File psl-1983/lpt/11-interp.lpt artifact ad2f6c4498 part of check-in 255e9d69e6


PSL Manual                    7 February 1983               The Interpreter
section 11.0                                                      page 11.1

                                CHAPTER 11
                                CHAPTER 11
                                CHAPTER 11
                              THE INTERPRETER
                              THE INTERPRETER
                              THE INTERPRETER




     11.1. Evaluator Functions Eval and Apply.  .  .  .  .  .  .  .    11.1
     11.2. Support Functions for Eval and Apply .  .  .  .  .  .  .    11.5
     11.3. Special Evaluator Functions, Quote, and Function .  .  .    11.6
     11.4. Support Functions for Macro Evaluation  .  .  .  .  .  .    11.6




11.1. Evaluator Functions Eval and Apply
11.1. Evaluator Functions Eval and Apply
11.1. Evaluator Functions Eval and Apply

  The  PSL  evaluator uses an identifier's function cell (SYMFNC(id#) which
is directly accessible from kernel functions only) to access the address of
the code for executing the identifier's function definition,  as  described
in  chapter  10.   The function cell contains either the entry address of a
compiled function, or the address of a support routine that either  signals
an  undefined function or calls the lambda interpreter.  The PSL model of a
function call is to place the arguments  (after  treatment  appropriate  to
function  type) in "registers", and then to jump to or call the code in the
function cell.

                                                        ____
  Expressions which can be legally evaluated are called forms.    They  are
restricted S-expressions:

   ____      __
   form ::=  id
               ________
             | constant
                __ ____     ____
             | (id form ... form)
                          ___
             | (special . any)   % Special cases: COND, PROG, etc.
                                           _____     _____
                                           _____     _____
                                           _____     _____
                                           fexpr     macro
                                           fexpr     macro
                                 % usually fexprs or macros.

                   Eval     Apply
                   Eval     Apply                                   ____
The definitions of Eval and Apply may clarify which expressions are forms.

     Eval  Apply                                   ContinuableError
     Eval  Apply                                   ContinuableError
  In Eval, Apply, and the support functions below, ContinuableError is used
                      ______
to indicate malformed lambda expressions, undefined functions or mismatched
argument numbers; the user is permitted to correct the offending expression
                                         Break
                                         Break
or to define a missing function inside a Break loop.

                  Eval     Apply
                  Eval     Apply
  The  functions  Eval and Apply are central to the PSL interpreter.  Since
their efficiency is important, some of the support functions they  use  are
                                   LambdaApply  LambdaEvalApply  CodeApply
                                   LambdaApply  LambdaEvalApply  CodeApply
hand-coded  in LAP.  The functions LambdaApply, LambdaEvalApply, CodeApply,
CodeEvalApply      IDApply1                               Eval       Apply
CodeEvalApply      IDApply1                               Eval       Apply
CodeEvalApply, and IDApply1 are  support  functions  for  Eval  and  Apply.
CodeApply       CodeEvalApply                    IDApply1
CodeApply       CodeEvalApply                    IDApply1
CodeApply  and  CodeEvalApply are coded in LAP.  IDApply1 is handled by the
compiler.
The Interpreter               7 February 1983                    PSL Manual
page 11.2                                                      section 11.1

 Eval
 Eval _ ____   ___                                                     ____
(Eval U:form): any                                                     expr

                                _
     The  value  of  the  form  U  is  computed.   The following is an
     approximation of the real code, leaving out  some  implementation
     details.              
PSL Manual                    7 February 1983               The Interpreter
section 11.1                                                      page 11.3

        (DE EVAL (U)
          (PROG (FN)
            (COND
              ((IDP U) (RETURN (VALUECELL U))))
            % ValueCell  returns the contents of Value Cell if ID
            % BoundP, else signals unbound error.
            (COND ((NOT (PAIRP U)) (RETURN U)))

            % This is a "constant" which EVAL's to itself
            (COND
              ((EQCAR (CAR U) 'LAMBDA)
                (RETURN
                  (LAMBDAEVALAPPLY (CAR U) (CDR U)))))

            % LambdaEvalApply applies the lambda- expression Car U
            % list containing the evaluation of each argument in C
            (COND
              ((CODEP (CAR U))
                (RETURN (CODEEVALAPPLY (CAR U) (CDR U)))))

            % CodeEvalApply applies the function with code-pointer
            % to the list containing the evaluation of each argume
            % Cdr U.
            (COND
              ((NOT (IDP (CAR U)))
                (RETURN
                  % permit user to correct U, and reevaluate.
                  (CONTINUABLEERROR 1101
                    "Ill-formed expression in EVAL" U))))

            (SETQ FN (GETD (CAR U)))
            (COND
              ((NULL FN)
                % user might define missing function and retry
                (RETURN
                   (CONTINUABLEERROR 1001 "Undefined function EVAL

