#lang racket/base (require racket/list) (require "define/contract.rkt" "len.rkt" "coerce/value.rkt") (define+provide/contract (trim items test-proc) (list? procedure? . -> . list?) (dropf-right (dropf items test-proc) test-proc)) (define+provide/contract (list->slices xs len) (list? integer? . -> . (listof list?)) (cond [(equal? xs null) null] [(len . > . (length xs)) (list xs)] [else (cons (take xs len) (list->slices (drop xs len) len))])) (define+provide/contract (splitf-at* xs split-test) (list? predicate/c . -> . (listof list?)) (let loop ([xs (trim xs split-test)] [acc '()]) (if (empty? xs) (reverse acc) ; because accumulation is happening backward (let-values ([(item rest) ;; drop matching elements from front ;; then split on nonmatching ;; = nonmatching item + other elements (which will start with matching) (splitf-at (dropf xs split-test) (compose1 not split-test))]) (loop rest (cons item acc)))))) (define+provide/contract (count-incidence x) (list? . -> . hash?) (define counter (make-hash)) (for ([item (flatten x)]) (hash-set! counter item (add1 (hash-ref counter item 0)))) counter) (define+provide/contract (members-unique? x) (any/c . -> . boolean?) (cond [(list? x) (= (len (remove-duplicates x)) (len x))] [(vector? x) (members-unique? (vector->list x))] [(string? x) (members-unique? (string->list x))] [else (error (format "members-unique cannot be determined for ~a" x))])) (define+provide/contract (members-unique?/error x) (any/c . -> . boolean?) (define result (members-unique? x)) (if (not result) (let* ([duplicate-keys (filter-not empty? (hash-map (count-incidence x) (λ(k v) (if (> v 1) k '()))))]) (error (string-append (if (= (len duplicate-keys) 1) "Item isn’t" "Items aren’t") " unique:") duplicate-keys)) result))