I'm quite new to Prolog, and this way of thinking is kind of messing with my mind. I'm currently using SWI-Prolog to run and debug my code. I have implemented a tail recursive algorithm to solve the N'th fibonnaci-number. I have tried debugging step by step, and I cannot explain why my implementation is skipping the base case. Where am I thinking wrong?
fib(0, A,_, A). %Base case, when we reach N = 0, return.
%Tail recursion. Use N as counter, iterate until base value (N=0) is reached.
fib(N, A, B, F) :-
Nnew is N - 1,
Sum is (A + B),
fib(Nnew, B, Sum, F).
fib(N, F) :-
fib(N, 0, 1, F). %set start values for when fib(N,F). is called
My implementation is working great (and fast) if I want to calculate the nth fib number. For example, if I run ?- fib(5,F)., I get F = 5 back. Great. If I want to check ?- fib(5,5). I get True back, which is correct. Great.
But, if I input a false statement, for example: ?- fib(5,4). then the program is looping forever. What happens is that N passes 0, ignores the base case(?), and continues on to be decremented. Why is the base case skipped? In my eyes, fib(0,A,_,A). is satisfied. Where am I wrong?
You should add the condition N>0 to the second clause of your predicate fib/3, otherwise the predicate fib/3 will continue trying with the negative numbers if the base-case fails. Lets see the case when you consult ?- fib(0,1):
This case will unified the second clause fib(0,0,1,1), where Nnew will be instantiated to the value -1. From here Nnew will be infinitely decremented, and the base-case will never be unified.
Any other false case, like ?- fib(5,4) will try to decrement N until the base case is unified, and that won't happen unless after 5 iteration, the sum of the fibonacci numbers are equal to 4. So, there's is no point on try with more attempts.
Related
I am trying to make a simple tail-recursive loop to collect the divisors of an integer, divisors(N,List) and its working when List is not instantiated, for example,
?- divisors(14,What).
What = [2, 7] ?
And I can verify that the wrong list is not the list of divisors,
?- divisors(14,[2, 8]).
no
Unless I try to verify that [] is not the list, this unfortunately succeeds:
?- divisors(14,[]).
true
can see in the debugger why it is erroneously succeeding, but I don't see how to fix this:
divisors_aux(1,_,L,L).
divisors_aux(D,N,List,Aux) :- D>1,0 is N mod D,D1 is D-1,
divisors_aux(D1,N,List,[D|Aux]).
divisors_aux(D,N,List,Aux) :- D>1,D1 is D-1,divisors_aux(D1,N,List,Aux).
divisors(N,List) :- N>1,nonvar(N),D is N-1,divisors_aux(D,N,List,[]).
I know there are looping approaches (foreach, etc.) but I am trying to make this "brute force" approach work based on what I have learned so far (roughly first 100 pages of Covington et. al.)
Thanks.
Your problem is that when the second clause of divisors_aux/3 fails (or if it succeeds and you ask for another solution) it will always backtrack to the third clause.
You may want to guard the third clause with \+(0 is N mod D) so that it fails when the current number is a divisor of N.
Or alternatively join both clauses with an if-then-else construct:
divisors_aux(1,_,L,L).
divisors_aux(D,N,List,Aux) :- D>1,
(0 is N mod D -> Aux1=[D|Aux] ; Aux1=Aux),
D1 is D-1,
divisors_aux(D1,N,List,Aux1).
divisors(N,List) :- N>1,nonvar(N),D is N-1,divisors_aux(D,N,List,[]).
I'm playing around with recursion in Prolog, and I'm confused. I am trying to write rules that can determine if a number is even or odd. I know that there are other stackoverflow questions about this, but I don't care about having a working solution, I am more interested in knowing why mine doesn't work.
Here are my rules:
even(0).
even(N) :- N>0, N1 is N-1, odd(N1).
odd(N) :- N>0, N1 is N-1, even(N1).
