293 lines
9.2 KiB
Scheme
293 lines
9.2 KiB
Scheme
; make label self-evaluating, but evaluating the lambda in the process
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;(defmacro labl (name f)
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; (list list ''labl (list 'quote name) f))
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(define-macro (labl name f)
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`(let (,name) (set! ,name ,f)))
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;(define (reverse lst)
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; ((label rev-help (lambda (lst result)
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; (if (null? lst) result
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; (rev-help (cdr lst) (cons (car lst) result)))))
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; lst ()))
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(define (append- . lsts)
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((label append-h
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(lambda (lsts)
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(cond ((null? lsts) ())
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((null? (cdr lsts)) (car lsts))
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(#t ((label append2 (lambda (l d)
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(if (null? l) d
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(cons (car l)
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(append2 (cdr l) d)))))
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(car lsts) (append-h (cdr lsts)))))))
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lsts))
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;(for-each display '(Hello | | world! "\n"))
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;(filter (lambda (x) (not (< x 0))) '(1 -1 -2 5 10 -8 0))
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(define (fib n) (if (< n 2) n (+ (fib (- n 1)) (fib (- n 2)))))
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;(displayln (time (fib 34)))
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;(dotimes (i 20000) (map-int (lambda (x) (list 'quote x)) 8))
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;(dotimes (i 40000) (append '(a b) '(1 2 3 4) () '(c) () '(5 6)))
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;(dotimes (i 80000) (list 1 2 3 4 5))
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;(set! a (map-int identity 10000))
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;(dotimes (i 200) (rfoldl cons () a))
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#|
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(define-macro (dotimes var . body)
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(let ((v (car var))
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(cnt (cadr var)))
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`(let ((,v 0))
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(while (< ,v ,cnt)
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(prog1
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,(cons 'begin body)
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(set! ,v (+ ,v 1)))))))
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(define (map-int f n)
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(if (<= n 0)
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()
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(let ((first (cons (f 0) ())))
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((label map-int-
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(lambda (acc i n)
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(if (= i n)
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first
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(begin (set-cdr! acc (cons (f i) ()))
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(map-int- (cdr acc) (+ i 1) n)))))
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first 1 n))))
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|#
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(define-macro (labl name fn)
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`((lambda (,name) (set! ,name ,fn)) ()))
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(define (square x) (* x x))
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(define (expt b p)
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(cond ((= p 0) 1)
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((= b 0) 0)
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((even? p) (square (expt b (div0 p 2))))
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(#t (* b (expt b (- p 1))))))
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(define (gcd a b)
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(cond ((= a 0) b)
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((= b 0) a)
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((< a b) (gcd a (- b a)))
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(#t (gcd b (- a b)))))
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; like eval-when-compile
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(define-macro (literal expr)
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(let ((v (eval expr)))
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(if (self-evaluating? v) v (list quote v))))
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(define (cardepth l)
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(if (atom? l) 0
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(+ 1 (cardepth (car l)))))
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(define (nestlist f zero n)
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(if (<= n 0) ()
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(cons zero (nestlist f (f zero) (- n 1)))))
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(define (mapl f . lsts)
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((label mapl-
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(lambda (lsts)
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(if (null? (car lsts)) ()
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(begin (apply f lsts) (mapl- (map cdr lsts))))))
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lsts))
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; test to see if a symbol begins with :
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(define (keywordp s)
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(and (>= s '|:|) (<= s '|:~|)))
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; swap the cars and cdrs of every cons in a structure
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(define (swapad c)
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(if (atom? c) c
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(set-cdr! c (K (swapad (car c))
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(set-car! c (swapad (cdr c)))))))
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(define (without x l)
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(filter (lambda (e) (not (eq e x))) l))
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(define (conscount c)
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(if (pair? c) (+ 1
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(conscount (car c))
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(conscount (cdr c)))
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0))
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; _ Welcome to
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; (_ _ _ |_ _ | . _ _ 2
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; | (-||||_(_)|__|_)|_)
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; ==================|==
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;[` _ ,_ |- | . _ 2
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;| (/_||||_()|_|_\|)
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; |
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(define-macro (while- test . forms)
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`((label -loop- (lambda ()
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(if ,test
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(begin ,@forms
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(-loop-))
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())))))
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; this would be a cool use of thunking to handle 'finally' clauses, but
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; this code doesn't work in the case where the user manually re-raises
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; inside a catch block. one way to handle it would be to replace all
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; their uses of 'raise' with '*_try_finally_raise_*' which calls the thunk.
