benchmarks/ra-list.ss
#lang scheme
(require (planet cce/scheme:6:3/planet)
         (prefix-in ra: (this-package-in main))
         (prefix-in ls: scheme))

(provide run-ra-list-benchmark)
;; Benchmarks of operations against list counterpart.

(define (do str t1 t2)
  (printf "~a~n" str)
  (printf "ra: ")
  (collect-garbage)
  (void (time (t1)))
  (printf "ls: ")
  (collect-garbage)
  (void (time (t2)))
  (newline))

(define (run-ra-list-benchmark)
  (printf "RAList v. List benchmark~n")
  (printf "========================~n")
  (display (this-package-version-symbol)) (newline)
  (newline)
  (display '(define ls1 (build-list 1000000 (lambda (i) i)))) (newline)
  (display '(define ls2 (build-list 1000000 (lambda (i) i)))) (newline)
  (newline)
  
  (let ()
    (define ra:ls1 (ra:build-list 1000000 (lambda (i) i)))
    (define ra:ls2 (ra:build-list 1000000 (lambda (i) i)))
    (define ls:ls1 (ls:build-list 1000000 (lambda (i) i)))
    (define ls:ls2 (ls:build-list 1000000 (lambda (i) i)))
    
    (let ((i 1000000))
      (do `(for ((j (in-range 10)))
             (build-list ,i (lambda (i) i)))
        (lambda () (for ((j (in-range 10))) (ra:build-list i (lambda (i) i))))
        (lambda () (for ((j (in-range 10))) (ls:build-list i (lambda (i) i))))))
    
    (let ((i 10000000))
      (do `(build-list ,i (lambda (i) i))
        (lambda () (ra:build-list i (lambda (i) i)))
        (lambda () (ls:build-list i (lambda (i) i)))))
    
    (let ((i 1000000))
      (do `(for ((j (in-range 10)))
             (make-list ,i 'x))
        (lambda () (for ((j (in-range 10))) (ra:make-list i 'x)))
        (lambda () (for ((j (in-range 10))) (ls:make-list i 'x)))))
    
    (let ((i 10000000))
      (do `(make-list ,i 'x)
        (lambda () (ra:make-list i 'x))
        (lambda () (ls:make-list i 'x))))
    
    (do '(equal? ls1 ls2)
      (λ () (equal? ra:ls1 ra:ls2))
      (λ () (equal? ls:ls1 ls:ls2)))
    
    (do '(length ls)
      (λ () (ra:length ra:ls1))
      (λ () (ls:length ls:ls1)))
    
    (let ((i 10))
      (do `(for ((i (in-range ,i))) (map add1 ls))
        (λ () (for ((i (in-range i))) (ra:map add1 ra:ls1)))
        (λ () (for ((i (in-range i))) (ls:map add1 ls:ls1)))))
    
    (do '(foldl + 0 ls)
      (λ () (ra:foldl + 0 ra:ls1))
      (λ () (ls:foldl + 0 ls:ls1)))
    
    (do '(foldr + 0 ls)
      (λ () (ra:foldr + 0 ra:ls1))
      (λ () (ls:foldr + 0 ls:ls1)))
    
    (do '(for ((i (in-list ls))) i)
      (λ () (for ((i (ra:in-list ra:ls1))) i))
      (λ () (for ((i (ls:in-list ls:ls1))) i)))
    
    (let ((i 100000))
      (do `(for ((i (in-range ,i)))
             (list-ref ls 0))
        (λ () (for ((i (in-range i)))
                (ra:list-ref ra:ls1 0)))
        (λ () (for ((i (in-range i)))
                (ls:list-ref ls:ls1 0)))))
    
    (let ((i 100000))
      (do `(for ((i (in-range ,i)))
             (tenth ls))
        (λ () (for ((i (in-range i)))
                (ra:tenth ra:ls1)))
        (λ () (for ((i (in-range i)))
                (ls:tenth ls:ls1)))))
    
    (let ((i 1000))
      (do `(for ((i (in-range ,i)))
             (list-ref ls 999999))
        (λ () (for ((i (in-range i)))
                (ra:list-ref ra:ls1 999999)))
        (λ () (for ((i (in-range i)))
                (ls:list-ref ls:ls1 999999)))))
    
    (let ((i 1000))
      (do `(for ((i (in-range ,i)))
             (last ls))
        (λ () (for ((i (in-range i)))
                (ra:last ra:ls1)))
        (λ () (for ((i (in-range i)))
                (ls:last ls:ls1))))))
  )