When I query even(0), I get returned 2 results. The first result is true, the 2nd is false. This also happens with odd(1), even(2), odd(3), etc. Why am I getting 2 return results? Shouldn't I just get 1?
When you query even(0), it succeeds as you have seen. But you've also seen it prompts you for more results because it left a choicepoint, which is a place in the logic where Prolog decides it can come back and explore other alternatives for a potentially successful query. Upon going back to the choicepoint and attempting to find more solutions, it does not find more, so it comes back "false" since it found no more solutions. So it did just find one solution, but the choice point caused backtracking after which it found no additional solutions. This is the case with your other successful queries as well.
You'll note that if you make a more general query, it gives an error (example taken from GNU Prolog):
| ?- even(N).
N = 0 ? ;
uncaught exception: error(instantiation_error,(>)/2)
| ?-
This is because you are using specific arithmetic expression operators that require that the variables be instantiated. These are relational operators like (>)/2 and the is/2 operator. You can make the solution more relational by using the CLP(FD) operators which are designed for reasoning with integers:
even(0).
even(N) :-
N #> 0,
N1 #= N-1,
odd(N1).
odd(N) :-
N #> 0,
N1 #= N-1,
even(N1).
Then you get a more general solution, which is more complete and more useful:
| ?- even(N).
N = 0 ? ;
N = 2 ? ;
N = 4 ? ;
N = 6 ? ;
...
| ?- odd(N).
N = 1 ? ;
N = 3 ? ;
N = 5 ? ;
N = 7 ?
...
If you know there is at most one answer, or if you only care about the first possible answer, you can use once/1 (examples taken from SWI Prolog here):
2 ?- even(2).
true ;
false.
3 ?- once(even(2)).
true.
4 ?- even(N).
N = 0 ;
N = 2 ;
N = 4 ;
...
5 ?- once(even(N)).
N = 0.
6 ?-
As expected, once(even(N)) terminates after finding the first solution.
The return values you have are correct. The point is how Prolog is evaluating predicates. When you query i.e.
even(2)
Prolog firstly evaluate that this predicate is Yes / true. When going through next possibility it return No / false, because it cannot find any more.
To check what exactly is performed under the hood go to:
https://swish.swi-prolog.org
on the left side type rules (i.e. odd/even) and on the query window type like 'odd(2)', but just before running click 'solutions'->'debug(trace)'. It will let you go step by step of what Prolog is doing.
Also please take a look at the successor example in tutorial below.
http://www.learnprolognow.org/lpnpage.php?pagetype=html&pageid=lpn-htmlse9
from a link above, try such code for a reversed example:
numeral(0).
numeral(succ(X)) :- numeral(X).
Now evaluating numeral(0) for the first time return succ(0), another time succ(succ(0)) etc.
Each time next evaluation brings another possible solution for a query.
What Prolog does is a "depth-first search", which means Prolog walks through a decision tree until it either finds a solution and succeeds OR it fails. In either case a process called "backtracking" kicks in. Along the way, going through the tree of choices, Prolog keeps track of where it has MULTIPLE possible routes that could potentially satisfy the goal. Such a point in the decision tree is called a "choice point".
This means Prolog will
search ->
succeed or fail ->
go back to the last choice point ->
repeat until all possible paths have been tried
Given your program:
even(0).
even(N) :- N>0, N1 is N-1, odd(N1).
odd(N) :- N>0, N1 is N-1, even(N1).
We can clearly see TWO ways to satisfy even(0).. The first is the fact even(0) and the second is the recursive rule even(N). Prolog reads top to bottom, left to right so the first encounter is even(0). which is true, and the second is even(N). which goes through N-1 making the result N1 = -1, then goes through odd(N) making the result N1 = -2, which in unequal to even(0). so it fails and then calls even(N) again. Your specific version of Prolog likely sees that it is an infinitely recursive predicate and doesn't even try to satisfy it even though it's a valid declarative path , but not a valid procedural path.
