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I want to write a Prolog predicate that takes a word and shifts it left or right on the keyboard...

..., but—so far—I do not have a clue where to start from.


Example. Let's shift the word "loogika" to the left on a keyboard!

Note that, if our keyboard layout is qwerty, we hit an edge when left-shifting a. We can deal with that in different ways, but it appears that each "solution" has its own and up- and down-sides.

So what do we do? Let left-shifted a not be Caps Lock, but rather stay a. IMO, not toggling that nasty Caps-Lock is worth losing algebraic properties, which are hard to uphold when handling other edge/corner cases in a way that preserves the 2D physical distances... YMMV!

Sample Prolog query:

?- tipi([l,o,o,g,i,k,a],
        [k,i,i, f,u,j,a]).
true.

Which keys get pressed when we write "loogika" / "kiifuja" on qwerty keyboards? Look and see!

before and after shift left, animated

share|improve this question
2  
Please post some example input and expected results - positive and negative. – Jay Walker Mar 9 '13 at 17:23
1  
@repeat does my answer, answer your bounty question? – user27815 Oct 9 '15 at 13:44

For the original question:

:-use_module(library(clpfd)).

table([[1,2,3,4,5,6,7,8,9,0],[q,w,e,r,t,y,u,i,o,p], [a,s,d,f,g,h,j,k,l,;],[z,x,c,v,b,n,m,',','.','/']]).

shift_left(Char,New_Char):-
  table(Table),
  member(R,Table),
  nth1(I,R,Char),
  shift_l(I,NI),
  nth1(NI,R,New_Char).

shift_right(Char,New_Char):-
  table(Table),
  member(R,Table),
  nth1(I,R,Char),
  shift_r(I,NI),
  nth1(NI,R,New_Char).

shift_seq(left,Seq,NewSeq):-
  maplist(shift_left,Seq,NewSeq).
shift_seq(right,Seq,NewSeq):-
  maplist(shift_right,Seq,NewSeq).

shift_l(1,1).
shift_l(X,Y):-
  X>1,
  X#=Y+1.

shift_r(10,10).
shift_r(X,Y):-
  X<10,
  X#=Y-1.

Query:

?- shift_seq(left,[l,o,o,g,i,k,a],N).
N = [k, i, i, f, u, j, a] .

I assume the g in the question is a typo ;)

For the bounty, you could use the Manhattan distance in this table. And then combine that distance with a weight to the Levenshtein distance. I came up with the following adaptation. I am not sure if it is a 'real distance function'.

:-use_module(library(clpfd)).
:-use_module(library(aggregate)).

table([['1','2','3','4','5','6','7','8','9','0'],[q,w,e,r,t,y,u,i,o,p], [a,s,d,f,g,h,j,k,l,;],[z,x,c,v,b,n,m,',','.','/']]).

vert_distance(A,B,Table,Distance):-
  length(Table,L),
  Distance in 0..L,
  member(Row1,Table),
  member(Row2,Table),
  member(A,Row1),
  member(B,Row2),
  nth0(N1,Table,Row1),
  nth0(N2,Table,Row2),
  Distance #= abs(N1-N2).

hoz_distance(A,B,Table,Distance):-
  member(Row1,Table),
  member(Row2,Table),
  length(Row1,L),
  Distance in 0..L,
  nth0(N1,Row1,A),
  nth0(N2,Row2,B),
  Distance #= abs(N1-N2).

manhatten(A,B,Table,D):-
  vert_distance(A,B,Table,V),
  hoz_distance(A,B,Table,H),
  D#=V+H.

manhatten_string([],[],_,0).
manhatten_string(String1,String2,Table,D):-
  length(String1,L),
  length(String2,L),
  manhatten_string_(String1,String2,Table,D1),
  D is D1/L.
manhatten_string(S1,S2,Table,D):-
  length(S1,L1),
  length(S2,L2),
  D#=abs(L1-L2).

manhatten_string_([],[],_,0).
manhatten_string_(String1,String2,Table,D1):-
  String1 =[H1|T1],
  String2 =[H2|T2],
  manhatten(H1,H2,Table,DL),
  manhatten_string(T1,T2,Table,D0),
  D1 is D0+(DL/14).

lev(String1,String2,D):-
  length(String1,L1),
  length(String2,L2),
  0 is min(L1,L2),
  D is max(L1,L2).
lev(String1,String2,D):-
  String1 =[H1|T1],
  String2 =[H2|T2],
  lev(T1,String2,D1),
  lev(String1,T2,D2),
  lev(T1,T2,D3),
  D1plus1 is D1+1,
  D2plus1 is D2+1,
  indicator([H1],[H2],DM),
  D3plus is D3+DM,
  aggregate_all(min(X),member(X,[D1plus1,D2plus1,D3plus]),D).

indicator(Ai,Bj,0):-
  Ai=Bj.
indicator(Ai,Bj,D):-
  Ai\=Bj,
  table(Table),
  manhatten_string(Ai,Bj,Table,D).

Queries:

?- lev([a,a],[b,a],D).
D = 0.35714285714285715 .

?- lev([a,a],[a,b],D).
D = 0.35714285714285715 .

?- lev([a,a],[a,b,c,d],D).
D = 2.142857142857143 .

?- lev([a],[],D).
D = 1 .

?- lev([a],[s],D).
D = 0.07142857142857142 .

?- lev([a],[o],D).
D = 0.6428571428571429 .

?- lev([a,b],[a,b],D).
D = 0 .

?- lev([a,b,c],[a,b],D).
D = 1 .

?- lev([a,b,c],[a,b,p],D).
D = 0.6428571428571429 .

There is also library(isub) http://www.swi-prolog.org/pldoc/doc_for?object=section(0,%270%27,swi(%27/doc/packages/nlp.html%27)). Which looks appropriate for part of this.

share|improve this answer

You can use below code for shift left.

shift(L1,L2):-
        del(L1,L3,X),
        add(L3,X,L2).

    del([X],[],X).

    del([Head|Tail],[Head|L],X):-
        del(Tail,L,X).

    add(L3,X,[X|L3]).

Output is :

shift([1,2,3,4,5],A).

A=[5,1,2,3,4]
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1  
This is most definitely not what the OP was asking for! – repeat Aug 19 '15 at 10:31

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