307 lines
11 KiB
Scheme
307 lines
11 KiB
Scheme
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(library (ikarus fasl write)
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(export fasl-write)
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(import
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(rnrs hashtables)
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(ikarus system $codes)
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(ikarus system $pairs)
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(ikarus system $structs)
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(ikarus system $io)
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(ikarus system $bytevectors)
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(ikarus system $fx)
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(ikarus system $chars)
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(ikarus system $strings)
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(ikarus system $flonums)
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(ikarus system $bignums)
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(except (ikarus code-objects) procedure-annotation)
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(except (ikarus) fasl-write))
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(define write-fixnum
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(lambda (x p)
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(unless (fixnum? x) (error 'write-fixnum "not a fixnum ~s" x))
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(write-byte (fxsll (fxlogand x #x3F) 2) p)
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(write-byte (fxlogand (fxsra x 6) #xFF) p)
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(write-byte (fxlogand (fxsra x 14) #xFF) p)
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(write-byte (fxlogand (fxsra x 22) #xFF) p)))
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(define write-int
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(lambda (x p)
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(unless (fixnum? x) (error 'write-int "not a fixnum ~s" x))
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(write-byte (fxlogand x #xFF) p)
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(write-byte (fxlogand (fxsra x 8) #xFF) p)
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(write-byte (fxlogand (fxsra x 16) #xFF) p)
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(write-byte (fxlogand (fxsra x 24) #xFF) p)))
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(define fasl-write-immediate
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(lambda (x p)
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(cond
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[(null? x) (write-char #\N p)]
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[(fixnum? x)
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(write-char #\I p)
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(write-fixnum x p)]
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[(char? x)
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(let ([n ($char->fixnum x)])
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(if ($fx<= n 255)
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(begin
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(write-char #\c p)
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(write-byte n p))
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(begin
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(write-char #\C p)
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(write-int n p))))]
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; (write-char #\C p)
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; (write-char x p)]
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[(boolean? x)
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(write-char (if x #\T #\F) p)]
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[(eof-object? x) (write-char #\E p)]
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[(eq? x (void)) (write-char #\U p)]
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[else (error 'fasl-write "~s is not a fasl-writable immediate" x)])))
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(define (ascii-string? s)
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(let f ([s s] [i 0] [n (string-length s)])
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(or ($fx= i n)
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(and ($char<= ($string-ref s i) ($fixnum->char 127))
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(f s ($fxadd1 i) n)))))
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(define (count-unshared-cdrs x h n)
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(cond
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[(and (pair? x) (eq? (hashtable-ref h x #f) 0))
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(count-unshared-cdrs ($cdr x) h ($fxadd1 n))]
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[else n]))
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(define (write-pairs x p h m n)
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(cond
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[($fx= n 0) (fasl-write-object x p h m)]
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[else
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(write-pairs (cdr x) p h
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(fasl-write-object (car x) p h m)
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($fxsub1 n))]))
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(define do-write
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(lambda (x p h m)
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(cond
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[(pair? x)
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(let ([d ($cdr x)])
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(let ([n (count-unshared-cdrs d h 0)])
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(cond
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[($fx= n 0)
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(write-char #\P p)
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(fasl-write-object d p h
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(fasl-write-object (car x) p h m))]
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[else
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(cond
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[($fx<= n 255)
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(write-char #\l p)
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(write-byte n p)]
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[else
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(write-char #\L p)
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(write-int n p)])
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(write-pairs d p h
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(fasl-write-object (car x) p h m)
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n)])))]
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[(vector? x)
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(write-char #\V p)
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(write-int (vector-length x) p)
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(let f ([x x] [i 0] [n (vector-length x)] [m m])
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(cond
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[(fx= i n) m]
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[else
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(f x (fxadd1 i) n
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(fasl-write-object (vector-ref x i) p h m))]))]
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[(string? x)
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(cond
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[(ascii-string? x)
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(write-char #\s p)
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(write-int (string-length x) p)
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(let f ([x x] [i 0] [n (string-length x)])
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(unless (fx= i n)
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(write-char (string-ref x i) p)
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(f x (fxadd1 i) n)))]
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[else
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(write-char #\S p)
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(write-int (string-length x) p)
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(let f ([x x] [i 0] [n (string-length x)])
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(unless (= i n)
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(write-int (char->integer (string-ref x i)) p)
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(f x (fxadd1 i) n)))])
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m]
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[(gensym? x)
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(write-char #\G p)
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(fasl-write-object (gensym->unique-string x) p h
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(fasl-write-object (symbol->string x) p h m))]
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[(symbol? x)
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(write-char #\M p)
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(fasl-write-object (symbol->string x) p h m)]
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[(code? x)
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(write-char #\x p)
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(write-int (code-size x) p)
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(write-fixnum (code-freevars x) p)
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(let ([m (fasl-write-object ($code-annotation x) p h m)])
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(let f ([i 0] [n (code-size x)])
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(unless (fx= i n)
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(write-byte (code-ref x i) p)
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(f (fxadd1 i) n)))
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(fasl-write-object (code-reloc-vector x) p h m))]
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[(struct? x)
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(let ([rtd (struct-type-descriptor x)])
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(cond
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[(eq? rtd (base-rtd))
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;;; rtd record
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(write-char #\R p)
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(let ([names (struct-type-field-names x)]
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[m
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(fasl-write-object (struct-type-symbol x) p h
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(fasl-write-object (struct-type-name x) p h m))])
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(write-int (length names) p)
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(let f ([names names] [m m])
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(cond
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[(null? names) m]
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[else
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(f (cdr names)
