Special sequences start with the tilde (
),
followed by an optional numeric argument, optionally followed by a colon
modifier (:),
127The colon modifiers is a
SWI-Prolog extension, proposed by Richard O'Keefe. followed
by a character describing the action to be undertaken. A numeric
argument is either a sequence of digits, representing a positive decimal
number, a sequence ~
`<character>
,
representing the character code value of the character (only useful for
~t
) or a asterisk (
), in which
case the numeric argument is taken from the next argument of the
argument list, which should be a positive integer. E.g., the following
three examples all pass 46 (*
) to .
~t
:
?- format('~w ~46t ~w~72|~n', ['Title', 'Page']). ?- format('~w ~`.t ~w~72|~n', ['Title', 'Page']). ?- format('~w ~*t ~w~72|~n', ['Title', 46, 'Page']).
Numeric conversion (d
, D
, e
, E
, f
, g
and G
) accept an arithmetic expression as argument. This is
introduced to handle rational numbers transparently (see
section 4.27.2.2). The
floating point conversions allow for unlimited precision for printing
rational numbers in decimal form. E.g., the following will write as many
3's as you want by changing the `50'.
?- format('~50f', [10 rdiv 3]). 3.33333333333333333333333333333333333333333333333333
~
Output the tilde itself.a
Output the next argument, which must be an atom. This option is equivalent to w, except that it requires the argument to be an atom.c
Interpret the next argument as a character code and add it to the output. This argument must be a valid Unicode character code. Note that the actually emitted bytes are defined by the character encoding of the output stream and an exception may be raised if the output stream is not capable of representing the requested Unicode character. See section 2.19.1 for details.d
Output next argument as a decimal number. It should be an integer. If a numeric argument is specified, a dot is inserted argument positions from the right (useful for doing fixed point arithmetic with integers, such as handling amounts of money).The colon modifier (e.g.,
~:d
) causes the number to be printed according to the locale of the output stream. See section 4.23.D
Same as d, but makes large values easier to read by inserting a comma every three digits left or right of the dot. This is the same as~:d
, but using the fixed English locale.e
Output next argument as a floating point number in exponential notation. The numeric argument specifies the precision. Default is 6 digits. Exact representation depends on the C library function printf(). This function is invoked with the format%.<precision>e
.E
Equivalent to e, but outputs a capital E to indicate the exponent.f
Floating point in non-exponential notation. The numeric argument defines the number of digits right of the decimal point. If the colon modifier (:) is used, the float is formatted using conventions from the current locale, which may define the decimal point as well as grouping of digits left of the decimal point.g
Floating point in e or f notation, whichever is shorter.G
Floating point in E or f notation, whichever is shorter.i
Ignore next argument of the argument list. Produces no output.I
Emit a decimal number using Prolog digit grouping (the underscore,_
). The argument describes the size of each digit group. The default is 3. See also section 2.16.1.5. For example:?- A is 1<<100, format('~10I', [A]). 1_2676506002_2822940149_6703205376
k
Give the next argument to write_canonical/1.n
Output a newline character.N
Only output a newline if the last character output on this stream was not a newline. Not properly implemented yet.p
Give the next argument to print/1.q
Give the next argument to writeq/1.r
Print integer in radix numeric argument notation. Thus~16r
prints its argument hexadecimal. The argument should be in the range [2, ... , 36]. Lowercase letters are used for digits above 9. The colon modifier may be used to form locale-specific digit groups.R
Same as r, but uses uppercase letters for digits above 9.s
Output text from a list of character codes or a string (see string/1 and section 5.2) from the next argument.128The s modifier also accepts an atom for compatibility. This is deprecated due to the ambiguity of[]
.@
Interpret the next argument as a goal and execute it. Output written to thecurrent_output
stream is inserted at this place. Goal is called in the module calling format/3. This option is not present in the original definition by Quintus, but supported by some other Prolog systems.t
All remaining space between 2 tab stops is distributed equally over~t
statements between the tab stops. This space is padded with spaces by default. If an argument is supplied, it is taken to be the character code of the character used for padding. This can be used to do left or right alignment, centering, distributing, etc. See also~|
and~+
to set tab stops. A tab stop is assumed at the start of each line.|
Set a tab stop on the current position. If an argument is supplied set a tab stop on the position of that argument. This will cause all~t
's to be distributed between the previous and this tab stop.+
Set a tab stop (as~|
) relative to the last tab stop or the beginning of the line if no tab stops are set before the~+
. This constructs can be used to fill fields. The partial format sequence below prints an integer right-aligned and padded with zeros in 6 columns. The ... sequences in the example illustrate that the integer is aligned in 6 columns regardless of the remainder of the format specification.format('...~|~`0t~d~6+...', [..., Integer, ...])
w
Give the next argument to write/1.W
Give the next two arguments to write_term/2. For example,format('~W', [Term, [numbervars(true)]])
. This option is SWI-Prolog specific.
Example:
simple_statistics :- <obtain statistics> % left to the user format('~tStatistics~t~72|~n~n'), format('Runtime: ~`.t ~2f~34| Inferences: ~`.t ~D~72|~n', [RunT, Inf]), ....
will output
Statistics Runtime: .................. 3.45 Inferences: .......... 60,345