# Sicstus Prolog - Weight of a word

I've got a problem about how to weigh a word. Every single letter in a word has specific weight, I need to calculate the total weight of the word. For example:

``````A-E = 1,  F-O = 2, P-Z = 3.
``````

If the word is "PEN", the answer will be "Weight = 6",

``````cuz P = 3, E = 1 and N = 2.
``````

I've tried:

``````word_weight([X], W):-
X = 65 -> W = 1;
X = 66 -> W = 3.
word_weight([X,Y],W):-
X = 65 -> W1 = 1;
X = 66 -> W1 = 3,
Y = 65 -> W2 = 1;
Y = 66 -> W2 = 3,
W is W1 + W2.
word_weight([X|Y], W):-
X = 65 -> W = 1;
X = 66 -> W = 3,
word_weight(Y, W).
``````

Running res: | ?- word_weight("B",W).
W = 3 ? yes

It only works with one letter. How to make it works with many letters? And the answers will be the total value of the weight.

-

## 2 Answers

The following program works with SWI-Prolog. It will be surely easy to adapt it to Sicstus Prolog.

``````char_weight(C, 1) :- C >= 65, C =< 69.
char_weight(C, 2) :- C >= 70, C =< 79.
char_weight(C, 3) :- C >= 80, C =< 90.

word_weight([], 0).
word_weight([Char| Chars], Weight) :-
char_weight(Char, W),
word_weight(Chars, Ws),
Weight is W + Ws.
``````
-
Thank you so much! –  Ferry Sep 20 '11 at 14:58

How about

``````weight(C, 1) :- char_code('A') =< C, C =< char_code('E').
weight(C, 2) :- char_code('F') =< C, C =< char_code('O').
weight(C, 3) :- char_code('P') =< C, C =< char_code('Z').

word_weight(S, W) :- string(S), !, string_list(S, L), word_weight(L, W).
word_weight([], 0).
word_weight([H|T], W) :- W is weight(H) + word_weight(T).
``````

in ECLiPSe-CLP, string_list/2 converts a string into a list of numberic character codes, char_code/2 gets the numeric code of a character.

Edit: Oops, I should have read your question completely:

• Wen using `->/2`, you should use brackets and don't hesitate to use indentation: ```( Condition -> IfBranch ; ElseBranch ), RestProg.``` Your second clause is a bit unreadable. But for this excercise you shouldn't need `->/2` at all.
• Your third clause only works for a single-letter string, because it first unifies W with the value for X and then wants to unify W with the weight of X. This only works if Y and X have the same weight.
-
F-O, but your rule reads A-O, similarly P-Z. –  Cookie Monster Sep 19 '11 at 15:51
right, thanks, changed that –  chs Sep 19 '11 at 17:49
Thx 4 helping!! –  Ferry Sep 20 '11 at 14:58