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767 lines
33 KiB
Racket
767 lines
33 KiB
Racket
#lang racket/base
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#|
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Implements the pollen/mode metalanguage.
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Problem is that scribble/reader, and the at-exp metalanguage, changed after 6.1.
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So this file
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a) adapts the at-exp metalang from 6.2
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b) incorporates the scribble/reader from 6.2
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so that everything will work correctly in 6.0.
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|#
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(module* runtime-config racket/base
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(provide configure)
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(require (only-in (submod ".." at-reader) make-at-readtable))
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(define (configure data)
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(define old-read (current-read-interaction))
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(define (new-read src in)
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(parameterize ([current-readtable (make-at-readtable #:readtable (current-readtable))])
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(old-read src in)))
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(current-read-interaction new-read)))
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(module* language-info racket/base
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(provide get-language-info)
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(require racket/match)
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(define (get-language-info data)
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(define other-get-info
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(match data
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[(vector mod sym data2)
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((dynamic-require mod sym) data2)]
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[_ (λ(key default) default)]))
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(λ(key default)
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(case key
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[(configure-runtime)
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(define config-vec '#[(submod pollen/mode runtime-config) configure #f])
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(define other-config (other-get-info key default))
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(cond [(list? other-config) (cons config-vec other-config)]
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[else (list config-vec)])]
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[else (other-get-info key default)]))))
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(module* reader racket/base
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(require syntax/module-reader
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(only-in (submod ".." at-reader) make-at-readtable))
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(provide (rename-out [at-read read]
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[at-read-syntax read-syntax]
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[at-get-info get-info]))
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(define (wrap-reader p)
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(λ args
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(parameterize ([current-readtable (make-at-readtable #:datum-readtable 'dynamic
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#:command-readtable 'dynamic
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#:command-char (dynamic-require 'pollen/world 'world:command-char))])
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(apply p args))))
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(define-values (at-read at-read-syntax at-get-info)
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(make-meta-reader
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'pollen/mode
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"language path"
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(λ(bstr)
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(let* ([str (bytes->string/latin-1 bstr)]
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[sym (string->symbol str)])
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(and (module-path? sym)
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(vector
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;; try submod first:
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`(submod ,sym reader)
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;; fall back to /lang/reader:
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(string->symbol (string-append str "/lang/reader"))))))
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wrap-reader
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(λ(orig-read-syntax)
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(define read-syntax (wrap-reader orig-read-syntax))
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(λ args
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(define stx (apply read-syntax args))
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(define old-prop (syntax-property stx 'module-language))
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(define new-prop `#((submod pollen/mode language-info) get-language-info ,old-prop))
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(syntax-property stx 'module-language new-prop)))
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(λ(proc)
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(λ(key defval)
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(define (fallback) (if proc (proc key defval) defval))
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(define (try-dynamic-require mod export)
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(or (with-handlers ([exn:fail? (λ(x) #f)])
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(dynamic-require mod export))
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(fallback)))
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(case key
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[(color-lexer)
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(try-dynamic-require 'syntax-color/scribble-lexer 'scribble-lexer)]
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[(definitions-text-surrogate)
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'scribble/private/indentation]
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[(drracket:indentation)
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(dynamic-require 'scribble/private/indentation 'determine-spaces)]
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[else (fallback)]))))))
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(module at-reader racket/base
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;; ============================================================================
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;; Implements the @-reader macro for embedding text in Racket code.
