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beautiful-racket/brag/brag/codegen/runtime.rkt

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#lang br
(require racket/match
racket/list
racket/generator
(prefix-in lex: parser-tools/lex)
brag/support
brag/private/internal-support)
(provide THE-ERROR-HANDLER
make-permissive-tokenizer
atomic-datum->syntax
positions->srcloc
rule-components->syntax)
;; The level of indirection here is necessary since the yacc grammar wants a
;; function value for the error handler up front. We want to delay that decision
;; till parse time.
(define (THE-ERROR-HANDLER tok-ok? tok-name tok-value start-pos end-pos)
(match (positions->srcloc start-pos end-pos)
[(list src line col offset span)
((current-parser-error-handler) tok-name
tok-value
offset
line
col
span)]))
(define no-position (lex:position #f #f #f))
(define (no-position? p)
(not
(or (lex:position-line p)
(lex:position-col p)
(lex:position-offset p))))
;; make-permissive-tokenizer: (U (sequenceof (U token token-struct eof void)) (-> (U token token-struct eof void))) hash -> (-> position-token)
;; Creates a tokenizer from the given value.
;; FIXME: clean up code.
(define (make-permissive-tokenizer tokenizer token-type-hash)
(define tokenizer-thunk (cond
[(sequence? tokenizer)
(sequence->generator tokenizer)]
[(procedure? tokenizer)
tokenizer]))
;; lookup: symbol any pos pos -> position-token
(define (lookup type val start-pos end-pos)
(lex:position-token
((hash-ref token-type-hash type
(lambda ()
((current-tokenizer-error-handler) (format "~a" type) val
(lex:position-offset start-pos)
(lex:position-line start-pos)
(lex:position-col start-pos)
(and (number? (lex:position-offset start-pos))
(number? (lex:position-offset end-pos))
(- (lex:position-offset end-pos)
(lex:position-offset start-pos))))))
val)
start-pos end-pos))
(define (permissive-tokenizer)
(define next-token (tokenizer-thunk))
(let loop ([next-token next-token])
(match next-token
[(or (? eof-object?) (? void?))
(lookup 'EOF eof no-position no-position)]
[(? symbol?)
(lookup next-token next-token no-position no-position)]
[(? string?)
(lookup (string->symbol next-token) next-token no-position no-position)]
[(? char?)
(lookup (string->symbol (string next-token)) next-token no-position no-position)]
;; Compatibility
[(? lex:token?)
(loop (token (lex:token-name next-token)
(lex:token-value next-token)))]
[(token-struct type val offset line column span skip?)
(cond [skip?
;; skip whitespace, and just tokenize again.
(permissive-tokenizer)]
[(hash-has-key? token-type-hash type)
(define start-pos (lex:position offset line column))
;; try to synthesize a consistent end position.
(define end-pos (lex:position (if (and (number? offset) (number? span))
(+ offset span)
offset)
line
(if (and (number? column) (number? span))
(+ column span)
column)))
(lookup type val start-pos end-pos)]
[else
;; We ran into a token of unrecognized type. Let's raise an appropriate error.
((current-tokenizer-error-handler) type val
offset line column span)])]
[(lex:position-token t s e)
(define a-position-token (loop t))
(lex:position-token (lex:position-token-token a-position-token)
(if (no-position? (lex:position-token-start-pos a-position-token))
s
(lex:position-token-start-pos a-position-token))
(if (no-position? (lex:position-token-end-pos a-position-token))
e
(lex:position-token-end-pos a-position-token)))]
[else
;; Otherwise, we have no idea how to treat this as a token.
((current-tokenizer-error-handler) 'unknown-type (format "~a" next-token)
#f #f #f #f)])))
permissive-tokenizer)
;; positions->srcloc: position position -> (list source line column offset span)
;; Given two positions, returns a srcloc-like structure, where srcloc is the value
;; consumed as the third argument to datum->syntax.
(define (positions->srcloc start-pos end-pos)
(list (current-source)
(lex:position-line start-pos)
(lex:position-col start-pos)
(lex:position-offset start-pos)
(if (and (number? (lex:position-offset end-pos))
(number? (lex:position-offset start-pos)))
(- (lex:position-offset end-pos)
(lex:position-offset start-pos))
#f)))
#|
MB: the next three functions control the parse tree output.
This would be the place to check a syntax property for hiding.
|#
;; We create a syntax using read-syntax; by definition, it should have the
;; original? property set to #t, which we then copy over to syntaxes constructed
;; with atomic-datum->syntax and rule-components->syntax.
(define stx-with-original?-property
(read-syntax #f (open-input-string "meaningless-string")))
(define elided (gensym))
;; atomic-datum->syntax: datum position position
;; Helper that does the ugly work in wrapping a datum into a syntax
;; with source location.
(define (atomic-datum->syntax d start-pos end-pos [hide? #f])
(if hide?
elided
(datum->syntax #f d (positions->srcloc start-pos end-pos) stx-with-original?-property)))
;; rule-components->syntax: (U symbol false) (listof stx) ... #:srcloc (U #f (list src line column offset span)) -> stx
;; Creates an stx out of the rule name and its components.
;; The location information of the rule spans that of its components.
(define (rule-components->syntax rule-name/false #:srcloc [srcloc #f] . components)
(define flattened-elided-components (filter-not (λ(c) (eq? c elided)) (apply append components)))
(datum->syntax #f
(cons
(datum->syntax #f rule-name/false srcloc stx-with-original?-property)
flattened-elided-components)
srcloc
stx-with-original?-property))
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