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PSL Manual                    7 February 1983                List Structure
section 7.0                                                        page 7.1

                                 CHAPTER 7
                                 CHAPTER 7
                                 CHAPTER 7
                              LIST STRUCTURE
                              LIST STRUCTURE
                              LIST STRUCTURE




     7.1. Introduction to Lists and Pairs .  .  .  .  .  .  .  .  .     7.1
     7.2. Basic Functions on Pairs  .  .  .  .  .  .  .  .  .  .  .     7.2
     7.3. Functions for Manipulating Lists.  .  .  .  .  .  .  .  .     7.4
          7.3.1. Selecting List Elements  .  .  .  .  .  .  .  .  .     7.4
          7.3.2. Membership and Length of Lists .  .  .  .  .  .  .     7.6
          7.3.3. Constructing, Appending, and Concatenating Lists .     7.6
          7.3.4. Lists as Sets.  .  .  .  .  .  .  .  .  .  .  .  .     7.7
          7.3.5. Deleting Elements of Lists  .  .  .  .  .  .  .  .     7.8
          7.3.6. List Reversal.  .  .  .  .  .  .  .  .  .  .  .  .     7.9
     7.4. Functions for Building and Searching A-Lists.  .  .  .  .    7.10
     7.5. Substitutions .  .  .  .  .  .  .  .  .  .  .  .  .  .  .    7.11




7.1. Introduction to Lists and Pairs
7.1. Introduction to Lists and Pairs
7.1. Introduction to Lists and Pairs

       ____
  The  pair  is  a  fundamental  PSL  data  type,  and  is one of the major
                                    ____                   ____
attractions of LISP programming.  A pair consists of a two-item  structure.
                                       Car                    Cdr
                                       Car                    Cdr
In PSL the first element is called the Car and the second the Cdr; in other
LISPs,  the  physical  relationship  of  the  parts  may  be different.  An
                                                                        Car
                                                                        Car
illustration of the tree structure is given below as a box diagram; the Car
        Cdr
        Cdr
and the Cdr are each represented as a portion of the box.


                             -----------------
                             || Car  | Cdr  ||
                             -----------------


  As an example, a tree written as ((A . B) . (C . D)) in  dot-notation  is
drawn below as a box diagram.


                             -----------------
                             ||   /  |  \   ||
                             ----/-------\----
                                /         \
                  -----------------       -----------------
                  ||  A   |   B  ||       ||  C    |   D ||
                  -----------------       -----------------


  The  box  diagrams are tedious to draw, so dot-notation is normally used.
                                                                 ____
Note that a space is left on each side of the . to ensure  that  pairs  are
                  _____
not confused with floats.  Note also that in RLISP a dot may be used as the
List Structure                7 February 1983                    PSL Manual
page 7.2                                                        section 7.1

                                  Cons
                                  Cons
infix  operator  for the function Cons, as in the expression x := 'y . 'z;,
                               ____
or as part of the notation for pairs, as in the  expression  x := '(y . z);
(see Section 3.3.3).

  An  important special case occurs frequently enough that it has a special
                     ____
notation.  This is a list of items, terminated by convention  with  the  id
NIL.    The  dot  and  surrounding  parentheses are omitted, as well as the
trailing NIL.  Thus 


    (A . (B . (C . NIL)))


can be represented in list-notation as 


    (A B C)



7.2. Basic Functions on Pairs
7.2. Basic Functions on Pairs
7.2. Basic Functions on Pairs

                                            ____
  The following are elementary functions on pairs.  All functions  in  this
Chapter  which  require pairs as parameters signal a type mismatch error if
the parameter given is not a pair.


 Cons
 Cons _ ___ _ ___   ____                                               ____
(Cons U:any V:any): pair                                               expr

                                 Eq
               ____              Eq                          _
     Returns a pair which is not Eq to anything else and has U as  its
     Car                   Cdr
     Car          _        Cdr
     Car part and V as its Cdr part.  In RLISP syntax the dot, ".", is
                                   Cons
                                   Cons
     an  infix  operator  meaning  Cons.  Thus (A . (B . fn C) . D) is
                   Cons     Cons  Cons
                   Cons     Cons  Cons
     equivalent to Cons (A, Cons (Cons (B, fn C), D)).    See  Section
     3.3.3 for more discussion of how dot is read.


