ikarus/src/ikarus.fixnums.ss


(library (ikarus fixnums)
  (export fxzero? fxadd1 fxsub1 fxlognot fx+ fx- fx* fxquotient
          fxremainder fxmodulo fxlogor fxlogand fxlogxor fxsll fxsra
          fx= fx< fx<= fx> fx>= 
          fx=? fx<? fx<=? fx>? fx>=? 
          fxior fxand fxxor fxnot
          fxpositive? fxnegative?
          fxeven? fxodd?
          fixnum->string 
          fxarithmetic-shift-left fxarithmetic-shift-right fxarithmetic-shift
          error@fx+)
  (import 
    (ikarus system $fx)
    (ikarus system $chars)
    (ikarus system $pairs)
    (ikarus system $strings)
    (prefix (only (ikarus) fx+) sys:)
    (except (ikarus) fxzero? fxadd1 fxsub1 fxlognot fx+ fx- fx*
            fxquotient fxremainder fxmodulo fxlogor fxlogand
            fxlogxor fxsll fxsra fx= fx< fx<= fx> fx>=
            fx=? fx<? fx<=? fx>? fx>=? 
            fxior fxand fxxor fxnot
            fxpositive? fxnegative?
            fxeven? fxodd?
            fxarithmetic-shift-left fxarithmetic-shift-right fxarithmetic-shift
            fixnum->string))

  (define fxzero?
    (lambda (x)
      (cond
        [(eq? x 0) #t]
        [(fixnum? x) #f]
        [else (error 'fxzero? "~s is not a fixnum" x)])))
  
  (define fxadd1
    (lambda (n)
      (if (fixnum? n)
          ($fxadd1 n)
          (error 'fxadd1 "~s is not a fixnum" n))))
  
  (define fxsub1 
    (lambda (n) 
      (if (fixnum? n)
          ($fxsub1 n)
          (error 'fxsub1 "~s is not a fixnum" n))))

  (define fxlognot 
    (lambda (x)
      (unless (fixnum? x) 
        (error 'fxlognot "~s is not a fixnum" x))
      ($fxlognot x)))

  (define fxnot 
    (lambda (x)
      (unless (fixnum? x) 
        (error 'fxnot "~s is not a fixnum" x))
      ($fxlognot x)))
  
  (define error@fx+
    (lambda (x y) 
      (if (fixnum? x) 
          (if (fixnum? y) 
              (error 'fx+ "overflow when adding ~s and ~s" x y)
              (error 'fx+ "~s is not a fixnum" y))
          (error 'fx+ "~s is not a fixnum" x))))

  (define fx+ 
    (lambda (x y) 
      (sys:fx+ x y)))

  (define fx-
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fx- "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fx- "~s is not a fixnum" y))
      ($fx- x y)))

  (define fx*
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fx* "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fx* "~s is not a fixnum" y))
      ($fx* x y)))
  
  (define false-loop
    (lambda (who ls)
      (if (pair? ls) 
          (if (fixnum? ($car ls)) 
              (false-loop who ($cdr ls))
              (error who "~s is not a fixnum" ($car ls)))
          #f)))

  (define-syntax fxcmp 
    (syntax-rules ()
      [(_ who $op)
       (case-lambda
         [(x y) 
          (unless (fixnum? x)
            (error 'who "~s is not a fixnum" x))
          (unless (fixnum? y)
            (error 'who "~s is not a fixnum" y))
          ($op x y)]
         [(x y . ls)
          (if (fixnum? x)
              (if (fixnum? y) 
                  (if ($op x y) 
                      (let f ([x y] [ls ls]) 
                        (if (pair? ls) 
                            (let ([y ($car ls)] [ls ($cdr ls)])
                              (if (fixnum? y) 
                                  (if ($op x y) 
                                      (f y ls)
                                      (false-loop 'who ls))
                                  (error 'who "~s is not a fixnum" y)))
                            #t))
                      (false-loop 'who ls))
                  (error 'who "~s is not a fixnum" y))
              (error 'who "~s is not a fixnum" x))]
         [(x) 
          (if (fixnum? x) #t (error 'who "~s is not a fixnum" x))])]))
  
