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129 lines
3.8 KiB
Racket
129 lines
3.8 KiB
Racket
#lang racket/base
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(require (for-syntax racket/base "parser.rkt"))
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(require br-parser-tools/lex
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(prefix-in : br-parser-tools/lex-sre)
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"parser.rkt"
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"rule-structs.rkt"
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racket/string)
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(provide lex/1 tokenize)
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(module+ lex-abbrevs
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(provide hide-char splice-char id-char letter digit NL id))
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;; A newline can be any one of the following.
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(define-lex-abbrev NL (:or "\r\n" "\r" "\n"))
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;; reserved-chars = chars used for quantifiers & parse-tree filtering
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(define-for-syntax quantifiers "+:*?{}") ; colon is reserved to separate rules and productions
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(define-lex-trans reserved-chars
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(λ(stx) #`(char-set #,(format "~a~a~a" quantifiers hide-char splice-char))))
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(define-lex-trans hide-char-trans (λ(stx) #`(char-set #,(format "~a" hide-char))))
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(define-lex-trans splice-char-trans (λ(stx) #`(char-set #,(format "~a" splice-char))))
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(define-lex-abbrevs
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[letter (:or (:/ "a" "z") (:/ #\A #\Z))]
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[digit (:/ #\0 #\9)]
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[id-char (:or letter digit (:& (char-set "+:*@!-.$%&/=?^_~<>") (char-complement (reserved-chars))))]
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[hide-char (hide-char-trans)]
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[splice-char (splice-char-trans)]
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)
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(define-lex-abbrev id (:& (complement (:+ digit)) (:+ id-char)))
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(define-lex-abbrev id-separator (:or ":" "::="))
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(define lex/1
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(lexer-src-pos
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;; handle whitespace chars within quotes as literal tokens: "\n" "\t" '\n' '\t'
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;; by matching the escaped version, and then unescaping them before they become token-LITs
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[(:: "'"
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(:* (:or "\\'" "\\n" "\\t" (:~ "'" "\\")))
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"'")
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(token-LIT (case lexeme
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[("'\\n'") "'\n'"]
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[("'\\t'") "'\t'"]
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[else lexeme]))]
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[(:: "\""
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(:* (:or "\\\"" "\\n" "\\t" (:~ "\"" "\\")))
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"\"")
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(token-LIT (case lexeme
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[("\"\\n\"") "\"\n\""]
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[("\"\\t\"") "\"\t\""]
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[else lexeme]))]
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["("
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(token-LPAREN lexeme)]
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["["
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(token-LBRACKET lexeme)]
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[")"
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(token-RPAREN lexeme)]
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["]"
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(token-RBRACKET lexeme)]
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[hide-char
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(token-HIDE lexeme)]
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[splice-char
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(token-SPLICE lexeme)]
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["|"
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(token-PIPE lexeme)]
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[(:or "+" "*" "?"
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(:: "{" (:* digit) (:? (:: "," (:* digit))) "}"))
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(token-REPEAT lexeme)]
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[whitespace
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;; Skip whitespace
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(return-without-pos (lex/1 input-port))]
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;; Skip comments up to end of line
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[(:: (:or "#" ";")
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(complement (:: (:* any-char) NL (:* any-char)))
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(:or NL ""))
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;; Skip comments up to end of line.
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(return-without-pos (lex/1 input-port))]
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[(eof)
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(token-EOF lexeme)]
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[(:: id (:* whitespace) id-separator)
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(token-RULE_HEAD lexeme)]
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[(:: hide-char id (:* whitespace) id-separator)
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(token-RULE_HEAD_HIDDEN lexeme)]
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[(:: splice-char id (:* whitespace) id-separator)
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(token-RULE_HEAD_SPLICED lexeme)]
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[id
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(token-ID lexeme)]
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;; We call the error handler for everything else:
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[(:: any-char)
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(let-values ([(rest-of-text end-pos-2)
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(lex-nonwhitespace input-port)])
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((current-parser-error-handler)
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#f
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'error
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(string-append lexeme rest-of-text)
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(position->pos start-pos)
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(position->pos end-pos-2)))]))
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;; This is the helper for the error production.
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(define lex-nonwhitespace
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(lexer
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[(:+ (char-complement whitespace))
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(values lexeme end-pos)]
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[any-char
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(values lexeme end-pos)]
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[(eof)
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(values "" end-pos)]))
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;; position->pos: position -> pos
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;; Coerses position structures from br-parser-tools/lex to our own pos structures.
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(define (position->pos a-pos)
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(pos (position-offset a-pos)
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(position-line a-pos)
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(position-col a-pos)))
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;; tokenize: input-port -> (-> token)
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(define (tokenize ip
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#:source [source (object-name ip)])
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(lambda ()
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(parameterize ([file-path source])
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(lex/1 ip))))
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