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br-parser-tools/collects/parser-tools/private-yacc/input-file-parser.ss

448 lines
18 KiB
Scheme

#cs
(module input-file-parser mzscheme
;; routines for parsing the input to the parser generator and producing a
;; grammar (See grammar.ss)
(require "yacc-helper.ss"
"../private-lex/token-syntax.ss"
"grammar.ss"
(lib "list.ss")
(lib "class.ss"))
(provide parse-input get-term-list)
(define stx-for-original-property (read-syntax #f (open-input-string "original")))
;; get-args: int * syntax-object list * syntax-object -> syntax-object list
(define (get-args i rhs act src-pos term-defs)
(let ((empty-table (make-hash-table)))
(hash-table-put! empty-table 'error #t)
(for-each (lambda (td)
(let ((v (syntax-local-value td)))
(if (e-terminals-def? v)
(for-each (lambda (s)
(hash-table-put! empty-table (syntax-object->datum s) #t))
(syntax->list (e-terminals-def-t v))))))
(cdr (syntax->list term-defs)))
(let get-args ((i i)
(rhs rhs))
(cond
((null? rhs) null)
(else
(let ((b (syntax-local-introduce (car rhs)))
(name (if (hash-table-get empty-table (syntax-object->datum (car rhs)) (lambda () #f))
(gensym)
(string->symbol (format "$~a" i)))))
(cond
(src-pos
`(,(datum->syntax-object act name b stx-for-original-property)
,(datum->syntax-object act (string->symbol (format "$~a-start-pos" i)) b stx-for-original-property)
,(datum->syntax-object act (string->symbol (format "$~a-end-pos" i)) b stx-for-original-property)
,@(get-args (add1 i) (cdr rhs))))
(else
`(,(datum->syntax-object act name b stx-for-original-property)
,@(get-args (add1 i) (cdr rhs)))))))))))
;; nullable: production list * int -> non-term set
;; determines which non-terminals can derive epsilon
(define (nullable prods num-nts)
(letrec ((nullable (make-vector num-nts #f))
(added #f)
;; possible-nullable: producion list -> production list
;; Removes all productions that have a terminal
(possible-nullable
(lambda (prods)
(filter (lambda (prod)
(vector-andmap non-term? (prod-rhs prod)))
prods)))
;; set-nullables: production list -> production list
;; makes one pass through the productions, adding the ones
;; known to be nullable now to nullable and returning a list
;; of productions that we don't know about yet.
(set-nullables
(lambda (prods)
(cond
((null? prods) null)
((vector-ref nullable
(gram-sym-index (prod-lhs (car prods))))
(set-nullables (cdr prods)))
((vector-andmap (lambda (nt)
(vector-ref nullable (gram-sym-index nt)))
(prod-rhs (car prods)))
(vector-set! nullable
(gram-sym-index (prod-lhs (car prods)))
#t)
(set! added #t)
(set-nullables (cdr prods)))
(else
(cons (car prods)
(set-nullables (cdr prods))))))))
(let loop ((P (possible-nullable prods)))
(cond
((null? P) nullable)
(else
(set! added #f)
(let ((new-P (set-nullables P)))
(if added
(loop new-P)
nullable)))))))
;; Given the list of terminal symbols and the precedence/associativity definitions,
;; builds terminal structures (See grammar.ss)
;; build-terms: symbol list * symbol list list -> term list
(define (build-terms term-list precs)
(let ((counter 0)
;;(term-list (cons (gensym) term-list))
;; Will map a terminal symbol to its precedence/associativity
(prec-table (make-hash-table)))
;; Fill the prec table
(for-each
(lambda (p-decl)
(begin0
(let ((assoc (car p-decl)))
(for-each
(lambda (term-sym)
(hash-table-put! prec-table term-sym (make-prec counter assoc)))
(cdr p-decl)))
(set! counter (add1 counter))))
precs)
(set! counter 0)
;; Build the terminal structures
(map
(lambda (term-sym)
(begin0
(make-term term-sym
counter
(hash-table-get prec-table term-sym (lambda () #f)))
(set! counter (add1 counter))))
term-list)))
;; Retrieves the terminal symbols from a terminals-def (See terminal-syntax.ss)
;; get-terms-from-def: syntax-object -> symbol list
(define (get-terms-from-def term-syn)
(let ((t (syntax-local-value term-syn (lambda () #f))))
(cond
((terminals-def? t) (syntax->list (terminals-def-t t)))
((e-terminals-def? t) (syntax->list (e-terminals-def-t t)))
(else
(raise-syntax-error
'parser-tokens
"undefined token group"
term-syn)))))
;; get-term-list: syntax-object -> syntax-object list
(define (get-term-list so)
(syntax-case* so (tokens)
(lambda (a b)
(eq? (syntax-object->datum a) (syntax-object->datum b)))
((tokens term-def ...)