If you know that the mode is (+), you can place a cut,
to suppress the unnecessary choice point:
even(0) :- !.
even(N) :- N > 0, N1 is N-1, odd(N1).
odd(N) :- N > 0, N1 is N-1, even(N1).
The above is better than wrapping a query with
once/1 since it allows the Prolog interpreter to
use last call optimization. There is now no more
problem with an extra choice point:
?- even(3).
false.
?- even(4).
true.
But if the mode is not fixed, you have to be more careful
with cuts. Probably write a separate carefully crafted
predicate for each mode.
CLP(FD) itself seems not to help, it cannot avoid the need
to place cuts, but can sometimes avoid the need to code
different variants for different modes.
I'm generating random coordinates and adding on my list, but first I need verify if that coordinate already exists. I'm trying to use member but when I was debugging I saw that isn't working:
My code is basically this:
% L is a list and Q is a count that define the number of coordinate
% X and Y are the coordinate members
% check if the coordniate already exists
% if exists, R is 0 and if not, R is 1
createCoordinates(L,Q) :-
random(1,10,X),
random(1,10,Y),
convertNumber(X,Z),
checkCoordinate([Z,Y],L,R),
(R is 0 -> print('member'), createCoordinates(L,Q); print('not member'),createCoordinates(L,Q-1).
checkCoordinate(C,L,R) :-
(member(C,L) -> R is 0; R is 1).
% transforms the number N in a letter L
convertNumber(N,L) :-
N is 1, L = 'A';
N is 2, L = 'B';
...
N is 10, L = 'J'.
%call createCoordinates
createCoordinates(L,20).
When I was debugging this was the output:
In this picture I'm in the firts interation and L is empty, so R should be 1 but always is 0, the coordinate always is part of the list.
I have the impression that the member clause is adding the coordinate at my list and does'nt make sense
First off, I would recommend breaking your problem down into smaller pieces. You should have a procedure for making a random coordinate:
random_coordinate([X,Y]) :-
random(1, 10, XN), convertNumber(XN, X),
random(1, 10, Y).
Second, your checkCoordinate/3 is converting Prolog's success/failure into an integer, which is just busy work for Prolog and not really improving life for you. memberchk/2 is completely sufficient to your task (member/2 would work too but is more powerful than necessary). The real problem here is not that member/2 didn't work, it's that you are trying to build up this list parameter on the way out, but you need it to exist on the way in to examine it.
We usually solve this kind of problem in Prolog by adding a third parameter and prepending values to the list on the way through. The base case then equates that list with the outbound list and we protect the whole thing with a lower-arity procedure. In other words, we do this:
random_coordinates(N, Coordinates) :- random_coordinates(N, [], Coordinates).
random_coordinates(0, Result, Result).
random_coordinates(N, CoordinatesSoFar, FinalResult) :- ...
Now that we have two things, memberchk/2 should work the way we need it to:
random_coordinates(N, CoordinatesSoFar, FinalResult) :-
N > 0, succ(N0, N), % count down, will need for recursive call
random_coordinate(Coord),
(memberchk(Coord, CoordinatesSoFar) ->
random_coordinates(N, CoordinatesSoFar, FinalResult)
;
random_coordinates(N0, [Coord|CoordinatesSoFar], FinalResult)
).
And this seems to do what we want:
?- random_coordinates(10, L), write(L), nl.
[[G,7],[G,3],[H,9],[H,8],[A,4],[G,1],[I,9],[H,6],[E,5],[G,8]]
?- random_coordinates(10, L), write(L), nl.
[[F,1],[I,8],[H,4],[I,1],[D,3],[I,6],[E,9],[D,1],[C,5],[F,8]]
Finally, I note you continue to use this syntax: N is 1, .... I caution you that this looks like an error to me because there is no distinction between this and N = 1, and your predicate could be stated somewhat tiresomely just with this:
convertNumber(1, 'A').
convertNumber(2, 'B').
...
My inclination would be to do it computationally with char_code/2 but this construction is actually probably better.
