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#lang racket/base
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(require br/ragg/rules/stx-types
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(for-syntax racket/base))
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(provide flatten-rule
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flatten-rules
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prim-rule)
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(define (make-fresh-name)
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(let ([n 0])
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(lambda ()
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(set! n (add1 n))
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(string->symbol (format "%rule~a" n)))))
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(define default-fresh-name
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(make-fresh-name))
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;; Translates rules to lists of primitive rules.
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(define (flatten-rules rules #:fresh-name [fresh-name default-fresh-name])
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(define ht (make-hash))
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(apply append (map (lambda (a-rule) (flatten-rule a-rule
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#:ht ht
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#:fresh-name fresh-name))
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rules)))
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;; flatten-rule: rule -> (listof primitive-rule)
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(define (flatten-rule a-rule
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#:fresh-name [fresh-name default-fresh-name]
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;; ht: (hashtableof pattern-hash-key pat)
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#:ht [ht (make-hash)])
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(let recur ([a-rule a-rule]
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[inferred? #f])
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;; lift-nonprimitive-pattern: pattern -> (values (listof primitive-rule) pattern)
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;; Turns non-primitive patterns into primitive patterns, and produces a set of
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;; derived rules.
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(define (lift-nonprimitive-pattern a-pat)
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(cond
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[(primitive-pattern? a-pat)
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(values '() (linearize-primitive-pattern a-pat))]
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[(hash-has-key? ht (pattern->hash-key a-pat))
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(values '() (list (hash-ref ht (pattern->hash-key a-pat))))]
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[else
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(define head (syntax-case a-pat () [(head rest ...) #'head]))
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(define new-name (datum->syntax #f (fresh-name) a-pat))
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(define new-inferred-id (datum->syntax #f `(inferred-id ,new-name ,head) a-pat))
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(hash-set! ht (pattern->hash-key a-pat) new-inferred-id)
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(values (recur #`(rule #,new-name #,a-pat) head)
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(list new-inferred-id))]))
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(define (lift-nonprimitive-patterns pats)
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(define-values (rules patterns)
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(for/fold ([inferred-ruless '()]
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[patternss '()])
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([p (in-list pats)])
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(define-values (new-rules new-ps)
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(lift-nonprimitive-pattern p))
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(values (cons new-rules inferred-ruless)
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(cons new-ps patternss))))
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(values (apply append (reverse rules))
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(apply append (reverse patterns))))
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(with-syntax ([head (if inferred? #'inferred-prim-rule #'prim-rule)]
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[origin (syntax-case a-rule (rule) [(rule name (pat-head rest ...)) #'pat-head])])
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(syntax-case a-rule (rule)
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[(rule name pat)
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(syntax-case #'pat (id inferred-id lit token choice repeat maybe seq elide)
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;; The primitive types stay as they are:
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[(id val)
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(list #'(head origin name [pat]))]
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[(inferred-id val reason)
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(list #'(head origin name [pat]))]
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[(lit val)
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(list #'(head origin name [pat]))]
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[(token val)
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(list #'(head origin name [pat]))]
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;; Everything else might need lifting:
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[(choice sub-pat ...)
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(begin
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(define-values (inferred-ruless/rev new-sub-patss/rev)
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(for/fold ([rs '()] [ps '()])
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([p (syntax->list #'(sub-pat ...))])
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(let-values ([(new-r new-p)
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(lift-nonprimitive-pattern p)])
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(values (cons new-r rs) (cons new-p ps)))))
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(with-syntax ([((sub-pat ...) ...) (reverse new-sub-patss/rev)])
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(append (list #'(head origin name [sub-pat ...] ...))
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(apply append (reverse inferred-ruless/rev)))))]
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[(repeat min sub-pat)
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(begin
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(define-values (inferred-rules new-sub-pats)
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(lift-nonprimitive-pattern #'sub-pat))
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(with-syntax ([(sub-pat ...) new-sub-pats])
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(cons (cond [(= (syntax-e #'min) 0)
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#`(head origin name
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[(inferred-id name repeat) sub-pat ...]
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[])]
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[(= (syntax-e #'min) 1)
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#`(head origin name
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[(inferred-id name repeat) sub-pat ...]
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[sub-pat ...])])
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inferred-rules)))]
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[(maybe sub-pat)
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(begin
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(define-values (inferred-rules new-sub-pats)
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(lift-nonprimitive-pattern #'sub-pat))
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(with-syntax ([(sub-pat ...) new-sub-pats])
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(cons #'(head origin name
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[sub-pat ...]
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[])
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inferred-rules)))]
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[(seq sub-pat ...)
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(begin
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(define-values (inferred-rules new-sub-pats)
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(lift-nonprimitive-patterns (syntax->list #'(sub-pat ...))))
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(with-syntax ([(sub-pat ...) new-sub-pats])
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(cons #'(head origin name [sub-pat ...])
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inferred-rules)))]
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[(elide sub-pat ...)
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(begin
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(define-values (inferred-rules new-sub-pats)
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(lift-nonprimitive-patterns (syntax->list #'(sub-pat ...))))
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(with-syntax ([(sub-pat ...) new-sub-pats])
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(cons #'(head origin name [sub-pat ...])
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inferred-rules)))])]))))
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;; Given a pattern, return a key appropriate for a hash.
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(define (pattern->hash-key a-pat)
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(syntax->datum a-pat))
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;; Returns true if the pattern looks primitive
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(define (primitive-pattern? a-pat)
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(syntax-case a-pat (id lit token choice elide repeat maybe seq elide)
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[(id val)
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#t]
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[(lit val)
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#t]
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[(token val)
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#t]
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[(choice sub-pat ...)
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#f]
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[(repeat min val)
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#f]
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[(maybe sub-pat)
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#f]
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[(seq sub-pat ...)
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(andmap primitive-pattern? (syntax->list #'(sub-pat ...)))]
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[(elide sub-pat ...)
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(andmap primitive-pattern? (syntax->list #'(sub-pat ...)))]))
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;; Given a primitive pattern (id, lit, token, and seqs only containing
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;; primitive patterns), returns a linear sequence of just id, lits,
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;; and tokens.
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(define (linearize-primitive-pattern a-pat)
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(define (traverse a-pat acc)
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(syntax-case a-pat (id inferred-id lit token seq elide)
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[(id val)
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(cons a-pat acc)]
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[(inferred-id val reason)
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(cons a-pat acc)]
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[(lit val)
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(cons a-pat acc)]
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[(token val)
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(cons a-pat acc)]
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[(seq vals ...)
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(foldl traverse acc (syntax->list #'(vals ...)))]
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[(elide vals ...)
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(foldl traverse acc (syntax->list #'(vals ...)))]))
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(reverse (traverse a-pat '())))
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(define-syntax (prim-rule stx)
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(raise-syntax-error #f "internal error: should not be macro expanded" stx))
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(define-syntax (inferred-prim-rule stx)
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(raise-syntax-error #f "internal error: should not be macro expanded" stx))
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(define-syntax (inferred-id stx)
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(raise-syntax-error #f "internal error: should not be macro expanded" stx))
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