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scsh-0.5/vm/struct.scm

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; -*- Mode: Scheme; Syntax: Scheme; Package: Scheme; -*-
; This is file struct.scm.
; This file defines a level of abstraction for storage somewhat higher
; than that of d-vectors and b-vectors: pairs, symbols, and other datatypes.
; An ugly and unsafe macro for defining VM data structures.
;
; (DEFINE-PRIMITIVE-DATA-TYPE <name> <type> <immutable?> <constructor-name>
; <slot>*)
; <slot> ::= (<accessor-name>) | (<accessor-name> <modifier-name>)
;
; (define-primitive-data-type pair N #f cons (car set-car!) (cdr))
; =>
; (begin
; (define (cons a b) (d-vector ...))
; (define pair? (stob-predicate ...))
; (define pair-size 3)
; (define (car x) (d-vector-ref x 0))
; (define (set-car! x val) (d-vector-set! x 0 val))
; (define (cdr x) (d-vector-ref x 1))
(define-syntax define-primitive-data-type
(lambda (exp rename compare)
(destructure (((d-p-d-t name type immutable? make . body) exp))
(define (concatenate-symbol . syms)
(string->symbol (apply string-append (map symbol->string syms))))
(let* ((pred (concatenate-symbol name '?))
(size (concatenate-symbol name '- 'size))
(shorten (lambda (l1 l2) (map (lambda (x1 x2) x2 x1) l1 l2)))
(vars (shorten `(a b c d e f g) body)))
`(begin (define ,make
(let ((type (enum stob ,type)))
(lambda (,@vars key)
,(if immutable?
`(immutable-d-vector type key ,@vars)
`(d-vector type key ,@vars)))))
(define ,pred (stob-predicate (enum stob ,type)))
(define ,size (+ ,(length body) 1))
,@(do ((s body (cdr s))
(i 0 (+ i 1))
(d '() (let* ((slot (car s))
(d (cons `(define (,(car slot) x)
(d-vector-ref x ,i))
d)))
(if (null? (cdr slot))
d
(cons `(define (,(cadr slot) x val)
(d-vector-set! x ,i val))
d)))))
((null? s) (reverse d))))))))
; This is a front for DEFINE-PRIMITIVE-DATA-TYPE that gets the names from
; STOB-DATA (which is defined in arch.scm). This ensures that the run-time
; code, the VM, and the linker agree on what these structures look like.
;
; SCHEME? is #T if the data structure is a Scheme structure, in which case
; the names defined by the form all have VM- prepended.
(define-syntax define-shared-primitive-data-type
(lambda (exp rename compare)
(let ((name (cadr exp))
(scheme? (if (null? (cddr exp)) #f (car (cddr exp))))
(immutable? (if (or (null? (cddr exp))
(null? (cdddr exp)))
#f
(cadr (cddr exp)))))
(define (concatenate-symbol . syms)
(string->symbol (apply string-append (map symbol->string syms))))
(let ((data (cddr (assq name stob-data)))
(fixup (lambda (n)
(if scheme? (concatenate-symbol 'vm- n) n))))
`(define-primitive-data-type
,(fixup name)
,name
,immutable?
,(fixup (car data))
. ,(map (lambda (p)
(cons (fixup (car p))
(if (not (cadr p))
'()
(list (fixup (cadr p))))))
(cdr data)))))))
; A d-vector macro version of the VECTOR procedure.
; This is only used in the expansion of DEFINE-PRIMITIVE-DATA-TYPE.
(define-syntax d-vector
(lambda (exp rename compare)
(destructure (((d-v type key . args) exp))
`(let ((v (make-d-vector ,type ,(length args) key)))
,@(do ((a args (cdr a))
(i 0 (+ i 1))
(z '() (cons `(d-vector-set! v ,i ,(car a)) z)))
((null? a) (reverse z)))
v))))
(define-syntax immutable-d-vector
(syntax-rules ()
((immutable-d-vector stuff ...)
(let ((vec (d-vector stuff ...)))
(make-immutable! vec)
vec))))
; A simpler macro for defining types of vectors. Again SCHEME? being #T
; causes VM- to be prepended to the defined names.
(define-syntax define-vector-data-type
(lambda (exp rename compare)
(let ((name (cadr exp))
(scheme? (cddr exp)))
(define (concatenate-symbol . syms)
(string->symbol (apply string-append (map symbol->string syms))))
(let* ((type `(enum stob ,name))
(fix (if (not (null? scheme?))
'vm-
(string->symbol "")))
(pred (concatenate-symbol fix name '?))
(make (concatenate-symbol fix 'make- name))
(size (concatenate-symbol fix name '- 'size))
(length (concatenate-symbol fix name '- 'length))
(ref (concatenate-symbol fix name '- 'ref))
(set (concatenate-symbol fix name '- 'set!)))
`(begin (define ,make (stob-maker ,type make-d-vector))
(define ,pred (stob-predicate ,type))
(define (,size len) (+ len 1))
(define ,length d-vector-length)
(define ,ref d-vector-ref)
(define ,set d-vector-set!))))))
(define (stob-maker type maker)
(lambda (length key)
(maker type length key)))
(define (stob-predicate type)
(lambda (obj) (stob-of-type? obj type)))
; data for these comes from STOB-DATA in arch.scm
(define-shared-primitive-data-type pair #t)
(define-shared-primitive-data-type symbol #t #t)
(define-shared-primitive-data-type closure #f #t)
(define-shared-primitive-data-type location)
(define-shared-primitive-data-type weak-pointer)
(define-shared-primitive-data-type external)
; The one currently unshared data structure.