 Car
 Car _ ____   ___                                       ____ ________  ____
(Car U:pair): any                                       open-compiled, expr

                       _
     The  left part of U is returned.  A type mismatch error occurs if
     _          ____              _
     U is not a pair, except when U is NIL.   Then  NIL  is  returned.
      Car  Cons
      Car  Cons
     (Car (Cons a  b)) ==> a.


 Cdr
 Cdr _ ____   ___                                       ____ ________  ____
(Cdr U:pair): any                                       open-compiled, expr

                       _
     The right part of U is returned.  A type mismatch error occurs if
     _              ____              _
     U  is  not  a  pair, except when U is NIL.  Then NIL is returned.
      Cdr  Cons
      Cdr  Cons
     (Cdr (Cons a  b)) ==> b.

                    Car     Cdr
                    Car     Cdr
  The composites of Car and Cdr are supported up to four levels.
PSL Manual                    7 February 1983                List Structure
section 7.2                                                        page 7.3

                 Car                                   Cdr
                 Car                                   Cdr
                 Car                                   Cdr
       Caar               Cdar               Cadr               Cddr
       Caar               Cdar               Cadr               Cddr
       Caar               Cdar               Cadr               Cddr
   Caaar  Cdaar       Cadar  Cddar       Caadr  Cdadr       Caddr  Cdddr
   Caaar  Cdaar       Cadar  Cddar       Caadr  Cdadr       Caddr  Cdddr
   Caaar  Cdaar       Cadar  Cddar       Caadr  Cdadr       Caddr  Cdddr
  Caaaar  Cadaar     Caadar  Caddar     Caaadr  Cadadr     Caaddr  Cadddr
  Caaaar  Cadaar     Caadar  Caddar     Caaadr  Cadadr     Caaddr  Cadddr
  Caaaar  Cadaar     Caadar  Caddar     Caaadr  Cadadr     Caaddr  Cadddr
  Cdaaar  Cddaar     Cdadar  Cdddar     Cdaadr  Cddadr     Cdaddr  Cddddr
  Cdaaar  Cddaar     Cdadar  Cdddar     Cdaadr  Cddadr     Cdaddr  Cddddr
  Cdaaar  Cddaar     Cdadar  Cdddar     Cdaadr  Cddadr     Cdaddr  Cddddr

                      ____
                      ____
                      ____
                      expr
                      expr
     These  are  all  exprs of one argument.  They may return any type
     and are generally open-compiled.  An example of their use is that
     Cddar                    Cdr Cdr Car             Car      Cdr
     Cddar                    Cdr Cdr Car             Car      Cdr
     Cddar p is equivalent to Cdr Cdr Car p.  As with Car and  Cdr,  a
     type  mismatch  error occurs if the argument does not possess the
     specified component.

  As an alternative to  employing  chains  of  CxxxxR  to  obscure  depths,
                                              ____
particularly  in  extracting  elements  of  a list, consider the use of the
          First  Second  Third  Fourth     Nth
          First  Second  Third  Fourth     Nth
functions First, Second, Third, Fourth, or Nth (Section 7.3.1), or possibly
even the Defstruct package (Section 17.6).


 NCons
 NCons _ ___   ____                                     ____ ________  ____
(NCons U:any): pair                                     open-compiled, expr

                   Cons
                   Cons  _
     Equivalent to Cons (U, NIL).


 XCons
 XCons _ ___ _ ___   ____                               ____ ________  ____
(XCons U:any V:any): pair                               open-compiled, expr

                   Cons
                   Cons  _  _
     Equivalent to Cons (V, U).


 Copy
 Copy _ ___   ___                                                      ____
(Copy X:any): any                                                      expr

                ____       _
     Copies all pairs  in  X,  but  does  not  make  copies  of  atoms
     (including vectors and strings).  For example, if A is 

        ([2 5] "ATOM")

     and B is the result of (Copy A), then


                (Eq A B) is NIL
           but  (Eq (Car A) (Car B)) is T
           and  (Eq (Cadr A) (Cadr B)) is T


          TotalCopy                              Copy
          TotalCopy                              Copy
     See  TotalCopy  in  Section 8.5.  Note that Copy is recursive and
     will not terminate if its argument is a circular list.

