I'd like to read a plain text file and apply a predicate to each line (the predicates contain write which does the output). How would I do that?


In SWI-Prolog, the cleanest solution is to write a DCG that describes what a "line" is, then call a predicate for each line. Use library(pio) to apply the DCG to a file.

EDIT: As requested, consider:

:- use_module(library(pio)).

lines([])           --> call(eos), !.
lines([Line|Lines]) --> line(Line), lines(Lines).

eos([], []).

line([])     --> ( "\n" ; call(eos) ), !.
line([L|Ls]) --> [L], line(Ls).

Sample usage: ?- phrase_from_file(lines(Ls), 'your_file.txt').

  • 1
    I know it's been a long time, but I'm trying this method and it seems to take an absurdly long time. Could you provide an example of some performant code using DCGs and library(pio) that will read in a file by lines? Thanks! – Shon Feder Oct 22 '14 at 3:21
  • 2
    I have added an example which I hope works better for you. – mat Oct 22 '14 at 20:04
  • 1
    Thanks so much! I see my error before was using the example in the SWI-Prolog library(pio) documentation for my model. It uses findall/3 to get all instances of a certain pattern, but I see you just use a dcg that parses the whole file. Out of curiosity, why must we use call(eos) instead of a dcg rule? – Shon Feder Oct 24 '14 at 2:58
  • 5
    call//1 (and then, eos/2) is used to portably refer to the entire implicit DCG arguments from within a DCG rule. You cannot use a DCG rule instead, because DCG rules are subject to translation rules that let them only refer to certain parts of these arguments. "Portable" means that this is independent of how any particular Prolog system actually translates DCG rules to Prolog rules, so that it works in all systems that support DCGs as currently being drafted by ISO. – mat Oct 24 '14 at 7:52
  • Thanks again! I reworked the problem I was attempting with the help of your example, and it ended up in a fairly elegant solution. More importantly, you've helped me bump up my understanding of DCGs to the next level. (I've been studying them casually, off and on, for more than a year, and I still feel like I have a limited grasp. It is such a simple concept, and yet... maybe it's not so simple?). – Shon Feder Oct 26 '14 at 1:45

You can use read to read the stream. Remember to invoke at_end_of_stream to ensure no syntax errors.



main :-
    open('myFile.txt', read, Str),
    write(Lines), nl.

read_file(Stream,[]) :-

read_file(Stream,[X|L]) :-
    \+ at_end_of_stream(Stream),


'line 0'.
'line 1'.
'line 2'.
'line 3'.
'line 4'.
'line 5'.
'line 6'.
'line 7'.
'line 8'.
'line 9'.

Thus by invoking main you will recieve the output:

?- main.
[line 0,line 1,line 2,line 3,line 4,line 5,line 6,line 7,line 8,line 9]

Just configure main. The output here is an example by using write, of course. Configure to match your request.

I assume that this principle can be applied to answer your question. Good luck.


There are kind of more possible in number and more reasonable in performance solutions, to get uninterpreted i.e plain text lines from a file:


read_line(S, X) :- 
   read_line_to_codes(S, L), 
   read_line2(L, X).

read_line2(end_of_file, _) :- !, fail.
read_line2(L, X) :-
   atom_codes(X, L).

Jekejeke Prolog:

:- use_module(library(stream/console)).

Here are some timings, reading a file of 655 lines:

test :-
   open('<path>', read, Stream),

test(Stream) :-
   read_line(Stream, _), !,


̀?- time((between(1,100,_), test, fail; true)).
% 328,300 inferences, 0.125 CPU in 0.143 seconds (88% CPU, 2626400 Lips)

Jekejeke Prolog:

?- time((between(1,100,_), test, fail; true)).
% Up 121 ms, GC 2 ms, Thread Cpu 94 ms (Current 05/07/19 17:19:05)

I guess a SWI-Prolog solution that reads into a string instead into an atom could be faster. But in the above we compare atom against atom reading.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.