wilbowma · April 15, 2024 23:47
diff --git a/meow.rkt b/meow.rkt
 #lang racket

 ;; A well typed macro that manipulates binding (in a trivial way)
 (module A racket
  (require
   (for-syntax
    racket/function
    syntax/parse
    racket/syntax
    syntax/transformer))

  (define-syntax (elab-e e)
    (syntax-parse e
      [(_ (lambda (x ...) body))
       #:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
       #`(lambda (new-x ...)
           (let-syntax ([x (make-variable-like-transformer #'new-x)]
                        ...)
             body))]))

  (require rackunit)
  (check-equal?
   ((elab-e (lambda (x) x)) 5)
   5)
  (check-equal?
   (((elab-e (lambda (y) (lambda (x) x))) 5) 6)
   6)
  (check-equal?
   (((elab-e (lambda (y) (lambda (x) y))) 5) 6)
   5))

 ;; ill typed: binding error in the generated syntax
 (module B racket
  (require
    racket/function
    syntax/parse
    racket/syntax
    (for-syntax syntax/transformer))

  (define (elab-e e)
    (syntax-parse e
      [(lambda (x ...) body)
       #:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
       #`(lambda (new-x ...)
           #,(expand
              #`(let-syntax ([x (make-variable-like-transformer #'new-x)]
                             ...)
                  body)))]))

  (elab-e #'(lambda (x) x))
  (require rackunit)
  (check-exn values
   (thunk (eval (elab-e #'(lambda (x) x)))))
  )

 ;; ill typed: invalid use of an expansion monad operation at run-time, outside the expansion monad
 (module C racket
  (require
   racket/function
   syntax/parse
   racket/syntax
   (for-syntax syntax/transformer))

  (define (elab-e e)
    (syntax-parse e
      [(lambda (x ...) body)
       #:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
       #`(lambda (new-x ...)
           #,(syntax-local-introduce
              (expand
               #`(let-syntax ([x (make-variable-like-transformer #'new-x)]
                              ...)
                   body))))]))

  (elab-e #'(lambda (x) x)))

 ;; ill typed: invalid use of an expansion monad operation at run-time, outside the expansion monad
 (module D racket
  (require
   racket/function
   syntax/parse
   racket/syntax
   (for-syntax syntax/transformer))

  (define (elab-e e)
    (syntax-parse e
      [(lambda (x ...) body)
       #:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
       #`(lambda (new-x ...)
           #,(local-expand
              #`(let-syntax ([x (make-variable-like-transformer #'new-x)]
                             ...)
                  body)
              'expression
              '()))]))

  (elab-e #'(lambda (x) x)))

 ;; ill typed: phase binding error
 (module E racket
  (require
   racket/function
   syntax/parse
   racket/syntax
   syntax/transformer)

  (define (elab-e e)
    (syntax-parse e
      [(lambda (x ...) body)
       #:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
       #`(lambda (new-x ...)
           #,(expand #`(let-syntax ([x (make-variable-like-transformer #'new-x)]
                                    ...)
                         body)))]))

  make-variable-like-transformer
  (elab-e #'(lambda (x) x)))

 ;; ill typed: I honestly don't even know, but I know using expand in the
 ;; expansion macro is hard and usually wrong.
 ;; So wrong, and this errors out when the module is visited
 #;(module F racket
  (require
   (for-syntax
    racket/function
    syntax/parse
    racket/syntax
    (for-syntax racket/base syntax/transformer)))

  (define-syntax (elab-e e)
    (syntax-parse e
      [(_ (lambda (x ...) body))
       #:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
       #`(lambda (new-x ...)
           #,(expand
              #`(let-syntax ([x (make-variable-like-transformer #'new-x)]
                             ...)
                  body)))]))

  (elab-e (lambda (x) x)))

 ;; ill typed: expanding in an unbound environment
 ;; raises error when module is visited
 #;(module G racket
  (require
   (for-syntax
    racket/function
    syntax/parse
    racket/syntax
    syntax/transformer))

  (define-syntax (elab-e e)
    (syntax-parse e
      [(_ (lambda (x ...) body))
       #:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
       #`(lambda (new-x ...)
           #,(local-expand
              #`(let-syntax ([x (make-variable-like-transformer #'new-x)]
                             ...)
                  body)
              'expression
              '()))]))

  (elab-e (lambda (x) x)))

 ;; Well typed version of G
 (module H racket
  (require
   (for-syntax
    racket/function
    syntax/parse
    racket/syntax
    syntax/transformer))

  (define-syntax (elab-e e)
    (syntax-parse e
      [(_ (lambda (x ...) body))
       #:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
       (define intdef (syntax-local-make-definition-context))
       (define newxs (syntax-local-bind-syntaxes
                      (syntax->list #'(new-x ...))
                      #f
                      (syntax-local-make-definition-context)))
       (with-syntax ([(new-scoped-xs ...) newxs])
         #`(lambda (new-scoped-xs ...)
             #,(local-expand
                #`(let-syntax ([x (make-variable-like-transformer #'new-scoped-xs)]
                               ...)
                    body)
                'expression
                '()
                intdef)))]))