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(fasl-write-object (car names) p h m))])))]
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[else
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;;; non-rtd record
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(write-char #\{ p)
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(write-int (length (struct-type-field-names rtd)) p)
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(let f ([names (struct-type-field-names rtd)]
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[m (fasl-write-object rtd p h m)])
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(cond
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[(null? names) m]
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[else
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(f (cdr names)
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(fasl-write-object
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((struct-field-accessor rtd (car names)) x)
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p h m))]))]))]
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[(procedure? x)
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(write-char #\Q p)
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(fasl-write-object ($closure-code x) p h m)]
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[(bytevector? x)
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(write-char #\v p)
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(let ([n ($bytevector-length x)])
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(write-int n p)
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(write-bytevector x 0 n p))
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m]
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[(flonum? x)
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(write-char #\f p)
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(write-byte ($flonum-u8-ref x 7) p)
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(write-byte ($flonum-u8-ref x 6) p)
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(write-byte ($flonum-u8-ref x 5) p)
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(write-byte ($flonum-u8-ref x 4) p)
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(write-byte ($flonum-u8-ref x 3) p)
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(write-byte ($flonum-u8-ref x 2) p)
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(write-byte ($flonum-u8-ref x 1) p)
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(write-byte ($flonum-u8-ref x 0) p)
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m]
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[(ratnum? x)
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(write-char #\r p)
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(fasl-write-object (numerator x) p h
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(fasl-write-object (denominator x) p h m))]
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[(bignum? x)
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(write-char #\b p)
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(let ([sz ($bignum-size x)])
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(write-int (if ($bignum-positive? x) sz (- sz)) p)
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(let f ([i 0])
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(unless (fx= i sz)
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(write-byte ($bignum-byte-ref x i) p)
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(f (fxadd1 i)))))
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m]
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[else (error 'fasl-write "~s is not fasl-writable" x)])))
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(define (write-bytevector x i j p)
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(unless ($fx= i j)
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($write-byte ($bytevector-u8-ref x i) p)
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(write-bytevector x ($fxadd1 i) j p)))
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(define fasl-write-object
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(lambda (x p h m)
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(cond
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[(immediate? x) (fasl-write-immediate x p) m]
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[(hashtable-ref h x #f) =>
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(lambda (mark)
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(unless (fixnum? mark)
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(error 'fasl-write "BUG: invalid mark ~s" mark))
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(cond
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[(fx= mark 0) ; singly referenced
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(do-write x p h m)]
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[(fx> mark 0) ; marked but not written
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(hashtable-set! h x (fx- 0 m))
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(write-char #\> p)
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(write-int m p)
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(do-write x p h (fxadd1 m))]
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[else
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(write-char #\< p)
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(write-int (fx- 0 mark) p)
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m]))]
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[else (error 'fasl-write "BUG: not in hash table ~s" x)])))
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(define make-graph
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(lambda (x h)
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(unless (immediate? x)
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(cond
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[(hashtable-ref h x #f) =>
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(lambda (i)
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(hashtable-set! h x (fxadd1 i)))]
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[else
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(hashtable-set! h x 0)
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(cond
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[(pair? x)
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(make-graph (car x) h)
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(make-graph (cdr x) h)]
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[(vector? x)
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(let f ([x x] [i 0] [n (vector-length x)])
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(unless (fx= i n)
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(make-graph (vector-ref x i) h)
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(f x (fxadd1 i) n)))]
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[(symbol? x)
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(make-graph (symbol->string x) h)
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(when (gensym? x) (make-graph (gensym->unique-string x) h))]
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[(string? x) (void)]
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[(code? x)
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(make-graph ($code-annotation x) h)
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(make-graph (code-reloc-vector x) h)]
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[(struct? x)
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(when (eq? x (base-rtd))
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(error 'fasl-write "base-rtd is not writable"))
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(let ([rtd (struct-type-descriptor x)])
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(cond
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[(eq? rtd (base-rtd))
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;;; this is an rtd
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(make-graph (struct-type-name x) h)
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(make-graph (struct-type-symbol x) h)
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(for-each (lambda (x) (make-graph x h))
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(struct-type-field-names x))]
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[else
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;;; this is a record
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(make-graph rtd h)
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(for-each
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(lambda (name)
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(make-graph ((struct-field-accessor rtd name) x) h))
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(struct-type-field-names rtd))]))]
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[(procedure? x)
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(let ([code ($closure-code x)])
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(unless (fxzero? (code-freevars code))
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(error 'fasl-write
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"Cannot write a non-thunk procedure; the one given has ~s free vars"
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(code-freevars code)))
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(make-graph code h))]
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[(bytevector? x) (void)]
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[(flonum? x) (void)]
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[(bignum? x) (void)]
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[(ratnum? x)
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(make-graph (numerator x) h)
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(make-graph (denominator x) h)]
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[else (error 'fasl-write "~s is not fasl-writable" x)])]))))
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(define fasl-write-to-port
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(lambda (x port)
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(let ([h (make-eq-hashtable)])
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(make-graph x h)
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(write-char #\# port)
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(write-char #\@ port)
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(write-char #\I port)
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(write-char #\K port)
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(write-char #\0 port)
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(write-char #\1 port)
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(fasl-write-object x port h 1)
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(void))))
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(define fasl-write
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(case-lambda
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[(x) (fasl-write-to-port x (current-output-port))]
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[(x port)
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(unless (output-port? port)
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(error 'fasl-write "~s is not an output port" port))
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(fasl-write-to-port x port)])))
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