Oracle® Database SQL Reference 10g Release 2 (10.2) Part Number B14200-02 |
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This section describes how Oracle Database compares values of each datatype.
A larger value is considered greater than a smaller one. All negative numbers are less than zero and all positive numbers. Thus, -1 is less than 100; -100 is less than -1.
The floating-point value NaN
(not a number) is greater than any other numeric value and is equal to itself.
See Also: "Numeric Precedence" and "Floating-Point Numbers" for more information on comparison semantics |
A later date is considered greater than an earlier one. For example, the date equivalent of '29-MAR-1997' is less than that of '05-JAN-1998' and '05-JAN-1998 1:35pm' is greater than '05-JAN-1998 10:09am'.
Character values are compared on the basis of two measures:
Binary or linguistic sorting
Blank-padded or nonpadded comparison semantics
The following subsections describe the two measures.
Binary and Linguistic Sorting
In binary sorting, which is the default, Oracle compares character strings according to the concatenated value of the numeric codes of the characters in the database character set. One character is greater than another if it has a greater numeric value than the other in the character set. Oracle considers blanks to be less than any character, which is true in most character sets.
Linguistic sorting is useful if the binary sequence of numeric codes does not match the linguistic sequence of the characters you are comparing. Linguistic sorting is used if the NLS_COMP
parameter is set to LINGUISTIC
. In linguistic sorting, all SQL sorting and comparison are based on the linguistic rule specified by NLS_SORT
.
Blank-Padded and Nonpadded Comparison Semantics
With blank-padded semantics, if the two values have different lengths, then Oracle first adds blanks to the end of the shorter one so their lengths are equal. Oracle then compares the values character by character up to the first character that differs. The value with the greater character in the first differing position is considered greater. If two values have no differing characters, then they are considered equal. This rule means that two values are equal if they differ only in the number of trailing blanks. Oracle uses blank-padded comparison semantics only when both values in the comparison are either expressions of datatype CHAR
, NCHAR
, text literals, or values returned by the USER
function.
With nonpadded semantics, Oracle compares two values character by character up to the first character that differs. The value with the greater character in that position is considered greater. If two values of different length are identical up to the end of the shorter one, then the longer value is considered greater. If two values of equal length have no differing characters, then the values are considered equal. Oracle uses nonpadded comparison semantics whenever one or both values in the comparison have the datatype VARCHAR2
or NVARCHAR2
.
The results of comparing two character values using different comparison semantics may vary. The table that follows shows the results of comparing five pairs of character values using each comparison semantic. Usually, the results of blank-padded and nonpadded comparisons are the same. The last comparison in the table illustrates the differences between the blank-padded and nonpadded comparison semantics.
Blank-Padded | Nonpadded |
---|---|
'ac' > 'ab' |
'ac' > 'ab' |
'ab' > 'a ' |
'ab' > 'a ' |
'ab' > 'a' |
'ab' > 'a' |
'ab' = 'ab' |
'ab' = 'ab' |
'a ' = 'a' |
'a ' > 'a' |
These are some common character sets:
7-bit ASCII (American Standard Code for Information Interchange)
EBCDIC Code (Extended Binary Coded Decimal Interchange Code)
ISO 8859/1 (International Standards Organization)
JEUC Japan Extended UNIX
Portions of the ASCII and EBCDIC character sets appear in Table 2-8 and Table 2-9. Uppercase and lowercase letters are not equivalent. The numeric values for the characters of a character set may not match the linguistic sequence for a particular language.
Object values are compared using one of two comparison functions: MAP
and ORDER
. Both functions compare object type instances, but they are quite different from one another. These functions must be specified as part of any object type that will be compared with other object types.
Comparison of nested tables is described in "Comparison Conditions".
Datatype Precedence Oracle uses datatype precedence to determine implicit datatype conversion, which is discussed in the section that follows. Oracle datatypes take the following precedence:
Datetime and interval datatypes
BINARY_DOUBLE
BINARY_FLOAT
NUMBER
Character datatypes
All other built-in datatypes
Generally an expression cannot contain values of different datatypes. For example, an expression cannot multiply 5 by 10 and then add 'JAMES'. However, Oracle supports both implicit and explicit conversion of values from one datatype to another.