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(require syntax/readerr)
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;; ----------------------------------------------------------------------------
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;; utilities for syntax specifications below
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;; regexps
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(define (px . args)
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(let* ([args (let loop ([xs args])
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(if (list? xs) (apply append (map loop xs)) (list xs)))]
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[args (map (lambda (x)
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(cond [(bytes? x) x]
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[(string? x) (string->bytes/utf-8 x)]
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[(char? x) (regexp-quote (string->bytes/utf-8 (string x)))]
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[(not x) #""]
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[else (internal-error 'px)]))
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args)])
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(byte-pregexp (apply bytes-append args))))
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(define (^px . args) (px #"^" args))
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;; reverses a byte string visually
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(define reverse-bytes
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(let ([pairs (let ([xs (bytes->list #"([{<")]
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[ys (bytes->list #")]}>")])
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(append (map cons xs ys) (map cons ys xs)))])
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(define (rev-byte b)
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(cond [(assq b pairs) => cdr]
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[else b]))
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(lambda (bs) (list->bytes (map rev-byte (reverse (bytes->list bs)))))))
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;; ----------------------------------------------------------------------------
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;; syntax
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;; basic syntax customization
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(define ch:command #\@)
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(define ch:comment #\;)
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(define ch:expr-escape #\|)
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(define ch:datums-begin #\[)
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(define ch:datums-end #\])
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(define ch:lines-begin #\{)
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(define ch:lines-end #\})
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(define str:lines-begin* #"(\\|[^a-zA-Z0-9 \t\r\n\f@\\\177-\377{]*)\\{")
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(define str:end-of-line "[ \t]*\r?\n[ \t]*") ; eat spaces on the next line
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;; regexps based on the above (more in make-dispatcher)
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(define re:whitespaces (^px "\\s+"))
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(define re:comment-start (^px ch:comment))
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(define re:comment-line (^px "[^\n]*(?:\n|$)[ \t]*")) ; like tex's `%'
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(define re:expr-escape (^px ch:expr-escape))
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(define re:datums-begin (^px ch:datums-begin))
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(define re:datums-end (^px ch:datums-end))
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(define re:lines-begin (^px ch:lines-begin))
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(define re:lines-begin* (^px str:lines-begin*))
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(define re:lines-end (^px ch:lines-end))
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(define re:end-of-line (^px str:end-of-line))
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;; ----------------------------------------------------------------------------
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;; utilities
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(define (internal-error label)
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(error 'scribble-reader "internal error [~a]" label))
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;; like `regexp-try-match', without extras; the regexp that is used
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;; must be anchored -- nothing is dropped
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(define (*regexp-match-peek-positions pattern input-port)
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#; ; sanity checks, not needed unless this file is edited
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(unless (and (byte-regexp? pattern)
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(regexp-match? #rx#"^\\^" (object-name pattern)))
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(internal-error 'invalid-bregexp))
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(regexp-match-peek-positions pattern input-port))
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;; the following doesn't work -- must peek first
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;; (define (*regexp-match-positions pattern input-port)
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;; #; ; sanity checks, not needed unless this file is edited
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;; (unless (and (byte-regexp? pattern)
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;; (regexp-match? #rx#"^\\^" (object-name pattern)))
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;; (internal-error 'invalid-bregexp))
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;; (regexp-match-peek-positions pattern input-port))
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(define (*regexp-match pattern input-port)
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(let ([m (*regexp-match-peek-positions pattern input-port)])
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(and m (let ([s (read-bytes (cdar m) input-port)])
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(cons s (map (lambda (p) (and p (subbytes s (car p) (cdr p))))
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(cdr m)))))))
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;; like regexp-match, but returns the whole match
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(define (*regexp-match1 pattern input-port)
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(let ([m (*regexp-match-peek-positions pattern input-port)])
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(and m (read-bytes (cdar m) input-port))))
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;; Utility for readtable-based caches
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(define (readtable-cached fun)
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(let ([cache (make-weak-hasheq)])
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(letrec ([readtable-cached
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(case-lambda
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[(rt) (hash-ref cache rt
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(lambda ()
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(let ([r (fun rt)])
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(hash-set! cache rt r)
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r)))]
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[() (readtable-cached (current-readtable))])])
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readtable-cached)))
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;; Skips whitespace characters, sensitive to the current readtable's
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;; definition of whitespace; optimizes common spaces when possible
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(define skip-whitespace
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(let* ([plain-readtables (make-weak-hasheq)]
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[plain-spaces " \t\n\r\f"]
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[plain-spaces-list (string->list " \t\n\r\f")]
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[plain-spaces-re (^px "[" plain-spaces "]*")])
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(define (skip-plain-spaces port)
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;; hack: according to the specs, this might consume more characters
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;; than needed, but it works fine with a simple <ch>* regexp (because
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;; it can always match an empty string)
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(*regexp-match-peek-positions plain-spaces-re port))
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(define (whitespace? ch rt)
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(if rt
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(let-values ([(like-ch/sym _1 _2) (readtable-mapping rt ch)])
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;; if like-ch/sym is whitespace, then ch is whitespace
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(and (char? like-ch/sym) (char-whitespace? like-ch/sym)))
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;; `char-whitespace?' is fine for the default readtable
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(char-whitespace? ch)))
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(define plain-readtable?