  See Chapter 8 for other relevant functions.

  The following functions are known  as  "destructive"  functions,  because
they  change  the  structure  of  the  pair  given  as  their argument, and
consequently change the structure of the object containing the pair.   They
are  most  frequently  used  for  various  "efficient"  functions (e.g. the
List Structure                7 February 1983                    PSL Manual
page 7.4                                                        section 7.2

            ReverseIP     NConc                            DeleteIP
            ReverseIP     NConc                            DeleteIP
non-copying ReverseIP and NConc functions, and destructive DeleteIP) and to
build  structures  that  have  deliberately shared sub-structure.  They are
also capable of creating  circular  structures,  which  create  havoc  with
                                                  careful
                                                  careful
normal printing and list traversal functions.  Be careful using them.


 RplacA
 RplacA _ ____ _ ___   ____                             ____ ________  ____
(RplacA U:pair V:any): pair                             open-compiled, expr

          Car
          Car                _                _                   _
     The  Car  of  the  pair U is replaced by V, and the modified U is
                    _                  _
     returned.  (If U is (a . b) then (V .b) is  returned).    A  type
                              _
     mismatch error occurs if U is not a pair.


 RplacD
 RplacD _ ____ _ ___   ____                             ____ ________  ____
(RplacD U:pair V:any): pair                             open-compiled, expr

          Cdr
          Cdr                _                _                   _
     The  Cdr  of  the  pair U is replaced by V, and the modified U is
                    _                      _
     returned.  (If U is (a . b) then (a . V) is returned).    A  type
                              _
     mismatch error occurs if U is not a pair.


 RplacW
 RplacW _ ____ _ ____   ____                                           ____
(RplacW A:pair B:pair): pair                                           expr

                                     Car                           Car
                                     Car    _                      Car
     Replaces  the  whole pair:  the Car of A is replaced with the Car
                   Cdr               Cdr
        _          Cdr    _          Cdr    _                    _
     of B, and the Cdr of A with the Cdr of B.    The  modified  A  is
     returned.

  [???  Should  we  add  some  more functions here someday?  Probably the
  [???  Should  we  add  some  more functions here someday?  Probably the
  [???  Should  we  add  some  more functions here someday?  Probably the
  RLISP guys that do arbitrary depth member type stuff. ???]
  RLISP guys that do arbitrary depth member type stuff. ???]
  RLISP guys that do arbitrary depth member type stuff. ???]



7.3. Functions for Manipulating Lists
7.3. Functions for Manipulating Lists
7.3. Functions for Manipulating Lists

                                                    ____             ____
  The following functions are meant for the special pairs which are  lists,
as  described in Section 7.1.  Note that the functions described in Chapter
8 can also be used on lists.

  [??? Make some mention of mapping with  FOR...COLLECT  and  such  like.
  [??? Make some mention of mapping with  FOR...COLLECT  and  such  like.
  [??? Make some mention of mapping with  FOR...COLLECT  and  such  like.
  ???]
  ???]
  ???]


7.3.1. Selecting List Elements
7.3.1. Selecting List Elements
7.3.1. Selecting List Elements


 First
 First _ ____   ___                                                   _____
(First L:pair): any                                                   macro

                   Car
                   Car _
     A synonym for Car L.
PSL Manual                    7 February 1983                List Structure
section 7.3                                                        page 7.5

 Second
 Second _ ____   ___                                                  _____
(Second L:pair): any                                                  macro

                   Cadr
                   Cadr _
     A synonym for Cadr L.


 Third
 Third _ ____   ___                                                   _____
(Third L:pair): any                                                   macro

                   Caddr
                   Caddr _
     A synonym for Caddr L.


 Fourth
 Fourth _ ____   ___                                                  _____
(Fourth L:pair): any                                                  macro

                   Cadddr
                   Cadddr _
     A synonym for Cadddr L.


