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#lang racket/base
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(require (for-template racket/base)
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racket/list
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racket/set
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racket/syntax
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syntax/srcloc
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br/ragg/rules/stx-types
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"flatten.rkt"
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syntax/id-table
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(prefix-in sat: "satisfaction.rkt")
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(prefix-in support: br/ragg/support)
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(prefix-in stxparse: syntax/parse))
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(provide rules-codegen)
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;; Generates the body of the module.
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;; FIXME: abstract this so we can just call (rules ...) without
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;; generating the whole module body.
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(define (rules-codegen stx
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#:parser-provider-module [parser-provider-module 'parser-tools/yacc]
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#:parser-provider-form [parser-provider-form 'parser])
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(syntax-case stx ()
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[(_ r ...)
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(begin
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;; (listof stx)
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(define rules (syntax->list #'(r ...)))
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(when (empty? rules)
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(raise-syntax-error 'ragg
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(format "The grammar does not appear to have any rules")
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stx))
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(check-all-rules-defined! rules)
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(check-all-rules-no-duplicates! rules)
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(check-all-rules-satisfiable! rules)
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;; We flatten the rules so we can use the yacc-style ruleset that parser-tools
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;; supports.
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(define flattened-rules (flatten-rules rules))
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(define generated-rule-codes (map flat-rule->yacc-rule flattened-rules))
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;; The first rule, by default, is the start rule.
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(define rule-ids (for/list ([a-rule (in-list rules)])
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(rule-id a-rule)))
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(define start-id (first rule-ids))
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(define-values (implicit-tokens ;; (listof identifier)
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explicit-tokens) ;; (listof identifier)
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(rules-collect-token-types rules))
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;; (listof symbol)
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(define implicit-token-types
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(map string->symbol
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(set->list (list->set (map syntax-e implicit-tokens)))))
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;; (listof symbol)
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(define explicit-token-types
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(set->list (list->set (map syntax-e explicit-tokens))))
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;; (listof symbol)
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(define token-types
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(set->list (list->set (append (map (lambda (x) (string->symbol (syntax-e x)))
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implicit-tokens)
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(map syntax-e explicit-tokens)))))
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(with-syntax ([start-id start-id]
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[(token-type ...) token-types]
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[(token-type-constructor ...)
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(map (lambda (x) (string->symbol (format "token-~a" x)))
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token-types)]
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[(explicit-token-types ...) explicit-token-types]
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[(implicit-token-types ...) implicit-token-types]
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[(implicit-token-types-str ...) (map symbol->string implicit-token-types)]
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[(implicit-token-type-constructor ...)
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(map (lambda (x) (string->symbol (format "token-~a" x)))
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implicit-token-types)]
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[generated-grammar #`(grammar #,@generated-rule-codes)]
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[parser-module parser-provider-module]
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[parser-form parser-provider-form])
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(quasisyntax/loc stx
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(begin
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(require parser-tools/lex
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parser-module
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br/ragg/codegen/runtime
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br/ragg/support
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br/ragg/private/internal-support
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racket/set
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(for-syntax syntax/parse racket/base))
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(provide parse
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make-rule-parser
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all-token-types
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#;current-source
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#;current-parser-error-handler
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#;current-tokenizer-error-handler
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#;[struct-out exn:fail:parsing]
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)
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(define-tokens enumerated-tokens (token-type ...))
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;; all-token-types lists all the tokens (except for EOF)
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(define all-token-types
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(set-remove (set 'token-type ...) 'EOF))
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;; For internal use by the permissive tokenizer only:
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(define all-tokens-hash/mutable
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(make-hash (list ;; Note: we also allow the eof object here, to make
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;; the permissive tokenizer even nicer to work with.
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(cons eof token-EOF)
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(cons 'token-type token-type-constructor) ...)))
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#;(define default-lex/1
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(lexer-src-pos [implicit-token-types-str
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(token 'implicit-token-types lexeme)]
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...
