Data Type Formatting Functions
6.7. Data Type Formatting Functions
The PostgreSQL formatting functions provide a powerful set of tools for converting various data types (date/time, integer, floating point, numeric) to formatted strings and for converting from formatted strings to specific data types. Table 6-12 lists them. These functions all follow a common calling convention: the first argument is the value to be formatted and the second argument is a template that defines the output or input format.
Table 6-12. Formatting Functions
Function | Returns | Description | Example |
---|---|---|---|
to_char (timestamp, text) | text | convert time stamp to string | to_char(timestamp 'now','HH12:MI:SS') |
to_char (interval, text) | text | convert interval to string | to_char(interval '15h 2m 12s','HH24:MI:SS') |
to_char (int, text) | text | convert integer to string | to_char(125, '999') |
to_char (double precision,
text) | text | convert real/double precision to string | to_char(125.8, '999D9') |
to_char (numeric, text) | text | convert numeric to string | to_char(numeric '-125.8', '999D99S') |
to_date (text, text) | date | convert string to date | to_date('05 Dec 2000', 'DD Mon YYYY') |
to_timestamp (text, text) | timestamp | convert string to time stamp | to_timestamp('05 Dec 2000', 'DD Mon YYYY') |
to_number (text, text) | numeric | convert string to numeric | to_number('12,454.8-', '99G999D9S') |
In an output template string, there are certain patterns that are recognized and replaced with appropriately-formatted data from the value to be formatted. Any text that is not a template pattern is simply copied verbatim. Similarly, in an input template string, template patterns identify the parts of the input data string to be looked at and the values to be found there.
Table 6-13 shows the template patterns available for formatting date and time values.
Table 6-13. Template patterns for date/time conversions
Pattern | Description |
---|---|
HH | hour of day (01-12) |
HH12 | hour of day (01-12) |
HH24 | hour of day (00-23) |
MI | minute (00-59) |
SS | second (00-59) |
MS | millisecond (000-999) |
US | microsecond (000000-999999) |
SSSS | seconds past midnight (0-86399) |
AM or A.M. or PM or P.M. | meridian indicator (upper case) |
am or a.m. or pm or p.m. | meridian indicator (lower case) |
Y,YYY | year (4 and more digits) with comma |
YYYY | year (4 and more digits) |
YYY | last 3 digits of year |
YY | last 2 digits of year |
Y | last digit of year |
BC or B.C. or AD or A.D. | era indicator (upper case) |
bc or b.c. or ad or a.d. | era indicator (lower case) |
MONTH | full upper case month name (blank-padded to 9 chars) |
Month | full mixed case month name (blank-padded to 9 chars) |
month | full lower case month name (blank-padded to 9 chars) |
MON | abbreviated upper case month name (3 chars) |
Mon | abbreviated mixed case month name (3 chars) |
mon | abbreviated lower case month name (3 chars) |
MM | month number (01-12) |
DAY | full upper case day name (blank-padded to 9 chars) |
Day | full mixed case day name (blank-padded to 9 chars) |
day | full lower case day name (blank-padded to 9 chars) |
DY | abbreviated upper case day name (3 chars) |
Dy | abbreviated mixed case day name (3 chars) |
dy | abbreviated lower case day name (3 chars) |
DDD | day of year (001-366) |
DD | day of month (01-31) |
D | day of week (1-7; SUN=1) |
W | week of month (1-5) where first week start on the first day of the month |
WW | week number of year (1-53) where first week start on the first day of the year |
IW | ISO week number of year (The first Thursday of the new year is in week 1.) |
CC | century (2 digits) |
J | Julian Day (days since January 1, 4712 BC) |
Q | quarter |
RM | month in Roman Numerals (I-XII; I=January) - upper case |
rm | month in Roman Numerals (I-XII; I=January) - lower case |
TZ | time-zone name - upper case |
tz | time-zone name - lower case |
Certain modifiers may be applied to any template pattern to alter its behavior. For example, "FMMonth" is the "Month" pattern with the "FM" prefix. Table 6-14 shows the modifier patterns for date/time formatting.
Table 6-14. Template pattern modifiers for date/time conversions
Modifier | Description | Example |
---|---|---|
FM prefix | fill mode (suppress padding blanks and zeroes) | FMMonth |
TH suffix | add upper-case ordinal number suffix | DDTH |
th suffix | add lower-case ordinal number suffix | DDth |
FX prefix | fixed format global option (see usage notes) | FX Month DD Day |
SP suffix | spell mode (not yet implemented) | DDSP |
Usage notes for the date/time formatting:
FM suppresses leading zeroes and trailing blanks that would otherwise be added to make the output of a pattern be fixed-width.
to_timestamp
andto_date
skip multiple blank spaces in the input string if the FX option is not used. FX must be specified as the first item in the template; for example to_timestamp('2000 JUN','YYYY MON') is right, but to_timestamp('2000 JUN','FXYYYY MON') returns an error, becauseto_timestamp
expects one blank space only.If a backslash ("\") is desired in a string constant, a double backslash ("\\") must be entered; for example '\\HH\\MI\\SS'. This is true for any string constant in PostgreSQL.
