What is the size of column of
int(11) in mysql in bytes?
And Maximum value that can be stored in this columns?
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INT will always be 4 bytes no matter what length is specified.
TINYINT= 1 byte (8 bit)
SMALLINT= 2 bytes (16 bit)
MEDIUMINT= 3 bytes (24 bit)
INT= 4 bytes (32 bit)
BIGINT= 8 bytes (64 bit).
The length just specifies how many characters to pad when selecting data with the mysql command line client. 12345 stored as
int(3) will still show as 12345, but if it was stored as
int(10) it would still display as 12345, but you would have the option to pad the first five digits. For example, if you added
ZEROFILL it would display as 0000012345.
... and the maximum value will be 2147483647 (Signed) or 4294967295 (Unsigned)
INT(x) will make difference only in term of display, that is to show the number in x digits, and not restricted to 11. You pair it using
ZEROFILL, which will prepend the zeros until it matches your length.
So, for any number of x in
ZEROFILLwill prepend zeros.
INT(5) ZEROFILL with the stored value of 32 will show 00032
INT(5) with the stored value of 32 will show 32
INT with the stored value of 32 will show 32
INT(3) ZEROFILL with the stored value of 250000 will show 250000
INT(3) with the stored value of 250000 will show 250000
INT with the stored value of 250000 will show 250000
The actual value stored in database is not affected, the size is still the same, and any calculation will behave normally.
This also applies to
According to here,
int(11) will take 4 bytes of space that is 32 bits of space with
2^(31) = 2147483648 max value and
-2147483648min value. One bit is for sign.
As others have said, the minumum/maximum values the column can store and how much storage it takes in bytes is only defined by the type, not the length.
A lot of these answers are saying that the
(11) part only affects the display width which isn't exactly true, but mostly.
A definition of
int(2) with no zerofill specified will:
100when output (not
The only thing the
(2) will do is if zerofill is also specified:
1will be shown
The best way to see all the nuances is to run:
CREATE TABLE `mytable` ( `id` int(11) NOT NULL AUTO_INCREMENT, `int1` int(10) NOT NULL, `int2` int(3) NOT NULL, `zf1` int(10) ZEROFILL NOT NULL, `zf2` int(3) ZEROFILL NOT NULL, PRIMARY KEY (`id`) ) ENGINE=InnoDB DEFAULT CHARSET=utf8; INSERT INTO `mytable` (`int1`, `int2`, `zf1`, `zf2`) VALUES (10000, 10000, 10000, 10000), (100, 100, 100, 100); select * from mytable;
which will output:
+----+-------+-------+------------+-------+ | id | int1 | int2 | zf1 | zf2 | +----+-------+-------+------------+-------+ | 1 | 10000 | 10000 | 0000010000 | 10000 | | 2 | 100 | 100 | 0000000100 | 100 | +----+-------+-------+------------+-------+
This answer is tested against MySQL 5.7.12 for Linux and may or may not vary for other implementations.
What is the size of column of int(11) in mysql in bytes?
(11) - this attribute of
int data type has nothing to do with size of column. It is just the display width of the integer data type. From 126.96.36.199. Numeric Type Attributes:
MySQL supports an extension for optionally specifying the display width of integer data types in parentheses following the base keyword for the type. For example, INT(4) specifies an INT with a display width of four digits.
A good explanation for this can be found here
To summarize : The number N in int(N) is often confused by the maximum size allowed for the column, as it does in the case of varchar(N).
But this is not the case with Integer data types- the number N in the parentheses is not the maximum size for the column, but simply a parameter to tell MySQL what width to display the column at when the table's data is being viewed via the MySQL console (when you're using the ZEROFILL attribute).
The number in brackets will tell MySQL how many zeros to pad incoming integers with. For example: If you're using ZEROFILL on a column that is set to INT(5) and the number 78 is inserted, MySQL will pad that value with zeros until the number satisfies the number in brackets. i.e. 78 will become 00078 and 127 will become 00127. To sum it up: The number in brackets is used for display purposes.
In a way, the number in brackets is kind of usless unless you're using the ZEROFILL attribute.
So the size for the int would remain same i.e., -2147483648 to 2147483648 for signed and 0 to 4294967295 for unsigned (~ 2.15 billions and 4.2 billions, which is one of the reasons why developers remain unaware of the story behind the Number N in parentheses, as it hardly affects the database unless it contains over 2 billions of rows), and in terms of bytes it would be 4 bytes.
For more information on Integer Types size/range, refer to MySQL Manual
Though this answer is unlikely to be seen, I think the following clarification is worth making:
A BIT OF DETAIL
the display width is, apparently, intended to provide some metadata about how many zeros to display in a zero filled number.
It does NOT actually limit the length of a number returned from a query if that number goes above the display width specified.
To know what length/width is actually allowed for an integer data type in MySQL see the list & link: (types: TINYINT, SMALLINT, MEDIUMINT, INT, BIGINT);
So having said the above, you can expect the display width to have no affect on the results from a standard query, unless the columns are specified as ZEROFILL columns
in the case the data is being pulled into an application & that application is collecting the display width to use for some other sort of padding.
Primary Reference: https://blogs.oracle.com/jsmyth/entry/what_does_the_11_mean
according to this book:
MySQL lets you specify a “width” for integer types, such as INT(11). This is meaningless for most applications: it does not restrict the legal range of values, but simply specifies the number of characters MySQL’s interactive tools will reserve for display purposes. For storage and computational purposes, INT(1) is identical to INT(20).