 Rest
 Rest _ ____   ___                                                    _____
(Rest L:pair): any                                                    macro

                   Cdr
                   Cdr _
     A synonym for Cdr L.


 LastPair
 LastPair _ ____   ___                                                 ____
(LastPair L:pair): any                                                 expr

           ____        ____
     Last  pair  of  a list.  It is often useful to think of this as a
     pointer to the last element for use  with  destructive  functions
               RplacA
               RplacA                _
     such  as  RplacA.  Note that if L is atomic a type mismatch error
     occurs.  

        (De LastPair (L)
              (Cond ((Null (Rest L)) L)
                    (T (LastPair (Rest L)))))


 LastCar
 LastCar _ ___   ___                                                   ____
(LastCar L:any): any                                                   expr

                                     ____ _
     Returns the last element of the list L.  A  type  mismatch  error
                                                First LastPair
                _                               First LastPair _
     results if L is not a list.  Equivalent to First LastPair L.


 Nth
 Nth _ ____ _ _______   ___                                            ____
(Nth L:pair N:integer): any                                            expr

                                          ____  _       _
     Returns  the  Nth  element  of  the  list  L.   If L is atomic or
                         _
     contains fewer than N elements, an out  of  range  error  occurs.
                    First  PNth
                    First  PNth
     Equivalent to (First (PNth L N)).


 PNth
 PNth _ ____ _ _______   ___                                           ____
(PNth L:list N:integer): any                                           expr

              ____                                       ____ _
     Returns  list  starting  with  the Nth element of a list L.  Note
     that it is often useful to view this as  a  pointer  to  the  Nth
                                                               RplacA
                  _                                            RplacA
     element  of  L for use with destructive functions such as RplacA.
        _                                  _
     If L is atomic or contains fewer than N elements, an out of range
     error occurs.      
List Structure                7 February 1983                    PSL Manual
page 7.6                                                        section 7.3

        (De PNth (L N)
                (Cond ((Leq N 1) L)
                      (T (PNth (Cdr L) (Sub1 N)))))


7.3.2. Membership and Length of Lists
7.3.2. Membership and Length of Lists
7.3.2. Membership and Length of Lists


 Member
 Member _ ___ _ ____   _____ _______                                   ____
(Member A:any L:list): extra-boolean                                   expr

                               Equal
                      _        Equal                              ____
     Returns  NIL  if A is not Equal to some top level element of list
     _                                        _
     L; otherwise it returns the remainder of L whose first element is
     _
     A.

        (De Member (A L)
                (Cond((Null L) Nil)
                     ((Equal A (First L)) L)
                     (T (Member A (Rest L)))))


 MemQ
 MemQ _ ___ _ ____   _____ _______                                     ____
(MemQ A:any B:list): extra-boolean                                     expr

             Member         Eq
             Member         Eq
     Same as Member, but an Eq check is used for comparison.

        (De Memq (A L)
                (Cond((Null L) Nil)
                     ((Eq A (First L)) L)
                     (T (Memq A (Rest L)))))


 Length
 Length _ ___   _______                                                ____
(Length X:any): integer                                                expr

                                 ____ _
     The top level length of the list X is returned.

        (De Length (X)
                (Cond((Atom X) 0)
                     (T (Plus (Length X) 1))))


7.3.3. Constructing, Appending, and Concatenating Lists
7.3.3. Constructing, Appending, and Concatenating Lists
7.3.3. Constructing, Appending, and Concatenating Lists


 List
 List  _ ___    ____                                                  _____
(List [U:any]): list                                                  fexpr

                 ____                                    ____
     Construct a list of the evaluated  arguments.    A  list  of  the
                                   _
     evaluation of each element of U is returned.


 Append
 Append _ ____ _ ____   ____                                           ____
(Append U:list V:list): list                                           expr

                              ____                                _
     Returns  a  constructed  list  in  which the last element of U is
                                      _       ____ _                 _
     followed by the first element of V.  The list U is copied, but  V
PSL Manual                    7 February 1983                List Structure
section 7.3                                                        page 7.7

     is not.    

