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#lang racket/base
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(require br-parser-tools/private-yacc/grammar
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br-parser-tools/private-yacc/lr0
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br-parser-tools/private-yacc/lalr
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br-parser-tools/private-yacc/parser-actions
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racket/contract
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racket/list
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racket/class)
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;; Routine to build the LALR table
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(define (is-a-grammar%? x) (is-a? x grammar%))
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(provide/contract
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(build-table (-> is-a-grammar%? string? any/c
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(vectorof (listof (cons/c (or/c term? non-term?) action?))))))
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;; A parse-table is (vectorof (listof (cons/c gram-sym? action)))
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;; A grouped-parse-table is (vectorof (listof (cons/c gram-sym? (listof action))))
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;; make-parse-table : int -> parse-table
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(define (make-parse-table num-states)
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(make-vector num-states null))
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;; table-add!: parse-table nat symbol action ->
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(define (table-add! table state-index symbol val)
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(vector-set! table state-index (cons (cons symbol val)
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(vector-ref table state-index))))
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;; group-table : parse-table -> grouped-parse-table
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(define (group-table table)
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(list->vector
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(for/list ([state-entry (in-list (vector->list table))])
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(define ht (make-hasheq))
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(for* ([gs/actions (in-list state-entry)]
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[group (in-value (hash-ref ht (car gs/actions) (λ () null)))]
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#:unless (member (cdr gs/actions) group))
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(hash-set! ht (car gs/actions) (cons (cdr gs/actions) group)))
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(hash-map ht cons))))
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;; table-map : (vectorof (listof (cons/c gram-sym? X))) (gram-sym? X -> Y) ->
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;; (vectorof (listof (cons/c gram-sym? Y)))
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(define (table-map f table)
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(list->vector
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(for/list ([state-entry (in-list (vector->list table))])
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(for/list ([gs/X (in-list state-entry)])
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(cons (car gs/X) (f (car gs/X) (cdr gs/X)))))))
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(define (bit-vector-for-each f bv)
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(let loop ([bv bv] [number 0])
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(cond
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[(zero? bv) (void)]
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[(= 1 (bitwise-and 1 bv))
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(f number)
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(loop (arithmetic-shift bv -1) (add1 number))]
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[else (loop (arithmetic-shift bv -1) (add1 number))])))
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;; print-entry: symbol action output-port ->
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;; prints the action a for lookahead sym to the given port
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(define (print-entry sym a port)
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(define s "\t~a\t\t\t\t\t~a\t~a\n")
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(cond
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[(shift? a) (fprintf port s sym "shift" (shift-state a))]
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[(reduce? a) (fprintf port s sym "reduce" (prod-index (reduce-prod a)))]
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[(accept? a) (fprintf port s sym "accept" "")]
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[(goto? a) (fprintf port s sym "goto" (goto-state a))]))
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;; count: ('a -> bool) * 'a list -> num
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;; counts the number of elements in list that satisfy pred
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(define (count pred list)
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(cond
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[(null? list) 0]
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[(pred (car list)) (+ 1 (count pred (cdr list)))]
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[else (count pred (cdr list))]))
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;; display-parser: LR0-automaton grouped-parse-table (listof prod?) output-port ->
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;; Prints out the parser given by table.
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(define (display-parser a grouped-table prods port)
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(define SR-conflicts 0)
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(define RR-conflicts 0)
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(for ([prod (in-list prods)])
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(fprintf port
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"~a\t~a\t=\t~a\n"
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(prod-index prod)
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(gram-sym-symbol (prod-lhs prod))
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(map gram-sym-symbol (vector->list (prod-rhs prod)))))
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(send a for-each-state
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(λ (state)
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(fprintf port "State ~a\n" (kernel-index state))
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(for ([item (in-list (kernel-items state))])
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(fprintf port "\t~a\n" (item->string item)))
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(newline port)
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(for ([gs/action (in-list (vector-ref grouped-table (kernel-index state)))])
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(define sym (gram-sym-symbol (car gs/action)))
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(define act (cdr gs/action))
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(cond
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[(null? act) (void)]
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[(null? (cdr act))
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(print-entry sym (car act) port)]
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[else
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(fprintf port "begin conflict:\n")
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(when (> (count reduce? act) 1)
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(set! RR-conflicts (add1 RR-conflicts)))
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(when (> (count shift? act) 0)
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(set! SR-conflicts (add1 SR-conflicts)))
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(map (λ (x) (print-entry sym x port)) act)
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(fprintf port "end conflict\n")]))
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(newline port)))
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(when (> SR-conflicts 0)
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(fprintf port "~a shift/reduce conflict~a\n"
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SR-conflicts
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(if (= SR-conflicts 1) "" "s")))
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(when (> RR-conflicts 0)
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(fprintf port "~a reduce/reduce conflict~a\n"
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RR-conflicts
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(if (= RR-conflicts 1) "" "s"))))
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;; resolve-conflict : (listof action?) -> action? bool bool
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(define (resolve-conflict actions)
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(cond
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[(null? actions) (values (make-no-action) #f #f)]
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[(null? (cdr actions)) (values (car actions) #f #f)]
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[else
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(define SR-conflict? (> (count shift? actions) 0))
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(define RR-conflict? (> (count reduce? actions) 1))
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(let loop ((current-guess #f)
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(rest actions))
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(cond
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[(null? rest) (values current-guess SR-conflict? RR-conflict?)]
