# Number Patterns for Formatting and Parsing

### Description

Functions such as to_number and to_char support converting between values of string and Decimal type. Such functions accept format strings indicating how to map between these types.

### Syntax

Number format strings support the following syntax:

  { ' [ MI | S ] [ $] [ 0 | 9 | G | , ] [...] [ . | D ] [ 0 | 9 ] [...] [$ ] [ PR | MI | S ] ' }


### Elements

Each number format string can contain the following elements (case insensitive):

• 0 or 9

Specifies an expected digit between 0 and 9.

A sequence of 0 or 9 in the format string matches a sequence of digits with the same or smaller size. If the 0/9 sequence starts with 0 and is before the decimal point, it requires matching the number of digits: when parsing, it matches only a digit sequence of the same size; when formatting, the result string adds left-padding with zeros to the digit sequence to reach the same size. Otherwise, the 0/9 sequence matches any digit sequence with the same or smaller size when parsing, and pads the digit sequence with spaces in the result string when formatting. Note that the digit sequence will become a ‘#’ sequence if the size is larger than the 0/9 sequence.

• . or D

Specifies the position of the decimal point. This character may only be specified once.

When parsing, the input string does not need to include a decimal point.

• , or G

Specifies the position of the , grouping (thousands) separator.

There must be a 0 or 9 to the left and right of each grouping separator. When parsing, the input string must match the grouping separator relevant for the size of the number.

• $ Specifies the location of the $ currency sign. This character may only be specified once.

• S

Specifies the position of an optional ‘+’ or ‘-‘ sign. This character may only be specified once.

• MI

Specifies the position of an optional ‘-‘ sign (no ‘+’). This character may only be specified once.

When formatting, it prints a space for positive values.

• PR

Maps negative input values to wrapping angle brackets (<1>) in the corresponding string.

Positive input values do not receive wrapping angle brackets.

### Function types and error handling

• The to_number function accepts an input string and a format string argument. It requires that the input string matches the provided format and raises an error otherwise. The function then returns the corresponding Decimal value.
• The try_to_number function accepts an input string and a format string argument. It works the same as the to_number function except that it returns NULL instead of raising an error if the input string does not match the given number format.
• The to_char function accepts an input decimal and a format string argument. It requires that the input decimal matches the provided format and raises an error otherwise. The function then returns the corresponding string value.
• All functions will fail if the given format string is invalid.

### Examples

The following examples use the to_number, try_to_number, to_char, and try_to_char SQL functions.

Note that the format string used in most of these examples expects:

• an optional sign at the beginning,
• followed by a dollar sign,
• followed by a number between 3 and 6 digits long,
• thousands separators,
• up to two digits beyond the decimal point.

#### The to_number function

-- The negative number with currency symbol maps to characters in the format string.
> SELECT to_number('-$12,345.67', 'S$999,099.99');
-12345.67

-- The '$' sign is not optional. > SELECT to_number('5', '$9');
Error: the input string does not match the given number format

-- The plus sign is optional, and so are fractional digits.
> SELECT to_number('$345', 'S$999,099.99');
345.00

-- The format requires at least three digits.
> SELECT to_number('$45', 'S$999,099.99');
Error: the input string does not match the given number format

-- The format requires at least three digits.
> SELECT to_number('$045', 'S$999,099.99');
45.00

-- MI indicates an optional minus sign at the beginning or end of the input string.
> SELECT to_number('1234-', '999999MI');
-1234

-- PR indicates optional wrapping angel brakets.
> SELECT to_number('9', '999PR')
9


#### The try_to_number function:

-- The '$' sign is not optional. > SELECT try_to_number('5', '$9');
NULL

-- The format requires at least three digits.
> SELECT try_to_number('$45', 'S$999,099.99');
NULL


#### The to_char function:

> SELECT to_char(decimal(454), '999');
"454"

-- '99' can format digit sequence with a smaller size.
> SELECT to_char(decimal(1), '99.9');
" 1.0"

-- '000' left-pads 0 for digit sequence with a smaller size.
> SELECT to_char(decimal(45.00), '000.00');
"045.00"

> SELECT to_char(decimal(12454), '99,999');
"12,454"

-- digit sequence with a larger size leads to '#' sequence.
> SELECT to_char(decimal(78.12), '$9.99'); "$#.##"

-- 'S' can be at the end.
> SELECT try_to_char(decimal(-12454.8), '99,999.9S');
"12,454.8-"

> SELECT try_to_char(decimal(12454.8), 'L99,999.9');
Error: cannot resolve 'try_to_char(Decimal(12454.8), 'L99,999.9')' due to data type mismatch:
Unexpected character 'L' found in the format string 'L99,999.9'; the structure of the format
string must match: [MI|S] [$] [0|9|G|,]* [.|D] [0|9]* [$] [PR|MI|S]; line 1 pos 25