(load-relative "loadtest.ss") (Section 'for) (define-syntax (test-multi-generator stx) (syntax-case stx () [(_ [(v ...) ...] gen) (with-syntax ([(id ...) (generate-temporaries #'((v ...) ...))] [(id2 ...) (generate-temporaries #'((v ...) ...))] [((v2 ...) ...) (apply map list (map syntax->list (syntax->list #'((v ...) ...))))]) #'(begin (test '((v2 ...) ...) 'gen (for/list ([(id ...) gen]) (list id ...))) (test-values '((v ...) ...) (lambda () (for/lists (id2 ...) ([(id ...) gen]) (values id ...)))) (test #t 'gen (for/and ([(id ...) gen]) (and (member (list id ...) '((v2 ...) ...)) #t))) (test (list (for/last ([(id ...) gen]) (list id ...))) 'gen (for/and ([(id ...) gen]) (member (list id ...) '((v2 ...) ...)))) (test (for/first ([(id ...) gen]) (list id ...)) 'gen (for/or ([(id ...) gen]) (car (member (list id ...) '((v2 ...) ...))))) (void)))])) (define-syntax test-generator (syntax-rules () [(_ [seq] gen) ; we assume that seq has at least 2 elements, and all are unique (begin ;; Some tests specific to single-values: (test 'seq 'gen (for/list ([i gen]) i)) (test 'seq 'gen (for/list ([i gen][b gen]) i)) (test 'seq 'gen (for/list ([i gen][b gen]) b)) (test 'seq 'gen (for*/list ([i gen][b '(#t)]) i)) (test (map (lambda (x) #t) 'seq) 'gen (for*/list ([i gen][b '(#t)]) b)) (test (append 'seq 'seq) 'gen (for*/list ([b '(#f #t)][i gen]) i)) (test (append 'seq 'seq) 'gen (for/list ([b '(#f #t)] #:when #t [i gen]) i)) (test 'seq 'gen (let ([g gen]) (for/list ([i g]) i))) (test 'seq 'gen (let ([r null]) (for ([i gen]) (set! r (cons i r))) (reverse r))) (test 'seq 'gen (reverse (for/fold ([a null]) ([i gen]) (cons i a)))) (test 'seq 'gen (let-values ([(more? next) (sequence-generate gen)]) (let loop () (if (more?) (cons (next) (loop)) null)))) (test-values '(seq seq) (lambda () (for/lists (r1 r2) ([id gen]) (values id id)))) (test (list (for/last ([i gen]) i)) 'gen (for/and ([i gen]) (member i 'seq))) (test 'seq 'gen (for/or ([i gen]) (member i 'seq))) (test (for/first ([i gen]) i) 'gen (for/or ([i gen]) (and (member i 'seq) i))) (test #t 'gen (for/and ([(i k) (in-parallel gen 'seq)]) (equal? i k))) (test #f 'gen (for/and ([i gen]) (member i (cdr (reverse 'seq))))) (test #f 'gen (for/or ([i gen]) (equal? i 'something-else))) (let ([count 0]) (test #t 'or (for/or ([i gen]) (set! count (add1 count)) #t)) (test 1 'count count) (test #f 'or (for/or ([i gen]) (set! count (add1 count)) #f)) (test (+ 1 (length 'seq)) 'count count) (set! count 0) (let ([second (for/last ([(i pos) (in-parallel gen (in-naturals))] #:when (< pos 2)) (set! count (add1 count)) i)]) (test second list-ref 'seq 1) (test 2 values count) (for ([i gen] #:when (equal? i second)) (set! count (add1 count))) (for* ([i gen] #:when (equal? i second)) (set! count (add1 count))) (test 4 values count) (for ([i (stop-before gen (lambda (x) (equal? x second)))]) (set! count (add1 count))) (test 5 values count) (let ([g (stop-before gen (lambda (x) (equal? x second)))]) (for ([i g]) (set! count (add1 count)))) (test 6 values count) (for ([i (stop-after gen (lambda (x) (equal? x second)))]) (set! count (add1 count))) (test 8 values count) (let ([g (stop-after gen (lambda (x) (equal? x second)))]) (for ([i g]) (set! count (add1 count)))) (test 10 values count)) (set! count 0) (test #t 'and (for/and ([(e idx) (in-indexed gen)]) (set! count (add1 count)) (equal? idx (sub1 count)))) (test #t 'and (let ([g (in-indexed gen)]) (set! count 0) (for/and ([(e idx) g]) (set! count (add1 count)) (equal? idx (sub1 count))))) (void)) ;; Run multi-value tests: (test-multi-generator [seq] gen))] [(_ seqs gen) (test-multi-generator seqs gen)])) (test-generator [(0 1 2)] (in-range 3)) (test-generator [(3 4 5)] (in-range 3 6)) (test-generator [(7 6 5)] (in-range 7 4 -1)) (test-generator [(a b c)] '(a b c)) (test-generator [(a b c)] (in-list '(a b c))) (test-generator [(a b c)] #(a b c)) (test-generator [(a b c)] (in-vector #(a b c))) (test-generator [(#\a #\b #\c)] "abc") (test-generator [(#\a #\b #\c)] (in-string "abc")) (test-generator [(65 66 67)] #"ABC") (test-generator [(65 66 67)] (in-bytes #"ABC")) (test-generator [(#\a #\b #\c)] (in-input-port-chars (open-input-string "abc"))) (test-generator [(65 66 67)] (open-input-bytes #"ABC")) (test-generator [(65 66 67)] (in-input-port-bytes (open-input-bytes #"ABC"))) (test-generator [(0 1 2) (a b c)] (in-parallel (in-range 3) (in-list '(a b c)))) (test-generator [(0 1 2) (a b c)] (in-parallel (in-range 10) (in-list '(a b c)))) (test-generator [(0 1 2) (a b c)] (in-parallel (in-range 3) (in-list '(a b c d)))) (test-generator [(0 1 2) (a b c)] (in-parallel (in-range 3) '(a b c))) (test-generator [(a b c)] (stop-after (in-list '(a b c d e)) (lambda (x) (equal? x 'c)))) (test-generator [(a b c)] (stop-before (in-list '(a b c d e)) (lambda (x) (equal? x 'd)))) (test-generator [(3 4 5)] (stop-before (in-naturals 3) (lambda (x) (= x 6)))) (test-generator [(a b c) (0 1 2)] (in-indexed '(a b c))) (test #hash((a . 1) (b . 2) (c . 3)) 'mk-hash (for/hash ([v (in-naturals)] [k '(a b c)]) (values k (add1 v)))) (test #hasheq((a . 1) (b . 2) (c . 3)) 'mk-hasheq (for/hasheq ([v (in-naturals)] [k '(a b c)]) (values k (add1 v)))) (test #hash((a . 1) (b . 2) (c . 3)) 'cp-hash (for/hash ([(k v) #hash((a . 1) (b . 2) (c . 3))]) (values k v))) (test #hash((a . 1) (b . 2) (c . 3)) 'cp-hash (for/hash ([(k v) (in-hash #hash((a . 1) (b . 2) (c . 3)))]) (values k v))) (test #hash((a . a) (b . b) (c . c)) 'cp-hash (for/hash ([k (in-hash-keys #hash((a . 1) (b . 2) (c . 3)))]) (values k k))) (test #hash((1 . 1) (2 . 2) (3 . 3)) 'cp-hash (for/hash ([v (in-hash-values #hash((a . 1) (b . 2) (c . 3)))]) (values v v))) (report-errs)