            (COND
              ((EQ (CAR FN) 'EXPR)
                (RETURN
                  (COND
                    ((CODEP (CDR FN))
                      % CodeEvalApply applies the function with
                      % codepointer Cdr FN to the list containing
                      % evaluation of each argument in Cdr U.
                      (CODEEVALAPPLY (CDR FN) (CDR U)))

                    (T
                      (LAMBDAEVALAPPLY
                        (CDR FN) (CDR U)))))))

            % LambdaEvalApply applies the lambda-expression Cdr FN
The Interpreter               7 February 1983                    PSL Manual
page 11.4                                                      section 11.1

            % list containing the evaluation of each argument in C
            (COND
              ((EQ (CAR FN) 'FEXPR)
                % IDApply1 applies the fexpr Car U to the list of
                % unevaluated arguments.
                (RETURN (IDAPPLY1 (CDR U) (CAR U))))

              ((EQ (CAR FN) 'MACRO)
                % IDApply1 first expands the macro call U and then
                % evaluates the result.
                (RETURN (EVAL (IDAPPLY1 U (CAR U)))))

              ((EQ (CAR FN) 'NEXPR)
                % IDApply1 applies the nexpr Car U to the list obt
                % by evaluating the arguments in Cdr U.
                (RETURN (IDAPPLY1 (EVLIS (CDR U)) (CAR U)))))))


 Apply
 Apply __  __ ________   ____ ____ ____   ___                          ____
(Apply FN:{id,function}  ARGS:form-list): any                          expr

     Apply
     Apply
     Apply  allows  one to make an indirect function call.  It returns
                    __                            ____
     the value  of  FN  with  actual  parameters  ARGS.    The  actual
                     ____
     parameters  in  ARGS are already in the form required for binding
                                 __
     to the formal parameters of FN.  PSL permits the  application  of
     _____    ______     _____
     _____    ______     _____
     _____    ______     _____
     macro    nexprs     fexpr                              Apply  Cdr
     macro    nexprs     fexpr                              Apply  Cdr
     macros,  nexprs and fexprs; the effect is the same as (Apply (Cdr
      GetD
      GetD __   ____
     (GetD FN)) ARGS); i.e. no fix-up is done to quote arguments, etc.
                                   Apply         List
                                   Apply         List
     as in some LISPs.  A call to  Apply  using  List  on  the  second
                         Apply     List
                         Apply     List
     argument  [e.g.    (Apply  F (List X Y))] is compiled so that the
     ____
     list is not actually constructed.

     The following is an approximation of the real code,  leaving  out
     implementation details.      
PSL Manual                    7 February 1983               The Interpreter
section 11.1                                                      page 11.5

        (DE APPLY (FN ARGS)
          (PROG (DEFN)
            (COND
              ((CODEP FN)
                % Spread the ARGS into the registers and transfer
                % entry point of the function.
                (RETURN (CODEAPPLY FN ARGS)))

              ((EQCAR FN 'LAMBDA)
                % Bind the actual parameters in ARGS to the formal
                % parameters of the lambda expression If the two l
                % are not of equal length then signal
                % (CONTINUABLEERROR 1204
                %         "Number of parameters do not match"
                %         (CONS FN ARGS))

                (RETURN (LAMBDAAPPLY FN ARGS)))

              ((NOT (IDP FN))
                (RETURN (CONTINUABLEERROR 1104
                          "Ill-formed function in APPLY"
                          (CONS FN ARG))))

              ((NULL (SETQ DEFN (GETD FN)))
                (RETURN (CONTINUABLEERROR 1004
                          "Undefined function in Apply"
                          (CONS FN ARGS))))

              (T
                % Do EXPR's, NEXPR's, FEXPR's and MACRO's alike, a
                % EXPR's
                (RETURN (APPLY (CDR DEFN) ARGS))))))

  [???  Instead, could check for specific function types in Apply ???]
  [???  Instead, could check for specific function types in Apply ???]
  [???  Instead, could check for specific function types in Apply ???]



11.2. Support Functions for Eval and Apply
11.2. Support Functions for Eval and Apply
11.2. Support Functions for Eval and Apply


 EvLis
 EvLis _ ___ ____   ___ ____                                           ____
(EvLis U:any-list): any-list                                           expr

     EvLis
     EvLis           ____                                      _
     EvLis returns a list of the evaluation of each element of U.


 LambdaApply
 LambdaApply __ ______  _ ___ ____   ___                               ____
(LambdaApply FN:lambda, U:any-list): any                               expr

                 __            ______                           ______
     Checks that FN is a legal lambda, binds the formals of the lambda
            LBind1                                          EvProgN
            LBind1                         _                EvProgN
     using  LBind1  to  the  arguments  in U, and then uses EvProgN to
                               ______
     evaluate the forms in the lambda body.  Finally the  formals  are
                    UnBindN
                    UnBindN
     unbound, using UnBindN, and the result returned.
The Interpreter               7 February 1983                    PSL Manual
page 11.6                                                      section 11.2

 LambdaEvalApply
 LambdaEvalApply __ ______  _ ____ ____   ___                          ____
(LambdaEvalApply FN:lambda, U:form-list): any                          expr

                    LambdaApply    EvLis
                    LambdaApply __ EvLis _
     Essentially    LambdaApply(FN,EvLis(U)),    though    done   more
     efficiently.


