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Arithmetic Operations
An arithmetic operation combines two or more numeric expressions using the Arithmetic Operators to form a resulting numeric expression.
Before an arithmetic operation is performed, the participating expressions are converted to identical data types. After the arithmetic operation is performed, the resulting expression also has that storage format.
Default Type Conversion
When two numeric expressions are combined, the data types of the expressions are converted to be identical; this conversion determines the data type of the result. The expression having the data type of lower precedence is converted to the data type of higher precedence.
The order of precedence among the numeric data types, in highest-to-lowest order, is as follows:
money
float4
float
decimal
integer8 (bigint)
integer4 (integer)
integer2 (smallint)
integer1 (tinyint)
For example, in an operation that combines an integer and a floating point number, the integer is converted to a floating point number before the operation is performed. If the operands are two integers of different sizes, the smaller is converted to the size of the larger.
For example, for the expression:
(job.lowsal + 1000) * 12
the first operator (+) combines a float4 expression (job.lowsal) with a smallint constant (1000). The result is float4. The second operator (*) combines the float4 expression with a smallint constant (12), resulting in a float4 expression.
The following table lists the data types that result from combining numeric data types in expressions:
integer1
integer2
integer4
integer8
decimal*
float8
float4
money
integer1
integer8
integer8
integer8
integer8
decimal6
float8
float4
money
integer2
integer8
integer8
integer8
integer8
decimal6
float8
float4
money
integer4
integer8
integer8
integer8
integer8
decimal12
float8
float4
money
integer8
integer8
integer8
integer8
integer8
decimal20
float8
float4
money
decimal*
decimal6
decimal6
decimal12
decimal20
decimal6
float8
float4
money
float8
float8
float8
float8
float8
float8
float8
float4
money
float4
float4
float4
float4
float4
float4
float4
float4
money
money
money
money
money
money
money
money
money
money
 
*decimal(n) – The result size depends on the size of the decimal. The result size shown is for adding decimal(1) to the other value, for example: decimal(1) + int2(1).
To convert one data type to another, use data type conversion functions (see Conversion Functions).
Arithmetic Operations on Decimal Data Types
Vector uses the Standard decimal handling rules (decimal_rule in config.dat is set to Standard rather than Classic).
In expressions that combine decimal values and return decimal results, the precision (total number of digits) and scale (number of digits to the right of the decimal point) of the Standard result can be determined, as shown in the following table:
Operation
Result Precision
Result Scale
Addition and subtraction
Largest number of fractional digits plus largest number of non-fractional digits + 1
Largest number of fractional digits
Multiplication
Total of input precisions
Total of input scales
Division
Dividend non-fractional digits, plus divisor scale, plus result scale
Dividend scale, plus divisor precision, plus one; but at least 10
If the result precision is larger than 38, the result scale is reduced by the amount of the precision excess, and the result precision is set to 38. The result scale is not reduced below 4 if the input scales are 4 or more; if both input scales are less then 4, the result scale is not reduced to less than the larger.
For example, in the following decimal addition operation:
1.234 + 567.89
the scale and precision of the result is calculated as follows:
Precision = 7, calculated as 3 (largest number of fractional digits) + 3 (largest number of non-fractional digits) + 1 = 7.
Scale = 3. The first operand has the largest number of digits to the right of the decimal point.
Result: 0569.124
If exponentiation is performed on a decimal value, the resulting data type is float.
Comparison of Decimal Handling Settings
Decimal arithmetic is handled according to the setting on the decimal_rule parameter in config.dat--either Classic or Standard.
The following examples compare Classic and Standard decimal handling. Given the input precision and scale, the result precision and scale for Classic and Standard settings are shown.
Input Precision and Scale
Classic Result
Standard Result
(38,10) + (38,5)
(38,10)
(38,5)
(14,3) * (14,3) * (14,3) * (4,1)
(38,10)
(38,3)
(38,20) * (38,20)
(38,38)
(38,4)
(5,1) / (3,1)
(38,33)
(15,10)
(14,4) / (12,2)
(38,26)
(29,17)
The Classic rules follow the SQL Standard specifications for result scale, even when the precision has to be limited to the maximum of 38. The effect is that in a complex expression, the result scale tends to be large, which reduces the number of available non-fractional digits and makes numeric overflow more likely.
The Standard rules reduce both precision and scale when precision gets too large, which favors non-fractional digits at the expense of fractional digits and makes numeric overflow less likely.
Date and Time Arithmetic
The following arithmetic is supported for date and time data types.
Note:  “Absolute type” is a non-interval form.
Operators that return absolute date forms:
absolute type
-
interval type
=
absolute type
absolute type
+
interval type
=
absolute type
interval type
+
absolute type
=
absolute type
The result will be the same as the absolute term.
Operators used with intervals:
- interval type
=
interval type
 
 
+ interval type
=
interval type
 
 
absolute type
-
absolute type
=
interval type
interval type
+
interval type
=
interval type
interval type
-
interval type
=
interval type
interval type
*
numeric-expression
=
interval type
numeric-expression
*
interval type
=
interval type
interval type
/
numeric-expression
=
interval type
interval type
/
interval type
=
numeric-expression
The combining rules are:
ANSI absolute types must match to take their difference.
You cannot combine YEAR TO MONTH and DAY TO SECOND intervals.
ANSI Date and Time Comparisons
ANSI date and time values can be compared only to values of the same type. When the time zone setting of a time or timestamp value does not match that of its comparand, time or timestamp values WITH TIME ZONE or WITH LOCAL TIME ZONE are considered to be stored in GMT and can be compared directly. If one comparand is time or timestamp WITH TIME ZONE or WITH LOCAL TIME ZONE and the other comparand is WITHOUT TIME ZONE, the value of the WITHOUT TIME ZONE comparand is assumed to be in local time of the session default time zone. It is converted to GMT based on that assumption and the comparison proceeds.
Operator Coercion Rules
The implicit coercion rules for operators are as follows:
1. Generally, where a numeric type is required, a string type can be supplied. If the character data turns out not to be numeric in form, a conversion error will occur.
2. Generally, where a string type is required, a numeric type can be supplied. This is the case for all integers, decimal, and all floats.
3. When an operator combines two values of the same data class, string or number, then the following precedence, shown from highest to lowest, is followed:
nchar
nvarchar
money
char
varchar
float
decimal
int
4. The exception to Rule 3 is the “+” operator, which is an arithmetic operator as well as a concatenation operator for strings. The two modes coexist, but if a number is added to a string, then the result type is a number.
5. Mixed type comparisons between character and numeric data are virtually coerced into Numeric String data before being compared.
Last modified date: 11/09/2022