ikarus/benchmarks.larceny/prefix/prefix-gambit.scm

183 lines
6.4 KiB
Scheme

;INSERTCODE
;------------------------------------------------------------------------------
(define (run-bench name count ok? run)
(let loop ((i count) (result '(undefined)))
(if (< 0 i)
(loop (- i 1) (run))
result)))
(define (run-benchmark name count ok? run-maker . args)
(newline)
(let* ((run (apply run-maker args))
(result (time (run-bench name count ok? run))))
(if (not (ok? result))
(begin
(display "*** wrong result ***")
(newline)
(display "*** got: ")
(write result)
(newline))))
(exit 0))
(define (fatal-error . args)
(for-each display args)
(newline)
(exit 1))
(define (call-with-output-file/truncate filename proc)
(call-with-output-file filename proc))
;------------------------------------------------------------------------------
; Macros...
(##define-macro (def-macro form . body)
`(##define-macro ,form (let () ,@body)))
(if-fixflo
(begin
; Specialize fixnum and flonum arithmetic.
;; This code should be used when f64vectors are available.
;(def-macro (FLOATvector-const . lst) `',(list->f64vector lst))
;(def-macro (FLOATvector? x) `(f64vector? ,x))
;(def-macro (FLOATvector . lst) `(f64vector ,@lst))
;(def-macro (FLOATmake-vector n . init) `(make-f64vector ,n ,@init))
;(def-macro (FLOATvector-ref v i) `(f64vector-ref ,v ,i))
;(def-macro (FLOATvector-set! v i x) `(f64vector-set! ,v ,i ,x))
;(def-macro (FLOATvector-length v) `(f64vector-length ,v))
;
;(def-macro (nuc-const . lst)
; `',(list->vector
; (map (lambda (x)
; (if (vector? x)
; (list->f64vector (vector->list x))
; x))
; lst)))
(def-macro (FLOATvector-const . lst) `',(list->vector lst))
(def-macro (FLOATvector? x) `(vector? ,x))
(def-macro (FLOATvector . lst) `(vector ,@lst))
(def-macro (FLOATmake-vector n . init) `(make-vector ,n ,@init))
(def-macro (FLOATvector-ref v i) `(vector-ref ,v ,i))
(def-macro (FLOATvector-set! v i x) `(vector-set! ,v ,i ,x))
(def-macro (FLOATvector-length v) `(vector-length ,v))
(def-macro (nuc-const . lst)
`',(list->vector lst))
(def-macro (FLOAT+ . lst) `(fl+ ,@lst))
(def-macro (FLOAT- . lst) `(fl- ,@lst))
(def-macro (FLOAT* . lst) `(fl* ,@lst))
(def-macro (FLOAT/ . lst) `(fl/ ,@lst))
(def-macro (FLOAT= . lst) `(fl= ,@lst))
(def-macro (FLOAT< . lst) `(fl< ,@lst))
(def-macro (FLOAT<= . lst) `(fl<= ,@lst))
(def-macro (FLOAT> . lst) `(fl> ,@lst))
(def-macro (FLOAT>= . lst) `(fl>= ,@lst))
(def-macro (FLOATnegative? . lst) `(flnegative? ,@lst))
(def-macro (FLOATpositive? . lst) `(flpositive? ,@lst))
(def-macro (FLOATzero? . lst) `(flzero? ,@lst))
(def-macro (FLOATabs . lst) `(flabs ,@lst))
(def-macro (FLOATsin . lst) `(flsin ,@lst))
(def-macro (FLOATcos . lst) `(flcos ,@lst))
(def-macro (FLOATatan . lst) `(flatan ,@lst))
(def-macro (FLOATsqrt . lst) `(flsqrt ,@lst))
(def-macro (FLOATmin . lst) `(flmin ,@lst))
(def-macro (FLOATmax . lst) `(flmax ,@lst))
(def-macro (FLOATround . lst) `(flround ,@lst))
(def-macro (FLOATinexact->exact . lst) `(inexact->exact ,@lst))
(define (GENERIC+ x y) (+ x y))
(define (GENERIC- x y) (- x y))
(define (GENERIC* x y) (* x y))
(define (GENERIC/ x y) (/ x y))
(define (GENERICquotient x y) (quotient x y))