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(readtable-cached
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(lambda (rt)
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(andmap (lambda (ch) (whitespace? ch rt)) plain-spaces-list))))
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(lambda (port)
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(let* ([rt (current-readtable)] [plain? (plain-readtable? rt)])
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(let loop ()
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(when plain? (skip-plain-spaces port))
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(let ([ch (peek-char port)])
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(unless (eof-object? ch)
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(when (whitespace? ch rt) (read-char port) (loop)))))))))
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;; make n spaces, cached for n
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(define make-spaces
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(let ([t (make-hasheq)])
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(lambda (n)
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(hash-ref t n
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(lambda ()
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(let ([s (make-string n #\space)])
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(hash-set! t n s) s))))))
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(define (bytes-width bs start)
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(let ([len (bytes-length bs)])
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(if (regexp-match? #rx"^ *$" bs start)
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(- (bytes-length bs) start)
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(let loop ([i start] [w 0])
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(if (= i len)
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w
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(loop (add1 i)
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(+ w (if (eq? 9 (bytes-ref bs i)) (- 8 (modulo w 8)) 1))))))))
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;; A syntax object that has the "original?" property:
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(define orig-stx (read-syntax #f (open-input-string "dummy")))
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;; ----------------------------------------------------------------------------
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;; main reader function for @ constructs
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(define (dispatcher char inp source-name line-num col-num position
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start-inside? command-readtable ch:command
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re:command re:line-item* re:line-item
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re:line-item-no-nests datum-readtable
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syntax-post-processor)
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(define (read-error line col pos msg . xs)
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(let* ([eof? (and (eq? 'eof msg) (pair? xs))]
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[msg (apply format (if eof? xs (cons msg xs)))])
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((if eof? raise-read-error raise-read-eof-error)
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msg (or source-name (object-name inp)) line col pos (span-from pos))))
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(define (read-error* . xs)
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(apply read-error line-num col-num position xs))
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(define (read-stx) (read-syntax/recursive source-name inp))
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(define (read-stx/rt rt) (read-syntax/recursive source-name inp #f rt))
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;; use this to avoid placeholders
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(define (read-stx*)
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;; (read-syntax/recursive source-name inp #f (current-readtable) #f)
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(read-syntax source-name inp))
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(define (*match rx) (*regexp-match rx inp))
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(define (*match1 rx) (*regexp-match1 rx inp))
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;; (define (*skip rx) (*regexp-match-positions rx inp)) ; <- see above
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(define (*skip rx) (*regexp-match1 rx inp))
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(define (*peek rx) (*regexp-match-peek-positions rx inp))
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(define (span-from start)
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(and start (let-values ([(line col pos) (port-next-location inp)])
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(- pos start))))
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(define (read-delimited-list begin-re end-re end-ch)
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(let-values ([(line col pos) (port-next-location inp)])
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(and (*skip begin-re)
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(let loop ([r '()])
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(skip-whitespace inp)
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(if (*skip end-re)
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(reverse r)
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(let ([x (read-stx)])
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(if (eof-object? x)
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(read-error line col pos 'eof "expected a '~a'" end-ch)
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(loop (if (special-comment? x) r (cons x r))))))))))
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;; identifies newlines in text
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(define (eol-syntax? x)
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(let ([p (and (syntax? x) (syntax-property x 'scribble))])
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(and (pair? p) (eq? 'newline (car p)))))
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;; gets an accumulated (reversed) list of syntaxes and column markers, and
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;; sorts things out (remove prefix and suffix newlines, adds indentation if
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;; needed)
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(define (done-items xs)
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;; a column marker is either a non-negative integer N (saying the following
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;; code came from at column N), or a negative integer -N (saying that the
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;; following code came from column N but no need to add indentation at this
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;; point because it is at the openning of a {...}); `get-lines*' is careful
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;; not to include column markers before a newline or the end of the text,
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;; and a -N marker can only come from the beginning of the text (and it's
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;; never there if the text began with a newline)
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(if (andmap eol-syntax? xs)
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;; nothing to do
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(reverse xs)
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(let ([mincol (let loop ([xs xs] [m #f])
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(if (null? xs)
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m
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(let ([x (car xs)])
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(loop (cdr xs)
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(if (integer? x)
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(let ([x (abs x)]) (if (and m (< m x)) m x))
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m)))))])
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(let loop ([xs (if (and (not start-inside?) (eol-syntax? (car xs)))
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(cdr xs) ; trim last eol
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xs)]
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[r '()])
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(if (or (null? xs)
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(and (not start-inside?)
