You can use
sort/2, but determines the order of the terms by calling the comparison predicate you fed it. So we only need to write a
compare_values/3 predicate that compares the face values of your cards. My try:
compare_values(D, card(A,_), card(B,_)) :-
nth0(X, [ace, 2, 3, 4, 5, 6, 7, 8, 9, 10, jack, queen, king], A),
nth0(Y, [ace, 2, 3, 4, 5, 6, 7, 8, 9, 10, jack, queen, king], B),
compare(D, X, Y).
sort_cards(L, R) :-
predsort(compare_values, L, R).
Explanation of the
We need to define an ordering over the following list:
[ace, 2, 3, 4, 5, 6, 7, 8, 9, 10, jack, queen, king]
how? Given two values
B, we simply use
nth0/3 to search for
B in the list.
nth0/3 will give us the position of the element we are searching for. So now:
X = position of the element A in the ordered list
Y = position of the element B in the ordered list
Y are guaranteed to be numbers! And we can compare them with the built-in predicate
X < Y the card
A comes before the card
B, and vice-versa.
compare/3 will compare
Y, and return one of
?- compare_values(D, card(ace, clubs), card(7, spades)).
nth0 search for
7 in the list of ordered values.
X = 0 and
Y = 6 (the indexes of
7 in the list)
compare(D, 0, 6) unifies with
D = (<)
predsort/3 predicate uses compare_values to sort the list accordingly to the order defined
?- sort_cards([card(king, spades), card(ace,spades), card(3, clubs), card(7,diamonds), card(jack,clubs)], X).
X = [card(ace, spades), card(3, clubs), card(7, diamonds), card(jack, clubs), card(king, spades)].