(define (GENERICremainder x y) (remainder x y))
(define (GENERICmodulo x y) (modulo x y))
(define (GENERIC= x y) (= x y))
(define (GENERIC< x y) (< x y))
(define (GENERIC<= x y) (<= x y))
(define (GENERIC> x y) (> x y))
(define (GENERIC>= x y) (>= x y))
(define (GENERICexpt x y) (expt x y))
(def-macro (+ . lst) `(fxwrap+ ,@lst))
(def-macro (- . lst) `(fxwrap- ,@lst))
(def-macro (* . lst) `(fxwrap* ,@lst))
(def-macro (quotient . lst) `(fxwrapquotient ,@lst))
(def-macro (modulo . lst) `(fxmodulo ,@lst))
(def-macro (remainder . lst) `(fxremainder ,@lst))
(def-macro (= . lst) `(fx= ,@lst))
(def-macro (< . lst) `(fx< ,@lst))
(def-macro (<= . lst) `(fx<= ,@lst))
(def-macro (> . lst) `(fx> ,@lst))
(def-macro (>= . lst) `(fx>= ,@lst))
(def-macro (negative? . lst) `(fxnegative? ,@lst))
(def-macro (positive? . lst) `(fxpositive? ,@lst))
(def-macro (zero? . lst) `(fxzero? ,@lst))
(def-macro (odd? . lst) `(fxodd? ,@lst))
(def-macro (even? . lst) `(fxeven? ,@lst))
(def-macro (bitwise-or . lst) `(fxior ,@lst))
(def-macro (bitwise-and . lst) `(fxand ,@lst))
(def-macro (bitwise-not . lst) `(fxnot ,@lst))
)
(begin
; Don't specialize fixnum and flonum arithmetic.
(def-macro (FLOATvector-const . lst) `',(list->vector lst))
(def-macro (FLOATvector? x) `(vector? ,x))
(def-macro (FLOATvector . lst) `(vector ,@lst))
(def-macro (FLOATmake-vector n . init) `(make-vector ,n ,@init))
(def-macro (FLOATvector-ref v i) `(vector-ref ,v ,i))
(def-macro (FLOATvector-set! v i x) `(vector-set! ,v ,i ,x))
(def-macro (FLOATvector-length v) `(vector-length ,v))
(def-macro (nuc-const . lst)
`',(list->vector lst))
(def-macro (FLOAT+ . lst) `(+ ,@lst))
(def-macro (FLOAT- . lst) `(- ,@lst))
(def-macro (FLOAT* . lst) `(* ,@lst))
(def-macro (FLOAT/ . lst) `(/ ,@lst))
(def-macro (FLOAT= . lst) `(= ,@lst))
(def-macro (FLOAT< . lst) `(< ,@lst))
(def-macro (FLOAT<= . lst) `(<= ,@lst))
(def-macro (FLOAT> . lst) `(> ,@lst))
(def-macro (FLOAT>= . lst) `(>= ,@lst))
(def-macro (FLOATnegative? . lst) `(negative? ,@lst))
(def-macro (FLOATpositive? . lst) `(positive? ,@lst))
(def-macro (FLOATzero? . lst) `(zero? ,@lst))
(def-macro (FLOATabs . lst) `(abs ,@lst))
(def-macro (FLOATsin . lst) `(sin ,@lst))
(def-macro (FLOATcos . lst) `(cos ,@lst))
(def-macro (FLOATatan . lst) `(atan ,@lst))
(def-macro (FLOATsqrt . lst) `(sqrt ,@lst))
(def-macro (FLOATmin . lst) `(min ,@lst))
(def-macro (FLOATmax . lst) `(max ,@lst))
(def-macro (FLOATround . lst) `(round ,@lst))
(def-macro (FLOATinexact->exact . lst) `(inexact->exact ,@lst))
(def-macro (GENERIC+ . lst) `(+ ,@lst))
(def-macro (GENERIC- . lst) `(- ,@lst))
(def-macro (GENERIC* . lst) `(* ,@lst))
(def-macro (GENERIC/ . lst) `(/ ,@lst))
(def-macro (GENERICquotient . lst) `(quotient ,@lst))
(def-macro (GENERICremainder . lst) `(remainder ,@lst))
(def-macro (GENERICmodulo . lst) `(modulo ,@lst))
(def-macro (GENERIC= . lst) `(= ,@lst))
(def-macro (GENERIC< . lst) `(< ,@lst))
(def-macro (GENERIC<= . lst) `(<= ,@lst))
(def-macro (GENERIC> . lst) `(> ,@lst))
(def-macro (GENERIC>= . lst) `(>= ,@lst))
(def-macro (GENERICexpt . lst) `(expt ,@lst))
)
)
;------------------------------------------------------------------------------