Oracle recommends that you specify explicit conversions, rather than rely on implicit or automatic conversions, for these reasons:
SQL statements are easier to understand when you use explicit datatype conversion functions.
Implicit datatype conversion can have a negative impact on performance, especially if the datatype of a column value is converted to that of a constant rather than the other way around.
Implicit conversion depends on the context in which it occurs and may not work the same way in every case. For example, implicit conversion from a datetime value to a VARCHAR2
value may return an unexpected year depending on the value of the NLS_DATE_FORMAT
parameter.
Algorithms for implicit conversion are subject to change across software releases and among Oracle products. Behavior of explicit conversions is more predictable.
Oracle Database automatically converts a value from one datatype to another when such a conversion makes sense. Implicit conversion to character datatypes follows these rules:
Table 2-10 is a matrix of Oracle implicit conversions. The table shows all possible conversions, without regard to the direction of the conversion or the context in which it is made. The rules governing these details follow the table.
Table 2-10 Implicit Type Conversion Matrix
CHAR | VARCHAR2 | NCHAR | NVARCHAR2 | DATE | DATETIME/INTERVAL | NUMBER | BINARY_FLOAT | BINARY_DOUBLE | LONG | RAW | ROWID | CLOB | BLOB | NCLOB | |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
CHAR |
-- |
X |
X |
X |
X |
X |
X |
X |
X |
X |
X |
-- |
X |
X |
X |
VARCHAR2 |
X |
-- |
X |
X |
X |
X |
X |
X |
X |
X |
X |
X |
X |
-- |
X |
NCHAR |
X |
X |
-- |
X |
X |
X |
X |
X |
X |
X |
X |
X |
X |
-- |
X |
NVARCHAR2 |
X |
X |
X |
-- |
X |
X |
X |
X |
X |
X |
X |
X |
X |
-- |
X |
DATE |
X |
X |
X |
X |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
DATETIME/ INTERVAL |
X |
X |
X |
X |
-- |
-- |
-- |
-- |
-- |
X |
-- |
-- |
-- |
-- |
-- |
NUMBER |
X |
X |
X |
X |
-- |
-- |
-- |
X |
X |
-- |
-- |
-- |
-- |
-- |
-- |
BINARY_FLOAT |
X |
X |
X |
X |
-- |
-- |
X |
-- |
X |
-- |
-- |
-- |
-- |
-- |
-- |
BINARY_DOUBLE |
X |
X |
X |
X |
-- |
-- |
X |
X |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
LONG |
X |
X |
X |
X |
-- |
X |
-- |
-- |
-- |
-- |
X |
-- |
X |
-- |
X |
RAW |
X |
X |
X |
X |
-- |
-- |
-- |
-- |
-- |
X |
-- |
-- |
-- |
X |
-- |
ROWID |
-- |
X |
X |
X |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
CLOB |
X |
X |
X |
X |
-- |
-- |
-- |
-- |
-- |
X |
-- |
-- |
-- |
-- |
X |
BLOB |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
-- |
X |
-- |
-- |
-- |
-- |
NCLOB |
X |
X |
X |
X |
-- |
-- |
-- |
-- |
-- |
X |
-- |
-- |
X |
-- |
-- |
The following rules govern the direction in which Oracle Database makes implicit datatype conversions:
During INSERT
and UPDATE
operations, Oracle converts the value to the datatype of the affected column.
During SELECT
FROM
operations, Oracle converts the data from the column to the type of the target variable.
When manipulating numeric values, Oracle usually adjusts precision and scale to allow for maximum capacity. In such cases, the numeric datatype resulting from such operations can differ from the numeric datatype found in the underlying tables.
When comparing a character value with a numeric value, Oracle converts the character data to a numeric value.
Conversions between character values or NUMBER
values and floating-point number values can be inexact, because the character types and NUMBER
use decimal precision to represent the numeric value, and the floating-point numbers use binary precision.
When converting a CLOB
value into a character datatype such as VARCHAR2
, or converting BLOB
to RAW
data, if the data to be converted is larger than the target datatype, then the database returns an error.
Conversions from BINARY_FLOAT
to BINARY_DOUBLE
are exact.
