713 lines
28 KiB
Scheme
713 lines
28 KiB
Scheme
;;; fasl.ss
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;;; Copyright 1984-2017 Cisco Systems, Inc.
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;;;
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;;; Licensed under the Apache License, Version 2.0 (the "License");
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;;; you may not use this file except in compliance with the License.
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;;; You may obtain a copy of the License at
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;;;
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;;; http://www.apache.org/licenses/LICENSE-2.0
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;;;
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;;; Unless required by applicable law or agreed to in writing, software
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;;; distributed under the License is distributed on an "AS IS" BASIS,
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;;; WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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;;; See the License for the specific language governing permissions and
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;;; limitations under the License.
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(let ()
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(define-record-type target
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(nongenerative #{target dchg2hp5v3cck8ge283luo-1})
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(sealed #t)
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(fields
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fasl-bld-graph
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fasl-enter
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fasl-out
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fasl-start
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fasl-table
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fasl-wrf-graph
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fasl-base-rtd
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fasl-write
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fasl-file))
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(let ()
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(include "types.ss")
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; don't use rtd-* as defined in record.ss in case we're building a patch
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; file for cross compilation, because the offsets may be incorrect
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(define rtd-size (csv7:record-field-accessor #!base-rtd 'size))
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(define rtd-flds (csv7:record-field-accessor #!base-rtd 'flds))
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(define rtd-parent (csv7:record-field-accessor #!base-rtd 'parent))
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(define rtd-name (csv7:record-field-accessor #!base-rtd 'name))
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(define rtd-uid (csv7:record-field-accessor #!base-rtd 'uid))
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(define rtd-flags (csv7:record-field-accessor #!base-rtd 'flags))
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(define-record-type table
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(fields (mutable count) (immutable hash))
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(nongenerative)
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(sealed #t)
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(protocol
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(lambda (new)
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(lambda ()
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(new 0 (make-eq-hashtable))))))
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(include "fasl-helpers.ss")
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(define bld-pair
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(lambda (x t a?)
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(bld (car x) t a?)
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(bld (cdr x) t a?)))
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(define bld-vector
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(lambda (x t a?)
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(let ([len (vector-length x)])
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(let bldvec ([i 0])
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(unless (fx= i len)
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(bld (vector-ref x i) t a?)
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(bldvec (fx+ i 1)))))))
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(define bld-record
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(lambda (x t a?)
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(unless (eq? x #!base-rtd)
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(when (record-type-descriptor? x)
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; fasl representation for record-type-descriptor includes uid separately and as part of the record
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(bld (record-type-uid x) t a?))
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(really-bld-record x t a?))))
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(define really-bld-record
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(lambda (x t a?)
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(let ([rtd ($record-type-descriptor x)])
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(bld rtd t a?)
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(do ([flds (rtd-flds rtd) (cdr flds)] [i 0 (+ i 1)])
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((null? flds))
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(when (memq (fld-type (car flds)) '(scheme-object ptr))
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(bld ((csv7:record-field-accessor rtd i) x) t a?))))))
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(define bld-ht
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(lambda (x t a?)
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(let-values ([(keyvec valvec) (hashtable-entries x)])
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(vector-for-each
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(lambda (key val)
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(bld key t a?)
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(bld val t a?))
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keyvec valvec))))
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(define bld-box
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(lambda (x t a?)
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(bld (unbox x) t a?)))
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(define bld-simple
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(lambda (x t a?)
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(void)))
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(module (bld-graph dump-graph reset-dump-graph)
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(define enable-dump-graph? #f)
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(define vcat (if enable-dump-graph?
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`#((code . ,(lambda (x) (and (pair? x) (eq? (car x) 'code))))
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(pair . ,pair?)
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(string . ,string?)
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(symbol . ,symbol?)
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(vector . ,vector?)
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(record . ,record?)
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(other . ,(lambda (x) #t)))))
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(define ventry)
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(define vdup)
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(define record!
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(lambda (v x)
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(when enable-dump-graph?
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(let f ([i 0])
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(let ([cat (vector-ref vcat i)])
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(if ((cdr cat) x)
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(vector-set! v i (fx+ (vector-ref v i) 1))
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(f (fx+ i 1))))))))
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(define reset-dump-graph
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(lambda ()
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(when enable-dump-graph?
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(set! ventry (make-vector (vector-length vcat) 0))
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(set! vdup (make-vector (vector-length vcat) 0)))))
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(define dump-graph
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(lambda ()
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(when enable-dump-graph?