  (define fx=   (fxcmp fx= $fx=))
  (define fx<   (fxcmp fx< $fx<))
  (define fx<=  (fxcmp fx<= $fx<=))
  (define fx>   (fxcmp fx> $fx>))
  (define fx>=  (fxcmp fx>= $fx>=))
  (define fx=?  (fxcmp fx=? $fx=))
  (define fx<?  (fxcmp fx<? $fx<))
  (define fx<=? (fxcmp fx<=? $fx<=))
  (define fx>?  (fxcmp fx>? $fx>))
  (define fx>=? (fxcmp fx>=? $fx>=))


  (define fxquotient
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fxquotient "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fxquotient "~s is not a fixnum" y))
      (when ($fxzero? y)
        (error 'fxquotient "zero dividend ~s" y))
      ($fxquotient x y))) 
  
  (define fxremainder
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fxremainder "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fxremainder "~s is not a fixnum" y))
      (when ($fxzero? y)
        (error 'fxremainder "zero dividend ~s" y))
      (let ([q ($fxquotient x y)])
        ($fx- x ($fx* q y)))))
   
  (define fxmodulo
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fxmodulo "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fxmodulo "~s is not a fixnum" y))
      (when ($fxzero? y)
        (error 'fxmodulo "zero dividend ~s" y))
      ($fxmodulo x y)))

  (define-syntax fxbitop
    (syntax-rules ()
      [(_ who $op identity)
       (case-lambda 
         [(x y) 
          (if (fixnum? x) 
              (if (fixnum? y) 
                  ($op x y)
                  (error 'who "~s is not a fixnum" y))
              (error 'who "~s is not a fixnum" x))]
         [(x y . ls) 
          (if (fixnum? x)
              (if (fixnum? y) 
                  (let f ([a ($op x y)] [ls ls])
                    (cond
                      [(pair? ls) 
                       (let ([b ($car ls)])
                         (if (fixnum? b) 
                             (f ($op a b) ($cdr ls))
                             (error 'who "~s is not a fixnum" b)))]
                      [else a]))
                  (error 'who "~s is not a fixnum" y))
              (error 'who "~s is not a fixnum" x))]
         [(x) (if (fixnum? x) x (error 'who "~s is not a fixnum" x))]
         [()   identity])]))

  (define fxlogor (fxbitop fxlogor $fxlogor 0))
  (define fxlogand (fxbitop fxlogand $fxlogand -1))
  (define fxlogxor (fxbitop fxlogxor $fxlogxor 0))
  (define fxior (fxbitop fxior $fxlogor 0))
  (define fxand (fxbitop fxand $fxlogand -1))
  (define fxxor (fxbitop fxxor $fxlogxor 0))
  
  (define fxsra
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fxsra "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fxsra "~s is not a fixnum" y))
      (unless ($fx>= y 0)
        (error 'fxsra "negative shift not allowed, got ~s" y))
      ($fxsra x y)))
   

  (define fxarithmetic-shift-right
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fxarithmetic-shift-right "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fxarithmetic-shift-right "~s is not a fixnum" y))
      (unless ($fx>= y 0)
        (error 'fxarithmetic-shift-right "negative shift not allowed, got ~s" y))
      ($fxsra x y)))

  (define fxsll
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fxsll "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fxsll "~s is not a fixnum" y))
      (unless ($fx>= y 0)
        (error 'fxsll "negative shift not allowed, got ~s" y))
      ($fxsll x y))) 


  (define fxarithmetic-shift-left
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fxarithmetic-shift-left "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fxarithmetic-shift-left "~s is not a fixnum" y))
      (unless ($fx>= y 0)
        (error 'fxarithmetic-shift-left "negative shift not allowed, got ~s" y))
      ($fxsll x y)))

  (define fxarithmetic-shift
    (lambda (x y) 
      (unless (fixnum? x)
        (error 'fxarithmetic-shift "~s is not a fixnum" x))
      (unless (fixnum? y)
        (error 'fxarithmetic-shift "~s is not a fixnum" y))
      (if ($fx>= y 0)
          ($fxsll x y)
          ($fxsra x ($fx- 0 y)))))

  (define (fxpositive? x)
    (if (fixnum? x) 
        ($fx> x 0)
        (error 'fxpositive? "~s is not a fixnum" x)))

  (define (fxnegative? x)
    (if (fixnum? x) 
        ($fx< x 0)
        (error 'fxnegative? "~s is not a fixnum" x)))
  
