/usr/share/racket/pkgs/algol60/compile.rkt

#lang racket
(require "parse.rkt"
         racket/match)

(provide compile-simplified)

;; The compiler generates references to "prims.rkt" and
;; "runtime.rkt" exports, as well as Racket forms
;; and functions. The `ctx' argument provides
;; an appropriate context for those bindings (in
;; the form of a syntax object to use with d->s-o).
(define (compile-simplified stmt ctx)
  (datum->syntax 
   ctx
   (parameterize ([current-compile-context ctx])
     (compile-a60 stmt 'void (empty-context) #t))))

(define current-compile-context (make-parameter #f))

(define (compile-a60 stmt next-label context add-to-top-level?)
  (match stmt
    [(a60:block decls statements)
     (compile-block decls statements next-label context add-to-top-level?)]
    [else
     (compile-statement stmt next-label context)]))

(define (compile-block decls statements next-label context add-to-top-level?)
  (let* ([labels-with-numbers (map car statements)]
         [labels (map (lambda (l)
                        (if (stx-number? l)
                            (datum->syntax
                             l
                             (string->symbol (format "~a" (syntax-e l)))
                             l
                             l)
                            l))
                      labels-with-numbers)]
         ;; Build environment by adding labels, then decls:
         [context (foldl (lambda (decl context)
                           (match decl
                             [(a60:proc-decl result-type var arg-vars by-value-vars arg-specs body)
                              (add-procedure context var result-type arg-vars by-value-vars arg-specs)]
                             [(a60:type-decl type ids)
                              (add-atoms context ids type)]
                             [(a60:array-decl type arrays)
                              (add-arrays context 
                                          (map car arrays) ; names
                                          (map cdr arrays) ; dimensions
                                          type)]
                             [(a60:switch-decl name exprs)
                              (add-switch context name)]))
                         (add-labels
                          context
                          labels)
                         decls)])
    ;; Generate bindings and initialization for all decls,
    ;; plus all statements (thunked):
    (let ([bindings
           (append
            (apply
             append
             ;; Decls:
             (map (lambda (decl)
                    (match decl
                      [(a60:proc-decl result-type var arg-vars by-value-vars arg-specs body)
                       (let ([code
                              `(lambda (kont . ,arg-vars)
                                 ;; Include the declaration variables
                                 ,@(for/list ([arg-spec (in-list arg-specs)])
                                     `(void ,@(cdr arg-spec)))
                                 ;; Extract by-value variables
                                 (let ,(map (lambda (var)
                                              `[,var (get-value ,var)])
                                            by-value-vars)
                                   ;; Set up the result variable and done continuation:
                                   ,(let ([result-var (gensym 'prec-result)]
                                          [done (gensym 'done)])
                                      `(let* ([,result-var undefined]
                                              [,done (lambda () (kont ,result-var))])
                                         ;; Include the compiled body:
                                         ,(compile-a60 body done
                                                       (add-settable-procedure
                                                        (add-bindings
                                                         context
                                                         arg-vars
                                                         by-value-vars
                                                         arg-specs)
                                                        var
                                                        result-type
                                                        result-var)
                                                       #f)))))])
                         (if add-to-top-level?
                             `([,var
                                (let ([tmp ,code])
                                  (namespace-set-variable-value! ',var tmp)
                                  tmp)])
                             `([,var
                                ,code])))]
                      [(a60:type-decl type ids)
                       (map (lambda (id) `[,id undefined]) ids)]
                      [(a60:array-decl type arrays)
                       (map (lambda (array) 
                              `[,(car array) (make-array
                                              ,@(apply
                                                 append
                                                 (map
                                                  (lambda (bp)
                                                    (list
                                                     (compile-expression (car bp) context 'num)
                                                     (compile-expression (cdr bp) context 'num)))
                                                  (cdr array))))])
                            arrays)]
                      [(a60:switch-decl name exprs)
                       `([,name (make-switch ,@(map (lambda (e) `(lambda () ,(compile-expression e context 'des)))
                                                    exprs))])]
                      [else (error "can't compile decl")]))
                  decls))
            ;; Statements: most of the work is in `compile-statement', but
            ;;  we provide the continuation label:
            (cdr
             (foldr (lambda (stmt label next-label+compiled)
                      (cons label
                            (cons
                             `[,label
                               (lambda ()
                                 ,(compile-statement (cdr stmt) 
                                                     (car next-label+compiled)
                                                     context))]
                             (cdr next-label+compiled))))
                    (cons next-label null)
                    statements
                    labels)))])
      ;; Check for duplicate bindings:
      (let ([dup (check-duplicate-identifier (filter identifier? (map car bindings)))])
        (when dup
          (raise-syntax-error
           #f
           "name defined twice"
           dup)))
      ;; Generate code; body of leterec jumps to the first statement label.
      `(letrec ,bindings 
         (,(caar statements))))))

