The BINARY operator casts the string following it to a binary string. This is an easy way to force a column comparison to be done byte by byte rather than character by character. This causes the comparison to be case sensitive even if the column isn't defined as BINARY or BLOB. BINARY also causes trailing spaces to be significant.
mysql>SELECT 'a' = 'A';-> 1 mysql>SELECT BINARY 'a' = 'A';-> 0 mysql>SELECT 'a' = 'a ';-> 1 mysql>SELECT BINARY 'a' = 'a ';-> 0
In a comparison, BINARY affects the entire operation; it can be given before either operand with the same result.
BINARY is shorthand for strCAST(.str AS BINARY)
Note that in some contexts, if you cast an indexed column to BINARY, MySQL is not able to use the index efficiently.
The CAST() function takes a value of one type and produce a value of another type, similar to CONVERT(). See the description of CONVERT() for more information.
CONVERT(, expr,type)CONVERT(expr USING transcoding_name)
The CONVERT() and CAST() functions take a value of one type and produce a value of another type.
The type can be one of the following values:
BINARY[(N)]
CHAR[(N)]
DATE
DATETIME
DECIMAL[(M[,D])]
SIGNED [INTEGER]
TIME
UNSIGNED [INTEGER]
BINARY produces a string with the BINARY data type. See Section 10.4.2, “The BINARY and VARBINARY Types†for a description of how this affects comparisons. If the optional length N is given, BINARY( causes the cast to use no more than N)N bytes of the argument. As of MySQL 5.0.17, values shorter than N bytes are padded with 0x00 bytes to a length of N.
CHAR( causes the cast to use no more than N)N characters of the argument.
The DECIMAL type is available as of MySQL 5.0.8.
CAST() and CONVERT(... USING ...) are standard SQL syntax. The non-USING form of CONVERT() is ODBC syntax.
CONVERT() with USING is used to convert data between different character sets. In MySQL, transcoding names are the same as the corresponding character set names. For example, this statement converts the string 'abc' in the default character set to the corresponding string in the utf8 character set:
SELECT CONVERT('abc' USING utf8);
Normally, you cannot compare a BLOB value or other binary string in case-insensitive fashion because binary strings have no character set, and thus no concept of lettercase. To perform a case-insensitive comparison, use the CONVERT() function to convert the value to a non-binary string. If the character set of the result has a case-insensitive collation, the LIKE operation is not case sensitive:
SELECT 'A' LIKE CONVERT(blob_colUSING latin1) FROMtbl_name;
To use a different character set, substitute its name for latin1 in the preceding statement. To ensure that a case-insensitive collation is used, specify a COLLATE clause following the CONVERT() call.
CONVERT() can be used more generally for comparing strings that are represented in different character sets.
The cast functions are useful when you want to create a column with a specific type in a CREATE ... SELECT statement:
CREATE TABLE new_table SELECT CAST('2000-01-01' AS DATE);
The functions also can be useful for sorting ENUM columns in lexical order. Normally, sorting of ENUM columns occurs using the internal numeric values. Casting the values to CHAR results in a lexical sort:
SELECTenum_colFROMtbl_nameORDER BY CAST(enum_colAS CHAR);
CAST( is the same thing as str AS BINARY)BINARY . strCAST( treats the expression as a string with the default character set.expr AS CHAR)
CAST() also changes the result if you use it as part of a more complex expression such as CONCAT('Date: ',CAST(NOW() AS DATE)).
You should not use CAST() to extract data in different formats but instead use string functions like LEFT() or EXTRACT(). See Section 11.6, “Date and Time Functionsâ€.
