Source code editor What Is Ajax
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Table of Contents
This chapter discusses the rules for writing the following elements of SQL statements when using MySQL:
Literal values such as strings and numbers
Identifiers such as database, table, and column names
Reserved words
User-defined and system variables
Comments
This section describes how to write literal values in MySQL. These include strings, numbers, hexadecimal values, boolean values, and NULL. The section also covers the various nuances and “gotchas” that you may run into when dealing with these basic types in MySQL.
A string is a sequence of bytes or characters, enclosed within either single quote (‘'’) or double quote (‘"’) characters. Examples:
'a string' "another string"
If the ANSI_QUOTES SQL mode is enabled, string literals can be quoted only within single quotes because a string quoted within double quotes is interpreted as an identifier.
A binary string is a string of bytes that has no character set or collation. A non-binary string is a string of characters that has a character set and collation. For both types of strings, comparisons are based on the numeric values of the string unit. For binary strings, the unit is the byte. For non-binary strings the unit is the character and some character sets allow multi-byte characters. Character value ordering is a function of the string collation.
String literals may have an optional character set introducer and COLLATE clause:
[_charset_name]'string' [COLLATEcollation_name]
Examples:
SELECT _latin1'string'; SELECT _latin1'string' COLLATE latin1_danish_ci;
For more information about these forms of string syntax, see Section 10.3.5, “Character String Literal Character Set and Collation”.
Within a string, certain sequences have special meaning. Each of these sequences begins with a backslash (‘\’), known as the escape character. MySQL recognizes the following escape sequences:
For all other escape sequences, backslash is ignored. That is, the escaped character is interpreted as if it was not escaped. For example, ‘\x’ is just ‘x’.
These sequences are case sensitive. For example, ‘\b’ is interpreted as a backspace, but ‘\B’ is interpreted as ‘B’.
The ASCII 26 character can be encoded as ‘\Z’ to enable you to work around the problem that ASCII 26 stands for END-OF-FILE on Windows. ASCII 26 within a file causes problems if you try to use mysql . db_name < file_name
Escape processing is done according to the character set indicated by the character_set_connection system variable. This is true even for strings that are preceded by an introducer that indicates a different character set, as discussed in Section 10.3.5, “Character String Literal Character Set and Collation”.
The ‘\%’ and ‘\_’ sequences are used to search for literal instances of ‘%’ and ‘_’ in pattern-matching contexts where they would otherwise be interpreted as wildcard characters. See the description of the LIKE operator in Section 12.4.1, “String Comparison Functions”. If you use ‘\%’ or ‘\_’ in non-pattern-matching contexts, they evaluate to the strings ‘\%’ and ‘\_’, not to ‘%’ and ‘_’.
There are several ways to include quote characters within a string:
A ‘'’ inside a string quoted with ‘'’ may be written as ‘''’.
A ‘"’ inside a string quoted with ‘"’ may be written as ‘""’.
Precede the quote character by an escape character (‘\’).
A ‘'’ inside a string quoted with ‘"’ needs no special treatment and need not be doubled or escaped. In the same way, ‘"’ inside a string quoted with ‘'’ needs no special treatment.
The following SELECT statements demonstrate how quoting and escaping work:
mysql>SELECT 'hello', '"hello"', '""hello""', 'hel''lo', '\'hello';+-------+---------+-----------+--------+--------+ | hello | "hello" | ""hello"" | hel'lo | 'hello | +-------+---------+-----------+--------+--------+ mysql>SELECT "hello", "'hello'", "''hello''", "hel""lo", "\"hello";+-------+---------+-----------+--------+--------+ | hello | 'hello' | ''hello'' | hel"lo | "hello | +-------+---------+-----------+--------+--------+ mysql>SELECT 'This\nIs\nFour\nLines';+--------------------+ | This Is Four Lines | +--------------------+ mysql>SELECT 'disappearing\ backslash';+------------------------+ | disappearing backslash | +------------------------+
If you want to insert binary data into a string column (such as a BLOB column), the following characters must be represented by escape sequences:
NUL | NUL byte (ASCII 0). Represent this character by ‘\0’ (a backslash followed by an ASCII ‘0’ character). |
\ | Backslash (ASCII 92). Represent this character by ‘\\’. |
' | Single quote (ASCII 39). Represent this character by ‘\'’. |
" | Double quote (ASCII 34). Represent this character by ‘\"’. |
When writing application programs, any string that might contain any of these special characters must be properly escaped before the string is used as a data value in an SQL statement that is sent to the MySQL server. You can do this in two ways:
Process the string with a function that escapes the special characters. In a C program, you can use the mysql_real_escape_string() C API function to escape characters. See Section 22.2.3.53, “mysql_real_escape_string()”. The Perl DBI interface provides a quote method to convert special characters to the proper escape sequences. See Section 22.4, “MySQL Perl API”. Other language interfaces may provide a similar capability.
As an alternative to explicitly escaping special characters, many MySQL APIs provide a placeholder capability that enables you to insert special markers into a statement string, and then bind data values to them when you issue the statement. In this case, the API takes care of escaping special characters in the values for you.
Integers are represented as a sequence of digits. Floats use ‘.’ as a decimal separator. Either type of number may be preceded by ‘-’ or ‘+’ to indicate a negative or positive value, respectively
Examples of valid integers:
1221 0 -32
Examples of valid floating-point numbers:
294.42 -32032.6809e+10 148.00
An integer may be used in a floating-point context; it is interpreted as the equivalent floating-point number.
MySQL supports hexadecimal values. In numeric contexts, these act like integers (64-bit precision). In string contexts, these act like binary strings, where each pair of hex digits is converted to a character:
mysql>SELECT x'4D7953514C';-> 'MySQL' mysql>SELECT 0xa+0;-> 10 mysql>SELECT 0x5061756c;-> 'Paul'
The default type of a hexadecimal value is a string. If you want to ensure that the value is treated as a number, you can use CAST(... AS UNSIGNED):
mysql> SELECT 0x41, CAST(0x41 AS UNSIGNED);
-> 'A', 65 The x' syntax is based on standard SQL. The hexstring'0x syntax is based on ODBC. Hexadecimal strings are often used by ODBC to supply values for BLOB columns.
You can convert a string or a number to a string in hexadecimal format with the HEX() function:
mysql>SELECT HEX('cat');-> '636174' mysql>SELECT 0x636174;-> 'cat'
The constants TRUE and FALSE evaluate to 1 and 0, respectively. The constant names can be written in any lettercase.
mysql> SELECT TRUE, true, FALSE, false;
-> 1, 1, 0, 0 Beginning with MySQL 5.0.3, bit-field values can be written using b' notation. value'value is a binary value written using zeros and ones.
Bit-field notation is convenient for specifying values to be assigned to BIT columns:
mysql>CREATE TABLE t (b BIT(8));mysql>INSERT INTO t SET b = b'11111111';mysql>INSERT INTO t SET b = b'1010';+------+----------+----------+----------+ | b+0 | BIN(b+0) | OCT(b+0) | HEX(b+0) | +------+----------+----------+----------+ | 255 | 11111111 | 377 | FF | | 10 | 1010 | 12 | A | +------+----------+----------+----------+
The NULL value means “no data.” NULL can be written in any lettercase.
Be aware that the NULL value is different from values such as 0 for numeric types or the empty string for string types. See Section B.1.5.3, “Problems with NULL Values”.
For text file import or export operations performed with LOAD DATA INFILE or SELECT ... INTO OUTFILE, NULL is represented by the \N sequence. See Section 13.2.5, “LOAD DATA INFILE Syntax”.