(andmap identifier? (syntax->list (syntax (term-def ...))))
(remove-duplicates
(cons (datum->syntax-object #f 'error)
(apply append
(map get-terms-from-def
(syntax->list (syntax (term-def ...))))))))
(_
(raise-syntax-error
'parser-tokens
"Token declaration must be (tokens symbol ...)"
so))))
;; parse-input: syntax-object * syntax-object list * syntax-object^4 * boolean-> grammar
(define (parse-input start ends term-defs prec-decls prods runtime src-pos)
(let* ((counter 0)
(start-sym (syntax-object->datum start))
(list-of-terms (map syntax-object->datum (get-term-list term-defs)))
(end-terms
(map
(lambda (end)
(if (not (memq (syntax-object->datum end) list-of-terms))
(raise-syntax-error
'parser-end-tokens
(format "End token ~a not defined as a token"
(syntax-object->datum end))
end)
(syntax-object->datum end)))
ends))
;; Get the list of terminals out of input-terms
(list-of-non-terms
(syntax-case* prods (grammar)
(lambda (a b)
(eq? (syntax-object->datum a) (syntax-object->datum b)))
((grammar (non-term production ...) ...)
(begin
(for-each
(lambda (nts)
(if (memq (syntax-object->datum nts) list-of-terms)
(raise-syntax-error
'parser-non-terminals
(format "~a used as both token and non-terminal"
(syntax-object->datum nts))
nts)))
(syntax->list (syntax (non-term ...))))
(let ((dup (duplicate-list? (syntax-object->datum
(syntax (non-term ...))))))
(if dup
(raise-syntax-error
'parser-non-terminals
(format "non-terminal ~a defined multiple times"
dup)
prods)))
(syntax-object->datum (syntax (non-term ...)))))
(_
(raise-syntax-error
'parser-grammar
"Grammar must be of the form (grammar (non-terminal productions ...) ...)"
prods))))
;; Check the precedence declarations for errors and turn them into data
(precs
(syntax-case* prec-decls (precs)
(lambda (a b)
(eq? (syntax-object->datum a) (syntax-object->datum b)))
((precs (type term ...) ...)
(let ((p-terms
(apply append (syntax-object->datum
(syntax ((term ...) ...))))))
(cond
((duplicate-list? p-terms) =>
(lambda (d)
(raise-syntax-error
'parser-precedences
(format "duplicate precedence declaration for token ~a"
d)
prec-decls)))
(else
(for-each
(lambda (a)
(for-each
(lambda (t)
(if (not (memq (syntax-object->datum t)
list-of-terms))
(raise-syntax-error
'parser-precedences
(format
"Precedence declared for non-token ~a"
(syntax-object->datum t))
t)))
(syntax->list a)))
(syntax->list (syntax ((term ...) ...))))
(for-each
(lambda (type)
(if (not (memq (syntax-object->datum type)
`(left right nonassoc)))
(raise-syntax-error
'parser-precedences
"Associativity must be left, right or nonassoc"
type)))
(syntax->list (syntax (type ...))))
(cdr (syntax-object->datum prec-decls))))))
(#f null)
(_
(raise-syntax-error
'parser-precedences
"Precedence declaration must be of the form (precs (assoc term ...) ...) where assoc is left, right or nonassoc"
prec-decls))))
(terms (build-terms list-of-terms precs))
(non-terms (begin
(set! counter 2)
(map (lambda (non-term)
(begin0
(make-non-term non-term counter)
(set! counter (add1 counter))))
list-of-non-terms)))
(term-table (make-hash-table))
(non-term-table (make-hash-table)))
(for-each (lambda (t)
(hash-table-put! term-table (gram-sym-symbol t) t))
terms)
(for-each (lambda (nt)
(hash-table-put! non-term-table (gram-sym-symbol nt) nt))
non-terms)
(let* (
;; parse-prod: syntax-object -> gram-sym vector
(parse-prod
(lambda (prod-so)
(syntax-case prod-so ()
((prod-rhs-sym ...)