  (define (fxeven? x)
    (if (fixnum? x) 
        ($fxzero? ($fxlogand x 1))
        (error 'fxeven? "~s is not a fixnum" x)))

  (define (fxodd? x)
    (if (fixnum? x) 
        (not ($fxzero? ($fxlogand x 1)))
        (error 'fxodd? "~s is not a fixnum" x)))

  (module (fixnum->string)
    (define f
      (lambda (n i j)
        (cond
          [($fxzero? n) 
           (values (make-string i) j)]
          [else
           (let ([q ($fxquotient n 10)])
             (call-with-values
               (lambda () (f q ($fxadd1 i) j))
               (lambda (str j)
                 (let ([r ($fx- n ($fx* q 10))])
                   (string-set! str j
                      ($fixnum->char ($fx+ r ($char->fixnum #\0))))
                   (values str ($fxadd1 j))))))])))
    (define fixnum->string
      (lambda (x)
        (unless (fixnum? x) (error 'fixnum->string "~s is not a fixnum" x))
        (cond
          [($fxzero? x) "0"]
          [($fx> x 0) 
           (call-with-values
             (lambda () (f x 0 0))
             (lambda (str j) str))]
          ;;; FIXME: DON'T HARDCODE CONSTANTS
          [($fx= x -536870912) "-536870912"]
          [else
           (call-with-values
             (lambda () (f ($fx- 0 x) 1 1))
             (lambda (str j)
               ($string-set! str 0 #\-)
               str))]))))

  )
* moved (ikarus fixnums) to its own file ikarus.fixnums.ss 2007-05-05 04:20:42 -04:00
			`(library (ikarus fixnums)`
* moved fxquotient, fxremainder, and fxmodulo to the fixnums library 2007-05-05 04:33:58 -04:00			`(export fxzero? fxadd1 fxsub1 fxlognot fx+ fx- fx* fxquotient`
* moved fx=, fx<, fx<=, fx>, and fx>= to the fixnums library. 2007-05-05 04:39:25 -04:00			`fxremainder fxmodulo fxlogor fxlogand fxlogxor fxsll fxsra`
* Added fx=?, fx<?, fx<=?, fx>?, and fx>=? 2007-09-13 16:39:13 -04:00			`fx= fx< fx<= fx> fx>=`
			`fx=? fx<? fx<=? fx>? fx>=?`
* fx+ now signals an error on overflow properly. 2007-09-13 19:25:47 -04:00			`fxior fxand fxxor fxnot`
			`fxpositive? fxnegative?`
			`fxeven? fxodd?`
			`fixnum->string`
* Added fxarithmetic-shift* procedures. * Added trace examples in ikarus.trace.h * slatex benchmark now compiles properly. 2007-09-15 00:14:47 -04:00			`fxarithmetic-shift-left fxarithmetic-shift-right fxarithmetic-shift`
* fx+ now signals an error on overflow properly. 2007-09-13 19:25:47 -04:00			`error@fx+)`
* moved (ikarus fixnums) to its own file ikarus.fixnums.ss 2007-05-05 04:20:42 -04:00			`(import`
* removed import of (scheme) from ikarus.fixnums.ss 2007-05-06 18:13:57 -04:00			`(ikarus system $fx)`
			`(ikarus system $chars)`
* Added fx=?, fx<?, fx<=?, fx>?, and fx>=? 2007-09-13 16:39:13 -04:00			`(ikarus system $pairs)`
* removed import of (scheme) from ikarus.fixnums.ss 2007-05-06 18:13:57 -04:00			`(ikarus system $strings)`
* fx+ now signals an error on overflow properly. 2007-09-13 19:25:47 -04:00			`(prefix (only (ikarus) fx+) sys:)`
* moved fxquotient, fxremainder, and fxmodulo to the fixnums library 2007-05-05 04:33:58 -04:00			`(except (ikarus) fxzero? fxadd1 fxsub1 fxlognot fx+ fx- fx*`
* moved fxlogor, fxlogand, fxlogxor, fxsll, and fxsra to the fixnums library 2007-05-05 04:36:52 -04:00			`fxquotient fxremainder fxmodulo fxlogor fxlogand`
* moved fixnum->string to ikarus.fixnums 2007-05-05 06:26:09 -04:00			`fxlogxor fxsll fxsra fx= fx< fx<= fx> fx>=`
* Added fx=?, fx<?, fx<=?, fx>?, and fx>=? 2007-09-13 16:39:13 -04:00			`fx=? fx<? fx<=? fx>? fx>=?`
* fx+ now signals an error on overflow properly. 2007-09-13 19:25:47 -04:00			`fxior fxand fxxor fxnot`
			`fxpositive? fxnegative?`
			`fxeven? fxodd?`
* Added fxarithmetic-shift* procedures. * Added trace examples in ikarus.trace.h * slatex benchmark now compiles properly. 2007-09-15 00:14:47 -04:00			`fxarithmetic-shift-left fxarithmetic-shift-right fxarithmetic-shift`
* moved fixnum->string to ikarus.fixnums 2007-05-05 06:26:09 -04:00			`fixnum->string))`
* moved (ikarus fixnums) to its own file ikarus.fixnums.ss 2007-05-05 04:20:42 -04:00
			`(define fxzero?`
			`(lambda (x)`
			`(cond`
			`[(eq? x 0) #t]`
			`[(fixnum? x) #f]`
			`[else (error 'fxzero? "~s is not a fixnum" x)])))`