  (require rackunit)
  (check-equal?
   ((elab-e (lambda (x) x)) 5)
   5))
	#lang racket

	;; A well typed macro that manipulates binding (in a trivial way)
	(module A racket
	(require
	(for-syntax
	racket/function
	syntax/parse
	racket/syntax
	syntax/transformer))

	(define-syntax (elab-e e)
	(syntax-parse e
	[(_ (lambda (x ...) body))
	#:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
	#`(lambda (new-x ...)
	(let-syntax ([x (make-variable-like-transformer #'new-x)]
	...)
	body))]))

	(require rackunit)
	(check-equal?
	((elab-e (lambda (x) x)) 5)
	5)
	(check-equal?
	(((elab-e (lambda (y) (lambda (x) x))) 5) 6)
	6)
	(check-equal?
	(((elab-e (lambda (y) (lambda (x) y))) 5) 6)
	5))

	;; ill typed: binding error in the generated syntax
	(module B racket
	(require
	racket/function
	syntax/parse
	racket/syntax
	(for-syntax syntax/transformer))

	(define (elab-e e)
	(syntax-parse e
	[(lambda (x ...) body)
	#:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
	#`(lambda (new-x ...)
	#,(expand
	#`(let-syntax ([x (make-variable-like-transformer #'new-x)]
	...)
	body)))]))

	(elab-e #'(lambda (x) x))
	(require rackunit)
	(check-exn values
	(thunk (eval (elab-e #'(lambda (x) x)))))
	)

	;; ill typed: invalid use of an expansion monad operation at run-time, outside the expansion monad
	(module C racket
	(require
	racket/function
	syntax/parse
	racket/syntax
	(for-syntax syntax/transformer))

	(define (elab-e e)
	(syntax-parse e
	[(lambda (x ...) body)
	#:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
	#`(lambda (new-x ...)
	#,(syntax-local-introduce
	(expand
	#`(let-syntax ([x (make-variable-like-transformer #'new-x)]
	...)
	body))))]))

	(elab-e #'(lambda (x) x)))

	;; ill typed: invalid use of an expansion monad operation at run-time, outside the expansion monad
	(module D racket
	(require
	racket/function
	syntax/parse
	racket/syntax
	(for-syntax syntax/transformer))

	(define (elab-e e)
	(syntax-parse e
	[(lambda (x ...) body)
	#:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
	#`(lambda (new-x ...)
	#,(local-expand
	#`(let-syntax ([x (make-variable-like-transformer #'new-x)]
	...)
	body)
	'expression
	'()))]))

	(elab-e #'(lambda (x) x)))

	;; ill typed: phase binding error
	(module E racket
	(require
	racket/function
	syntax/parse
	racket/syntax
	syntax/transformer)

	(define (elab-e e)
	(syntax-parse e
	[(lambda (x ...) body)
	#:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
	#`(lambda (new-x ...)
	#,(expand #`(let-syntax ([x (make-variable-like-transformer #'new-x)]
	...)
	body)))]))

	make-variable-like-transformer
	(elab-e #'(lambda (x) x)))

	;; ill typed: I honestly don't even know, but I know using expand in the
	;; expansion macro is hard and usually wrong.
	;; So wrong, and this errors out when the module is visited
	#;(module F racket
	(require
	(for-syntax
	racket/function
	syntax/parse
	racket/syntax
	(for-syntax racket/base syntax/transformer)))

	(define-syntax (elab-e e)
	(syntax-parse e
	[(_ (lambda (x ...) body))
	#:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
	#`(lambda (new-x ...)
	#,(expand
	#`(let-syntax ([x (make-variable-like-transformer #'new-x)]
	...)
	body)))]))

	(elab-e (lambda (x) x)))

	;; ill typed: expanding in an unbound environment
	;; raises error when module is visited
	#;(module G racket
	(require
	(for-syntax
	racket/function
	syntax/parse
	racket/syntax
	syntax/transformer))

	(define-syntax (elab-e e)
	(syntax-parse e
	[(_ (lambda (x ...) body))
	#:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
	#`(lambda (new-x ...)
	#,(local-expand
	#`(let-syntax ([x (make-variable-like-transformer #'new-x)]
	...)
	body)
	'expression
	'()))]))

	(elab-e (lambda (x) x)))

	;; Well typed version of G
	(module H racket
	(require
	(for-syntax
	racket/function
	syntax/parse
	racket/syntax
	syntax/transformer))

	(define-syntax (elab-e e)
	(syntax-parse e
	[(_ (lambda (x ...) body))
	#:with (new-x ...) (map (curry format-id e "~a") (syntax->list #'(x ...)))
	(define intdef (syntax-local-make-definition-context))
	(define newxs (syntax-local-bind-syntaxes
	(syntax->list #'(new-x ...))
	#f
	(syntax-local-make-definition-context)))
	(with-syntax ([(new-scoped-xs ...) newxs])
	#`(lambda (new-scoped-xs ...)
	#,(local-expand
	#`(let-syntax ([x (make-variable-like-transformer #'new-scoped-xs)]
	...)
	body)
	'expression
	'()
	intdef)))]))

	(require rackunit)
	(check-equal?
	((elab-e (lambda (x) x)) 5)
	5))