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;; trim first eol
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(null? (cdr xs)) (eol-syntax? (car xs))))
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r
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(loop
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(cdr xs)
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(let ([x (car xs)])
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(cond [(integer? x)
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(if (or (< x 0) (= x mincol))
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r ; no indentation marker, or zero indentation
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(let ([eol (cadr xs)]
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[spaces (make-spaces (- x mincol))])
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;; markers always follow end-of-lines
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(unless (eol-syntax? eol)
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(internal-error 'done-items))
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(cons (syntax-property
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(datum->syntax eol spaces eol)
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'scribble 'indentation)
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r)))]
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;; can have special comment values from "@||"
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[(special-comment? x) r]
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[else (cons x r)]))))))))
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;; cons stx (new syntax) to the list of stxs, merging it if both are
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;; strings, except for newline markers
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(define (maybe-merge stx stxs)
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(let* ([2nd (and (syntax? stx) (syntax-e stx))]
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[stx0 (and (pair? stxs) (car stxs))]
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[1st (and (syntax? stx0) (syntax-e stx0))])
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(if (and (string? 1st) (not (eol-syntax? stx0))
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(string? 2nd) (not (eol-syntax? stx)))
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(cons (datum->syntax stx0
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(string-append 1st 2nd)
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(vector (syntax-source stx0)
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(syntax-line stx0)
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(syntax-column stx0)
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(syntax-position stx0)
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;; this is called right after reading stx
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(span-from (syntax-position stx0)))
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stx0)
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(cdr stxs))
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(cons stx stxs))))
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;; helper for `get-lines*' drop a column marker if the previous item was also
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;; a newline (or the beginning)
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(define (maybe-drop-marker r)
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(if (and (pair? r) (integer? (car r))
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(or (null? (cdr r)) (eol-syntax? (cadr r))))
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(cdr r)
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r))
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(define (get-lines* re:begin re:end re:cmd-pfx re:item end-token)
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;; re:begin, re:end, end-token can be false if start-inside? is #t;
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;; re:cmd-pfx is a regexp when we do sub-@-reads only after a prefix
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(let loop ([lvl 0]
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[r (let-values ([(l c p) (port-next-location inp)])
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;; marker for the beginning of the text
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(if c (list (- c)) '()))])
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;; this loop collects lines etc for the body, and also puts in column
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;; markers (integers) after newlines -- the result is handed off to
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;; `done-items' to finish the job
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(define-values (line col pos) (port-next-location inp))
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(define (make-stx sexpr)
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(datum->syntax #f
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(if (bytes? sexpr) (bytes->string/utf-8 sexpr) sexpr)
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(vector source-name line col pos (span-from pos))
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orig-stx))
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(cond
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[(and re:begin (*match1 re:begin))
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=> (lambda (m) (loop (add1 lvl) (maybe-merge (make-stx m) r)))]
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[(and re:end (*match1 re:end))
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=> (lambda (m)
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(if (and (zero? lvl) (not start-inside?))