			`(define fxadd1`
			`(lambda (n)`
			`(if (fixnum? n)`
			`($fxadd1 n)`
			`(error 'fxadd1 "~s is not a fixnum" n))))`

			`(define fxsub1`
			`(lambda (n)`
			`(if (fixnum? n)`
			`($fxsub1 n)`
			`(error 'fxsub1 "~s is not a fixnum" n))))`

* moved fxlognot to ikarus.fixnums 2007-05-05 04:21:48 -04:00			`(define fxlognot`
			`(lambda (x)`
			`(unless (fixnum? x)`
			`(error 'fxlognot "~s is not a fixnum" x))`
			`($fxlognot x)))`
* moved fx+, fx-, and fx* to ikarus.fixnums 2007-05-05 04:31:53 -04:00
* fx+ now signals an error on overflow properly. 2007-09-13 19:25:47 -04:00			`(define fxnot`
			`(lambda (x)`
			`(unless (fixnum? x)`
			`(error 'fxnot "~s is not a fixnum" x))`
			`($fxlognot x)))`

			`(define error@fx+`
			`(lambda (x y)`
			`(if (fixnum? x)`
			`(if (fixnum? y)`
			`(error 'fx+ "overflow when adding ~s and ~s" x y)`
			`(error 'fx+ "~s is not a fixnum" y))`
			`(error 'fx+ "~s is not a fixnum" x))))`

* moved fx+, fx-, and fx* to ikarus.fixnums 2007-05-05 04:31:53 -04:00			`(define fx+`
			`(lambda (x y)`
* fx+ now signals an error on overflow properly. 2007-09-13 19:25:47 -04:00			`(sys:fx+ x y)))`
* moved fx+, fx-, and fx* to ikarus.fixnums 2007-05-05 04:31:53 -04:00
			`(define fx-`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fx- "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fx- "~s is not a fixnum" y))`
			`($fx- x y)))`

			`(define fx*`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fx* "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fx* "~s is not a fixnum" y))`
			`($fx* x y)))`
* moved fx=, fx<, fx<=, fx>, and fx>= to the fixnums library. 2007-05-05 04:39:25 -04:00
* Added fx=?, fx<?, fx<=?, fx>?, and fx>=? 2007-09-13 16:39:13 -04:00			`(define false-loop`
			`(lambda (who ls)`
			`(if (pair? ls)`
			`(if (fixnum? ($car ls))`
			`(false-loop who ($cdr ls))`
			`(error who "~s is not a fixnum" ($car ls)))`
			`#f)))`