        (De Append (U V)
                (Cond ((Null U) V)
                      (T (Cons (Car U) (Append (Cdr U) V)))))


 NConc
 NConc _ ____ _ ____   ____                                            ____
(NConc U:list V:list): list                                            expr

                               Append
                               Append                   _    _
     Destructive  version  of  Append.    Concatenates  V to U without
                          Cdr
             _            Cdr    _                         _
     copying U.  The last Cdr of U is modified to point to V.  See the
     warning on page 7.3 about the use of destructive functions.     

        (De Nconc (U V)
                 (Cond ((Null U) V)
                       (T (Rplacd (Lastcdr U V)))))


 AConc
 AConc _ ____ _ ___   ____                                             ____
(AConc U:list V:any): list                                             expr

                                _                ____ _
     Destructively adds element V to the tail of list U.


 LConc
 LConc ___ ____ ____ ____   ____                                       ____
(LConc PTR:list ELEM:list): list                                       expr

                 NConc
                 NConc
     Effectively NConc, but avoids scanning from the front to the  end
                     RPLACD
         ___         RPLACD ___  ____
     of  PTR for the RPLACD(PTR, ELEM) by maintaining a pointer to end
                                      LastPair
            ____ ___   ___     ____   LastPair ____
     of the list PTR.  PTR is (list . LastPair list).  Returns updated
     ___   ___
     PTR.  PTR should be initialized to NIL . NIL before  calling  the
                                ____
     first time.  Used to build lists from left to right.


 TConc
 TConc ___ ____ ____ ___   ____                                        ____
(TConc PTR:list ELEM:any): list                                        expr

                  AConc
                  AConc
     Effectively  AConc, but avoids scanning from the front to the end
                    RPLACD      List
        ___         RPLACD ___  List ____
     of PTR for the RPLACD(PTR, List(ELEM)) by maintaining  a  pointer
                                              LastPair
                    ____ ___   ___     ____   LastPair ____
     to  end of the list PTR.  PTR is (list . LastPair list).  Returns
             ___   ___
     updated PTR.  PTR  should  be  initialized  to  NIL . NIL  before
                                            ____
     calling the first time.  Used to build lists from left to right.


7.3.4. Lists as Sets
7.3.4. Lists as Sets
7.3.4. Lists as Sets

                 ____
  A  set  is  a  list  in  which  each  element occurs only once.  Order of
elements does not matter, so these functions may not preserve order.


 Adjoin
 Adjoin _______ ___ ___ ____   ____                                    ____
(Adjoin ELEMENT:any SET:list): list                                    expr

                                                                 Equal
         _______    ___                                          Equal
     Add ELEMENT to SET if it is not already on the top level.   Equal
     is used to test for equality.
List Structure                7 February 1983                    PSL Manual
page 7.8                                                        section 7.3

 AdjoinQ
 AdjoinQ _______ ___ ___ ____   ____                                   ____
(AdjoinQ ELEMENT:any SET:list): list                                   expr

     Adjoin       Eq
     Adjoin       Eq                      _______               ___
     Adjoin using Eq for the test whether ELEMENT is already in SET.


 Union
 Union _ ____ _ ____   ____                                            ____
(Union X:list Y:list): list                                            expr

     Set union.


 UnionQ
 UnionQ _ ____ _ ____   ____                                           ____
(UnionQ X:list Y:list): list                                           expr

     Eq            Union
     Eq            Union
     Eq version of Union.


 InterSection
 InterSection _ ____ _ ____   ____                                     ____
(InterSection U:list V:list): list                                     expr

     Set intersection.


 InterSectionQ
 InterSectionQ _ ____ _ ____   ____                                    ____
(InterSectionQ U:list V:list): list                                    expr

     Eq            InterSection
     Eq            InterSection
     Eq version of InterSection.


 List2Set
 List2Set ___ ____   ____                                              ____
(List2Set SET:list): list                                              expr

                                                               Equal
                                                     ___       Equal
     Remove redundant elements from the top level of SET using Equal.


 List2SetQ
 List2SetQ ___ ____   ____                                             ____
(List2SetQ SET:list): list                                             expr

                                                               Eq
                                                     ___       Eq
     Remove redundant elements from the top level of SET using Eq.


