(module base-gm mzscheme
(require (lib "list.ss")
(lib "etc.ss"))
(provide cons-to-end
assoc-get
debug
make-debug
to-string
member-eq?
string->char
last
member-str?
quicksort-vector!
for
for-vector
but-last
halt
prog1
struct->list
for-list
make-hash
hash-get
hash-put!
hash-remove!
hash-map
hash-for-each
hash-mem?
(all-from (lib "list.ss"))
(all-from (lib "etc.ss")))
(define-syntax prog1
(syntax-rules
()
{(prog1 arg1 args ...)
(let ((v arg1))
args ...
v)}))
(define-syntax halt
(syntax-rules
()
[(halt arg ...)
(begin
(debug "There was a problem with " arg ...)
(error "Error."))]))
(define (but-last ls)
(cond
((empty? ls) (error "incorrect list to butlast"))
((empty? (rest ls)) empty)
(else (cons (first ls) (but-last (rest ls))))))
(define-syntax for
(syntax-rules
()
[(for x start stop body ...)
(let ((x start))
(letrec ((loop
(lambda ()
(if (> x stop)
'done
(begin
body ...
(set! x (+ x 1))
(loop))))))
(loop)))]))
(define-syntax for-vector
(syntax-rules
(with)
[(for-vector v with x body ...)
(for x 0 (- (vector-length v) 1)
body ...)]))
(define-syntax for-list
(syntax-rules
(with)
[(for-list ls with x body ...)
(let ((x 'dummy))
(letrec ((loop
(lambda (param)
(if (empty? param)
'done
(begin
(set! x (car param))
body ...
(loop (rest param)))))))
(loop ls)))]))
(define (quicksort-vector! v less-than)
(let ([count (vector-length v)])
(let loop ([min 0][max count])
(if (< min (sub1 max))
(let ([pval (vector-ref v min)])
(let pivot-loop ([pivot min]
[pos (add1 min)])
(if (< pos max)
(let ([cval (vector-ref v pos)])
(if (less-than cval pval)
(begin
(vector-set! v pos (vector-ref v pivot))
(vector-set! v pivot cval)
(pivot-loop (add1 pivot) (add1 pos)))
(pivot-loop pivot (add1 pos))))
(if (= min pivot)
(loop (add1 pivot) max)
(begin
(loop min pivot)
(loop pivot max)))))))))
v)
(define (member-str? s ls)
(cond
((empty? ls) false)
((string=? s (first ls)) true)
(else (member-str? s (rest ls)))))
(define (last ls)
(cond
((empty? ls) (error "took a last but it was emptry"))
((empty? (rest ls)) (first ls))
(else (last (rest ls)))))
(define (string->char s)
(first (string->list s)))
(define (member-eq? x ls)
(not (empty? (filter (lambda (y) (eq? x y)) ls))))
(define (to-string arg . fns)
(let loop ((arg arg))
(cond
((not arg) "#f")
((void? arg) "#<void>")
((eq? arg #t) "#t")
((char? arg) (list->string (list arg)))
((string? arg) arg)
((symbol? arg) (symbol->string arg))
((number? arg) (number->string arg))
((vector? arg) (loop (vector->list arg)))
((empty? arg) "empty")
((list? arg) (string-append
"("
(loop (first arg))
(foldr string-append ""
(map (lambda (x)
(string-append " "
(loop x))) (rest arg)))
")"))
((cons? arg) (string-append
"("
(loop (first arg))
" . "
(loop (rest arg))
")"))
(true (let loop ((cur fns))
(if (empty? cur) (halt "to-string: " arg)
(or ((first cur) arg)
(loop (rest cur)))))))))
(define (debug . args)
(for-each display args)
(newline))
(define (make-debug . fns)
(lambda args (for-each (lambda (x) (display (apply to-string (cons x fns)))
(display " ")) args)
(newline)))
(define (assoc-get label ls)
(cond
((empty? ls) (error (string-append "failed to find " (to-string label))))
((eq? label (first (first ls)))
(first ls))
(else (assoc-get label (rest ls)))))
(define (cons-to-end a ls)
(cond
((empty? ls) (cons a ls))
(else (cons (first ls)
(cons-to-end a (rest ls))))))
(define (struct->list itm)
(cond [(struct? itm) (map struct->list (vector->list (struct->vector itm)))]
[(list? itm) (map struct->list itm)]
[else itm]))
(define (struct-name s) (vector-ref (struct->vector s) 0))
(define make-hash make-hash-table)
(define hash-get hash-table-get)
(define hash-put! hash-table-put!)
(define hash-remove! hash-table-remove!)
(define hash-map hash-table-map)
(define hash-for-each hash-table-for-each)
(define (hash-mem? hash item) (hash-get hash item (lambda () false)))
)![[logo]](/logo.png){kind=logo}