Another hint that you are doing something wrong is that the parameter L to createCoordinates/2 gets passed along in all cases and is not examined in any of them. In Prolog, we often have variables that appear to just be passed around meaninglessly, but they usually change positions or are used multiple times, as in random_coordinates(0, Result, Result); while nothing appears to be happening there, what's actually happening is plumbing: the built-up parameter becomes the result value. Nothing interesting is happening to the variable directly there, but it is being plumbed around. But nothing is happening at all to L in your code, except it is supposedly being checked for a new coordinate. But you're never actually appending anything to it, so there's no reason to expect that anything would wind up in L.
Edit Notice that #lambda.xy.x solves the problem in their answer by prepending the new coordinate in the head of the clause and examining the list only after the recursive call in the body, obviating the need for the second list parameter.
Edit 2 Also take a look at #lambda.xy.x's other solution as it has better time complexity as N approaches 100.
Since i had already written it, here is an alternative solution: The building block is gen_coord_notin/2 which guarantees a fresh solution C with regard to an exclusion list Excl.
gen_coord_notin(C, Excl) :-
random(1,10,X),
random(1,10,Y),
( memberchk(X-Y, Excl) ->
gen_coord_notin(C, Excl)
;
C = X-Y
).
The trick is that we only unify C with the new result, if it is fresh.
Then we only have to fold the generations into N iterations:
gen_coords([], 0).
gen_coords([X|Xs], N) :-
N > 0,
M is N - 1,
gen_coords(Xs, M),
gen_coord_notin(X, Xs).
Remark 1: since coordinates are always 2-tuples, a list representation invites unwanted errors (e.g. writing [X|Y] instead of [X,Y]). Traditionally, an infix operator like - is used to seperate tuples, but it's not any different than using coord(X,Y).
Remark 2: this predicate is inherently non-logical (i.e. calling gen_coords(X, 20) twice will result in different substitutions for X). You might use the meta-level predicates var/1, nonvar/1, ground/1, integer, etc. to guard against non-sensical calls like gen_coord(1-2, [1-1]).
Remark 3: it is also important that the conditional does not have multiple solutions (compare member(X,[A,B]) and memberchk(X,[A,B])). In general, this can be achieved by calling once/1 but there is a specialized predicate memberchk/2 which I used here.
I just realized that the performance of my other solutions is very bad for N close to 100. The reason is that with diminishing possible coordinates, the generate and test approach will take longer and longer. There's an alternative solution which generates all coordinates and picks N random ones:
all_pairs(Ls) :-
findall(X-Y, (between(1,10,X), between(1,10,Y)), Ls).
remove_index(X,[X|Xs],Xs,0).
remove_index(I,[X|Xs],[X|Rest],N) :-
N > 0,
M is N - 1,
remove_index(I,Xs,Rest,M).
n_from_pool(_Pool, [], 0).
n_from_pool(Pool, [C|Cs], N) :-
N > 0,
M is N - 1,
length(Pool, L),
random(0,L,R),
remove_index(C,Pool,NPool,R),
n_from_pool(NPool, Cs, M).
gen_coords2(Xs, N) :-
all_pairs(Pool),
n_from_pool(Pool, Xs, N).
Now the query
?- gen_coords2(Xs, 100).
Xs = [4-6, 5-6, 5-8, 9-6, 3-1, 1-3, 9-4, 6-1, ... - ...|...] ;
false.
succeeds as expected. The error message
?- gen_coords2(Xs, 101).
ERROR: random/1: Domain error: not_less_than_one' expected, found0'
when we try to generate more distinct elements than possible is not nice, but better than non-termination.
I picked up prolog a couple of days ago and I 'm kind of stuck to this question. I want to subtract a number recursively until that number becomes less than 0. In pseudocode that would be like:
N:=0
while(Y>=X)
{
Y := Y-X
N := N+1
Y := Y+2
}
So for example if I have Y=20 and X=10 then we would get N=2 and Y=4.