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;; drop a marker if it's after a last eol item
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(done-items (maybe-drop-marker r))
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(loop (sub1 lvl) (maybe-merge (make-stx m) r))))]
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[(*match1 re:end-of-line)
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=> (lambda (m)
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(let ([n (car (regexp-match-positions #rx#"\n" m))])
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(loop lvl (list* ; no merge needed
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(bytes-width m (cdr n))
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(syntax-property
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(make-stx "\n")
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'scribble `(newline ,(bytes->string/utf-8 m)))
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(maybe-drop-marker r)))))]
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[(if re:cmd-pfx
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(and (*skip re:cmd-pfx) (*peek re:command))
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(*peek re:command))
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;; read the next value
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=> (lambda (m)
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(define x (cond [(cadr m)
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;; the command is a string escape, use
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;; `read-stx*' to not get a placeholder, so we
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;; can merge the string to others
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(read-stx*)]
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[(caddr m)
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;; it's an expression escape, get multiple
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;; expressions and put them all here
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(read-bytes (caaddr m) inp)
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(get-escape-expr #f)]
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[else (read-stx)])) ; otherwise: a plain sub-read
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(loop lvl (cond [(eof-object? x)
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;; shouldn't happen -- the sub-read would
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;; raise an error
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(internal-error 'get-lines*-sub-read)]
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;; throw away comments
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[(special-comment? x) r]
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;; escaped expressions: no merge, and add a
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;; comment to prevent merges with later stuff
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[(pair? x)
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`(,(make-special-comment #f) ,@(reverse x) ,@r)]
|
|
[(null? x) (cons (make-special-comment #f) r)]
|
|
[else (maybe-merge x r)])))]
|
|
;; must be last, since it will always succeed with 1 char
|
|
[(*peek re:item) ; don't read: regexp grabs the following text
|
|
=> (lambda (m)
|
|
(loop lvl
|
|
(maybe-merge (make-stx (read-bytes (cdadr m) inp)) r)))]
|
|
[(*peek #rx#"^$")
|
|
(if end-token
|
|
(read-error* 'eof "missing closing `~a'" end-token)
|
|
(done-items r))]
|
|
[else (internal-error 'get-lines*)])))
|
|
|
|
(define (get-lines)
|
|
(cond [(*skip re:lines-begin) (get-lines* re:lines-begin re:lines-end #f
|
|
re:line-item ch:lines-end)]
|
|
[(*match re:lines-begin*)
|
|
=> (lambda (m)
|
|
(let* ([bgn (car m)]
|
|
[end (reverse-bytes bgn)]
|
|
[bgn* (regexp-quote bgn)]
|
|
[end* (regexp-quote end)]
|
|
[cmd-pfx* (regexp-quote (cadr m))])
|
|
(get-lines* (^px bgn*) (^px end*)
|
|
(^px cmd-pfx* "(?=" ch:command ")")
|
|
(re:line-item* bgn* end* cmd-pfx*)
|
|
end)))]
|
|
[else #f]))
|
|
|
|
(define (get-datums)
|
|
(parameterize ([current-readtable datum-readtable])
|
|
(read-delimited-list re:datums-begin re:datums-end ch:datums-end)))
|
|
|
|
(define (get-escape-expr single?)
|
|
;; single? means expect just one expression (or none, which is returned as
|
|
;; a special-comment)
|
|
(let ([get (lambda ()
|
|
(parameterize ([current-readtable command-readtable])
|
|
(read-delimited-list re:expr-escape re:expr-escape
|
|
ch:expr-escape)))])
|
|
(if single?
|
|
(let*-values ([(line col pos) (port-next-location inp)]
|
|
[(xs) (get)])
|
|
(cond [(not xs) xs]
|
|
[(or (null? xs) (not (null? (cdr xs))))
|
|
(read-error line col pos
|
|
"a ~a|...| form in Racket mode must have ~a"
|
|
ch:command
|
|
"exactly one escaped expression")]
|
|
[else (car xs)]))
|
|
(get))))
|
|
|
|
;; called only when we must see a command in the input
|
|
(define (get-command)
|
|
(let ([cmd (read-stx/rt command-readtable)])
|
|
(cond [(special-comment? cmd)
|
|
(read-error* "expecting a command expression, got a comment")]
|
|
[(eof-object? cmd)
|
|
(read-error* 'eof "missing command")]
|
|
;; we have a command: adjust its location to include the dispatch
|
|
;; character
|
|
[else
|
|
;; (datum->syntax #f (syntax-e cmd)
|
|
;; (vector (syntax-source cmd)
|
|
;; (syntax-line cmd)
|
|
;; (cond [(syntax-column cmd) => sub1] [else #f])
|
|
;; (cond [(syntax-position cmd) => sub1] [else #f])
|
|
;; (cond [(syntax-span cmd) => add1] [else #f]))
|
|
;; orig-stx)
|
|
;; The reasoning for the above is that in `@foo' the `@' is part
|
|
;; of the syntax of the identifier, in a similar way to including
|
|
;; the double quotes in the position information for a string
|
|
;; syntax or the backslash in a mzscheme \foo identifier. Another
|
|
;; feature of this is that there needs to be some way to know what
|
|
;; was the actual source of some syntax. However, this is
|
|
;; problematic in two ways: (a) it can be confusing that
|
|
;; highlighting an identifier highlights the `@' too, and more
|
|
;; importantly, it makes `@|foo|' be treated differently than
|
|
;; `@foo'. So we'll try to not do this adjusting.
