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Is there a function in Lisp that works the same way as assoc works with association lists, but for flat, ordered lists and a set of tuples with an implicit ordering? For instance, I have the a flat, unordered list and a lookup function:

(defparameter *data2* '((alf age 55 year 2 course lisp)
                        (sue age 22 year 3 course java)
                        (ralf age 16 year 1 course lisp)
                        (alf age 8 year 2 course lisp)))

(defun lookup (name course data)
  (cdr (assoc name (cdr (assoc course data)))))

such that when called, the lookup function is like:

(lookup 'alf 'course *data*) ==> get lisp

Now, with "tuples with implicit order" (i.e., lists of values where the values are always in the same order):

(defparameter *data3* '((alf 55 lisp 2)
                        (sue 22 java 3)
                        (ralf 16 lisp 1)
                        (alf 8 lisp 2)))

Are there any functions that work the same way as assoc for association lists, but for flat unordered lists and tuples with implicit order?

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Your example function LOOKUP does not work. –  Rainer Joswig Nov 20 '13 at 19:49
I see that you've already accepted an answer, but I would point out that the first question about lists of the form (key1 val1 key2 val2 ...) has an answer in Common Lisp's property lists. The second question, about list-based data structures, has some answers in defstruct, which can create those kind of structures for you and provide convenient accessors. I've written about them in an answer. –  Joshua Taylor Nov 21 '13 at 2:08
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3 Answers 3

up vote 2 down vote accepted

Not sure if I understand you fully; something like this?

(defun lookup (name attr data)
  (mapcar (lambda (x) (cadr (member attr x)))
          (remove-if-not (lambda (x) (eq name (car x))) data)))


? (lookup 'alf 'course *data2*)
? (lookup 'alf 'age *data2*)
(55 8)
?(lookup 'ralf 'year *data2*) 

For your other example:

(defun lookup (name attr data)
  (mapcar (lambda (x) (nth attr x))
          (remove-if-not (lambda (x) (eq name (car x))) data)))


(lookup 'alf 2 *data3*)
(lookup 'alf 1 *data3*)
(lookup 'ralf 3 *data3*)
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Yes that is working pefectly with flat unordered lists, do you know how it can be done with implicit ordered tuples like data3 thanks –  user3005313 Nov 20 '13 at 16:48
I was also wondering how it can be done with tuples –  Kiril Nov 20 '13 at 16:49
thanks very much appreciated –  user3005313 Nov 20 '13 at 16:56
@user3005313 You can access the values in a list (i.e., a tuple) if you do a bit of preparation using defstruct. defstruct can automatically define, e.g., person-name, person-age, person-year, etc., functions for you, and this can make your task much easier. I added an answer that shows how. –  Joshua Taylor Nov 21 '13 at 2:11
@uselpa Also note that you can make that remove-if-not a bit cleaner with (remove name data :key 'car :test-not 'eq) or (remove name data :key 'car :test (complement 'eq)). –  Joshua Taylor Nov 21 '13 at 2:13
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CL-USER 63 > (mapcar (lambda (plist)
                       (getf (rest plist) 'course))
                     (remove 'alf *data2*
                             :test-not #'eql
                             :key #'first))
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There are two parts to this answer. First, if you're trying to access values from a list of the form (key1 value1 key2 value …), then should know that there's a special name for lists like that; they're called property lists, and Common Lisp includes some functions for working with them. Second, if you don't want the lists of have the keys in them, you can get a lot of what you want by using defstruct with :type list. It will define the necessary functions you need in order to work with these implicit structures.

Property Lists

Some of the other answers have described how you can do this, and Rainer Joswig's answer uses the function getf, but none have made explicit that there's a name for this kind of structure, the property list:

property list n. 1. a list containing an even number of elements that are alternating names (sometimes called indicators or keys) and values (sometimes called properties). When there is more than one name and value pair with the identical *name* in a property list, the first such pair determines the property. 2. (of a symbol) the component of the symbol containing a property list.

Your data2 variable is a association list mapping the names alf, sue, etc., to the property lists (age 55 year 2 …), (age 22 year 3 …), etc.:

(defparameter *data2* '((alf age 55 year 2 course lisp)
                        (sue age 22 year 3 course java)
                        (ralf age 16 year 1 course lisp)
                        (alf age 8 year 2 course lisp)

Where you want

(lookup 'alf 'course *data2*)
;=> lisp

you can use assoc to get alf's property list

(cdr (assoc 'alf *data2*))
;=> (age 55 year 2 course lisp)

and then getf to retrieve the course:

(getf (cdr (assoc 'alf *data2*)) 'course)
;=> lisp

getf can also be provided a default value for the case that there's no value in the list:

(getf (cdr (assoc 'alf *data2*)) 'favorite-color 'blue)
;=> blue

You can also use setf with getf:

(setf (getf (cdr (assoc 'alf *data2*)) 'course) 'scheme)
;=> scheme

;=> ((alf age 55 year 2 course scheme)
;    (sue age 22 year 3 course java)
;    (ralf age 16 year 1 course lisp)
;    (alf age 8 year 2 course lisp))

Note: since the value of *data2* was a literal produced by quote, the consequences of modifying it are technically undefined. It will probably work in this case, but in general, don't modify literal data.

Defstruct with :type list

In common Lisp, you can define simple record types using defstruct. By default, these create structures that are probably pretty memory efficient (low storage overhead, and constant time slot access). However, you can specify a :type list option to defstruct that makes the structures be implemented in terms of lists. For instance:

(defstruct (person (:type list))

This defines a number of functions for you automatically. For instance, one is make-person:

(make-person :name 'alf
             :age 55
             :year 2
             :course 'lisp)
;=> (alf 55 lisp 2)

The others are accessors. These are (by default) prefixed with the name of the structure and a hyphen. For instance, person-age and person-year retrieve the values of the age and year slots from a person. These are really just aliases to the corresponding list functions second and third), so they work on lists that have the correct structure, even if they weren't created with make-person:

(person-age (make-person :name 'alf :age 55 :year 2 :course 'lisp))
;=> 55

(person-year '(alf 55 lisp 2))
;=> 2

Now you can use find to retrieve a person by name from your *data3* (note that you changed the order of course and year from *data2* to *data3*):

(defparameter *data3* '((alf 55 lisp 2)
                        (sue 22 java 3)
                        (ralf 16 lisp 1)
                        (alf 8 lisp 2)))

(find 'sue *data3* :key 'person-name)
;=> (sue 22 java 3)

and you can use the person-* functions to get the values:

(person-year (find 'sue *data3* :key 'person-name))
;=> 3

Of course, to do something like

(lookup 'alf 'course *data*)

you'll somehow need to know that the symbol course corresponds to the function person-course. You could create a hash table or another association or property list to keep track of these. Another, somewhat kludgy, way to do this, is to take the symbol name of course which is "COURSE", concatenate "PERSON-" with it, and intern it to get the symbol person-course, which you can then funcall with the person. That is:

(defun lookup (name slot-name data)
  (funcall (intern (concatenate 'string "PERSON-" (symbol-name slot-name)))
           (find name data :key 'person-name)))

(lookup 'alf 'course *data3*)
;=> lisp

Note: to make the symbol interning more robust, we should really be sure to intern the symbol into the package where accessor names are interned, and to account for readable case issues. We might, for instance, do (intern (concatenate 'string (symbol-name '#:person-) (symbol-name slot-name)) (symbol-package 'make-person)). (There are better ways to get the package, of course.)

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