To cast a string to a numeric value in numeric context, you normally do not have to do anything other than to use the string value as though it were a number:
mysql> SELECT 1+'1';
-> 2
If you use a number in string context, the number automatically is converted to a BINARY string.
mysql> SELECT CONCAT('hello you ',2);
-> 'hello you 2'
MySQL supports arithmetic with both signed and unsigned 64-bit values. If you are using numeric operators (such as + or -) and one of the operands is an unsigned integer, the result is unsigned. You can override this by using the SIGNED and UNSIGNED cast operators to cast the operation to a signed or unsigned 64-bit integer, respectively.
mysql>SELECT CAST(1-2 AS UNSIGNED)-> 18446744073709551615 mysql>SELECT CAST(CAST(1-2 AS UNSIGNED) AS SIGNED);-> -1
Note that if either operand is a floating-point value, the result is a floating-point value and is not affected by the preceding rule. (In this context, DECIMAL column values are regarded as floating-point values.)
mysql> SELECT CAST(1 AS UNSIGNED) - 2.0;
-> -1.0
If you are using a string in an arithmetic operation, this is converted to a floating-point number.
If you convert a “zero†date string to a date, CONVERT() and CAST() return NULL when the NO_ZERO_DATE SQL mode is enabled. As of MySQL 5.0.4, they also produce a warning.
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User Comments
Be careful that this 'feature' of MySQL dosn't bit you in the ass.
For example, imagine I have a table with two 'unsigned' integer columns (still with me?). Lets call those columns 'one' and 'two'. Now imagine the following query...
# Query to select the 10 biggest differences between two colums
SELECT one - two AS diff
ORDER BY one - two
LIMIT 10;
If the result of 'one - two' is negative (imagine that the value of two is bigger than one), then you end up with values of 18446744073709551615.
This isn't a bug mind you, as this fact is documented this is the expected behaviour!
So, still looking for the 10 biggest differences you might try...
# Query 2 to select the 10 biggest differences between two colums
SELECT one - two AS diff
WHERE one - two < 10000 -- Hopefuly bigger than our biggest differences
ORDER BY one - two
LIMIT 10;
You find it dosn't work, (you still get the 18446744073709551615s) because the internals of subtracting unsigned columns are so messed up.
You need to do the following...
# Query 3 to select the 10 biggest differences between two colums
SELECT CAST(one - two AS SIGNED) AS diff
ORDER BY diff
LIMIT 10;
I hope this example helps
To convert to numeric, the convert() and cast() functions are less forgiving then the implicit conversion when it comes to the data to be converted. If you want to convert "1a" or "1 apple", "2 apples", " 3 things" to 1, 1, 2 and 3 respectivly, the cast and convert function will produce an error. Instead use select 0+'1a', 0+'1 apple', 0+'2 apples', 0+' 3 things'.
Here's a workaround for not being able to cast/convert a value during table creation with just a create:
CREATE TEMPORARY TABLE tmp
This will yield a table with the following structure:
SELECT 1000000.001-1000000.001 as n;
The cast() function is amazingly useful when working with dates - not to mention date+time.
First, take a look at the following basic example:
select cast('2007-12-25' as DATETIME)
This naturally returns the output:
2007-12-25 00:00:00
But there are REALLY useful practical situations where we'd HAVE to use this function. Here's a case:
I want to pick all records from a table "Sales", where the "TransactionDate" field is between 25-Dec-2007 and 25-Jan-2008. Bear in mind that the field is of type DateTime.
Here's the BASIC query that I'd put in a string if I were to do it in PHP:
"SELECT * FROM Sales WHERE TransactionDate BETWEEN '$D1' and $D2"
In the above case, I'm assuming that $D1 and $D2 are posted variables in PHP. Unfortunately The above line won't work. And THIS is where we can use the CAST() function.
So here's the CORRECT STATEMENT:
"SELECT * FROM Sales WHERE TransactionDate BETWEEN CAST('$D1' as DATETIME) and CAST($D2 as DATETIME)"
This does the job without a flaw!
Happy programming,
Khalid
Alphanumeric strings automatically evaluate to 0 when used in a SELECT query to match against a column of type INT.
For example:
Table T1
n: INT
n_squared: INT,
n n_squared
0 0
1 1
2 4
3 9
4 16
...
Q1: SELECT * FROM T1 WHERE n_squared='ABC';
Q2: SELECT * FROM T1 WHERE n_squared='ABC123';
Both queries produce identical results:
n n_squared
0 0
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