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(vector-for-each
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(lambda (cat entry dup)
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(printf "~10s ~10s ~s\n" entry dup (car cat)))
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vcat ventry vdup))))
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(define bld-graph
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(lambda (x t a? handler)
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(let ([a (eq-hashtable-cell (table-hash t) x 'first)])
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(let ([p (cdr a)])
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(cond
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[(eq? p 'first)
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#;(let ([n (hashtable-size (table-hash t))])
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(when (fx= (modulo n 10000) 0)
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(printf "entries = ~s, ba = ~s, count = ~s\n" n (bytes-allocated) (table-count t))))
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(record! ventry x)
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(set-cdr! a #f)
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(handler x t a?)]
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[(not p)
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(record! vdup x)
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(let ([n (table-count t)])
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(set-cdr! a (cons n #t))
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(table-count-set! t (fx+ n 1)))])))))
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(reset-dump-graph))
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(define bld
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(lambda (x t a?)
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(cond
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[(pair? x) (bld-graph x t a? bld-pair)]
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[(vector? x) (bld-graph x t a? bld-vector)]
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[(or (symbol? x) (string? x)) (bld-graph x t a? bld-simple)]
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; this check must go before $record? check
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[(and (annotation? x) (not a?))
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(bld (annotation-stripped x) t a?)]
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; this check must go before $record? check
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[(eq-hashtable? x) (bld-graph x t a? bld-ht)]
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; this check must go before $record? check
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[(symbol-hashtable? x) (bld-graph x t a? bld-ht)]
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[($record? x) (bld-graph x t a? bld-record)]
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[(box? x) (bld-graph x t a? bld-box)]
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[(or (large-integer? x) (ratnum? x) ($inexactnum? x) ($exactnum? x)
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(fxvector? x) (bytevector? x))
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(bld-graph x t a? bld-simple)])))
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(module (small-integer? large-integer?)
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(define least-small-integer (- (expt 2 31)))
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(define greatest-small-integer (- (expt 2 31) 1))
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(define small-integer?
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(lambda (x)
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(if (fixnum? greatest-small-integer)
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(and (fixnum? x) (fx<= least-small-integer x greatest-small-integer))
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(or (fixnum? x) (and (bignum? x) (<= least-small-integer x greatest-small-integer))))))
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(define large-integer?
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(lambda (x)
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(if (fixnum? greatest-small-integer)
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(if (fixnum? x) (not (fx<= least-small-integer x greatest-small-integer)) (bignum? x))
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(and (bignum? x) (not (<= least-small-integer x greatest-small-integer)))))))
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(define wrf-small-integer
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(lambda (x p t a?)
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(put-u8 p (constant fasl-type-small-integer))
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(put-iptr p x)))
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(define wrf-large-integer
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(lambda (x p t a?)
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(put-u8 p (constant fasl-type-large-integer))
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(put-u8 p (if (positive? x) 0 1))
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(let* ([x (abs x)] [il (integer-length x)])
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(let* ([n (bitwise-arithmetic-shift-right il
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(log2 (constant bigit-bits)))]
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[m (bitwise-arithmetic-shift-left n
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(log2 (constant bigit-bits)))])
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(if (fx= m il)
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(put-uptr p n)
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(begin
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(put-uptr p (+ n 1))
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(put-uptr p (bitwise-arithmetic-shift-right x m))))
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(let f ([end m])
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(unless (= end 0)
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(let ([start (- end (constant bigit-bits))])
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(put-uptr p (bitwise-bit-field x start end))
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(f start))))))))
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(define wrf-pair
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(lambda (x p t a?)
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(cond
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[(weak-pair? x)
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(put-u8 p (constant fasl-type-weak-pair))
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(wrf (car x) p t a?)
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(wrf (cdr x) p t a?)]
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[(ephemeron-pair? x)
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(put-u8 p (constant fasl-type-ephemeron))
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(wrf (car x) p t a?)
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(wrf (cdr x) p t a?)]
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[else
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; more like list*
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(put-u8 p (constant fasl-type-pair))
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(let ([n (let wrf-pair-loop0 ([n 1] [x (cdr x)])
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; cut off at end or at shared structure
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(if (and (pair? x)
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(not (weak-pair? x))
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(not (ephemeron-pair? x))
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(not (eq-hashtable-ref (table-hash t) x #f)))
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(wrf-pair-loop0 (fx+ n 1) (cdr x))
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n))])
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(put-uptr p n)
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(let wrf-pair-loop1 ([x x] [n n])
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(wrf (car x) p t a?)