			`(define-syntax fxcmp`
			`(syntax-rules ()`
			`[(_ who $op)`
			`(case-lambda`
			`[(x y)`
			`(unless (fixnum? x)`
			`(error 'who "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'who "~s is not a fixnum" y))`
			`($op x y)]`
			`[(x y . ls)`
			`(if (fixnum? x)`
			`(if (fixnum? y)`
			`(if ($op x y)`
			`(let f ([x y] [ls ls])`
			`(if (pair? ls)`
			`(let ([y ($car ls)] [ls ($cdr ls)])`
			`(if (fixnum? y)`
			`(if ($op x y)`
			`(f y ls)`
			`(false-loop 'who ls))`
			`(error 'who "~s is not a fixnum" y)))`
			`#t))`
			`(false-loop 'who ls))`
			`(error 'who "~s is not a fixnum" y))`
			`(error 'who "~s is not a fixnum" x))]`
			`[(x)`
			`(if (fixnum? x) #t (error 'who "~s is not a fixnum" x))])]))`
* moved fx=, fx<, fx<=, fx>, and fx>= to the fixnums library. 2007-05-05 04:39:25 -04:00
* Added fx=?, fx<?, fx<=?, fx>?, and fx>=? 2007-09-13 16:39:13 -04:00			`(define fx= (fxcmp fx= $fx=))`
			`(define fx< (fxcmp fx< $fx<))`
			`(define fx<= (fxcmp fx<= $fx<=))`
			`(define fx> (fxcmp fx> $fx>))`
			`(define fx>= (fxcmp fx>= $fx>=))`
			`(define fx=? (fxcmp fx=? $fx=))`
			`(define fx<? (fxcmp fx<? $fx<))`
			`(define fx<=? (fxcmp fx<=? $fx<=))`
			`(define fx>? (fxcmp fx>? $fx>))`
			`(define fx>=? (fxcmp fx>=? $fx>=))`

* moved fx=, fx<, fx<=, fx>, and fx>= to the fixnums library. 2007-05-05 04:39:25 -04:00
* moved fxquotient, fxremainder, and fxmodulo to the fixnums library 2007-05-05 04:33:58 -04:00			`(define fxquotient`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fxquotient "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fxquotient "~s is not a fixnum" y))`
			`(when ($fxzero? y)`
			`(error 'fxquotient "zero dividend ~s" y))`
			`($fxquotient x y)))`

			`(define fxremainder`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fxremainder "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fxremainder "~s is not a fixnum" y))`
			`(when ($fxzero? y)`
			`(error 'fxremainder "zero dividend ~s" y))`
			`(let ([q ($fxquotient x y)])`
			`($fx- x ($fx* q y)))))`

			`(define fxmodulo`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fxmodulo "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fxmodulo "~s is not a fixnum" y))`
			`(when ($fxzero? y)`
			`(error 'fxmodulo "zero dividend ~s" y))`
			`($fxmodulo x y)))`

* fx+ now signals an error on overflow properly. 2007-09-13 19:25:47 -04:00			`(define-syntax fxbitop`
			`(syntax-rules ()`
			`[(_ who $op identity)`
			`(case-lambda`
			`[(x y)`
			`(if (fixnum? x)`
			`(if (fixnum? y)`
			`($op x y)`
			`(error 'who "~s is not a fixnum" y))`
			`(error 'who "~s is not a fixnum" x))]`
			`[(x y . ls)`
			`(if (fixnum? x)`
			`(if (fixnum? y)`
			`(let f ([a ($op x y)] [ls ls])`
			`(cond`
			`[(pair? ls)`
			`(let ([b ($car ls)])`
			`(if (fixnum? b)`
			`(f ($op a b) ($cdr ls))`
			`(error 'who "~s is not a fixnum" b)))]`
			`[else a]))`
			`(error 'who "~s is not a fixnum" y))`
			`(error 'who "~s is not a fixnum" x))]`
			`[(x) (if (fixnum? x) x (error 'who "~s is not a fixnum" x))]`
			`[() identity])]))`

			`(define fxlogor (fxbitop fxlogor $fxlogor 0))`
			`(define fxlogand (fxbitop fxlogand $fxlogand -1))`
			`(define fxlogxor (fxbitop fxlogxor $fxlogxor 0))`
			`(define fxior (fxbitop fxior $fxlogor 0))`
			`(define fxand (fxbitop fxand $fxlogand -1))`
			`(define fxxor (fxbitop fxxor $fxlogxor 0))`
* moved fxlogor, fxlogand, fxlogxor, fxsll, and fxsra to the fixnums library 2007-05-05 04:36:52 -04:00
			`(define fxsra`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fxsra "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fxsra "~s is not a fixnum" y))`
			`(unless ($fx>= y 0)`
			`(error 'fxsra "negative shift not allowed, got ~s" y))`
			`($fxsra x y)))`

