurrences in the string
expr that match the regular
expression specified by the pattern
pat with the replacement string
repl, and returns the resulting
string. If expr,
pat, or
repl is
NULL, the return value is
NULL.
REGEXP_REPLACE() takes
these optional arguments:
pos: The position in
expr at which to start the
search. If omitted, the default is 1.
occurrence: Which
occurrence of a match to replace. If omitted, the
default is 0 (which means “replace all
occurrences”).
match_type: A string that
specifies how to perform matching. The meaning is as
described for
REGEXP_LIKE().
The result returned by this function uses the character set and collation of the expression searched for matches.
For additional information about how matching occurs, see
the description for
REGEXP_LIKE().
mysql>SELECT REGEXP_REPLACE('a b c', 'b', 'X');+-----------------------------------+ | REGEXP_REPLACE('a b c', 'b', 'X') | +-----------------------------------+ | a X c | +-----------------------------------+ mysql>SELECT REGEXP_REPLACE('abc def ghi', '[a-z]+', 'X', 1, 3);+----------------------------------------------------+ | REGEXP_REPLACE('abc def ghi', '[a-z]+', 'X', 1, 3) | +----------------------------------------------------+ | abc def X | +----------------------------------------------------+
REGEXP_SUBSTR(
expr,
pat[,
pos[,
occurrence[,
match_type]]])
Returns the substring of the string
expr that matches the regular
expression specified by the pattern
pat, NULL if
there is no match. If expr or
pat is NULL,
the return value is NULL.
REGEXP_SUBSTR() takes these
optional arguments:
pos: The position in
expr at which to start the
search. If omitted, the default is 1.
occurrence: Which
occurrence of a match to search for. If omitted, the
default is 1.
match_type: A string that
specifies how to perform matching. The meaning is as
described for
REGEXP_LIKE().
The result returned by this function uses the character set and collation of the expression searched for matches.
For additional information about how matching occurs, see
the description for
REGEXP_LIKE().
mysql>SELECT REGEXP_SUBSTR('abc def ghi', '[a-z]+');+----------------------------------------+ | REGEXP_SUBSTR('abc def ghi', '[a-z]+') | +----------------------------------------+ | abc | +----------------------------------------+ mysql>SELECT REGEXP_SUBSTR('abc def ghi', '[a-z]+', 1, 3);+----------------------------------------------+ | REGEXP_SUBSTR('abc def ghi', '[a-z]+', 1, 3) | +----------------------------------------------+ | ghi | +----------------------------------------------+
A regular expression describes a set of strings. The simplest
regular expression is one that has no special characters in
it. For example, the regular expression
hello matches hello and
nothing else.
Nontrivial regular expressions use certain special constructs
so that they can match more than one string. For example, the
regular expression hello|world contains the
| alternation operator and matches either
the hello or world.
As a more complex example, the regular expression
B[an]*s matches any of the strings
Bananas, Baaaaas,
Bs, and any other string starting with a
B, ending with an s, and
containing any number of a or
n characters in between.
The following list covers some of the basic special characters and constructs that can be used in regular expressions. For information about the full regular expression syntax supported by the ICU library used to implement regular expression support, visit the International Components for Unicode web site.
^
Match the beginning of a string.
mysql>SELECT REGEXP_LIKE('fo\nfo', '^fo$');-> 0 mysql>SELECT REGEXP_LIKE('fofo', '^fo');-> 1
$
Match the end of a string.
mysql>SELECT REGEXP_LIKE('fo\no', '^fo\no$');-> 1 mysql>SELECT REGEXP_LIKE('fo\no', '^fo$');-> 0
.
Match any character (including carriage return and
newline, although to match these in the middle of a
string, the m (multiple line)
match-control character or the (?m)
within-pattern modifier must be given).
mysql>SELECT REGEXP_LIKE('fofo', '^f.*$');-> 1 mysql>SELECT REGEXP_LIKE('fo\r\nfo', '^f.*$');-> 0 mysql>SELECT REGEXP_LIKE('fo\r\nfo', '^f.*$', 'm');-> 1 mysql>SELECT REGEXP_LIKE('fo\r\nfo', '(?m)^f.*$');-> 1
a*
Match any sequence of zero or more a
characters.
mysql>SELECT REGEXP_LIKE('Ban', '^Ba*n');-> 1 mysql>SELECT REGEXP_LIKE('Baaan', '^Ba*n');-> 1 mysql>SELECT REGEXP_LIKE('Bn', '^Ba*n');-> 1
a+
Match any sequence of one or more a
characters.
mysql>SELECT REGEXP_LIKE('Ban', '^Ba+n');-> 1 mysql>SELECT REGEXP_LIKE('Bn', '^Ba+n');-> 0
a?