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(if (fx= n 1)
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(wrf (cdr x) p t a?)
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(wrf-pair-loop1 (cdr x) (fx- n 1)))))])))
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(define wrf-symbol
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(lambda (x p t a?)
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(cond
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[(gensym? x)
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(let ((uname (gensym->unique-string x)))
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(put-u8 p (constant fasl-type-gensym))
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(wrf-string-help (symbol->string x) p)
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(wrf-string-help uname p))]
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[else
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(put-u8 p (constant fasl-type-symbol))
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(wrf-string-help (symbol->string x) p)])))
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(define wrf-string-help
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(lambda (x p)
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(put-uptr p (string-length x))
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(let ([n (string-length x)])
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(do ([i 0 (fx+ i 1)])
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((fx= i n))
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(put-uptr p (char->integer (string-ref x i)))))))
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(define wrf-string
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(lambda (x p t a?)
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(put-u8 p (if (immutable-string? x)
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(constant fasl-type-immutable-string)
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(constant fasl-type-string)))
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(wrf-string-help x p)))
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(define wrf-vector
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(lambda (x p t a?)
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(put-u8 p (if (immutable-vector? x)
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(constant fasl-type-immutable-vector)
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(constant fasl-type-vector)))
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(let ([n (vector-length x)])
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(put-uptr p n)
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(let wrf-vector-loop ([i 0])
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(unless (fx= i n)
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(wrf (vector-ref x i) p t a?)
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(wrf-vector-loop (fx+ i 1)))))))
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(define wrf-fxvector
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(lambda (x p t a?)
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(put-u8 p (if (immutable-fxvector? x)
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(constant fasl-type-immutable-fxvector)
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(constant fasl-type-fxvector)))
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(let ([n (fxvector-length x)])
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(put-uptr p n)
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(let wrf-fxvector-loop ([i 0])
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(unless (fx= i n)
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(put-iptr p (fxvector-ref x i))
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(wrf-fxvector-loop (fx+ i 1)))))))
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(define wrf-bytevector
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(lambda (x p t a?)
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(put-u8 p (if (immutable-bytevector? x)
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(constant fasl-type-immutable-bytevector)
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(constant fasl-type-bytevector)))
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(let ([n (bytevector-length x)])
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(put-uptr p n)
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(let wrf-bytevector-loop ([i 0])
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(unless (fx= i n)
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(let ([x (bytevector-u8-ref x i)])
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(put-u8 p x)
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(wrf-bytevector-loop (fx+ i 1))))))))
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; Written as: fasl-tag rtd field ...
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(module (wrf-record really-wrf-record wrf-annotation)
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(define maybe-remake-rtd
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(lambda (rtd)
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(if (eq? (machine-type) ($target-machine))
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rtd
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($remake-rtd rtd (let () (include "layout.ss") compute-field-offsets)))))
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(define wrf-fields
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(lambda (x p t a?)
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; extract field values using host field information (byte offset and filtered
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; type); write using target field information. to save i/o & space, using iptr
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; as common rep'n for multibyte integer fields since any small unsigned quantity
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; is a small signed but a small negative signed quantity is a large unsigned
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; quantity. we check 16- and 32-bit integer values and fixnums before writing
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; them in case the host field is larger than the target field.