Ordinary text is allowed in
to_char
templates and will be output literally. You can put a substring in double quotes to force it to be interpreted as literal text even if it contains pattern keywords. For example, in '"Hello Year "YYYY', the YYYY will be replaced by the year data, but the single Y in "Year" will not be.If you want to have a double quote in the output you must precede it with a backslash, for example '\\"YYYY Month\\"'.
YYYY conversion from string to timestamp or date is restricted if you use a year with more than 4 digits. You must use some non-digit character or template after YYYY, otherwise the year is always interpreted as 4 digits. For example (with year 20000): to_date('200001131', 'YYYYMMDD') will be interpreted as a 4-digit year; better is to use a non-digit separator after the year, like to_date('20000-1131', 'YYYY-MMDD') or to_date('20000Nov31', 'YYYYMonDD').
Millisecond MS and microsecond US values in a conversion from string to time stamp are used as part of the seconds after the decimal point. For example to_timestamp('12:3', 'SS:MS') is not 3 milliseconds, but 300, because the conversion counts it as 12 + 0.3. This means for the format SS:MS, the input values 12:3, 12:30, and 12:300 specify the same number of milliseconds. To get three milliseconds, one must use 12:003, which the conversion counts as 12 + 0.003 = 12.003 seconds.
Here is a more complex example: to_timestamp('15:12:02.020.001230','HH:MI:SS.MS.US') is 15 hours, 12 minutes, and 2 seconds + 20 milliseconds + 1230 microseconds = 2.021230 seconds.
Table 6-15 shows the template patterns available for formatting numeric values.
Table 6-15. Template patterns for numeric conversions
Pattern | Description |
---|---|
9 | value with the specified number of digits |
0 | value with leading zeros |
. (period) | decimal point |
, (comma) | group (thousand) separator |
PR | negative value in angle brackets |
S | negative value with minus sign (uses locale) |
L | currency symbol (uses locale) |
D | decimal point (uses locale) |
G | group separator (uses locale) |
MI | minus sign in specified position (if number < 0) |
PL | plus sign in specified position (if number > 0) |
SG | plus/minus sign in specified position |
RN | roman numeral (input between 1 and 3999) |
TH or th | convert to ordinal number |
V | shift n digits (see notes) |
EEEE | scientific notation (not implemented yet) |
Usage notes for the numeric formatting:
A sign formatted using SG, PL, or MI is not an anchor in the number; for example, to_char(-12, 'S9999') produces ' -12', but to_char(-12, 'MI9999') produces '- 12'. The Oracle implementation does not allow the use of MI ahead of 9, but rather requires that 9 precede MI.
9 specifies a value with the same number of digits as there are 9s. If a digit is not available it outputs a space.
TH does not convert values less than zero and does not convert decimal numbers.
PL, SG, and TH are PostgreSQL extensions.
V effectively multiplies the input values by 10^n, where n is the number of digits following V.
to_char
does not support the use of V combined with a decimal point. (E.g., 99.9V99 is not allowed.)
Table 6-16 shows some
examples of the use of the to_char
function.
Table 6-16. to_char
Examples
Input | Output |
---|---|
to_char(now(),'Day, DD HH12:MI:SS') | 'Tuesday , 06 05:39:18' |
to_char(now(),'FMDay, FMDD HH12:MI:SS') | 'Tuesday, 6 05:39:18' |
to_char(-0.1,'99.99') | ' -.10' |
to_char(-0.1,'FM9.99') | '-.1' |
to_char(0.1,'0.9') | ' 0.1' |
to_char(12,'9990999.9') | ' 0012.0' |
to_char(12,'FM9990999.9') | '0012' |
to_char(485,'999') | ' 485' |
to_char(-485,'999') | '-485' |
to_char(485,'9 9 9') | ' 4 8 5' |
to_char(1485,'9,999') | ' 1,485' |
to_char(1485,'9G999') | ' 1 485' |
to_char(148.5,'999.999') | ' 148.500' |
to_char(148.5,'999D999') | ' 148,500' |
to_char(3148.5,'9G999D999') | ' 3 148,500' |
to_char(-485,'999S') | '485-' |
to_char(-485,'999MI') | '485-' |
to_char(485,'999MI') | '485' |
to_char(485,'PL999') | '+485' |
to_char(485,'SG999') | '+485' |
to_char(-485,'SG999') | '-485' |
to_char(-485,'9SG99') | '4-85' |
to_char(-485,'999PR') | '<485>' |
to_char(485,'L999') | 'DM 485 |
to_char(485,'RN') | ' CDLXXXV' |
to_char(485,'FMRN') | 'CDLXXXV' |
to_char(5.2,'FMRN') | V |
to_char(482,'999th') | ' 482nd' |
to_char(485, '"Good number:"999') | 'Good number: 485' |
to_char(485.8,'"Pre:"999" Post:" .999') | 'Pre: 485 Post: .800' |
to_char(12,'99V999') | ' 12000' |
to_char(12.4,'99V999') | ' 12400' |
to_char(12.45, '99V9') | ' 125' |