(define-primitive-data-type port port #f make-port
(port-mode set-port-mode!)
(port-index set-port-index!)
(peeked-char set-peeked-char!)
(port-id set-port-id!)) ; setter needed by the post-GC code
; Vectors and so on
(define-vector-data-type vector #t)
(define-vector-data-type record)
(define-vector-data-type extended-number)
(define-vector-data-type continuation)
(define-vector-data-type template)
(define (vm-vector-fill! v val)
(do ((i 0 (+ i 1)))
((= i (vm-vector-length v)) v)
(vm-vector-set! v i val)))
(define (continuation-cont c) (continuation-ref c 0))
(define (continuation-pc c) (continuation-ref c 1))
(define (continuation-template c) (continuation-ref c 2))
(define (continuation-env c) (continuation-ref c 3))
(define (set-continuation-cont! c val) (continuation-set! c 0 val))
(define (set-continuation-pc! c val) (continuation-set! c 1 val))
(define (set-continuation-template! c val) (continuation-set! c 2 val))
(define (set-continuation-env! c val) (continuation-set! c 3 val))
(define continuation-cells 4)
(define (template-code tem) (template-ref tem 0))
(define (template-name tem) (template-ref tem 1))
; The VM needs a few templates for various obscure purposes.
(define (make-template-containing-ops op1 op2)
(let ((temp (make-template 2 universal-key))
(code (make-code-vector 2 universal-key)))
(template-set! temp 0 code)
(code-vector-set! code 0 op1)
(code-vector-set! code 1 op2)
temp))
(define (op-template-size op-count)
(+ (template-size 2) (code-vector-size op-count)))
; Code vectors
(define make-code-vector (stob-maker (enum stob code-vector) make-b-vector))
(define code-vector? (stob-predicate (enum stob code-vector)))
(define code-vector-length b-vector-length)
(define code-vector-ref b-vector-ref)
(define code-vector-set! b-vector-set!)
(define (code-vector-size len)
(+ 1 (bytes->cells len)))
; Strings are presented as being one character shorter than they really
; are to hide the null character at the end.
(define vm-make-string (stob-maker (enum stob string)
(lambda (type len key)
(make-b-vector type (+ len 1) key))))
(define vm-string? (stob-predicate (enum stob string)))
(define vm-string-length (lambda (x) (- (b-vector-length x) 1)))
(define vm-string-ref (lambda (s i) (ascii->char (b-vector-ref s i))))
(define vm-string-set! (lambda (s i c) (b-vector-set! s i (char->ascii c))))
(define (vm-string-size length)
(+ 1 (bytes->cells (+ 1 length))))
(define (enter-string string) ; used by VMIO on startup
(let ((z (string-length string)))
(let ((v (vm-make-string z universal-key)))
(do ((i 0 (+ i 1)))
((>= i z) v)
(vm-string-set! v i (string-ref string i))))))
(define (extract-string string) ; used by OPEN, WRITE-STRING, SUSPEND
(let ((z (vm-string-length string)))
(let ((v (make-string z)))
(do ((i 0 (+ i 1)))
((>= i z) v)
(string-set! v i (vm-string-ref string i))))))
(define (write-vm-string string port)
(write-bytes (address-after-header string)
(vm-string-length string)
port))
(define vm-string=? stob-equal?)
; Hashing
; The hash function used here is to take the sum of the ascii values
; of the characters in the string, modulo the symbol table size.
;
; This hash function was also compared against some others, e.g.
; adding in the length as well, and taking only the odd or only the
; even characters. It fared about the same as adding the length, and
; much better than examining only every other character.
;
; Perhaps a hash function that is sensitive to the positions of the
; characters should be tried? (Consider CADDR, CDADR, CDDAR.)
;
; Of course, if we switched to rehashing, a prime modulus would be
; important.
(define (vm-string-hash s)
(let ((n (vm-string-length s)))
(do ((i 0 (+ i 1))
(h 0 (+ h (char->ascii (vm-string-ref s i)))))
((>= i n) h))))
; Symbol table and environment lookup
(define (table-searcher hash match? make-new)
;; In FX terms, this procedure has type
;; (poly (t1 t2 t3)
;; (proc ((proc (t1) int) ;hash
;; (proc (t1 t2) bool) ;match?
;; (proc (t1) t2)) ;make-new
;; (proc (t1 (vector-of (list-of t2)))
;; t2)))
;; For the symbol table, t1 = string, t2 = t3 = symbol.
(lambda (obj table key)
(let* ((index (bitwise-and (hash obj) (- (vm-vector-length table) 1)))
(bucket (vm-vector-ref table index)))
(let loop ((b bucket))
(cond ((vm-eq? b null)
(let ((new (make-new obj key)))
(vm-vector-set! table index (vm-cons new bucket key))
new))
((match? obj (vm-car b)) (vm-car b))
(else (loop (vm-cdr b))))))))
(define intern
(table-searcher vm-string-hash
(lambda (string sym)
(vm-string=? string (vm-symbol->string sym)))
(lambda (string key)
(let ((sym (vm-make-symbol string key)))
(make-immutable! sym)
sym))))
(define add-to-symbol-table
(table-searcher (lambda (sym) (vm-string-hash (vm-symbol->string sym)))
vm-eq?
(lambda (sym key) sym)))
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