Removing All Repetitive Elements from a Sequence

The Common Lisp sequence function `remove-duplicates` leaves behind one element of each multiplicity. The goal of the following analogous function `remove-equals` is to remove all multiplicities.

However, I want to use the built-in function `remove-if` (not iteration), and the hash table facilities of SBCL for the :test function to keep the time complexity at O(n). The immediate problem is that the SBCL equality test needs to be global, but the test also needs to depend on the `key` argument to `remove-equals`. Can it be written to satisfy both requirements?

``````(defun remove-equals (sequence &key (test #'eql) (start 0) end (key #'identity))
"Removes all repetitive sequence elements based on equality test."
#.(defun equality-test (x y)
(funcall test (funcall key x) (funcall key y)))
#.(sb-ext:define-hash-table-test equality-test sxhash)
(let ((ht (make-hash-table :test #'equality-test)))
(iterate (for elt in-sequence (subseq sequence start end))
(incf (gethash (funcall key elt) ht 0)))
(remove-if (lambda (elt)
(/= 1 (gethash elt ht)))
sequence :start start :end end :key key)))
``````
• So you want to define sth from inside a function which should be available globally. - Is there a reason, why you don't want to make a macro out of it? – Gwang-Jin Kim Jun 10 at 5:35
• doing stuff with #. at read time? Why? It doesn't do what you think it does. – Rainer Joswig Jun 10 at 8:15

The third argument to `define-hash-table-test` associates a test with a hash function. Using `sxhash` defeats the purpose since it should be tailored to the `test` function. `(equal x y)` implies `(= (sxhash x) (sxhash))`. Thus the second parameter should be a function `test-hash` such that `(funcall test x y)` implies `(= (test-hash x) (test-hash y))`. It's impossible to do this from just having the test function. It would perhaps be better just to circumvent the whole thing by documenting that it needs to have hash support:

``````(defun remove-duplicated (sequence &key (test #'eql) (start 0) end (key #'identity))
"Removes all repetitive sequence elements based on equality test.
equalily tests other than eq, eql, equal and equalp requires you
add it to be allowed in a hash table eg. sb-ext:define-hash-table-test in SBCL"

(let ((ht (make-hash-table :test test)))
(iterate (for elt in-sequence (subseq sequence start end))
(incf (gethash (funcall key elt) ht 0)))
(remove-if (lambda (elt)
(/= 1 (gethash elt ht)))
sequence :start start :end end :key key)))
``````

Now if a user should want a custom test they need to to it themselves:

``````(defun car-equals (a b)
(equal (car a) (car b)))

(defun car-equals-hash (p)
(sxhash (car p)))

(sb-ext:define-hash-table-test car-equals car-equals-hash)

(car-equals '(1 2 3 4) '(1 3 5 7)) ; ==> t
(defparameter *ht* (make-hash-table :test 'car-equals))
(setf (gethash '(1 2 3 4) *ht*) 'found)
(gethash '(1 3 5 7) *ht*) ; ==> found

(remove-duplicated '((5 0 1 2) (5 1 2 3) (5 1 3 2) (5 2 3 4))
:test #'car-equals
:key #'cdr)
; ==> ((5 0 1 2) (5 2 3 4))
``````
• True, that is the good way! Because silent re-definition from inside a macro like in my answer - is a bad practice. Thanks! – Gwang-Jin Kim Jun 10 at 12:41

Something like this with read-time computed functions will not do what you think. Simplified from your code:

``````(defun foo (a b test)
#.(defun equality-test (x y)
(funcall test x y))
(funcall #'equality-test a b))
``````

There is no way this can work.

Reason 1: a read time created function does not have access to lexical variables from the surrounding code (here there is no way to reference `test`, since an environment with a function `foo` does not exist during reading)

The `test` variable inside `equality-test` is not referring to a lexical variable. It's undefined/undeclared.

Reason 2: the DEFUN evaluates to a symbol

The code looks like this after reading and evaluating the read-time code:

``````(defun foo (a b test)
equality-test
(funcall #'equality-test a b))
``````

Well, `equality-test` is an unbound variable. Which is an error at runtime.

Reason 3: the function `equality-test` might not exist

If we compile the code with the file compiler, the function `equality-test` is created inside the compile-time environment during reading the form, but it will not be a part of the compiled code.

• Could any of this be fixed by using `eval-when`? – davypough Jun 10 at 15:55
• @davypough: how? – Rainer Joswig Jun 10 at 18:42
• No real experience here, but seems like specifying what/when to compile and what/when to load might allow more control over properly separating the two function definitions (perhaps with a dummy definition that is subsequently redefined). Is this a blind alley? – davypough Jun 10 at 21:55

Disclaimer: I find @Sylwester's answer clearer and cleaner - just better (without macro).

However, this is just hypothetical (but not a good practice):

``````(ql:quickload :iterate)    ;; you forgot these - but they are necessary
(use-package :iterate)     ;; for your code to run - at least my definition
(ql:quickload :alexandria) ;; of 'minimal working example' is to include imports.

(defmacro remove-equals (sequence &key (test #'eql) (start 0) end (key #'identity))
"Remove all repetitive sequence alements based on equality test."
(alexandria:once-only (sequence test start end key) ; as hygyenic macro
`(progn
(defun equality-test (x y)
(funcall ,test (funcall ,key x) (funcall ,key y)))
(sb-ext:define-hash-table-test equality-test sxhash)
(let ((ht (make-hash-table :test #'equality-test)))
(iterate (for elt in-sequence (subseq ,sequence ,start ,end))
(incf (gethash (funcall ,key elt) ht 0)))
(remove-if (lambda (elt)
(/= 1 (gethash (funcall ,key elt) ht)))
,sequence :start ,start :end ,end :key ,key)))))

(remove-equals '(1 2 3 1 4 5 3) :test #'= :end 6)
;; WARNING: redefining COMMON-LISP-USER::EQUALITY-TEST in DEFUN
;;
;; (2 3 4 5 3)

(describe 'equality-test) ;; shows new definition
;; COMMON-LISP-USER::EQUALITY-TEST
;;   [symbol]
;;
;; EQUALITY-TEST names a compiled function:
;;   Lambda-list: (X Y)
;;   Derived type: (FUNCTION (T T) (VALUES BOOLEAN &OPTIONAL))
;;   Source form:
;;     (SB-INT:NAMED-LAMBDA EQUALITY-TEST
;;         (X Y)
;;       (BLOCK EQUALITY-TEST
;;         (FUNCALL #'= (FUNCALL #1=#<FUNCTION IDENTITY> X)
;;                  (FUNCALL #1# Y))))
``````

The warning will always occur - and if you use more than just one hash tables, this will definitely interfere and cause errors. So I don't recommend that!