#lang at-exp racket/base (require racket/format racket/match racket/runtime-path rackunit syntax/modread "../find.rkt" "find-examples.rkt") (define-runtime-path dot-dot "..") (define-namespace-anchor nsa) (parameterize ([current-namespace (namespace-anchor->namespace nsa)]) (define (not-0 v) (not (= 0 v))) (define (not-1 v) (not (= 1 v))) (check-equal? (find-definition "display") 'kernel) (check-equal? (find-signature "display") '("defined in #%kernel, signature unavailable")) (check-match (find-definition "displayln") (list (pregexp "/racket/private/misc\\.rkt$") (? not-1) (? not-0))) (check-equal? (find-signature "displayln") '((displayln v) (displayln v p))) ;case-lambda defn ;; Test a definer macro that (as of Racket 6.7) does not properly ;; set srcloc: Can we at least return a specfic location for its ;; parent syntax (as opposed to line 1 column 0)? (check-match (find-definition "in-hash") (list (pregexp "/racket/private/for.rkt$") (? not-1) (? not-0))) ;; Tests for specific locations in find-examples.rkt (check-match (find-definition "plain") (list (pregexp "find-examples.rkt$") 7 9)) (check-equal? (find-signature "plain") '(plain x)) (check-match (find-definition "renamed") (list (pregexp "find-examples.rkt$") 7 9)) (check-equal? (find-signature "renamed") '(plain x)) (check-match (find-definition "contracted1") (list (pregexp "find-examples.rkt$") 11 9)) (check-equal? (find-signature "contracted1") '(contracted1 x)) (check-match (find-definition "contracted2") (list (pregexp "find-examples.rkt$") 13 9)) (check-equal? (find-signature "contracted2") '(contracted2 x)) (check-match (find-definition "contracted/renamed") (list (pregexp "find-examples.rkt$") 16 9)) (check-equal? (find-signature "contracted/renamed") '(c/r x)) (check-match (find-definition "plain-by-macro") (list (pregexp "find-examples.rkt$") 23 15)) (check-false (find-signature "plain-by-macro")) (check-match (find-definition "contracted-by-macro") (list (pregexp "find-examples.rkt$") 29 20)) (check-false (find-signature "contracted-by-macro")) (check-match (find-definition "sub") (list (pregexp "find-examples.rkt$") 38 11)) (check-equal? (find-signature "sub") '(sub x)) (check-match (find-definition "sub/renamed") (list (pregexp "find-examples.rkt$") 38 11)) (check-equal? (find-signature "sub/renamed") '(sub x)) (check-match (find-definition "foo") (list (pregexp "find-examples.rkt$") 48 9)) (check-equal? (find-signature "foo") '(foo x)) (check-match (find-definition "a-number") (list (pregexp "find-examples.rkt$") 52 8)) (check-match (find-definition "a-parameter") (list (pregexp "find-examples.rkt$") 54 8)) ;; This is (roughly) a test of opening a Racket source file and ;; doing M-. on every non-list sexpr: Call find-definition on each ;; sexpr. Not-found (#f) is fine. But fail test for (list _ 1 0) -- ;; i.e. the source file was found, but not the location within. (define (check-non-bof-location file) (define ht (make-hash)) (define (find k) ;memoized find-definition (hash-ref ht k (λ () (define v (find-definition (format "~a" k))) (hash-set! ht k v) v))) (define (walk v) (if (list? v) (for-each walk v) (match (find v) [(list where 1 0) (fail @~a{can't find definition of `@|v|` in @where})] [_ (void)]))) (walk (with-module-reading-parameterization ;; Why read not read-syntax? Because we only care about the ;; sexprs as text: `find-definition` takes a string, because ;; `racket-visit-definition` takes text from an Emacs buffer. (λ () (with-input-from-file file read))))) (for ([file '("commands/requires.rkt" "run.rkt")]) (check-non-bof-location (build-path dot-dot file))))