CLCS
Accessor

first, second, third, fourth, fifth, sixth, seventh, eighth, ninth, tenth

first listobject (setf (first list) new-object)

second listobject (setf (second list) new-object)

third listobject (setf (third list) new-object)

fourth listobject (setf (fourth list) new-object)

fifth listobject (setf (fifth list) new-object)

sixth listobject (setf (sixth list) new-object)

seventh listobject (setf (seventh list) new-object)

eighth listobject (setf (eighth list) new-object)

ninth listobject (setf (ninth list) new-object)

tenth listobject (setf (tenth list) new-object)

Arguments and Values

lista list,

which might be a dotted list or a circular list.

object, new-objectan object.

Description

The functions first, second, third, fourth, fifth, sixth, seventh, eighth, ninth, and tenth access the first, second, third, fourth, fifth, sixth, seventh, eighth, ninth, and tenth elements of list, respectively. Specifically,

 (first list)    ≡  (car list)
 (second list)   ≡  (car (cdr list))
 (third list)    ≡  (car (cddr list))
 (fourth list)   ≡  (car (cdddr list))
 (fifth list)    ≡  (car (cddddr list))
 (sixth list)    ≡  (car (cdr (cddddr list)))
 (seventh list)  ≡  (car (cddr (cddddr list)))
 (eighth list)   ≡  (car (cdddr (cddddr list)))
 (ninth list)    ≡  (car (cddddr (cddddr list)))
 (tenth list)    ≡  (car (cdr (cddddr (cddddr list))))

setf can also be used with any of these functions to change an existing component. The same equivalences apply. For example:

 (setf (fifth list) new-object) ≡ (setf (car (cddddr list)) new-object)

Examples

 (setq lst '(1 2 3 (4 5 6) ((V)) vi 7 8 9 10)) 
⇒  (1 2 3 (4 5 6) ((V)) VI 7 8 9 10)
 (first lst) ⇒  1
 (tenth lst) ⇒  10
 (fifth lst) ⇒  ((V))
 (second (fourth lst)) ⇒  5
 (sixth '(1 2 3)) ⇒  NIL
 (setf (fourth lst) "four") ⇒  "four"
 lst ⇒  (1 2 3 "four" ((V)) VI 7 8 9 10)

Notes

first is functionally equivalent to car, second is functionally equivalent to cadr, third is functionally equivalent to caddr, and fourth is functionally equivalent to cadddr.

The ordinal numbering used here is one-origin, as opposed to the zero-origin numbering used by nth:

 (fifth x) ≡ (nth 4 x)