 CodeApply
 CodeApply __ ____ _______  _ ___ ____   ___                           ____
(CodeApply FN:code-pointer, U:any-list): any                           expr

                                          _
     Efficiently spreads the arguments in U into the "registers",  and
                                                           __
     then transfers to the starting address referred to by FN


 CodeEvalApply
 CodeEvalApply __ ____ _______  _ ___ ____   ___                       ____
(CodeEvalApply FN:code-pointer, U:any-list): any                       expr

                 CodeApply    EvLis
                 CodeApply __ EvLis _
     Essentially CodeApply(FN,EvLis(U)), though more efficient.

  The  following  entry  points  are  used  to get efficient calls on named
functions, and are open compiled.


 IdApply0
 IdApply0 __ __   ___                                                  ____
(IdApply0 FN:id): any                                                  expr


 IdApply1
 IdApply1 __ ____  __ __   ___                                         ____
(IdApply1 A1:form, FN:id): any                                         expr


 IdApply2
 IdApply2 __ ____  __ ____  __ __   ___                                ____
(IdApply2 A1:form, A2:form, FN:id): any                                expr


 IdApply3
 IdApply3 __ ____  __ ____  __ ____  __ __   ___                       ____
(IdApply3 A1:form, A2:form, A3:form, FN:id): any                       expr


 IdApply4
 IdApply4 __ ____  __ ____  __ ____  __ ____  __ __   ___              ____
(IdApply4 A1:form, A2:form, A3:form, A4:form, FN:id): any              expr


 EvProgN
 EvProgN _ ____ ____   ___                                             ____
(EvProgN U:form-list): any                                             expr

                            _
     Evaluates each form in U in turn,  returning  the  value  of  the
                                     ProgN
                                     ProgN
     last.  Used for various implied ProgNs.



11.3. Special Evaluator Functions, Quote, and Function
11.3. Special Evaluator Functions, Quote, and Function
11.3. Special Evaluator Functions, Quote, and Function


 Quote
 Quote _ ___   ___                                                    _____
(Quote U:any): any                                                    fexpr

                                                       Eval
             _                                         Eval
     Returns U.  Thus the argument is not evaluated by Eval.
PSL Manual                    7 February 1983               The Interpreter
section 11.3                                                      page 11.7

 MkQuote
 MkQuote _ ___   ____                                                  ____
(MkQuote U:any): list                                                  expr

      MkQuote             List
      MkQuote _           List
     (MkQuote U) returns (List 'QUOTE  U)


 Function
 Function __ ________   ________                                      _____
(Function FN:function): function                                      fexpr

                  __                                          __
     The function FN is to be passed to another function.  If FN is to
     have  side  effects  its  free variables must be FLUID or GLOBAL.
     Function         Quote
     Function         Quote
     Function is like Quote  but  its  argument  may  be  affected  by
     compilation.

  [??? Add FQUOTE, and make FUNCTION become CLOSURE ???]
  [??? Add FQUOTE, and make FUNCTION become CLOSURE ???]
  [??? Add FQUOTE, and make FUNCTION become CLOSURE ???]

                             Closure
                             Closure
  See also the discussion of Closure and related functions in Section 10.3.



11.4. Support Functions for Macro Evaluation
11.4. Support Functions for Macro Evaluation
11.4. Support Functions for Macro Evaluation


 Expand
 Expand _ ____  __ ________   ____                                     ____
(Expand L:list, FN:function): list                                     expr

     __
     FN  is  a  defined  function  of  two arguments to be used in the
                    _____
                    _____
                    _____
                    macro   Expand
                    macro   Expand           ____
     expansion of a macro.  Expand returns a list in the form:

     (FN L[0] (FN L[1] ... (FN L[n-1] L[n]) ... ))

                                      _
     "n" is the number of elements in L, L[i] is the i'th  element  of
     _
     L.

        (DE EXPAND (L FN)
           (COND ((NULL (CDR L)) (CAR L))
                 (T (LIST FN (CAR L) (EXPAND (CDR L) FN)))))

  [??? Add RobustExpand (sure!) (document) ???]
  [??? Add RobustExpand (sure!) (document) ???]
  [??? Add RobustExpand (sure!) (document) ???]

  [??? Add an Evalhook and Apply hook for CMU toplevel (document) ???]
  [??? Add an Evalhook and Apply hook for CMU toplevel (document) ???]
  [??? Add an Evalhook and Apply hook for CMU toplevel (document) ???]


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