|
|
cmd])))
|
|
|
|
(define (get-rprefixes) ; return punctuation prefixes in reverse
|
|
(let loop ([r '()])
|
|
(let-values ([(line col pos) (port-next-location inp)])
|
|
(cond [(*match1 #rx#"^#?(?:'|`|,@?)")
|
|
=> (lambda (m)
|
|
(let ([sym (cond [(assoc m '([#"'" quote]
|
|
[#"`" quasiquote]
|
|
[#"," unquote]
|
|
[#",@" unquote-splicing]
|
|
[#"#'" syntax]
|
|
[#"#`" quasisyntax]
|
|
[#"#," unsyntax]
|
|
[#"#,@" unsyntax-splicing]))
|
|
=> cadr]
|
|
[else (internal-error 'get-rprefixes)])])
|
|
(loop (cons (datum->syntax #f sym
|
|
(vector source-name line col
|
|
pos (span-from pos))
|
|
orig-stx)
|
|
r))))]
|
|
[(*skip re:whitespaces)
|
|
(read-error* "unexpected whitespace after ~a" ch:command)]
|
|
[else r]))))
|
|
|
|
(cond
|
|
[start-inside?
|
|
(datum->syntax #f (get-lines* #f #f #f re:line-item-no-nests #f)
|
|
(vector source-name line-num col-num position (span-from position))
|
|
orig-stx)]
|
|
[(*skip re:whitespaces)
|
|
(read-error* "unexpected whitespace after ~a" ch:command)]
|
|
[(*skip re:comment-start)
|
|
(unless (get-lines) (*skip re:comment-line))
|
|
(make-special-comment #f)]
|
|
[else
|
|
(let*-values
|
|
([(rpfxs) (get-rprefixes)]
|
|
[(cmd datums lines)
|
|
(cond [(get-lines)
|
|
;; try get-lines first -- so @|{...}| is not used as a simple
|
|
;; expression escape, same for get-datums
|
|
=> (lambda (lines) (values #f #f lines))]
|
|
[(get-datums)
|
|
=> (lambda (datums) (values #f datums (get-lines)))]
|
|
[(get-escape-expr #t) => (lambda (expr) (values expr #f #f))]
|
|
[else (values (get-command) (get-datums) (get-lines))])]
|
|
[(stx) (and (or datums lines)
|
|
(append (or datums '()) (or lines '())))]
|
|
[(stx) (or (and cmd stx (cons cmd stx)) ; all parts
|
|
stx ; no cmd part => just a parenthesized expression
|
|
cmd ; no datums/lines => simple expression (no parens)
|
|
;; impossible: either we saw []s or {}s, or we read a
|
|
;; racket expression
|
|
(internal-error 'dispatcher))]
|
|
[(stx) (let ([ds (and datums (length datums))]
|
|
[ls (and lines (length lines))])
|
|
(syntax-property
|
|
(if (syntax? stx)
|
|
stx
|
|
(datum->syntax #f stx
|
|
(vector source-name line-num col-num position
|
|
(span-from position))
|
|
orig-stx))
|
|
'scribble (list 'form ds ls)))]
|
|
[(stx) (syntax-post-processor stx)]
|
|
[(stx)
|
|
;; wrap the prefixes around the result
|
|
(let loop ([rpfxs rpfxs] [stx stx])
|
|
(if (null? rpfxs)
|
|
stx
|
|
(loop (cdr rpfxs) (list (car rpfxs) stx))))])
|
|
(datum->syntax #f stx (vector source-name line-num col-num position
|
|
(span-from position))
|
|
orig-stx))]))
|
|
|
|
(define (make-dispatcher start-inside? ch:command
|
|
get-command-readtable get-datum-readtable
|
|
syntax-post-processor)
|
|
(define re:command (^px ch:command
|
|
;; the following identifies string and expression
|
|
;; escapes, see how it is used above
|
|
"(?:(\")|("ch:expr-escape"))?"))