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[(eof) (token eof)]))
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(define-syntax (make-rule-parser stx-2)
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(syntax-parse stx-2
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[(_ start-rule:id)
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(begin
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;; HACK HACK HACK
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;; The cfg-parser depends on the start-rule provided in (start ...) to have the same
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;; context as the rest of this body, so I need to hack this. I don't like this, but
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;; I don't know what else to do. Hence recolored-start-rule.
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(unless (member (syntax-e #'start-rule)
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'#,(map syntax-e rule-ids))
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(raise-syntax-error #f
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(format "Rule ~a is not defined in the grammar" (syntax-e #'start-rule))
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stx-2))
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(define recolored-start-rule (datum->syntax (syntax #,stx) (syntax-e #'start-rule)))
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#`(let ([THE-GRAMMAR (parser-form (tokens enumerated-tokens)
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(src-pos)
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(start #,recolored-start-rule)
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(end EOF)
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(error THE-ERROR-HANDLER)
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generated-grammar)])
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(case-lambda [(tokenizer)
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(define next-token
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(make-permissive-tokenizer tokenizer all-tokens-hash/mutable))
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(THE-GRAMMAR next-token)]
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[(source tokenizer)
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(parameterize ([current-source source])
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(parse tokenizer))])))]))
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(define parse (make-rule-parser start-id))))))]))
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;; Given a flattened rule, returns a syntax for the code that
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;; preserves as much source location as possible.
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;;
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;; Each rule is defined to return a list with the following structure:
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;;
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;; stx :== (name (U tokens rule-stx) ...)
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;;
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(define (flat-rule->yacc-rule a-flat-rule)
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(syntax-case a-flat-rule ()
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[(rule-type origin name clauses ...)
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(begin
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(define translated-clauses
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(map (lambda (clause) (translate-clause clause #'name #'origin))
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(syntax->list #'(clauses ...))))
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(with-syntax ([(translated-clause ...) translated-clauses])
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#`[name translated-clause ...]))]))
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#|
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MB: This function generates the input for the parse tree,
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passing it to the two functions in "runtime.rkt".
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|#
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(require (only-in sugar/debug report report*))
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;; translates a single primitive rule clause.
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;; A clause is a simple list of ids, lit, vals, and inferred-id elements.
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;; The action taken depends on the pattern type.
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(define (translate-clause a-clause rule-name/false origin)
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(define translated-patterns
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(let loop ([primitive-patterns (syntax->list a-clause)])
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(cond
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[(empty? primitive-patterns)
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'()]
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[else
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(cons (syntax-case (first primitive-patterns) (id lit token inferred-id)
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[(id val)
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#'val]
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[(lit val)
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(datum->syntax #f (string->symbol (syntax-e #'val)) #'val)]
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[(token val)
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#'val]
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[(inferred-id val reason)
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#'val])
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(loop (rest primitive-patterns)))])))
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(define translated-actions
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(for/list ([translated-pattern (in-list translated-patterns)]
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[primitive-pattern (syntax->list a-clause)]
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[pos (in-naturals 1)])
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(with-syntax ([$X
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(format-id translated-pattern "$~a" pos)]
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[$X-start-pos
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(format-id translated-pattern "$~a-start-pos" pos)]
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[$X-end-pos
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(format-id translated-pattern "$~a-end-pos" pos)])
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(syntax-case primitive-pattern (id lit token inferred-id)
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;; When a rule usage is inferred, the value of $X is a syntax object
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;; whose head is the name of the inferred rule . We strip that out,
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;; leaving the residue to be absorbed.