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(define get-field
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(lambda (host-fld)
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(let ([type (fld-type host-fld)] [addr (fld-byte host-fld)])
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; using $filter-foreign-type to get host filtering
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(case ($filter-foreign-type type)
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[(scheme-object) ($object-ref 'ptr x addr)]
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[(integer-8 unsigned-8 char) ($object-ref 'unsigned-8 x addr)]
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[(integer-16 unsigned-16) ($object-ref 'integer-16 x addr)]
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[(integer-24 unsigned-24) ($object-ref 'integer-24 x addr)]
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[(integer-32 unsigned-32) ($object-ref 'integer-32 x addr)]
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[(integer-40 unsigned-40) ($object-ref 'integer-40 x addr)]
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[(integer-48 unsigned-48) ($object-ref 'integer-48 x addr)]
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[(integer-56 unsigned-56) ($object-ref 'integer-56 x addr)]
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[(integer-64 unsigned-64) ($object-ref 'integer-64 x addr)]
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[(single-float) ($object-ref 'unsigned-32 x addr)]
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[(double-float) ($object-ref 'unsigned-64 x addr)]
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[(wchar)
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(constant-case wchar-bits
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[(16) ($object-ref 'integer-16 x addr)]
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[(32) ($object-ref 'integer-32 x addr)])]
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[(fixnum) ($object-ref 'fixnum x addr)]
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[else ($oops 'fasl-write "cannot fasl record field of type ~s" type)]))))
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(define check-field
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(lambda (target-fld val)
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(unless (eq? (constant machine-type-name) (machine-type))
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(let* ([type (fld-type target-fld)] [filtered-type (filter-foreign-type type)])
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(unless (case filtered-type
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[(scheme-object) #t]
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[(integer-16 unsigned-16) ($integer-16? val)]
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[(integer-32 unsigned-32) ($integer-32? val)]
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[(wchar)
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(constant-case wchar-bits
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[(16) ($integer-16? val)]
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[(32) ($integer-32? val)])]
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[(fixnum) (<= (- (ash 1 (- (constant fixnum-bits) 1))) val (- (ash 1 (- (constant fixnum-bits) 1)) 1))]
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[(char single-float double-float) #t]
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[(integer-8 integer-64 integer-24 integer-40 integer-48 integer-56) #t]
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[(unsigned-8 unsigned-64 unsigned-24 unsigned-40 unsigned-48 unsigned-56) #t]
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[else ($oops 'fasl-write "unexpected difference in filtered foreign type ~s for unfiltered type ~s" filtered-type type)])
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($oops 'fasl-write "host value ~s for type ~s is too big for target" val type))))))
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(define put-field
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(lambda (target-fld pad val)
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(define put-i64
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(lambda (p val)
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(constant-case ptr-bits
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[(32) (put-iptr p (bitwise-arithmetic-shift-right val 32)) (put-uptr p (logand val #xffffffff))]
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[(64) (put-iptr p val)])))
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(define-syntax put-padty
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(syntax-rules ()
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[(_ fasl-fld-type)
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(put-u8 p (fxlogor (fxsll pad 4) (constant fasl-fld-type)))]))
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(let ([type (fld-type target-fld)] [addr (fld-byte target-fld)])
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; using filter-foreign-type to get target filtering
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(case (filter-foreign-type type)
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[(scheme-object) (put-padty fasl-fld-ptr) (wrf val p t a?) (constant ptr-bytes)]
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[(integer-8 unsigned-8 char) (put-padty fasl-fld-u8) (put-u8 p val) 1]
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[(integer-16 unsigned-16) (put-padty fasl-fld-i16) (put-iptr p val) 2]
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[(integer-24 unsigned-24) (put-padty fasl-fld-i24) (put-iptr p val) 3]
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[(integer-32 unsigned-32) (put-padty fasl-fld-i32) (put-iptr p val) 4]
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[(integer-40 unsigned-40) (put-padty fasl-fld-i40) (put-i64 p val) 5]
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[(integer-48 unsigned-48) (put-padty fasl-fld-i48) (put-i64 p val) 6]
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[(integer-56 unsigned-56) (put-padty fasl-fld-i56) (put-i64 p val) 7]
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[(integer-64 unsigned-64) (put-padty fasl-fld-i64) (put-i64 p val) 8]
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[(single-float)
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(put-padty fasl-fld-single)
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(put-uptr p val)
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4]
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[(double-float)
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(put-padty fasl-fld-double)
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(let ([n val])
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(put-uptr p (ash n -32))
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(put-uptr p (logand n #xFFFFFFFF)))
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8]
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[(wchar)
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(constant-case wchar-bits
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[(16) (put-padty fasl-fld-i16) (put-iptr p val)]
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[(32) (put-padty fasl-fld-i32) (put-iptr p val)])
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(/ (constant wchar-bits) 8)]
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[(fixnum)
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(constant-case ptr-bits
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[(32) (put-padty fasl-fld-i32)]
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[(64) (put-padty fasl-fld-i64)])
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(put-iptr p val)
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(constant ptr-bytes)]
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[else ($oops 'fasl-write "cannot fasl record field of type ~s" type)]))))
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(let* ([host-rtd ($record-type-descriptor x)]
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[target-rtd (maybe-remake-rtd host-rtd)]
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[target-fld* (rtd-flds target-rtd)])
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(put-uptr p (rtd-size target-rtd))
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(put-uptr p (length target-fld*))
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(wrf host-rtd p t a?)