|
|
(define (re:line-item* bgn end cmd-prefix)
|
|
(^px "(.+?)(?:" (and bgn `(,bgn"|")) (and end `(,end"|"))
|
|
cmd-prefix ch:command"|"str:end-of-line"|$)"))
|
|
(define re:line-item (re:line-item* ch:lines-begin ch:lines-end #f))
|
|
(define re:line-item-no-nests (and start-inside? (re:line-item* #f #f #f)))
|
|
(lambda (char inp source-name line-num col-num position)
|
|
(dispatcher char inp source-name line-num col-num position
|
|
start-inside? (get-command-readtable) ch:command
|
|
re:command re:line-item* re:line-item re:line-item-no-nests
|
|
(get-datum-readtable) syntax-post-processor)))
|
|
|
|
;; ----------------------------------------------------------------------------
|
|
;; minor utilities for the below
|
|
|
|
(define default-src (gensym 'scribble-reader))
|
|
(define (src-name src port)
|
|
(if (eq? src default-src) (object-name port) src))
|
|
|
|
(define-syntax-rule (named-lambda (name . args) . body)
|
|
(let ([name (lambda args . body)]) name))
|
|
|
|
;; ----------------------------------------------------------------------------
|
|
;; readtable and reader
|
|
|
|
(provide make-at-readtable make-at-reader)
|
|
|
|
(define ((make-at-readtable-or-inside-reader inside-reader?)
|
|
readtable command-char command-readtable datum-readtable syntax-post-processor)
|
|
(define (get-cmd-rt)
|
|
(if (readtable? cmd-rt)
|
|
cmd-rt
|
|
(cmd-rt)))
|
|
(define (get-datum-rt)
|
|
(if (eq? datum-rt 'dynamic)
|
|
(current-readtable)
|
|
datum-rt))
|
|
(define dispatcher
|
|
(make-dispatcher #f command-char get-cmd-rt get-datum-rt
|
|
syntax-post-processor))
|
|
(define (make-inside-reader)
|
|
(define dispatcher
|
|
(make-dispatcher #t command-char get-cmd-rt get-datum-rt
|
|
syntax-post-processor))
|
|
;; use a name consistent with `make-at-reader'
|
|
(named-lambda (at-read-syntax/inside [src default-src]
|
|
[inp (current-input-port)])
|
|
(define-values [line col pos] (port-next-location inp))
|
|
(parameterize ([current-readtable at-rt])
|
|
(dispatcher #f inp (src-name src inp) line col pos))))
|
|
(define at-rt
|
|
(make-readtable readtable command-char 'non-terminating-macro dispatcher))
|
|
(define command-bar
|
|
(lambda (char inp source-name line-num col-num position)
|
|
(let ([m (*regexp-match #rx#"^([^|]*)\\|" inp)])
|
|
(unless m
|
|
(raise-read-error "unbalanced `|'" source-name
|
|
line-num col-num position #f))
|
|
(datum->syntax
|
|
#f (string->symbol (bytes->string/utf-8 (cadr m)))
|
|
(vector source-name line-num col-num position
|
|
(add1 (bytes-length (car m))))
|
|
orig-stx))))
|
|
(define (make-cmd-rt command-readtable)
|
|
;; similar to plain Racket (scribble, actually), but with `@' as usual and
|
|
;; and `|' as a terminating macro characters (otherwise it behaves the
|
|
;; same; the only difference is that `a|b|c' is three symbols)
|
|
(make-readtable command-readtable
|
|
command-char 'non-terminating-macro dispatcher
|
|
#\| 'terminating-macro command-bar))
|
|
(define cmd-rt
|
|
(if (eq? command-readtable 'dynamic)
|
|
(readtable-cached make-cmd-rt)
|
|
(make-cmd-rt command-readtable)))
|
|
(define datum-rt
|
|
(cond [(or (not datum-readtable) (readtable? datum-readtable))
|
|
datum-readtable]
|
|
[(eq? #t datum-readtable) at-rt]
|
|
[(procedure? datum-readtable) (datum-readtable at-rt)]
|
|
[(eq? datum-readtable 'dynamic) 'dynamic]
|
|
[else (error 'make-at-readtable
|
|
"bad datum-readtable: ~e" datum-readtable)]))
|
|
(if inside-reader? (make-inside-reader) at-rt))
|
|
|
|
(define (make-at-readtable
|
|
#:readtable [readtable (current-readtable)]
|
|
#:command-char [command-char ch:command]
|
|
#:command-readtable [command-readtable readtable]
|
|
#:datum-readtable [datum-readtable #t]
|
|
#:syntax-post-processor [syntax-post-processor values])
|
|
((make-at-readtable-or-inside-reader #f)
|
|
readtable command-char command-readtable datum-readtable syntax-post-processor))
|
|
|
|
(define (make-at-reader
|
|
#:readtable [readtable (current-readtable)]
|
|
#:command-char [command-char ch:command]
|
|
#:datum-readtable [datum-readtable #t]
|
|
#:command-readtable [command-readtable readtable]
|
|
#:syntax-post-processor [syntax-post-processor values]
|
|
#:syntax? [syntax-reader? #t]
|
|
#:inside? [inside-reader? #f])
|
|
(let ([r ((make-at-readtable-or-inside-reader inside-reader?)
