Systems for MySQLThe world's most popular open source database
- Documentation Library
- Table of Contents
- MySQL 6.0 Reference Manual
- MySQL 5.1 Reference Manual
- MySQL 5.0 Reference Manual
- MySQL 3.23/4.0/4.1 Manual
- Table of Contents
- 10.4 String Types
- 10.4.1 The CHAR and VARCHAR Types
- 10.4.2 The BINARY and VARBINARY Types
- 10.4.3 The BLOB and TEXT Types
- 10.4.4 The ENUM Type
- 10.4.5 The SET Type
The CHAR and
VARCHAR types are similar, but
differ in the way they are stored and retrieved. As of MySQL
5.0.3, they also differ in maximum length and in whether
trailing spaces are retained.
The CHAR and
VARCHAR types are declared with a
length that indicates the maximum number of characters you want
to store. For example, CHAR(30) can hold up
to 30 characters.
The length of a CHAR column is
fixed to the length that you declare when you create the table.
The length can be any value from 0 to 255. When
CHAR values are stored, they are
right-padded with spaces to the specified length. When
CHAR values are retrieved,
trailing spaces are removed.
Values in VARCHAR columns are
variable-length strings. The length can be specified as a value
from 0 to 255 before MySQL 5.0.3, and 0 to 65,535 in 5.0.3 and
later versions. The effective maximum length of a
VARCHAR in MySQL 5.0.3 and later
is subject to the maximum row size (65,535 bytes, which is
shared among all columns) and the character set used.
In contrast to CHAR,
VARCHAR values are stored as a
one-byte or two-byte length prefix plus data. The length prefix
indicates the number of bytes in the value. A column uses one
length byte if values require no more than 255 bytes, two length
bytes if values may require more than 255 bytes.
If strict SQL mode is not enabled and you assign a value to a
CHAR or
VARCHAR column that exceeds the
column's maximum length, the value is truncated to fit and a
warning is generated. For truncation of non-space characters,
you can cause an error to occur (rather than a warning) and
suppress insertion of the value by using strict SQL mode. See
Section 5.1.7, “Server SQL Modes”.
For VARCHAR columns, excess
trailing spaces are truncated prior to insertion and a warning
is generated, regardless of the SQL mode in use. For
CHAR columns, truncation of
excess trailing spaces from inserted values is performed
silently regardless of the SQL mode.
VARCHAR values are not padded
when they are stored. Handling of trailing spaces is
version-dependent. As of MySQL 5.0.3, trailing spaces are
retained when values are stored and retrieved, in conformance
with standard SQL. Before MySQL 5.0.3, trailing spaces are
removed from values when they are stored into a
VARCHAR column; this means that
the spaces also are absent from retrieved values.
Before MySQL 5.0.3, if you need a data type for which trailing
spaces are not removed, consider using a
BLOB or
TEXT type. Also, if you want to
store binary values such as results from an encryption or
compression function that might contain arbitrary byte values,
use a BLOB column rather than a
CHAR or
VARCHAR column, to avoid
potential problems with trailing space removal that would change
data values.
The following table illustrates the differences between
CHAR and
VARCHAR by showing the result of
storing various string values into CHAR(4)
and VARCHAR(4) columns (assuming that the
column uses a single-byte character set such as
latin1):
| Value | CHAR(4) |
Storage Required | VARCHAR(4) |
Storage Required |
'' |
' ' |
4 bytes | '' |
1 byte |
'ab' |
'ab ' |
4 bytes | 'ab' |
3 bytes |
'abcd' |
'abcd' |
4 bytes | 'abcd' |
5 bytes |
'abcdefgh' |
'abcd' |
4 bytes | 'abcd' |
5 bytes |
The values shown as stored in the last row of the table apply only when not using strict mode; if MySQL is running in strict mode, values that exceed the column length are not stored, and an error results.
If a given value is stored into the CHAR(4)
and VARCHAR(4) columns, the values retrieved
from the columns are not always the same because trailing spaces
are removed from CHAR columns
upon retrieval. The following example illustrates this
difference:
mysql>CREATE TABLE vc (v VARCHAR(4), c CHAR(4));Query OK, 0 rows affected (0.01 sec) mysql>INSERT INTO vc VALUES ('ab ', 'ab ');Query OK, 1 row affected (0.00 sec) mysql>SELECT CONCAT('(', v, ')'), CONCAT('(', c, ')') FROM vc;+---------------------+---------------------+ | CONCAT('(', v, ')') | CONCAT('(', c, ')') | +---------------------+---------------------+ | (ab ) | (ab) | +---------------------+---------------------+ 1 row in set (0.06 sec)
Values in CHAR and
VARCHAR columns are sorted and
compared according to the character set collation assigned to
the column.