(define (compile-statement statement next-label context)
  (match statement
    [(a60:block decls statements)
     (compile-block decls statements next-label context #f)]
    [(a60:branch test (a60:goto then) (a60:goto else))
     `(if (check-boolean ,(compile-expression test context 'bool))
          (goto ,(check-label then context))
          (goto ,(check-label else context)))]
    [(a60:goto label)
     (at (expression-location label)
         `(goto ,(compile-expression label context 'des)))]
    [(a60:dummy)
     `(,next-label)]
    [(a60:call proc args)
     (at (expression-location proc)
         `(,(compile-expression proc context 'func)
           (lambda (val) 
             (,next-label))
           ,@(map (lambda (arg) (compile-argument arg context))
                  args)))]
    [(a60:assign vars val)
     ;; >>>>>>>>>>>>>>> Start clean-up here <<<<<<<<<<<<<<<<<
     ;; Lift out the spec-finding part, and use it to generate
     ;; an expected type that is passed to `compile-expression':
     `(begin
        (let ([val ,(compile-expression val context 'numbool)])
          ,@(map (lambda (avar)
                   (let ([var (a60:variable-name avar)])
                     (at var
                         (cond
                           [(null? (a60:variable-indices avar))
                            (cond
                              [(call-by-name-variable? var context)
                               => (lambda (spec)
                                    `(set-target! ,var ',var (coerce ',(spec-coerce-target spec null) val)))]
                              [(procedure-result-variable? var context)
                               `(set! ,(procedure-result-variable-name var context) 
                                      (coerce ',(spec-coerce-target (procedure-result-spec var context) null) val))]
                              [(or (settable-variable? var context)
                                   (array-element? var context))
                               => (lambda (spec)
                                    `(,(if (own-variable? var context) 'set-box! 'set!)
                                      ,var
                                      (coerce ',(spec-coerce-target spec null) val)))]
                              [else (raise-syntax-error #f "confused by assignment" (expression-location var))])]
                           [else
                            (let ([spec (or (array-element? var context)
                                            (call-by-name-variable? var context))])
                              `(array-set! ,(compile-expression (make-a60:variable var null) context 'numbool)
                                           (coerce ',(spec-coerce-target spec null) val)
                                           ,@(map (lambda (e) (compile-expression e context 'num)) 
                                                  (a60:variable-indices avar))))]))))
                 vars))
        (,next-label))]
    [else (error "can't compile statement")]))

(define (compile-expression expr context type)
  (match expr
    [(? (lambda (x) (and (syntax? x) (number? (syntax-e x)))) n) 
     (if (eq? type 'des)
         ;; Need a label:
         (check-label (datum->syntax expr
                                            (string->symbol (number->string (syntax-e expr)))
                                            expr
                                            expr)
                      context)
         ;; Normal use of a number:
         (begin
           (check-type 'num type expr) 
           (as-builtin n)))]
    [(? (lambda (x) (and (syntax? x) (boolean? (syntax-e x)))) n) (check-type 'bool type expr) (as-builtin n)]
    [(? (lambda (x) (and (syntax? x) (string? (syntax-e x)))) n)  (check-type 'string type expr) (as-builtin n)]
    [(? identifier? i) (compile-expression (make-a60:variable i null) context type)]
    [(? symbol? i) ; either a generated label or 'val:
     (unless (eq? expr 'val)
       (check-type 'des type expr))
     (datum->syntax #f i)]
    [(a60:subscript array index)
     ;; Maybe a switch index, or maybe an array reference
     (at array
         (cond
           [(array-element? array context)
            `(array-ref ,array ,(compile-expression index context 'num))]
           [(switch-variable? array context)
            `(switch-ref ,array ,(compile-expression index context 'num))]
           [else (raise-syntax-error
                  #f
                  "confused by variable"
                  array)]))]
    [(a60:binary t argt op e1 e2)
     (check-type t type expr)
     (at op
         `(,(as-builtin op) ,(compile-expression e1 context argt) ,(compile-expression e2 context argt)))]
    [(a60:unary t argt op e1)
     (check-type t type expr)
     (at op
         `(,(as-builtin op) ,(compile-expression e1 context argt)))]
    [(a60:variable var subscripts)
     (let ([sub (lambda (wrap v)
                  (wrap
                   (if (null? subscripts)
                       v
                       `(array-ref ,v ,@(map (lambda (e) (compile-expression e context 'num)) subscripts)))))])
       (cond
         [(call-by-name-variable? var context)
          => (lambda (spec)
               (check-spec-type spec type var subscripts)
               (sub (lambda (val) `(coerce ',(spec-coerce-target spec subscripts) ,val)) `(get-value ,var)))]
         [(primitive-variable? var context)
          => (lambda (name)
               (sub values
                    (datum->syntax
                     (current-compile-context)
                     name
                     var
                     var)))]
         [(and (procedure-result-variable? var context)
               (not (eq? type 'func)))
          (unless (null? subscripts)
            (raise-syntax-error "confused by subscripts" var))
          (let ([spec (procedure-result-spec var context)])
            (check-spec-type spec type var null)
            (at var
                `(coerce
                  ',(spec-coerce-target spec null)
                  ,(procedure-result-variable-name var context))))]
         [(or (procedure-result-variable? var context)
              (procedure-variable? var context)
              (label-variable? var context)
              (settable-variable? var context)
              (array-element? var context))
          => (lambda (spec)
               (let ([spec (if (or (procedure-result-variable? var context)
                                   (procedure-variable? var context)
                                   (and (array-element? var context)
                                        (null? subscripts)))
                               #f ;; need just the proc or array...
                               spec)])
                 (check-spec-type spec type var subscripts)
                 (let ([target (spec-coerce-target spec subscripts)])
                   (sub (if target
                            (lambda (v) `(coerce ',target ,v))
                            values)
                        (if (own-variable? var context)
                            `(unbox ,var)
                            var)))))]
         [else (raise-syntax-error
                #f
                "confused by expression"
                (expression-location var))]))]
    
