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I fully understand the use of list in lisp but I 've got problem using string. I try to write my own code of functions like string> or string< from common lisp to understand how lisp deals with string. For example, abcde is bigger than abbb and returns 1.

I think that I will use the char function or do you think that I must use subseq ? or function that deals with ASCII code ?

Here are cases that I found : -character 0 of each string are equal, we continue, with the next character. -charactere 0 are different, one is smaller that other, we stop.

I need help about "go to the next character".

Thanks a lot !!

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4 Answers 4

up vote 1 down vote accepted

This is an implementation of a function that given two strings will return either -1, 0 or +1 depending on if the first is less than, equal or greater than the second. In case one string is the initial part of the other then shorter string is considered to be "less than" the longer.

The algorithm is very simple... loops for every char until either the index gets past one of the strings or if a character is found to be different.

(defun strcmp (a b)
  (do ((i 0 (1+ i))
       (na (length a))
       (nb (length b)))
      ((or (= i na) (= i nb) (char/= (elt a i) (elt b i)))
         (cond
           ((= i na nb) 0)                  ;; Strings are identical
           ((= i na) -1)                    ;; a finished first
           ((= i nb) 1)                     ;; b finished first
           ((char< (elt a i) (elt b i)) -1) ;; Different char a < b
           (t 1)))))                        ;; Only remaining case

(defun test (a b)
  (format t "(strcmp ~s ~s) -> ~s~%"
          a b (strcmp a b)))

(test "abc" "abc")
(test "ab"  "abc")
(test "abc" "ab")
(test "abd" "abc")
(test "abc" "abd")

The output is

(strcmp "abc" "abc") -> 0
(strcmp "ab" "abc") -> -1
(strcmp "abc" "ab") -> 1
(strcmp "abd" "abc") -> 1
(strcmp "abc" "abd") -> -1
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Thanks ! I understand how it works. Last question : what is "na" and "nb" (lines 3/4), they contains the value of (length a) and (length b) if I'm right ? –  lilawood Jun 16 '11 at 12:16
    
Yes. It's just to avoid writing (length ...) many times. –  6502 Jun 16 '11 at 13:40

This is the Common Lisp version. You can just use ELT because

(type-of "a") => (SIMPLE-ARRAY CHARACTER (1))

(defun my-string< (a b &key (start 0))
  (cond
    ((= start (length a) (length b))
     nil)
    ((>= start (min (length a) (length b)))
     (error "Undefined"))
    ((char= (elt a start) (elt b start))
     (my-string< a b :start (1+ start)))
    ((char< (elt a start) (elt b start))
     t)))
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thanks ! I start to understand how it works. But I've got problem understanding ":start" and min and I don't find that in the lisp documentation. –  lilawood Jun 11 '11 at 14:45
    
min is simply a numeric minimum, i.e. it returns the smallest of its arguments. :start is a keyword argument to my-string<. –  smackcrane Jun 11 '11 at 22:50
    
Why does this code consider an error to compare say "ab" with "abc" ? –  6502 Jun 12 '11 at 20:15
1  
START is a keyword parameter. gigamonkeys.com/book/functions.html Its purpose was to allow one to start the predicate at any position in the string. I am not sure on the usefulness of the argument to callers of MY-STRING<. However, it is convenient for the implementation MY-STRING<. If you feel that START doesn't offer any value to MY-STRING<, then you can always hide the recursive function call in a LABELS block. –  Mark Cox Jun 13 '11 at 21:21
    
The function MIN is defined in the Common Lisp Hyperspec. This can be found here: lispworks.com/documentation/HyperSpec/Front/Contents.htm The definition of MIN is here lispworks.com/documentation/HyperSpec/Body/f_max_m.htm –  Mark Cox Jun 13 '11 at 21:27

Your problem has been solved already but in case you run into others, the following method might be useful:

I installed SBCL from source and keep the source around. That allows me to run M-. on a function name like string< and it will jump to the definition in your lisp implementation.

In my case I ended up at this macro:

;;; LESSP is true if the desired expansion is for STRING<* or STRING<=*.
;;; EQUALP is true if the desired expansion is for STRING<=* or STRING>=*.
(sb!xc:defmacro string<>=*-body (lessp equalp)
  (let ((offset1 (gensym)))
    `(with-two-strings string1 string2 start1 end1 ,offset1 start2 end2
       (let ((index (%sp-string-compare string1 start1 end1
                                        string2 start2 end2)))
         (if index
             (cond ((= (the fixnum index) (the fixnum end1))
                    ,(if lessp
                         `(- (the fixnum index) ,offset1)
                       `nil))
                   ((= (+ (the fixnum index) (- start2 start1))
                       (the fixnum end2))
                    ,(if lessp
                         `nil
                       `(- (the fixnum index) ,offset1)))
                   ((,(if lessp 'char< 'char>)
                     (schar string1 index)
                     (schar string2 (+ (the fixnum index) (- start2 start1))))
                    (- (the fixnum index) ,offset1))
                   (t nil))
             ,(if equalp `(- (the fixnum end1) ,offset1) nil))))))
) ; EVAL-WHEN
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There is no direct concept of iteration ("next") with strings, in Scheme. That only applies to lists. So instead you have to iterate with indices:

(define (string<? lhs rhs)
  (let* ((lhslen (string-length lhs))
         (rhslen (string-length rhs))
         (minlen (min lhslen rhslen)))
    (let loop ((i 0))
      (if (= i minlen) (< lhslen rhslen)
          (let ((lhschar (string-ref lhs i))
                (rhschar (string-ref rhs i)))
            (cond ((char<? lhschar rhschar) #t)
                  ((char<? rhschar lhschar) #f)
                  (else (loop (+ i 1)))))))))
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1  
Oh wow, fail. I didn't realise that this question is a [common-lisp] question, not a [scheme] one. I'll keep it up to illustrate the principle, anyway. –  Chris Jester-Young Jun 10 '11 at 2:32

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