femtolisp/femtolisp/aliases.scm

; definitions of standard scheme procedures in terms of
; femtolisp procedures
; sufficient to run the R5RS version of psyntax

(define top-level-bound? bound?)
(define (eval-core x) (eval x))
(define (symbol-value s) (top-level-value s))
(define (set-symbol-value! s v) (set-top-level-value! s v))
(define (void) (if #f #f))
(define (eval x)
  ((compile-thunk (expand
		   (if (and (pair? x)
			    (equal? (car x) "noexpand"))
		       (cadr x)
		       x)))))

(define vector-ref aref)
(define vector-set! aset!)
(define vector-length length)
(define make-vector vector.alloc)
(define (vector-fill! v f)
  (for 0 (- (length v) 1)
       (lambda (i) (aset! v i f)))
  #t)
(define (vector-map f v) (vector.map f v))

(define array-ref! aref)
(define (array-set! a obj i0 . idxs)
  (if (null? idxs)
      (aset! a i0 obj)
      (error "array-set!: multiple dimensions not yet implemented")))

(define (array-dimensions a)
  (list (length a)))

(define (complex? x) #f)
(define (real? x) (number? x))
(define (rational? x) (integer? x))
(define (exact? x) (integer? x))
(define (inexact? x) (not (exact? x)))
(define quotient div0)
(define remainder mod0)
(define (inexact x) x)
(define (exact x)
  (if (exact? x) x
      (error "exact real numbers not supported")))
(define (finite? x) (and (< x +inf.0) (> x -inf.0)))
(define (infinite? x) (or (equal? x +inf.0) (equal? x -inf.0)))
(define (nan? x) (or (equal? x +nan.0) (equal? x -nan.0)))

(define (char->integer c) (fixnum c))
(define (integer->char i) (wchar i))
(define char-upcase char.upcase)
(define char-downcase char.downcase)
(define char=? eqv?)
(define char<? <)
(define char>? >)
(define char<=? <=)
(define char>=? >=)

(define string=? eqv?)
(define string<? <)
(define string>? >)
(define string<=? <=)
(define string>=? >=)
(define string-copy copy)
(define string-append string)
(define string-length string.count)
(define string->symbol symbol)
(define (symbol->string s) (string s))
(define symbol=? eq?)
(define (make-string k (fill #\space))
  (string.rep fill k))

(define (string-ref s i)
  (string.char s (string.inc s 0 i)))

(define (list->string l) (apply string l))
(define (string->list s)
  (do ((i (sizeof s) i)
       (l '() (cons (string.char s i) l)))
      ((= i 0) l)
    (set! i (string.dec s i))))

(define (substring s start end)
  (string.sub s (string.inc s 0 start) (string.inc s 0 end)))

(define (input-port? x) (iostream? x))
(define (output-port? x) (iostream? x))
(define close-input-port io.close)
(define close-output-port io.close)
(define (read-char (s *input-stream*)) (io.getc s))
(define (write-char c (s *output-stream*)) (io.putc s c))
(define (port-eof? p) (io.eof? p))
(define (open-input-string str)
  (let ((b (buffer)))
    (io.write b str)
    (io.seek b 0)
    b))
(define (open-output-string) (buffer))
(define open-string-output-port open-output-string)
(define (get-output-string b)
  (let ((p (io.pos b)))
    (io.seek b 0)
    (prog1 (io.readall b)
	   (io.seek b p))))

(define (open-input-file name) (file name :read))
(define (open-output-file name) (file name :write :create))

(define (current-input-port (p *input-stream*))
  (set! *input-stream* p))
(define (current-output-port (p *output-stream*))
  (set! *output-stream* p))

(define get-datum read)
(define (put-datum port x)
  (with-bindings ((*print-readably* #t))
		 (write x port)))

(define (put-u8 port o) (io.write port (uint8 o)))
(define (put-string port s (start 0) (count #f))
  (let* ((start (string.inc s 0 start))
	 (end (if count
		  (string.inc s start count)
		  (sizeof s))))
    (io.write port s start (- end start))))

(define (with-output-to-file name thunk)
  (let ((f (file name :write :create :truncate)))
    (unwind-protect
     (with-output-to f (thunk))
     (io.close f))))

(define (with-input-from-file name thunk)
  (let ((f (file name :read)))
    (unwind-protect
     (with-output-to f (thunk))
     (io.close f))))

(define (call-with-input-file name proc)
  (let ((f (open-input-file name)))
    (prog1 (proc f)
	   (io.close f))))

(define (call-with-output-file name proc)
  (let ((f (open-output-file name)))
    (prog1 (proc f)
	   (io.close f))))

(define (display x (port *output-stream*))
  (with-output-to port (princ x))
  #t)

(define assertion-violation 
  (lambda args 
    (display 'assertion-violation)
    (newline)
    (display args)
    (newline)
    (car #f)))

(define pretty-print write)

(define (memp proc ls)
  (cond ((null? ls) #f)
        ((pair? ls) (if (proc (car ls))
                        ls
                        (memp proc (cdr ls))))
        (else (assertion-violation 'memp "Invalid argument" ls))))

(define (assp pred lst)
  (cond ((atom? lst) #f)
	((pred       (caar lst)) (car lst))
	(else        (assp pred  (cdr lst)))))

(define (for-all proc l . ls)
  (or (null? l)
      (and (apply proc (car l) (map car ls))
           (apply for-all proc (cdr l) (map cdr ls)))))
(define andmap for-all)

(define (exists proc l . ls)
  (and (not (null? l))
       (or (apply proc (car l) (map car ls))
	   (apply exists proc (cdr l) (map cdr ls)))))
(define ormap exists)

(define cons* list*)

(define (fold-left f zero lst)
  (if (null? lst) zero
      (fold-left f (f zero (car lst)) (cdr lst))))

(define fold-right foldr)

(define (partition pred lst)
  (let ((s (separate pred lst)))
    (values (car s) (cdr s))))

(define (dynamic-wind before thunk after)
  (before)
  (unwind-protect (thunk)
		  (after)))

(let ((*properties* (table)))
  (set! putprop
	(lambda (sym key val)
	  (let ((sp (get *properties* sym #f)))
	    (if (not sp)
		(let ((t (table)))
		  (put! *properties* sym t)
		  (set! sp t)))
	    (put! sp key val))))

  (set! getprop
	(lambda (sym key)
	  (let ((sp (get *properties* sym #f)))
	    (and sp (get sp key #f)))))

  (set! remprop
	(lambda (sym key)
	  (let ((sp (get *properties* sym #f)))
	    (and sp (has? sp key) (del! sp key))))))