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[(shift? (car rest)) (values (car rest) SR-conflict? RR-conflict?)]
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[(not current-guess) (loop (car rest) (cdr rest))]
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[(and (reduce? (car rest))
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(< (prod-index (reduce-prod (car rest)))
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(prod-index (reduce-prod current-guess))))
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(loop (car rest) (cdr rest))]
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[(accept? (car rest))
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(eprintf "accept/reduce or accept/shift conflicts. Check the grammar for useless cycles of productions\n")
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(loop current-guess (cdr rest))]
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[else (loop current-guess (cdr rest))]))]))
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;; resolve-conflicts : grouped-parse-table bool -> parse-table
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(define (resolve-conflicts grouped-table suppress)
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(define SR-conflicts 0)
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(define RR-conflicts 0)
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(define table (table-map
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(λ (gs actions)
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(let-values ([(action SR? RR?)
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(resolve-conflict actions)])
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(when SR?
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(set! SR-conflicts (add1 SR-conflicts)))
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(when RR?
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(set! RR-conflicts (add1 RR-conflicts)))
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action))
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grouped-table))
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(unless suppress
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(when (> SR-conflicts 0)
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(eprintf "~a shift/reduce conflict~a\n"
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SR-conflicts
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(if (= SR-conflicts 1) "" "s")))
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(when (> RR-conflicts 0)
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(eprintf "~a reduce/reduce conflict~a\n"
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RR-conflicts
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(if (= RR-conflicts 1) "" "s"))))
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table)
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;; resolve-sr-conflict : (listof action) (union int #f) -> (listof action)
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;; Resolves a single shift-reduce conflict, if precedences are in place.
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(define (resolve-sr-conflict/prec actions shift-prec)
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(define shift (if (shift? (car actions))
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(car actions)
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(cadr actions)))
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(define reduce (if (shift? (car actions))
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(cadr actions)
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(car actions)))
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(define reduce-prec (prod-prec (reduce-prod reduce)))
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(cond
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[(and shift-prec reduce-prec)
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(cond
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[(< (prec-num shift-prec) (prec-num reduce-prec))
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(list reduce)]
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[(> (prec-num shift-prec) (prec-num reduce-prec))
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(list shift)]
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[(eq? 'left (prec-assoc shift-prec))
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(list reduce)]
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[(eq? 'right (prec-assoc shift-prec))
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(list shift)]
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[else null])]
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[else actions]))
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;; resolve-prec-conflicts : parse-table -> grouped-parse-table
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(define (resolve-prec-conflicts table)
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(table-map
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(λ (gs actions)
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(cond
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[(and (term? gs)
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(= 2 (length actions))
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(or (shift? (car actions))
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(shift? (cadr actions))))
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(resolve-sr-conflict/prec actions (term-prec gs))]
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[else actions]))
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(group-table table)))
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;; build-table: grammar string bool -> parse-table
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(define (build-table g file suppress)
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(define a (build-lr0-automaton g))
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(define term-vector (list->vector (send g get-terms)))
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(define end-terms (send g get-end-terms))
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(define table (make-parse-table (send a get-num-states)))
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(define get-lookahead (compute-LA a g))
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(define reduce-cache (make-hash))
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(for ([trans-key/state (in-list (send a get-transitions))])
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(define from-state-index (kernel-index (trans-key-st (car trans-key/state))))
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(define gs (trans-key-gs (car trans-key/state)))
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(define to-state (cdr trans-key/state))
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(table-add! table from-state-index gs
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(cond
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((non-term? gs)
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(make-goto (kernel-index to-state)))
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((member gs end-terms)
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(make-accept))
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(else
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(make-shift
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(kernel-index to-state))))))
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(send a for-each-state
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(λ (state)
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(for ([item (in-list (append (hash-ref (send a get-epsilon-trans) state (λ () null))
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(filter (λ (item)
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(not (move-dot-right item)))
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(kernel-items state))))])
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(let ([item-prod (item-prod item)])
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(bit-vector-for-each
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(λ (term-index)
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(unless (start-item? item)
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(let ((r (hash-ref reduce-cache item-prod
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(λ ()
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(let ((r (make-reduce item-prod)))
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(hash-set! reduce-cache item-prod r)
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r)))))
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(table-add! table
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(kernel-index state)
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(vector-ref term-vector term-index)
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r))))
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(get-lookahead state item-prod))))))
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(define grouped-table (resolve-prec-conflicts table))
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(unless (string=? file "")
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(with-handlers [(exn:fail:filesystem?
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(λ (e)
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(eprintf
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"Cannot write debug output to file \"~a\": ~a\n"
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file
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(exn-message e))))]
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(call-with-output-file file
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(λ (port)
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(display-parser a grouped-table (send g get-prods) port))
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#:exists 'truncate)))
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(resolve-conflicts grouped-table suppress))
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