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208 lines
9.4 KiB
Racket
208 lines
9.4 KiB
Racket
#lang debug racket
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(require quad/base "struct.rkt" "param.rkt")
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(provide (all-defined-out))
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(define (make-query-index q)
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(define qs (let loop ([q q])
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(cons q (append* (for/list ([elem (in-list (quad-elems q))]
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#:when (quad? elem))
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(loop elem))))))
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(list->vector qs))
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(define (string->key str)
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(match str
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["doc" 'doc]
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[(or "section" "sec" "s") 'section]
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[(or "page" "pg" "p") 'page]
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[(or "column" "col" "c") 'column]
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[(or "block" "b") 'block]
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[(or "line" "ln" "l") 'line]))
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(define preds (hasheq 'doc doc-quad?
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'section section-quad?
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'page page-quad?
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'column column-quad?
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'block block-quad?
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'line line-quad?))
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(define (parse-query str)
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(for/list ([piece (in-list (string-split str ":"))])
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(match (regexp-match #px"^(.*)\\[(.*?)\\]$" piece)
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[#false (cons (string->key piece) #false)]
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[(list _ name arg) (cons (hash-ref preds (string->key name))
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(cond
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[(string-contains? arg "..") (map string->number (string-split arg ".."))]
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[(string->number arg)]
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[else (string->symbol arg)]))])))
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(define (find-inclusive vec pred start-arg end-arg [count 1])
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;; search from lidx to ridx inclusive
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(define-values (start end step)
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(cond
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;; if lidx is bigger, search backward
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[(> start-arg end-arg) (values start-arg (sub1 end-arg) -1)]
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[else (values start-arg (add1 end-arg) 1)]))
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(for/fold ([adjusted-start (- start step)]) ; remove step for reason below
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([seen (in-range count)]
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#:break (not adjusted-start))
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;; add step so we find next matcher
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;; and won't re-find the last one immediately
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(for/first ([idx (in-range (+ adjusted-start step) end step)]
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#:when (pred (vector-ref vec idx)))
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idx)))
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(define (query-one vec pred subscript this-idx maxidx)
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(define (find start end count) (find-inclusive vec pred start end count))
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(let loop ([subscript subscript])
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(match subscript
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[(== 'this eq?) ; start at querying quad, then search 1 back
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(find this-idx 0 1)]
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[(== 'last eq?) (loop -1)]
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[(== 'prev eq?) ; search 2 back. same algo if current q is pred or not.
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(find this-idx 0 2)]
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[(== 'next eq?) ; search 1 ahead, but if current q is also pred, search 2 ahead
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(find this-idx maxidx (if (pred (vector-ref vec this-idx)) 2 1))]
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[(? number? count)
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(cond
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[(negative? count) ; search backward from end
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(find maxidx this-idx (abs count))]
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[else ; seach forward
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(find this-idx maxidx count)])]
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[_ #false])))
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(define ((filtered-xs pred) xs)
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(for/list ([(x idx) (in-indexed xs)]
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#:when (pred (add1 idx)))
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x))
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(define (subscript->multimode-proc subscript)
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(match subscript
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[(or (== 'all eq?) (== '* eq?)) values]
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[(== 'rest eq?) cdr]
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[(== 'even eq?) (filtered-xs even?)]
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[(== 'odd eq?) (filtered-xs odd?)]
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[(list larg rarg)
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(λ (xs)
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(define len (length xs))
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(define lo (+ larg (if (negative? larg) (add1 len) 0)))
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(define hi (min len (+ rarg (if (negative? rarg) (add1 len) 0))))
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(define cmp (if (< lo hi) <= >=))
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(for/list ([(x idx) (in-indexed xs)]
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#:when (cmp lo (add1 idx) hi))
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x))]
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[_ #false]))
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(define (query quad-or-index query-str [query-q #false])
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(define vec (match quad-or-index
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[(? quad? q) (make-query-index q)]
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[idx idx]))
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(when query-q (unless (quad? query-q)
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(raise-argument-error 'query "quad" query-q)))
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(define all-query-pieces (parse-query query-str))
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(and (pair? all-query-pieces)
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;; initial subtree is whole tree
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;; each subtree is a pair of start idx (initial node) + end idx (boundary of subtree)
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(let loop ([subtrees (list (cons (if query-q (vector-memq query-q vec) 0) (sub1 (vector-length vec))))]
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[query-pieces all-query-pieces]
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[multimode-query-seen? #false])
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(cond
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;; if subtrees are null, we have eliminated all searchable domains
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[(null? subtrees) #false]
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[(null? query-pieces)
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(match (for/list ([(idx _) (in-dict subtrees)])
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(vector-ref vec idx))
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[vals #:when multimode-query-seen? vals] ; in multi mode, return list
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[(list val) val] ; otherwise return single value
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[_ (error 'should-never-have-multiple-vals-in-single-mode)])]
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[else
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(match-define (cons (cons pred subscript) other-query-pieces) query-pieces)
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(define maybe-multimode-proc (subscript->multimode-proc subscript))
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(define finish-proc
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;; don't need to calculate end-idxs if we're at the end of the query
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(if (null? other-query-pieces)
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void
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(λ (idx end-idx) (cond ;; otherwise calculate new end-idx
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[(not idx) end-idx]
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;; try searching for next occurence after this one, up to max.