7.3.5. Deleting Elements of Lists
7.3.5. Deleting Elements of Lists
7.3.5. Deleting Elements of Lists

                                                 xxxIP               xxx
                                                 xxxIP               xxx
  Note  that  functions  with  names of the form xxxIP indicate that xxx is
done InPlace.


 Delete
 Delete _ ___ _ ____   ____                                            ____
(Delete U:any V:list): list                                            expr

             _                                        _
     Returns V with the first top level occurrence of U  removed  from
                               _                                  _
     it.    That  portion  of  V  before  the first occurrence of U is
     copied.    

        (De Delete (U V)
                (Cond((Null V) Nil)
                     ((Equal (First V) U) (Rest V))
                     (T (Cons (First V) (Delete U (Rest V))))))
PSL Manual                    7 February 1983                List Structure
section 7.3                                                        page 7.9

 Del
 Del _ ________ _ ___ _ ____   ____                                    ____
(Del F:function U:any V:list): list                                    expr

                 Delete
                 Delete               _
     Generalized Delete function with F as the comparison function.


 DeletIP
 DeletIP _ ___ _ ____   ____                                           ____
(DeletIP U:any V:list): list                                           expr

                  Delete                   RplacD
                  Delete           _       RplacD                    _
     Destructive  Delete; modifies V using RplacD.  Do not depend on V
                                   ____
     itself correctly referring to list.


 DelQ
 DelQ _ ___ _ ____   ____                                              ____
(DelQ U:any V:list): list                                              expr

                            Eq
            _      _        Eq
     Delete U from V, using Eq for comparison.


 DelQIP
 DelQIP _ ___ _ ____   ____                                            ____
(DelQIP U:any V:list): list                                            expr

                            DelQ      DeletIP
                            DelQ      DeletIP
     Destructive version of DelQ; see DeletIP.


 DelAsc
 DelAsc _ ___ _ _ ____   _ ____                                        ____
(DelAsc U:any V:a-list): a-list                                        expr

                   _             _
     Remove first (U . xxx) from V.


 DelAscIP
 DelAscIP _ ___ _ _ ____   _ ____                                      ____
(DelAscIP U:any V:a-list): a-list                                      expr

                 DelAsc
                 DelAsc
     Destructive DelAsc.


 DelatQ
 DelatQ _ ___ _ _ ____   _ ____                                        ____
(DelatQ U:any V:a-list): a-list                                        expr

                                          Eq
                   _             _        Eq                        _
     Delete first (U . xxx) from V, using Eq to check equality with U.


 DelatQIP
 DelatQIP _ ___ _ _ ____   _ ____                                      ____
(DelatQIP U:any V:a-list): a-list                                      expr

                 DelatQ
                 DelatQ
     Destructive DelatQ.


7.3.6. List Reversal
7.3.6. List Reversal
7.3.6. List Reversal


 Reverse
 Reverse _ ____   ____                                                 ____
(Reverse U:list): list                                                 expr

                                        _
     Returns a copy of the top level of U in reverse order.
List Structure                7 February 1983                    PSL Manual
page 7.10                                                       section 7.3

        (De Reverse (U)
                 (Prog (W)
                   (While U
                     (ProgN
                       (Setq W (Cons (Car U) W))
                       (Setq U (Cdr U))))
                   (Return W)))


 ReversIP
 ReversIP _ ____   ____                                                ____
(ReversIP U:list): list                                                expr

                 Reverse
                 Reverse
     Destructive Reverse.



7.4. Functions for Building and Searching A-Lists
7.4. Functions for Building and Searching A-Lists
7.4. Functions for Building and Searching A-Lists


 Assoc
 Assoc _ ___ _ _ ____    ____  ___                                     ____
(Assoc U:any V:a-list): {pair, NIL}                                    expr

                        Car
        _               Car                              _ ____ _
     If U occurs as the Car portion of an element of the a-list V, the
     ____             _
     pair  in  which  U  occurred  is  returned, else NIL is returned.
     Assoc
     Assoc                                     _ ____
     Assoc might not detect a  poorly  formed  a-list  so  an  invalid
                                     Car    Cdr
                                     Car    Cdr
     construction may be detected by Car or Cdr.