Conversions from BINARY_DOUBLE
to BINARY_FLOAT
are inexact if the BINARY_DOUBLE
value uses more bits of precision that supported by the BINARY_FLOAT
.
When comparing a character value with a DATE
value, Oracle converts the character data to DATE
.
When you use a SQL function or operator with an argument of a datatype other than the one it accepts, Oracle converts the argument to the accepted datatype.
When making assignments, Oracle converts the value on the right side of the equal sign (=) to the datatype of the target of the assignment on the left side.
During concatenation operations, Oracle converts from noncharacter datatypes to CHAR
or NCHAR
.
During arithmetic operations on and comparisons between character and noncharacter datatypes, Oracle converts from any character datatype to a numeric, date, or rowid, as appropriate. In arithmetic operations between CHAR
/VARCHAR2
and NCHAR
/NVARCHAR2
, Oracle converts to a NUMBER
.
Comparisons between CHAR
and VARCHAR2
and between NCHAR
and NVARCHAR2
types may entail different character sets. The default direction of conversion in such cases is from the database character set to the national character set. Table 2-11 shows the direction of implicit conversions between different character types.
Most SQL character functions are enabled to accept CLOB
s as parameters, and Oracle performs implicit conversions between CLOB
and character types. Therefore, functions that are not yet enabled for CLOB
s can accept CLOB
s through implicit conversion. In such cases, Oracle converts the CLOB
s to CHAR
or VARCHAR2
before the function is invoked. If the CLOB
is larger than 4000 bytes, then Oracle converts only the first 4000 bytes to CHAR
.
Table 2-11 Conversion Direction of Different Character Types
to CHAR | to VARCHAR2 | to NCHAR | to NVARCHAR2 | |
---|---|---|---|---|
from CHAR |
-- |
|
|
|
from VARCHAR2 |
|
-- |
|
|
from NCHAR |
|
|
-- |
|
from NVARCHAR2 |
|
|
|
-- |
User-defined types such as collections cannot be implicitly converted, but must be explicitly converted using CAST
... MULTISET
Text Literal Example The text literal '10' has datatype CHAR
. Oracle implicitly converts it to the NUMBER
datatype if it appears in a numeric expression as in the following statement:
SELECT salary + '10' FROM employees;
Character and Number Values Example When a condition compares a character value and a NUMBER
value, Oracle implicitly converts the character value to a NUMBER
value, rather than converting the NUMBER
value to a character value. In the following statement, Oracle implicitly converts '200' to 200:
SELECT last_name FROM employees WHERE employee_id = '200';
Date Example In the following statement, Oracle implicitly converts '03-MAR-97
' to a DATE
value using the default date format 'DD-MON-YY
':
SELECT last_name FROM employees WHERE hire_date = '03-MAR-97';
Rowid Example In the following statement, Oracle implicitly converts the text literal 'AAAGH6AADAAAAFGAAN
' to a rowid value. (Rowids are unique within a database, so to use this example you must know an actual rowid in your database.)
SELECT last_name FROM employees WHERE ROWID = 'AAAGH6AADAAAAFGAAN';
You can explicitly specify datatype conversions using SQL conversion functions. Table 2-12 shows SQL functions that explicitly convert a value from one datatype to another.
You cannot specify LONG
and LONG
RAW
values in cases in which Oracle can perform implicit datatype conversion. For example, LONG
and LONG
RAW
values cannot appear in expressions with functions or operators. Please refer to "LONG Datatype" for information on the limitations on LONG
and LONG
RAW
datatypes.
Table 2-12 Explicit Type Conversions
to CHAR,VARCHAR2,NCHAR,NVARCHAR2 | to NUMBER | to Datetime/Interval | to RAW | to ROWID | to LONG,LONG RAW | to CLOB, NCLOB,BLOB | to BINARY_FLOAT | to BINARY_DOUBLE | |
---|---|---|---|---|---|---|---|---|---|
from CHAR, VARCHAR2, NCHAR, NVARCHAR2 |
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from NUMBER |
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from Datetime/ Interval |
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from RAW |
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from ROWID |
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from LONG / LONG RAW |
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from CLOB, NCLOB, BLOB |
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from CLOB, NCLOB, BLOB |
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from BINARY_FLOAT |
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from BINARY_DOUBLE |
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