|
|
readtable command-char command-readtable datum-readtable syntax-post-processor)])
|
|
;; the result can be a readtable or a syntax reader, depending on inside?,
|
|
;; convert it now to the appropriate reader
|
|
(if inside-reader?
|
|
;; if it's a function, then it already is a syntax reader, convert it to
|
|
;; a plain reader if needed (note: this only happens when r is a reader)
|
|
(if syntax-reader?
|
|
r
|
|
(named-lambda (at-read/inside [in (current-input-port)])
|
|
;; can't be eof, since it returns a list of expressions (as a syntax)
|
|
(syntax->datum (r (object-name in) in))))
|
|
;; if it's a readtable, then just wrap the standard functions
|
|
(if syntax-reader?
|
|
(named-lambda (at-read-syntax [src default-src]
|
|
[inp (current-input-port)])
|
|
(parameterize ([current-readtable r])
|
|
(read-syntax src inp)))
|
|
(named-lambda (at-read [inp (current-input-port)])
|
|
(parameterize ([current-readtable r])
|
|
(let ([r (read-syntax (object-name inp) inp)])
|
|
;; it might be eof
|
|
(if (syntax? r) (syntax->datum r) r))))))))
|
|
|
|
(provide use-at-readtable)
|
|
(define use-at-readtable
|
|
(make-keyword-procedure
|
|
(lambda (kws kw-args . rest)
|
|
(port-count-lines! (current-input-port))
|
|
(current-readtable
|
|
(keyword-apply make-at-readtable kws kw-args rest)))))
|
|
|
|
;; utilities for below
|
|
(define make-default-at-readtable
|
|
(readtable-cached (lambda (rt) (make-at-readtable #:readtable rt
|
|
#:command-readtable 'dynamic
|
|
#:datum-readtable 'dynamic))))
|
|
(define make-default-at-reader/inside
|
|
(readtable-cached
|
|
(lambda (rt) (make-at-reader #:inside? #t #:readtable rt
|
|
#:command-readtable 'dynamic
|
|
#:datum-readtable 'dynamic))))
|
|
|
|
;; ----------------------------------------------------------------------------
|
|
;; readers
|
|
|
|
(provide (rename-out [*read read] [*read-syntax read-syntax]))
|
|
(define (*read [inp (current-input-port)])
|
|
(parameterize ([current-readtable (make-default-at-readtable)])
|
|
(read inp)))
|
|
(define (*read-syntax [src default-src] [inp (current-input-port)])
|
|
(parameterize ([current-readtable (make-default-at-readtable)])
|
|
(read-syntax (src-name src inp) inp)))
|
|
|
|
(provide read-inside read-syntax-inside)
|
|
(define (read-inside [inp (current-input-port)])
|
|
(syntax->datum ((make-default-at-reader/inside) default-src inp)))
|
|
(define (read-syntax-inside [src default-src] [inp (current-input-port)]
|
|
#:command-char [command-char ch:command])
|
|
(((readtable-cached
|
|
(lambda (rt) (make-at-reader #:inside? #t #:command-char command-char #:readtable rt))))
|
|
src inp))) |