All MySQL collations are of type PADSPACE.
This means that all CHAR and
VARCHAR values in MySQL are
compared without regard to any trailing spaces. For example:
mysql>CREATE TABLE names (myname CHAR(10), yourname VARCHAR(10));Query OK, 0 rows affected (0.09 sec) mysql>INSERT INTO names VALUES ('Monty ', 'Monty ');Query OK, 1 row affected (0.00 sec) mysql>SELECT myname = 'Monty ', yourname = 'Monty ' FROM names;+--------------------+----------------------+ | myname = 'Monty ' | yourname = 'Monty ' | +--------------------+----------------------+ | 1 | 1 | +--------------------+----------------------+ 1 row in set (0.00 sec)
This is true for all MySQL versions, and it makes no difference
whether your version trims trailing spaces from
VARCHAR values before storing
them. Nor does the server SQL mode make any difference in this
regard.
For those cases where trailing pad characters are stripped or
comparisons ignore them, if a column has an index that requires
unique values, inserting into the column values that differ only
in number of trailing pad characters will result in a
duplicate-key error. For example, if a table contains
'a', an attempt to store
'a ' causes a duplicate-key error.
User Comments
Section 7.4.2, linked here: http://dev.mysql.com/doc/mysql/en/Data_size.html
says to use varchar if you want to keep table size down and char if you want to make searches faster (fourth bullet down).
Of course, the first bullet says that the way to make things faster is to keep table size down.
In response to the above comment (about CHAR vs. VARCHAR performance), I think the explanation is that if your query can't operate solely with a table's indicies/keys (most large, complex queries can't) then table size is the primary factor for search speed, especially if the table is very large (if it's so large it has to be read off disk each time it is searched, then disk is almost certainly going to be the bottleneck, and the search speed will be directly proportional to the total data size). In addition, if the database is able to narrow down the query to a subset of rows using indicies/keys but then has to read in each row to check it against other factors, the total size is still a consideration, but so is the fact that if each row is of a variable size, finding the rows incurs some overhead.
Overall I have found that size is by far the most important factor in terms of performance so I always use VARCHAR over CHAR, however if you have a small and simple table you may want to consider using CHAR since it will make the database's job of finding rows and columns easier. If this table is likely to stay in RAM, using CHAR may provide an improvement in performance, since total size is no longer such an issue (although obviously the smaller your tables the less RAM is needed to cache them, but this applies mostly to your large table, small ones are usually inconsequential in such terms).
So I'd recommend using CHAR for performance reasons only in specific circumstances where you are CPU bound for relatively simple but frequent queries.
With regards to the speed discussion above... yes VARCHAR does keep the size of your database down, but that doesn't necessarily make it faster to search... because CHAR is null-padded, it makes all records the same length so that the database can just skip through the table without having to check the length of each record as it goes. In addition, queries are not performed on the null-padded part of the CHAR and so the actual number of bytes searched is no more than for a VARCHAR. There's trade off between disk time for CHAR and size-checking for VARCHAR, but to be honest I'm not sure it's noticeable on modern machines. So the only real concern is the amount of disk-space used. Personally I prefer not to waste disk space so I use VARCHAR.
Note that using CHAR will only speed up your access if the whole record is fixed size. That is, if you use any variable size object, you might as well make all of them variable size. You gain no speed by using a CHAR in a table that also contains a VARCHAR.
Keep in mind that defining a column as VARCHAR will only save space if the data in a particular column is variable in length. I've worked on plenty of data sets where data in a given column is fixed in size -- e.g., code values or indicator/flag fields. In these cases, it's more space-efficient to use CHAR. Consider the case of an indicator field where the value is either 'Y' or 'N'. If defined as a CHAR, the field requires only one byte. However, if defined as a VARCHAR, the field requires two bytes. I worked on a multi-terabyte project at Bank of America where the DBAs actually went to the trouble to rebuild some tables that contained numerous flag or indicator fields because the fields were originally defined as VARCHAR(1) instead of CHAR(1).
"Before MySQL 5.0.3, trailing spaces are removed from values when they are stored into a VARCHAR column; this means that the spaces also are absent from retrieved values."
Post mySQL 5.0.3, if you are stuck with trailing whitespace in a VARCHAR column, you can remove it through a two step process:
1) alter column type to char
2) alter column type back to varchar.
in regards to the above (stripping trailing whitespace)
update table t
set c = rtrim(c);
or you can use trim(), or ltrim()
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