#lang racket/base (require (for-syntax racket/base syntax/parse racket/syntax syntax/datum syntax/strip-context) sugar/define) (provide (all-defined-out)) (define-syntax-rule (br:debug-define (syntax (id pat-arg ... . rest-arg)) body-exp) (br:define #'(id pat-arg ... . rest-arg) #`(begin (for-each displayln (list (format "input pattern = #'~a" '#,'(id pat-arg ... . rest-arg)) (format "output pattern = #'~a" (cadr '#,'body-exp)) (format "invoked as = ~a" (syntax->datum #'(id pat-arg ... . rest-arg))) (format "expanded as = ~a" '#,(syntax->datum body-exp)) (format "evaluated as = ~a" #,body-exp))) #,body-exp))) (module+ test (require rackunit racket/port) (parameterize ([current-output-port (open-output-nowhere)]) (check-equal? (let () (br:debug-define #'(foo X Y Z) #'(apply + (list X Y Z))) (foo 1 2 3)) 6) (check-equal? (let () (br:debug-define #'(foo X ...) #'(apply * (list X ...))) (foo 10 11 12)) 1320))) (define-syntax (br:define stx) (define-syntax-class syntaxed-id #:literals (syntax) #:description "id in syntaxed form" (pattern (syntax name:id))) (define-syntax-class syntaxed-thing #:literals (syntax) #:description "some datum in syntaxed form" (pattern (syntax thing:expr))) (syntax-parse stx #:literals (syntax) [(_ (syntax (id pat-arg ... . rest-arg)) body ...) ; (define #'(foo arg) #'(+ arg arg)) #'(define-syntax id (λ (stx) (define result (syntax-case stx () [(_ pat-arg ... . rest-arg) body ...])) (if (not (syntax? result)) (datum->syntax stx result) result)))] [(_ sid:syntaxed-id sid2:syntaxed-id) ; (define #'f1 #'f2) #'(define-syntax sid.name (make-rename-transformer sid2))] [(_ sid:syntaxed-id sid2:syntaxed-thing) ; (define #'f1 #'42) #'(define-syntax sid.name (λ (stx) sid2))] [(_ (sid:syntaxed-id stx-arg ...) expr ...) ; (define (#'f1 stx) expr ...) (raise-syntax-error 'define "definition of a syntax transformer must use lambda notation, because otherwise it's too easy to confuse the compile-time shape and the run-time shape" (syntax->datum #'sid.name))] [(_ sid:syntaxed-id (λ (stx-arg ...) expr ...)) ; (define #'f1 (λ(stx) expr ...) #:fail-when (not (= (length (syntax->datum #'(stx-arg ...))) 1)) (raise-syntax-error 'define "did not get exactly one argument for macro" (syntax->datum #'(stx-arg ...))) #'(define-syntax (sid.name stx-arg ...) expr ...)] [(_ args ...) #'(define args ...)])) (module+ test (require rackunit) (br:define #'plus (λ(stx) #'+)) (br:define #'plusser #'plus) (br:define #'(times arg) #'(* arg arg)) (br:define #'timeser #'times) (br:define #'fortytwo #'42) (check-equal? (plus 42) +) (check-equal? plusser +) (check-equal? (plusser 42) +) (check-equal? (times 10) 100) (check-equal? (timeser 12) 144) (check-equal? (let () (br:define #'(foo x) (with-syntax ([zam +]) #'(zam x x))) (foo 42)) 84) ;; todo: error from define not trapped by check-exn #;(check-exn exn:fail:syntax? (λ _ (br:define (#'times stx stx2) #'*))) (check-equal? fortytwo 42) (begin (br:define #'(redefine ID) #'(define ID 42)) (redefine zoombar) (check-equal? zoombar 42))) ;; todo: support `else` case (define-syntax (br:define-cases stx) (syntax-parse stx #:literals (syntax) ; (define-cases #'foo [#'(_ arg) #'(+ arg arg)] [#'(_ 42 bar) #'42] ...) [(_ (syntax top-id) [(syntax (_ pat-arg ... . rest-arg)) body ...] ...) #'(define-syntax top-id (λ (stx) (define result (syntax-case stx () [(_ pat-arg ... . rest-arg) body ...] ...)) (if (not (syntax? result)) (datum->syntax stx result) result)))] [(_ top-id [(_ pat-arg ... . rest-arg) body ...] ...) #'(define top-id (case-lambda [(pat-arg ... . rest-arg) body ...] ...))])) (module+ test (br:define-cases #'op [#'(_ "+") #''got-plus] [#'(_ arg) #''got-something-else]) (check-equal? (op "+") 'got-plus) (check-equal? (op 42) 'got-something-else) (br:define-cases f [(_ arg) (add1 arg)] [(_ arg1 arg2) (+ arg1 arg2)]) (check-equal? (f 42) 43) (check-equal? (f 42 5) 47)) (define-syntax-rule (br:define+provide arg ...) (define+provide arg ...))