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[(find-inclusive vec pred (add1 idx) end-idx 1)]
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[else end-idx]))))
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(loop
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(for*/list ([(start-idx end-idx) (in-dict subtrees)]
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[idx (match maybe-multimode-proc
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[#false (in-value (query-one vec pred subscript start-idx end-idx))]
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[proc
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(in-list (proc (for*/list ([idx (in-range start-idx (add1 end-idx))]
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#:when (pred (vector-ref vec idx)))
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idx)))])]
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#:when idx)
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(cons idx (finish-proc idx end-idx)))
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other-query-pieces
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(or maybe-multimode-proc multimode-query-seen?))]))))
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(module+ test
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(require rackunit)
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(define counter 0)
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(define-syntax-rule (factory type proc)
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(make-quad #:type type
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#:elems (for/list ([i (in-range 3)])
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(set! counter (add1 counter))
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(define new-q (proc))
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(quad-update! new-q
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[tag (format "~a[~a]-~a" 'proc counter (gensym))])
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(hash-set! (quad-attrs new-q) 'count counter)
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new-q)))
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(define (line) (make-quad #:type line-quad))
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(define (block) (factory block-quad line))
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(define (col) (factory column-quad block))
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(define (page) (factory page-quad col))
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(define (sec) (factory section-quad page))
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(define (count q) (and q (quad-ref q 'count)))
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(define doc (factory doc-quad sec))
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(check-equal? (count (query doc "sec[2]")) 242)
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(check-false (query doc "sec[102]:line[1]"))
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(check-equal? (count (query doc "sec[2]:pg[1]")) 162)
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(check-equal? (count (query doc "sec[2]:pg[1]:ln[3]")) 128)
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(check-eq? (query doc "page[this]" (query doc "line[2]")) (query doc "page[1]"))
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(check-equal? (count (query doc "page[this]:line[last]" (query doc "line[2]"))) 41)
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(check-equal? (count (query doc "sec[next]" (query doc "sec[1]"))) (count (query doc "sec[2]")) )
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(check-equal? (count (query doc "sec[prev]" (query doc "sec[2]"))) (count (query doc "sec[1]")))
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(check-equal? (count (query doc "page[prev]" (query doc "page[2]:line[1]")))
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(count (query doc "page[1]")))
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(check-equal? (count (query doc "page[next]" (query doc "page[2]:line[1]")))
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(count (query doc "page[3]")))
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(check-equal? (count (query doc "page[next]" (query doc "page[2]:line[1]")))
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(count (query doc "page[3]")))
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(check-equal? (count (query doc "page[next]:page[next]" (query doc "page[1]:line[1]")))
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(count (query doc "page[3]")))
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(check-equal? (count (query doc "page[next]:page[this]:page[prev]" (query doc "page[1]:line[1]")))
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(count (query doc "page[1]")))
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(check-equal? (map count (query doc "sec[*]")) '(121 242 363))
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(check-equal? (map count (query doc "sec[*]:page[1]")) '(41 162 283))
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(check-equal? (map count (query doc "sec[2]:page[1]:line[*]"))
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'(126 127 128 130 131 132 134 135 136 139 140 141 143 144 145 147 148 149 152 153 154 156 157 158 160 161 162))
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(check-equal? (map count (query doc "sec[rest]")) '(242 363))
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(check-equal? (map count (query doc "sec[1..2]")) '(121 242))
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(check-equal? (map count (query doc "sec[2..3]")) '(242 363))
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(check-equal? (map count (query doc "sec[1..3]")) '(121 242 363))
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(check-equal? (map count (query doc "sec[1..4]")) '(121 242 363))
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(check-equal? (map count (query doc "sec[4..1]")) '(121 242 363))
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(check-equal? (map count (query doc "sec[1..-1]")) '(121 242 363))
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(check-equal? (map count (query doc "sec[-3..-1]")) '(121 242 363))
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(check-equal? (map count (query doc "sec[-1..-3]")) '(121 242 363))
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(check-equal? (map count (query doc "sec[1..-2]")) '(121 242))
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(check-equal? (map count (query doc "sec[odd]")) '(121 363))
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(check-equal? (map count (query doc "sec[even]")) '(242))
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) |