I'm new to Prolog and currently implementing DFS (depth-first search) and BFS (breadth-first search) algorithms. My DFS works fine as the code below, but the BFS is terminated and aborted when it reaches the leaf node (it doesn't backtrack and continue searching). I also read some sample code about this but there are some functions they don't define like s(Node, NewNode)... so it's hard to understand, or the version use Queue is too complicated.

Here is my code: Some ground functions:

```
%connected(+Start, +Goal, -Weight)
connected(1,7,1).
connected(1,8,1).
connected(1,3,1).
connected(7,4,1).
connected(7,20,1).
connected(7,17,1).
connected(8,6,1).
connected(3,9,1).
connected(3,12,1).
connected(9,19,1).
connected(4,42,1).
connected(20,28,1).
connected(17,10,1).
connected2(X,Y,D) :- connected(X,Y,D).
connected2(X,Y,D) :- connected(Y,X,D).
next_node(Current, Next, Path) :-
connected2(Current, Next, _),
not(member(Next, Path)).
```

DFS implement:

```
depth_first(Goal, Goal, _, [Goal]).
depth_first(Start, Goal, Visited, [Start|Path]) :-
next_node(Start, Next_node, Visited),
write(Visited), nl,
depth_first(Next_node, Goal, [Next_node|Visited], Path).
```

BFS implement:

```
breadth_first(Goal, Goal, _,[Goal]).
breadth_first(Start, Goal, Visited, Path) :-
findall(X,
(connected2(X,Start,_),not(member(X,Visited))),
[T|Extend]),
write(Visited), nl,
append(Visited, [T|Extend], Visited2),
append(Path, [T|Extend], [Next|Path2]),
breadth_first(Next, Goal, Visited2, Path2).
```

The *Path* is something like the Queue list.
For example when call DFS:

```
?- depth_first(1, 28, [1], P).
```

BFS:

```
?- breadth_first(1, 28, [1], []).
```

`breadth_first/4`

predicate has an inconsistency in its implementation. Your`depth_first`

is designed to instantiate the last argument with the resulting path. Your`breadth_first/4`

starts out by assuming you're going to pass in`[]`

, but then the base case attempts to instantiate the last argument with`[Goal]`

which likely won't match whatever`Path2`

is being passed to it. You just need to reset your thinking on how you want to design that predicate.