    [(a60:app func args)
     (at (expression-location func)
         `(,(compile-expression func context 'func)
           values
           ,@(map (lambda (e) (compile-argument e context))
                  args)))]
    [(a60:if test then else)
     `(if (check-boolean ,(compile-expression test context 'bool))
          ,(compile-expression then context type)
          ,(compile-expression else context type))]
    [else (error 'compile-expression "can't compile expression ~a" expr)]))

(define (expression-location expr)
  (if (syntax? expr)
      expr
      (match expr
        [(a60:subscript array index) (expression-location array)]
        [(a60:binary type argtype op e1 e2) op]
        [(a60:unary type argtype op e1) op]
        [(a60:variable var subscripts) (expression-location var)]
        [(a60:app func args)
         (expression-location func)]
        [else #f])))

(define (compile-argument arg context)
  (cond
    [(or (and (a60:variable? arg)
              (not (let ([v  (a60:variable-name arg)])
                     (or (procedure-variable? v context)
                         (label-variable? v context)
                         (primitive-variable? v context)))))
         (a60:subscript? arg))
     (let ([arg (if (a60:subscript? arg)
                    (make-a60:variable (a60:subscript-array arg)
                                       (list (a60:subscript-index arg)))
                    arg)])
       `(case-lambda
          [() ,(compile-expression arg context 'any)]
          [(val)  ,(compile-statement (make-a60:assign (list arg) 'val) 'void context)]))]
    [(identifier? arg)
     (compile-argument (make-a60:variable arg null) context)]
    [else `(lambda () ,(compile-expression arg context 'any))]))

(define (check-type got expected expr)
  (or (eq? expected 'any)
      (case got
        [(num) (memq expected '(num numbool))]
        [(bool) (memq expected '(bool numbool))]
        [(des) (memq expected '(des))]
        [(func) (memq expected '(func))]
        [else #f])
      (raise-syntax-error #f
                          (format "type mismatch (~a != ~a)" got expected)
                          expr)))

(define (check-spec-type spec type expr subscripts)
  (let ([target (spec-coerce-target spec subscripts)])
    (when target
      (case (syntax-e target)
        [(integer real) (check-type 'num type expr)]
        [(boolean) (check-type 'bool type expr)]
        [(procedure) (check-type 'func type expr)]))))


(define (check-label l context)
  (if (or (symbol? l)
          (label-variable? l context))
      l
      (raise-syntax-error
       #f
       "undefined label"
       l)))

(define (at stx expr)
  (if (syntax? stx)
      (datum->syntax (current-compile-context) expr stx)
      expr))

(define (as-builtin stx)
  ;; Preserve source loc, but change to reference to
  ;; a builtin operation by changing the context:
  (datum->syntax
   (current-compile-context)
   (syntax-e stx)
   stx
   stx))

;; --------------------

(define (empty-context)
  `(((sign prim sign)
     (entier prim entier)
     