        (De Assoc (U V)
                (Cond ((Null V) Nil)
                      ((Atom (Car V))
                       (Error 000 (List V "is a poorly formed alis
                      ((Equal U (Caar V)) (Car V))
                      (T (Assoc U (Cdr V)))))


 Atsoc
 Atsoc __ ___ __ ___   ___                                             ____
(Atsoc R1:any R2:any): any                                             expr

                           Car Eq      Eq            Assoc
          __     ____      Car Eq __   Eq            Assoc
     Scan R2 for pair with Car Eq R1.  Eq version of Assoc.


 Ass
 Ass _ ________ _ ___ _ _ ____    ____  ___                            ____
(Ass F:function U:any V:a-list): {pair, NIL}                           expr

     Ass                      Assoc
     Ass                      Assoc               _
     Ass  is  a  generalized  Assoc  function.    F  is the comparison
     function.


 SAssoc
 SAssoc _ ___ _ _ ____ __ ________   ___                               ____
(SAssoc U:any V:a-list FN:function): any                               expr

                  _ ____ _                      _      _
     Searches the a-list V for an occurrence of U.  If U is not in the
     _ ____                             __
     a-list, the evaluation of function FN is returned.
PSL Manual                    7 February 1983                List Structure
section 7.4                                                       page 7.11

        (De SAssoc (U V FN)
                (Cond ((Null V) (FN))
                      ((Equal U (Caar V)) (Car V))
                      (T (SAssoc U (Cdr V) FN))))


 Pair
 Pair _ ____ _ ____   _ ____                                           ____
(Pair U:list V:list): a-list                                           expr

     _       _       ____
     U  and  V  are  lists  which  must  have  an  identical number of
                                                        ____
     elements.  If not, an error occurs.  Returned is a list in  which
                                  Car
                        ____      Car        ____            _
     each  element is a pair, the Car of the pair being from U and the
     Cdr
     Cdr                                      _
     Cdr being the corresponding element from V.

        (De Pair (U V)
               (Cond ((And U V)(Cons (Cons (Car U)(Car V))
                                     (Pair (Cdr U)(Cdr V))))
                     ((Or U V)(Error 000 "Different length lists i
                     (T Nil)))



7.5. Substitutions
7.5. Substitutions
7.5. Substitutions


 Subst
 Subst _ ___ _ ___ _ ___   ___                                         ____
(Subst U:any V:any W:any): any                                         expr

                                        _                        _
     Returns the result of substituting U for all occurrences of V  in
     _                 _                          _
     W.  Copies all of W which is not replaced by U.  The test used is
     Equal
     Equal
     Equal.

        (De Subst (U V W)
                 (Cond ((Null W) Nil)
                       ((Equal V W) U)
                       ((Atom W) W)
                       (T (Cons (Subst U V (Car W))(Subst U V (Cdr


 SubstIP
 SubstIP _ ___ _ ___ _ ___   ___                                       ____
(SubstIP U:any V:any W:any): any                                       expr

                 Subst
                 Subst
     Destructive Subst.


 SubLis
 SubLis _ _ ____ _ ___   ___                                           ____
(SubLis X:a-list Y:any): any                                           expr

                               Subst
                               Subst
     This performs a series of Substs in parallel.  The value returned
                                            Cdr
                                            Cdr
     is  the  result  of  substituting  the Cdr of each element of the
                                          Car
     _ ____ _                             Car
     a-list X for every occurrence of the Car part of that element  in
     _
     Y.
List Structure                7 February 1983                    PSL Manual
page 7.12                                                       section 7.5

        (De SubLis (X Y)
          (Cond
            ((Null X) Y)
            (T
              (Prog (U)
                (Setq U (Assoc Y X))
                (Return
                  (Cond
                    (U (Cdr U))
                    ((Atom Y) Y)
                    (T (Cons (SubLis X (Car Y)) (SubLis X (Cdr Y))


 SublA
 SublA _ _ ____ _ ___   ___                                            ____
(SublA U:a-list V:any): any                                            expr

     Eq            SubLis
     Eq            SubLis
     Eq version of SubLis; replaces atoms only.


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