Any ideas? Thanks in advance. Any help appreciated. I'm using SWI Prolog.
EDIT 1
What I've accomplished so far is(although I'm not sure even if its correct):
sufficient(X, Y, M, N, F) :-
F is Y-X,
Y>=X,
plus(M, 1, N),
sufficient(X, F, N, N, F).
I have problem finding my base case, I'm confused on how to implement it. Also, in the sufficient I have implemented, obviously when Y<X it terminates returning false. Is there a way to get the N and F before terminating? I am feeling that I am not thinking the "prolog" way, since I am mostly used on C and that vagues my thinking. Thanks.
EDIT 2
I have found my base case and I can stop recursion however, I can't manage to ge the correct values. My code:
sufficient(X, Y, M, N, F) :- Y<X.
sufficient(X, Y, M, N, F) :-
F is Y-X,
plus(M, 1, N),
sufficient(X, F, N, D, E).
Thing is after the first recursion, if for example I call sufficient as sufficient(10,21,0,N,F). from the swi prolog command prompt, I 'll get N=1 and F=11. That happens because I make 2 new variables D and E. If I don't make those 2 new variables(D and E), and at the 3rd sufficient in the code I call N and F instead of D and E at the line F is Y-X, I get a false, because F is 11 and Y-X is 1. Do I have to set the a subtraction function myself, since F is Y-X is not exactly a subtraction? Any ideas on how to do it?
All recursive functions need at least one base case. In what circumstance should your function say, OK, I have the answer, no need to recurse?
It would be the case in which your pseudocode loop is done, right?
Usually we write it in this format:
factorial(0,1). % The factorial of 0 is 1.
factorial(N,Factorial) :-
N>0, % You may need to test applicability
% of this recursive clause
NMinus1 is N-1, % maybe some setup
factorial(NMinus1,FactorialOfNMinus1), %recursive call
Factorial is N*FactorialOfNMinus1). %and maybe some code after
I wouldn't want to do your homework for you, but this should get you going:
sufficient(X,Y,M,N,F) :- %whatever condition means you're done,
% and results = whatever they should
sufficient(X,Y,M,N,F) :- %whatever condition means you aren't done
% and setting up results w/ a recursive call
One more hint: looks like M is a temporary variable and need not be a parameter.
Good Day,
I have a task (not homework), but test preparation question. Given a value of n where n > 0. I need to find out what 3**n value is. I do have something that works.
% expo
expo([],[]).
expo([X|T], [Y|Result]):-
number(X),
Y is 3 ^ X,
expo(T,Result).
expo([ThrowAway|Tail], [ThrowAway|Result]):-
expo(Tail,Result).
last([X]):-
write("M = "),
write(X).
last([Y|Tail]):-
last(Tail).
do_list(N) :-
findall(Num, between(0, N, Num), L),
expo(L, E),
last(E).
When I run this at the console:
do_list(4).
M = 81
true.
So it does give me what I want. But is a recursive solution necessary? I just want to generate a sequence of numbers and use those numbers as my exponent which I have done, but I had to create two lists to this.
Ideally, I'd like to do:
do_list(4, M).
M = 81
true.
Is this possible to do this without two lists? Is it possible without recursion? I'm new to Prolog, so it's taking me a little getting used to "thinking" in Prolog.
TIA,
coson
If you want to do something in all elements of a list then yes most of the times you need recursion (except from cases like when you use predicates like fundall/3 which does the recursion ...).
If you want to return your result in an argument and not just print it then you need for the above predicate two lists (one is the input and the other one is the output).
Though I don't understand why not just writing:
find_pow(Input,Output):-Output is 3^Input.
From what I understood you calculate 3^i for every i<=n and keep last element which could be done independently. So if I understood corrctly what you're trying to do, this could be done without using lists and recursion (if you use predefined pow function ^ else if you write a predicate that computes the power 3^n then you would use recursion... ).
Example:
?- find_pow(4,X).
X = 81.