#lang racket/base
( require ( for-syntax racket/base syntax/parse racket/syntax syntax/datum syntax/strip-context ) )
( 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 ) ) )
( 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 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 )
( 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 ) #' * ) ) ) )
;; 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 ) )