(andmap identifier? (syntax->list prod-so))
(begin
(for-each (lambda (t)
(if (memq (syntax-object->datum t) end-terms)
(raise-syntax-error
'parser-production-rhs
(format "~a is an end token and cannot be used in a production"
(syntax-object->datum t))
t)))
(syntax->list prod-so))
(list->vector
(map (lambda (s)
(hash-table-get
term-table
(syntax-object->datum s)
(lambda ()
(hash-table-get
non-term-table
(syntax-object->datum s)
(lambda ()
(raise-syntax-error
'parser-production-rhs
(format
"~a is not declared as a terminal or non-terminal"
(syntax-object->datum s))
s))))))
(syntax->list prod-so)))))
(_
(raise-syntax-error
'parser-production-rhs
"production right-hand-side must have form (symbol ...)"
prod-so)))))
;; parse-action: syntax-object * syntax-object -> syntax-object
(parse-action
(lambda (rhs act)
(datum->syntax-object
runtime
`(lambda ,(get-args 1 (syntax->list rhs) act src-pos term-defs)
,act)
act)))
;; parse-prod+action: non-term * syntax-object -> production
(parse-prod+action
(lambda (nt prod-so)
(syntax-case* prod-so (prec)
(lambda (a b)
(eq? (syntax-object->datum a) (syntax-object->datum b)))
((prod-rhs action)
(let ((p (parse-prod (syntax prod-rhs))))
(set! counter (add1 counter))
(make-prod
nt
p
counter
(let loop ((i (sub1 (vector-length p))))
(if (>= i 0)
(let ((gs (vector-ref p i)))
(if (term? gs)
(term-prec gs)
(loop (sub1 i))))
#f))
(parse-action (syntax prod-rhs) (syntax action)))))
((prod-rhs (prec term) action)
(identifier? (syntax term))
(let ((p (parse-prod (syntax prod-rhs))))
(set! counter (add1 counter))
(make-prod
nt
p
counter
(term-prec
(hash-table-get
term-table
(syntax-object->datum (syntax term))
(lambda ()
(raise-syntax-error
'parser-production-rhs
(format
"unrecognized terminal ~a in precedence declaration"
(syntax-object->datum (syntax term)))
(syntax term)))))
(parse-action (syntax prod-rhs) (syntax action)))))
(_
(raise-syntax-error
'parser-production-rhs
"production must have form [(symbol ...) expression] or [(symbol ...) (prec symbol) expression]"
prod-so)))))
;; parse-prod-for-nt: syntax-object -> production list
(parse-prods-for-nt
(lambda (prods-so)
(syntax-case prods-so ()
((nt productions ...)
(> (length (syntax->list (syntax (productions ...)))) 0)
(let ((nt (hash-table-get
non-term-table
(syntax-object->datum (syntax nt)))))
(map (lambda (p) (parse-prod+action nt p))
(syntax->list (syntax (productions ...))))))
(_
(raise-syntax-error
'parser-productions
"A production for a non-terminal must be (non-term right-hand-side ...) with at least 1 right hand side"
prods-so))))))
(if (not (memq start-sym list-of-non-terms))
(raise-syntax-error
'parser-start
(format "Start symbol ~a not defined as a non-terminal"
start-sym)
start))
(set! counter (length end-terms))
(let* ((start (make-non-term (gensym) 0))
(end-non-term (make-non-term (gensym) 1))
(parsed-prods (map parse-prods-for-nt (cdr (syntax->list prods))))
(counter2 0)
(prods
`((,(make-prod start (vector end-non-term) 0 #f #f))
,(map
(lambda (end)
(set! counter2 (add1 counter2))
(make-prod end-non-term
(vector
(hash-table-get non-term-table start-sym)
(hash-table-get term-table end))
counter2
#f
(datum->syntax-object
runtime
`(lambda (x) x))))
end-terms)
,@parsed-prods))
(nulls (nullable (apply append prods)
(+ 2 (length non-terms)))))
;; (printf "nullable: {~a}~n~n"
;; (apply string-append
;; (let loop ((i 0))
;; (cond
;; ((>= i (vector-length nulls)) null)
;; ((vector-ref nulls i)
;; (cons
;; (format "~a "
;; (gram-sym-symbol
;; (list-ref (cons start (cons end-non-term non-terms)) i)))
;; (loop (add1 i))))
;; (else (loop (add1 i)))))))
(make-object grammar%
prods
terms
(cons start (cons end-non-term non-terms))
nulls
(map (lambda (term-name)
(hash-table-get term-table term-name))
end-terms)))))))