* Added fxarithmetic-shift* procedures. * Added trace examples in ikarus.trace.h * slatex benchmark now compiles properly. 2007-09-15 00:14:47 -04:00
			`(define fxarithmetic-shift-right`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fxarithmetic-shift-right "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fxarithmetic-shift-right "~s is not a fixnum" y))`
			`(unless ($fx>= y 0)`
			`(error 'fxarithmetic-shift-right "negative shift not allowed, got ~s" y))`
			`($fxsra x y)))`

* moved fxlogor, fxlogand, fxlogxor, fxsll, and fxsra to the fixnums library 2007-05-05 04:36:52 -04:00			`(define fxsll`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fxsll "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fxsll "~s is not a fixnum" y))`
			`(unless ($fx>= y 0)`
			`(error 'fxsll "negative shift not allowed, got ~s" y))`
			`($fxsll x y)))`
* moved fx+, fx-, and fx* to ikarus.fixnums 2007-05-05 04:31:53 -04:00
* Added fxarithmetic-shift* procedures. * Added trace examples in ikarus.trace.h * slatex benchmark now compiles properly. 2007-09-15 00:14:47 -04:00
			`(define fxarithmetic-shift-left`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fxarithmetic-shift-left "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fxarithmetic-shift-left "~s is not a fixnum" y))`
			`(unless ($fx>= y 0)`
			`(error 'fxarithmetic-shift-left "negative shift not allowed, got ~s" y))`
			`($fxsll x y)))`

			`(define fxarithmetic-shift`
			`(lambda (x y)`
			`(unless (fixnum? x)`
			`(error 'fxarithmetic-shift "~s is not a fixnum" x))`
			`(unless (fixnum? y)`
			`(error 'fxarithmetic-shift "~s is not a fixnum" y))`
			`(if ($fx>= y 0)`
			`($fxsll x y)`
			`($fxsra x ($fx- 0 y)))))`

* fx+ now signals an error on overflow properly. 2007-09-13 19:25:47 -04:00			`(define (fxpositive? x)`
			`(if (fixnum? x)`
			`($fx> x 0)`
			`(error 'fxpositive? "~s is not a fixnum" x)))`

			`(define (fxnegative? x)`
			`(if (fixnum? x)`
			`($fx< x 0)`
			`(error 'fxnegative? "~s is not a fixnum" x)))`

			`(define (fxeven? x)`
			`(if (fixnum? x)`
			`($fxzero? ($fxlogand x 1))`
			`(error 'fxeven? "~s is not a fixnum" x)))`

			`(define (fxodd? x)`
			`(if (fixnum? x)`
			`(not ($fxzero? ($fxlogand x 1)))`
			`(error 'fxodd? "~s is not a fixnum" x)))`

* moved fixnum->string to ikarus.fixnums 2007-05-05 06:26:09 -04:00			`(module (fixnum->string)`
			`(define f`
			`(lambda (n i j)`
			`(cond`
			`[($fxzero? n)`
			`(values (make-string i) j)]`
			`[else`
			`(let ([q ($fxquotient n 10)])`
			`(call-with-values`
			`(lambda () (f q ($fxadd1 i) j))`
			`(lambda (str j)`
			`(let ([r ($fx- n ($fx* q 10))])`
			`(string-set! str j`
			`($fixnum->char ($fx+ r ($char->fixnum #\0))))`
			`(values str ($fxadd1 j))))))])))`
			`(define fixnum->string`
			`(lambda (x)`
			`(unless (fixnum? x) (error 'fixnum->string "~s is not a fixnum" x))`
			`(cond`
			`[($fxzero? x) "0"]`
			`[($fx> x 0)`
			`(call-with-values`
			`(lambda () (f x 0 0))`
			`(lambda (str j) str))]`
			`;;; FIXME: DON'T HARDCODE CONSTANTS`
			`[($fx= x -536870912) "-536870912"]`
			`[else`
			`(call-with-values`
			`(lambda () (f ($fx- 0 x) 1 1))`
			`(lambda (str j)`
			`($string-set! str 0 #\-)`
			`str))]))))`

* moved (ikarus fixnums) to its own file ikarus.fixnums.ss 2007-05-05 04:20:42 -04:00			`)`