Match either zero or one a character.
mysql>SELECT REGEXP_LIKE('Bn', '^Ba?n');-> 1 mysql>SELECT REGEXP_LIKE('Ban', '^Ba?n');-> 1 mysql>SELECT REGEXP_LIKE('Baan', '^Ba?n');-> 0
de|abc
Alternation; match either of the sequences
de or abc.
mysql>SELECT REGEXP_LIKE('pi', 'pi|apa');-> 1 mysql>SELECT REGEXP_LIKE('axe', 'pi|apa');-> 0 mysql>SELECT REGEXP_LIKE('apa', 'pi|apa');-> 1 mysql>SELECT REGEXP_LIKE('apa', '^(pi|apa)$');-> 1 mysql>SELECT REGEXP_LIKE('pi', '^(pi|apa)$');-> 1 mysql>SELECT REGEXP_LIKE('pix', '^(pi|apa)$');-> 0
(abc)*
Match zero or more instances of the sequence
abc.
mysql>SELECT REGEXP_LIKE('pi', '^(pi)*$');-> 1 mysql>SELECT REGEXP_LIKE('pip', '^(pi)*$');-> 0 mysql>SELECT REGEXP_LIKE('pipi', '^(pi)*$');-> 1
{1}, {2,3}
Repetition;
{ and
n}{
notation provide a more general way of writing regular
expressions that match many occurrences of the previous
atom (or “piece”) of the pattern.
m,n}m and
n are integers.
a*
Can be written as a{0,}.
a+
Can be written as a{1,}.
a?
Can be written as a{0,1}.
To be more precise,
a{ matches
exactly n}n instances of
a.
a{
matches n,}n or more instances of
a.
a{
matches m,n}m through
n instances of
a, inclusive. If both
m and
n are given,
m must be less than or equal to
n.
mysql>SELECT REGEXP_LIKE('abcde', 'a[bcd]{2}e');-> 0 mysql>SELECT REGEXP_LIKE('abcde', 'a[bcd]{3}e');-> 1 mysql>SELECT REGEXP_LIKE('abcde', 'a[bcd]{1,10}e');-> 1
[a-dX], [^a-dX]
Matches any character that is (or is not, if
^ is used) either a,
b, c,
d or X. A
- character between two other
characters forms a range that matches all characters from
the first character to the second. For example,
[0-9] matches any decimal digit. To
include a literal ] character, it must
immediately follow the opening bracket
[. To include a literal
- character, it must be written first
or last. Any character that does not have a defined
special meaning inside a [] pair
matches only itself.
mysql>SELECT REGEXP_LIKE('aXbc', '[a-dXYZ]');-> 1 mysql>SELECT REGEXP_LIKE('aXbc', '^[a-dXYZ]$');-> 0 mysql>SELECT REGEXP_LIKE('aXbc', '^[a-dXYZ]+$');-> 1 mysql>SELECT REGEXP_LIKE('aXbc', '^[^a-dXYZ]+$');-> 0 mysql>SELECT REGEXP_LIKE('gheis', '^[^a-dXYZ]+$');-> 1 mysql>SELECT REGEXP_LIKE('gheisa', '^[^a-dXYZ]+$');-> 0
[=character_class=]
Within a bracket expression (written using
[ and ]),
[=character_class=] represents an
equivalence class. It matches all characters with the same
collation value, including itself. For example, if
o and (+) are the
members of an equivalence class,
[[=o=]], [[=(+)=]],
and [o(+)] are all synonymous. An
equivalence class may not be used as an endpoint of a
range.
[:character_class:]
Within a bracket expression (written using
[ and ]),
[:character_class:] represents a
character class that matches all characters belonging to
that class. The following table lists the standard class
names. These names stand for the character classes defined
in the ctype(3) manual page. A
particular locale may provide other class names. A
character class may not be used as an endpoint of a range.
| Character Class Name | Meaning |
|---|---|
alnum |
Alphanumeric characters |
alpha |
Alphabetic characters |
blank |
Whitespace characters |
cntrl |
Control characters |
digit |
Digit characters |
graph |
Graphic characters |
lower |
Lowercase alphabetic characters |
print |
Graphic or space characters |
punct |
Punctuation characters |
space |
Space, tab, newline, and carriage return |
upper |
Uppercase alphabetic characters |
xdigit |
Hexadecimal digit characters |
mysql>SELECT REGEXP_LIKE('justalnums', '[[:alnum:]]+');-> 1 mysql>SELECT REGEXP_LIKE('!!', '[[:alnum:]]+');-> 0
To use a literal instance of a special character in a regular
expression, precede it by two backslash (\) characters. The
MySQL parser interprets one of the backslashes, and the
regular expression library interprets the other. For example,
to match the string 1+2 that contains the
special + character, only the last of the
following regular expressions is the correct one:
mysql>SELECT REGEXP_LIKE('1+2', '1+2');-> 0 mysql>SELECT REGEXP_LIKE('1+2', '1\+2');-> 0 mysql>SELECT REGEXP_LIKE('1+2', '1\\+2');-> 1
REGEXP_LIKE() and similar
functions use resources that can be controlled by setting
system variables:
The match engine uses memory for its internal stack. To
control the maximum available memory for the stack in
bytes, set the
regexp_stack_limit system
variable.
The match engine operates in steps. To control the maximum
number of steps performed by the engine (and thus
indirectly the execution time), set the
regexp_time_limit system
variable. Because this limit is expressed as number of
steps, it affects execution time only indirectly.
Typically, it is on the order of milliseconds.