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[(inferred-id val reason)
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(report* #'val #'reason)
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#'(syntax-case $X ()
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[(inferred-rule-name . rest)
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(syntax->list #'rest)])]
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[(id val)
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#`(list $X)]
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[(lit val)
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#`(list (atomic-datum->syntax $X $X-start-pos $X-end-pos))]
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[(token val)
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#`(list (atomic-datum->syntax $X $X-start-pos $X-end-pos))]))))
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(define whole-rule-loc
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(if (empty? translated-patterns)
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#'(list (current-source) #f #f #f #f)
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(with-syntax ([$1-start-pos (datum->syntax (first translated-patterns) '$1-start-pos)]
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[$n-end-pos (format-id (last translated-patterns) "$~a-end-pos" (length translated-patterns))])
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#`(positions->srcloc $1-start-pos $n-end-pos))))
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(with-syntax ([(translated-pattern ...) translated-patterns]
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[(translated-action ...) translated-actions])
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#`[(translated-pattern ...)
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(rule-components->syntax '#,rule-name/false translated-action ...
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#:srcloc #,whole-rule-loc)]))
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; collect-token-types: (listof rule-syntax) -> (values (listof identifier) (listof identifier))
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;;
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;; Given a rule, automatically derive the list of implicit and
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;; explicit token types we need to generate.
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;;
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;; Note: EOF is reserved, and will always be included in the list
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;; of explicit token types, though the user is not allow to express it themselves.
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(define (rules-collect-token-types rules)
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(define-values (implicit explicit)
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(for/fold ([implicit '()]
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[explicit (list (datum->syntax (first rules) 'EOF))])
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([r (in-list rules)])
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(rule-collect-token-types r implicit explicit)))
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(values (reverse implicit) (reverse explicit)))
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(define (rule-collect-token-types a-rule implicit explicit)
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(syntax-case a-rule (rule)
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[(rule id a-pattern)
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(pattern-collect-implicit-token-types #'a-pattern implicit explicit)]))
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(define (pattern-collect-implicit-token-types a-pattern implicit explicit)
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(let loop ([a-pattern a-pattern]
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[implicit implicit]
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[explicit explicit])
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(syntax-case a-pattern (id lit token choice repeat maybe seq)
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[(id val)
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(values implicit explicit)]
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[(lit val)
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(values (cons #'val implicit) explicit)]
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[(token val)
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(begin
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(when (eq? (syntax-e #'val) 'EOF)
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(raise-syntax-error #f "Token EOF is reserved and can not be used in a grammar" #'val))
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(values implicit (cons #'val explicit)))]
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[(choice vals ...)
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(for/fold ([implicit implicit]
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[explicit explicit])
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([v (in-list (syntax->list #'(vals ...)))])
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(loop v implicit explicit))]
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[(repeat min val)
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(loop #'val implicit explicit)]
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[(maybe val)
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(loop #'val implicit explicit)]
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[(seq vals ...)
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(for/fold ([implicit implicit]
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[explicit explicit])
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([v (in-list (syntax->list #'(vals ...)))])
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(loop v implicit explicit))])))
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; rule-id: rule -> identifier-stx
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;; Get the binding id of a rule.
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(define (rule-id a-rule)
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(syntax-case a-rule (rule)
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[(rule id a-pattern)
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#'id]))
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(define (rule-pattern a-rule)
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(syntax-case a-rule (rule)
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[(rule id a-pattern)
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#'a-pattern]))
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; check-all-rules-defined!: (listof rule-stx) -> void
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(define (check-all-rules-defined! rules)
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(define table (make-free-id-table))
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;; Pass one: collect all the defined rule names.
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(for ([a-rule (in-list rules)])
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(free-id-table-set! table (rule-id a-rule) #t))
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;; Pass two: check each referenced id, and make sure it's been defined.
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(for ([a-rule (in-list rules)])
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(for ([referenced-id (in-list (rule-collect-used-ids a-rule))])
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(unless (free-id-table-ref table referenced-id (lambda () #f))
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(raise-syntax-error #f (format "Rule ~a has no definition" (syntax-e referenced-id))
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referenced-id)))))
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;; check-all-rules-no-duplicates!: (listof rule-stx) -> void
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(define (check-all-rules-no-duplicates! rules)
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(define table (make-free-id-table))
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;; Pass one: collect all the defined rule names.
