# 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 totol 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.

I've been stack on this problem for a while. Any help pls, Thx!

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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.
``````
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Thank you so much! –  Ferry Sep 20 '11 at 14:58

``````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.

• 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.
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