This is an algorithm to append together two lists:
Domains
list= integer*
Predicates
nondeterm append(list, list, list)
Clauses
append([], List, List) :- !.
append([H|L1], List2, [H|L3]) :- append(L1, List2, L3).
Goal
append([9,2,3,4], [-10,-5,6,7,8], Ot).
The result is a list [9,2,3,4,-10,-5,6,7,8], and it's saved in "Ot".
My question is, how does this work?
What I understand is that in every recursive call, in the first list, you get only the tail as a list ( thus reducing its size by 1 until it's [] ), the second argument "List2" does not change at all, and the 3rd argument ... at first it's [], and after each recursive call you get its tail, but since it's [], it stays [].
So how come, suddenly, in 3rd argument ("Ot") we have the appended list ?
Can someone explain this algorithm step by step ?
First, let's translate the clauses into something more understandable:
append([], List, List) :- !.
can be written
append([], List2, Result) :-
Result = List2,
!.
and
append([H|L1], List2, [H|L3]) :- append(L1, List2, L3).
can be written
append(List1, List2, Result) :-
List1 = [Head1 | Tail1],
Result = [HeadR | TailR],
Head1 = HeadR,
append(Tail1, List2, TailR).
I hope this will already be clearer for you.
Then, step by step, the number indicates the clause used each time, and the resulting call is shown:
append([9, 2, 3, 4], [-10, -5, 6, 7, 8], Ot).
|
2
|
` append([2, 3, 4], [-10, -5, 6, 7, 8], Ot'). % and Ot = [9|Ot']
|
2
|
` append([3, 4], [-10, -5, 6, 7, 8], Ot''). % and Ot' = [2|Ot'']
|
2
|
` append([4], [-10, -5, 6, 7, 8], Ot'''). % and Ot'' = [3|Ot''']
|
2
|
` append([], [-10, -5, 6, 7, 8], Ot''''). % and Ot''' = [4|Ot'''']
|
1
|
` Ot'''' = [-10, -5, 6, 7, 8]
At this step all the values we're interested in are already defined. Notice how the head of the result is set before its tail is filled up by a subsequent (tail recursive) call to append, building the resulting list in the characteristic for Prolog top-down fashion (also known as "tail recursion modulo cons").
Let's follow the definitions to see what Ot is, at the final step:
Ot = [9|Ot']
Ot' = [2|Ot'']
Ot'' = [3|Ot''']
Ot''' = [4|Ot'''']
Ot'''' = [-10, -5, 6, 7, 8]
Ot''' = [4, -10, -5, 6, 7, 8]
Ot'' = [3, 4, -10, -5, 6, 7, 8]
Ot' = [2, 3, 4, -10, -5, 6, 7, 8]
Ot = [9, 2, 3, 4, -10, -5, 6, 7, 8]
I hope you'll get something out of it.
Let's translate from Prolog into English. We have two rules:
The result of appending any List to [] is that List.
The result of appending any List to a list whose first element is H and remainder is L1 is equal to a list whose first element is also H whose remainder is the result of appending List to L1.
So, we want to append [-10,-5,6,7,8] to [9,2,3,4]. The list being appended to isn't empty, so we can skip that rule. By the second rule, the result has 9 as the first element, followed by the result of appending [-10,-5,6,7,8] to [2,3,4].
So, we want to append [-10,-5,6,7,8] to [2,3,4]. The list being appended to isn't empty, so we can skip that rule. By the second rule, the result has 2 as the first element, followed by the result of appending [-10,-5,6,7,8] to [3,4].
So, we want to append [-10,-5,6,7,8] to [3,4]. The list being appended to isn't empty, so we can skip that rule. By the second rule, the result has 3 as the first element, followed by the result of appending [-10,-5,6,7,8] to [4].
So, we want to append [-10,-5,6,7,8] to [4]. The list being appended to isn't empty, so we can skip that rule. By the second rule, the result has 9 as the first element, followed by the result of appending [-10,-5,6,7,8] to [].
So, we want to append [-10,-5,6,7,8] to []. The list being appended to is empty, so by the first rule, the result is [-10,-5,6,7,8].
Since the result of appending [-10,-5,6,7,8] to [] is [-10,-5,6,7,8], the result of appending [-10,-5,6,7,8] to [4] is [4,-10,-5,6,7,8].
Since the result of appending [-10,-5,6,7,8] to [4] is [4,-10,-5,6,7,8], the result of appending [-10,-5,6,7,8] to [3,4] is [3,4,-10,-5,6,7,8].
Since the result of appending [-10,-5,6,7,8] to [3,4] is [3,4,-10,-5,6,7,8], the result of appending [-10,-5,6,7,8] to [2,3,4] is [2,3,4,-10,-5,6,7,8].
Since the result of appending [-10,-5,6,7,8] to [2,3,4] is [2,3,4,-10,-5,6,7,8], the result of appending [-10,-5,6,7,8] to [9,2,3,4] is [9,2,3,4,-10,-5,6,7,8].
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