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(for ([a-rule (in-list rules)])
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(define maybe-other-rule-id (free-id-table-ref table (rule-id a-rule) (lambda () #f)))
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(when maybe-other-rule-id
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(raise-syntax-error #f (format "Rule ~a has a duplicate definition" (syntax-e (rule-id a-rule)))
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(rule-id a-rule)
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#f
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(list (rule-id a-rule) maybe-other-rule-id)))
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(free-id-table-set! table (rule-id a-rule) (rule-id a-rule))))
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;; rule-collect-used-ids: rule-stx -> (listof identifier)
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;; Given a rule, extracts a list of identifiers
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(define (rule-collect-used-ids a-rule)
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(syntax-case a-rule (rule)
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[(rule id a-pattern)
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(pattern-collect-used-ids #'a-pattern '())]))
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;; pattern-collect-used-ids: pattern-stx (listof identifier) -> (listof identifier)
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;; Returns a flat list of rule identifiers referenced in the pattern.
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(define (pattern-collect-used-ids a-pattern acc)
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(let loop ([a-pattern a-pattern]
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[acc acc])
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(syntax-case a-pattern (id lit token choice repeat maybe seq)
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[(id val)
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(cons #'val acc)]
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[(lit val)
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acc]
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[(token val)
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acc]
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[(choice vals ...)
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(for/fold ([acc acc])
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([v (in-list (syntax->list #'(vals ...)))])
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(loop v acc))]
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[(repeat min val)
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(loop #'val acc)]
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[(maybe val)
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(loop #'val acc)]
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[(seq vals ...)
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(for/fold ([acc acc])
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([v (in-list (syntax->list #'(vals ...)))])
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(loop v acc))])))
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; check-all-rules-satisfiable: (listof rule-stx) -> void
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;; Does a simple graph traversal / topological sort-like thing to make sure that, for
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;; any rule, there's some finite sequence of tokens that
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;; satisfies it. If this is not the case, then something horrible
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;; has happened, and we need to tell the user about it.
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;;
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;; NOTE: Assumes all referenced rules have definitions.
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(define (check-all-rules-satisfiable! rules)
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(define toplevel-rule-table (make-free-id-table))
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(for ([a-rule (in-list rules)])
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(free-id-table-set! toplevel-rule-table
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(rule-id a-rule)
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(sat:make-and)))
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(define leaves '())
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(define (make-leaf)
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(define a-leaf (sat:make-and))
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(set! leaves (cons a-leaf leaves))
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a-leaf)
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(define (process-pattern a-pattern)
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(syntax-case a-pattern (id lit token choice repeat maybe seq)
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[(id val)
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(free-id-table-ref toplevel-rule-table #'val)]
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[(lit val)
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(make-leaf)]
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[(token val)
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(make-leaf)]
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[(choice vals ...)
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(begin
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(define an-or-node (sat:make-or))
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(for ([v (in-list (syntax->list #'(vals ...)))])
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(define a-child (process-pattern v))
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(sat:add-child! an-or-node a-child))
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an-or-node)]
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[(repeat min val)
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(syntax-case #'min ()
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[0
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(make-leaf)]
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[else
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(process-pattern #'val)])]
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[(maybe val)
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(make-leaf)]
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[(seq vals ...)
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(begin
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(define an-and-node (sat:make-and))
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(for ([v (in-list (syntax->list #'(vals ...)))])
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(define a-child (process-pattern v))
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(sat:add-child! an-and-node a-child))
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an-and-node)]))
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(for ([a-rule (in-list rules)])
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(define rule-node (free-id-table-ref toplevel-rule-table (rule-id a-rule)))
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(sat:add-child! rule-node (process-pattern (rule-pattern a-rule))))
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(for ([a-leaf leaves])
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(sat:visit! a-leaf))
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(for ([a-rule (in-list rules)])
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(define rule-node (free-id-table-ref toplevel-rule-table (rule-id a-rule)))
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(unless (sat:node-yes? rule-node)
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(raise-syntax-error #f (format "Rule ~a has no finite derivation" (syntax-e (rule-id a-rule)))
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(rule-id a-rule)))))
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