     (sin prim a60:sin)
     (cos prim a60:cos)
     (acrtan prim a60:arctan)
     (sqrt prim a60:sqrt)
     (abs prim a60:abs)
     (ln prim a60:ln)
     (exp prim a60:exp)
     
     (prints prim prints)
     (printn prim printn)
     (printsln prim printsln)
     (printnln prim printnln))))

(define (add-labels context l)
  (cons (map (lambda (lbl) (cons (if (symbol? lbl)
                                     (datum->syntax #f lbl)
                                     lbl)
                                 'label)) l)
        context))

(define (add-procedure context var result-type arg-vars by-value-vars arg-specs)
  (cons (list (cons var 'procedure))
        context))

(define (add-settable-procedure context var result-type result-var)
  (cons (list (cons var `(settable-procedure ,result-var ,result-type)))
        context))

(define (add-atoms context ids type)
  (cons (map (lambda (id) (cons id type)) ids)
        context))

(define (add-arrays context names dimensionses type)
  (cons (map (lambda (name dimensions)
               (cons name `(array ,type ,(length dimensions))))
             names dimensionses)
        context))

(define (add-switch context name)
  (cons (list (cons name 'switch))
        context))

(define (add-bindings context arg-vars by-value-vars arg-specs)
  (cons (map (lambda (var)
               (let ([spec (or (ormap (lambda (spec)
                                        (and (ormap (lambda (x) (bound-identifier=? var x))
                                                    (cdr spec))
                                             (car spec)))
                                      arg-specs)
                               #'unknown)])
                 (cons var
                       (if (ormap (lambda (x) (bound-identifier=? var x)) by-value-vars)
                           spec
                           (list 'by-name spec)))))
             arg-vars)
        context))

;; var-binding : syntax context -> symbol
;; returns an identifier indicating where the var is
;; bound, or 'free if it isn't. The compiler inserts
;; top-level procedure definitions into the namespace; if 
;; the variable is bound there, it is a procedure.
(define (var-binding var context)
  (cond
    [(null? context)
     (let/ec k
       (namespace-variable-value (syntax-e var)
                                 #t 
                                 (lambda () (k 'free)))
       'procedure)]
    [else
     (let ([m (var-in-rib var (car context))])
       (or m (var-binding var (cdr context))))]))

(define (var-in-rib var rib)
  (ormap (lambda (b)
           (if (symbol? (car b))
               ;; primitives:
               (and (eq? (syntax-e var) (car b))
                    (cdr b))
               ;; everything else:
               (and (bound-identifier=? var (car b))
                    (cdr b))))
         rib))

(define (primitive-variable? var context)
  (let ([v (var-binding var context)])
    (and (pair? v)
         (eq? (car v) 'prim)
         (cadr v))))

(define (call-by-name-variable? var context)
  (let ([v (var-binding var context)])
    (and (pair? v)
         (eq? (car v) 'by-name)
         (cadr v))))

(define (procedure-variable? var context)
  (let ([v (var-binding var context)])
    (eq? v 'procedure)))

(define (procedure-result-variable? var context)
  (let ([v (var-binding var context)])
    (and (pair? v)
         (eq? (car v) 'settable-procedure)
         (cdr v))))

(define (procedure-result-variable-name var context)
  (let ([v (procedure-result-variable? var context)])
    (car v)))

(define (procedure-result-spec var context)
  (let ([v (procedure-result-variable? var context)])
    (cadr v)))

(define (label-variable? var context)
  (let ([v (var-binding var context)])
    (eq? v 'label)))

(define (switch-variable? var context)
  (let ([v (var-binding var context)])
    (eq? v 'switch)))

(define (settable-variable? var context)
  (let ([v (var-binding var context)])
    (or (box? v)
        (and (syntax? v)
             (memq (syntax-e v) '(integer real boolean))
             v))))

(define (own-variable? var context)
  (let ([v (var-binding var context)])
    (box? v)))

(define (array-element? var context)
  (let ([v (var-binding var context)])
    (and (pair? v)
         (eq? (car v) 'array)
         (or (cadr v)
             #'unknown))))

(define (spec-coerce-target spec subscripts)
  (cond
    [(and (syntax? spec) (memq (syntax-e spec) '(string label switch real integer boolean unknown))) spec]
    [(and (syntax? spec) (memq (syntax-e spec) '(unknown))) #f]
    [(or (not spec) (not (pair? spec))) #f]
    [(eq? (car spec) 'array) (if (null? subscripts) #'array (cadr spec))]
    [(eq? (car spec) 'procedure) #'procedure]
    [else #f]))

(define (stx-number? a) (and (syntax? a) (number? (syntax-e a))))
racket-common 6.3-1 / usr / share / racket / pkgs / algol60 / compile.rkt