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; (try expr
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; (catch (TypeError e) . exprs)
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; (catch (IOError e) . exprs)
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; (finally . exprs))
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(define-macro (try expr . forms)
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(let ((final (f-body (cdr (or (assq 'finally forms) '(())))))
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(body (foldr
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; create a function to check for and handle one exception
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; type, and pass off control to the next when no match
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(lambda (catc next)
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(let ((var (cadr (cadr catc)))
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(extype (caadr catc))
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(todo (f-body (cddr catc))))
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`(lambda (,var)
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(if (or (eq ,var ',extype)
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(and (pair? ,var)
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(eq (car ,var) ',extype)))
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,todo
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(,next ,var)))))
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; default function; no matches so re-raise
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'(lambda (e) (begin (*_try_finally_thunk_*) (raise e)))
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; make list of catch forms
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(filter (lambda (f) (eq (car f) 'catch)) forms))))
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`(let ((*_try_finally_thunk_* (lambda () ,final)))
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(prog1 (attempt ,expr ,body)
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(*_try_finally_thunk_*)))))
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(define Y
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(lambda (f)
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((lambda (h)
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(f (lambda (x) ((h h) x))))
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(lambda (h)
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(f (lambda (x) ((h h) x)))))))
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(define yfib
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(Y (lambda (fib)
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(lambda (n)
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(if (< n 2) n (+ (fib (- n 1)) (fib (- n 2))))))))
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;(defun tt () (time (dotimes (i 500000) (* #x1fffffff 1) )))
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;(tt)
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;(tt)
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;(tt)
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(define-macro (accumulate-while cnd what . body)
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(let ((acc (gensym)))
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`(let ((,acc (list ())))
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(cdr
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(prog1 ,acc
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(while ,cnd
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(begin (set! ,acc
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(cdr (set-cdr! ,acc (cons ,what ()))))
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,@body)))))))
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(define-macro (accumulate-for var lo hi what . body)
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(let ((acc (gensym)))
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`(let ((,acc (list ())))
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(cdr
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(prog1 ,acc
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(for ,lo ,hi
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(lambda (,var)
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(begin (set! ,acc
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(cdr (set-cdr! ,acc (cons ,what ()))))
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,@body))))))))
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(define (map-indexed f lst)
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(if (atom? lst) lst
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(let ((i 0))
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(accumulate-while (pair? lst) (f (car lst) i)
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(begin (set! lst (cdr lst))
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(set! i (1+ i)))))))
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(define (string.findall haystack needle . offs)
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(define (sub h n offs lst)
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(let ((i (string.find h n offs)))
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(if i
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(sub h n (string.inc h i) (cons i lst))
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(reverse! lst))))
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(sub haystack needle (if (null? offs) 0 (car offs)) ()))
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(let ((*profiles* (table)))
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(set! profile
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(lambda (s)
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(let ((f (top-level-value s)))
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(put! *profiles* s (cons 0 0))
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(set-top-level-value! s
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(lambda args
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(define tt (get *profiles* s))
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(define count (car tt))
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(define time (cdr tt))
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(define t0 (time.now))
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(define v (apply f args))
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(set-cdr! tt (+ time (- (time.now) t0)))
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(set-car! tt (+ count 1))
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v)))))
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(set! show-profiles
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(lambda ()
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(define pr (filter (lambda (x) (> (cadr x) 0))
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(table.pairs *profiles*)))
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(define width (+ 4
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(apply max
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(map (lambda (x)
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(length (string x)))
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(cons 'Function
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(map car pr))))))
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(display (string.rpad "Function" width #\ ))
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(display "#Calls Time (seconds)")
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(newline)
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(display (string.rpad "--------" width #\ ))
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(display "------ --------------")
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(newline)
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(for-each
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(lambda (p)
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(display (string.rpad (string (caddr p)) width #\ ))
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(display (string.rpad (string (cadr p)) 11 #\ ))
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(display (car p))
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(newline))
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(simple-sort (map (lambda (l) (reverse (to-proper l)))
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pr)))))
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(set! clear-profiles
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(lambda ()
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(for-each (lambda (k)
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(put! *profiles* k (cons 0 0)))
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(table.keys *profiles*)))))
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#;(for-each profile
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'(emit encode-byte-code const-to-idx-vec
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index-of lookup-sym in-env? any every
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compile-sym compile-if compile-begin
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compile-arglist expand builtin->instruction
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compile-app separate nconc get-defined-vars
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compile-in compile compile-f delete-duplicates
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map length> length= count filter append
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lastcdr to-proper reverse reverse! list->vector
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table.foreach list-head list-tail assq memq assoc member
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assv memv nreconc bq-process))
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(define (filt1 pred lst)
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(define (filt1- pred lst accum)
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(if (null? lst) accum
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(if (pred (car lst))
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(filt1- pred (cdr lst) (cons (car lst) accum))
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(filt1- pred (cdr lst) accum))))
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(filt1- pred lst ()))
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(define (filto pred lst (accum ()))
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(if (atom? lst) accum
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(if (pred (car lst))
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(filto pred (cdr lst) (cons (car lst) accum))
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(filto pred (cdr lst) accum))))
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; (pairwise? p a b c d) == (and (p a b) (p b c) (p c d))
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(define (pairwise? pred . args)
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(or (null? args)
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(let f ((a (car args)) (d (cdr args)))
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(or (null? d)
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(and (pred a (car d)) (f (car d) (cdr d)))))))
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