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(fold-left
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(lambda (last-target-addr host-fld target-fld)
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(let ([val (get-field host-fld)])
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(check-field target-fld val)
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(let ([target-addr (fld-byte target-fld)])
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(fx+ target-addr (put-field host-fld (fx- target-addr last-target-addr) val)))))
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(constant record-data-disp)
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(rtd-flds host-rtd)
|
|
target-fld*))))
|
|
|
|
(define wrf-record
|
|
(lambda (x p t a?)
|
|
(if (eq? x #!base-rtd)
|
|
(put-u8 p (constant fasl-type-base-rtd))
|
|
(really-wrf-record x p t a?))))
|
|
|
|
(define really-wrf-record
|
|
(lambda (x p t a?)
|
|
(cond
|
|
[(record-type-descriptor? x)
|
|
(put-u8 p (constant fasl-type-rtd))
|
|
(wrf (record-type-uid x) p t a?)
|
|
(wrf-fields (maybe-remake-rtd x) p t a?)]
|
|
[else
|
|
(put-u8 p (constant fasl-type-record))
|
|
(wrf-fields x p t a?)])))
|
|
|
|
(define wrf-annotation
|
|
(lambda (x p t a?)
|
|
(define maybe-remake-annotation
|
|
(lambda (x a?)
|
|
(if (fx= (annotation-flags x) a?)
|
|
x
|
|
(make-annotation (annotation-expression x) (annotation-source x) (annotation-stripped x) a?))))
|
|
(put-u8 p (constant fasl-type-record))
|
|
(wrf-fields (maybe-remake-annotation x a?) p t a?)))
|
|
)
|
|
|
|
(define wrf-eqht
|
|
(lambda (x p t a?)
|
|
(put-u8 p (constant fasl-type-eq-hashtable))
|
|
(put-u8 p (if (hashtable-mutable? x) 1 0))
|
|
(put-u8 p (cond
|
|
[(eq-hashtable-weak? x) (constant eq-hashtable-subtype-weak)]
|
|
[(eq-hashtable-ephemeron? x) (constant eq-hashtable-subtype-ephemeron)]
|
|
[else (constant eq-hashtable-subtype-normal)]))
|
|
(put-uptr p ($ht-minlen x))
|
|
(put-uptr p ($ht-veclen x))
|
|
(let-values ([(keyvec valvec) (hashtable-entries x)])
|
|
(put-uptr p (vector-length keyvec))
|
|
(vector-for-each
|
|
(lambda (key val)
|
|
(wrf key p t a?)
|
|
(unless (<= (constant most-positive-fixnum) (most-positive-fixnum))
|
|
(when (fixnum? key)
|
|
(unless (fx<= (constant most-negative-fixnum) key (constant most-positive-fixnum))
|
|
($oops 'fasl-write "eq-hashtable fixnum key ~s is out-of-range for target machine" key))))
|
|
(wrf val p t a?))
|
|
keyvec valvec))))
|
|
|
|
(define wrf-symht
|
|
(lambda (x p t a?)
|
|
(put-u8 p (constant fasl-type-symbol-hashtable))
|
|
(put-u8 p (if (hashtable-mutable? x) 1 0))
|
|
(put-uptr p ($ht-minlen x))
|
|
(put-u8 p
|
|
(let ([equiv? (hashtable-equivalence-function x)])
|
|
(cond
|
|
[(eq? equiv? eq?) 0]
|
|
[(eq? equiv? eqv?) 1]
|
|
[(eq? equiv? equal?) 2]
|
|
[(eq? equiv? symbol=?) 3]
|
|
[else ($oops 'fasl-write "unexpected equivalence function ~s for symbol hashtable ~s" equiv? x)])))
|
|
(put-uptr p ($ht-veclen x))
|
|
(let-values ([(keyvec valvec) (hashtable-entries x)])
|
|
(put-uptr p (vector-length keyvec))
|
|
(vector-for-each
|
|
(lambda (key val)
|
|
(wrf key p t a?)
|
|
(wrf val p t a?))
|
|
keyvec valvec))))
|
|
|
|
(define wrf-box
|
|
(lambda (x p t a?)
|
|
(put-u8 p (if (immutable-box? x)
|
|
(constant fasl-type-immutable-box)
|
|
(constant fasl-type-box)))
|
|
(wrf (unbox x) p t a?)))
|
|
|
|
(define wrf-ratnum
|
|
(lambda (x p t a?)
|
|
(put-u8 p (constant fasl-type-ratnum))
|
|
(wrf ($ratio-numerator x) p t a?)
|
|
(wrf ($ratio-denominator x) p t a?)))
|
|
|
|
(define wrf-inexactnum
|
|
(lambda (x p t a?)
|
|
(put-u8 p (constant fasl-type-inexactnum))
|
|
(wrf ($inexactnum-real-part x) p t a?)
|
|
(wrf ($inexactnum-imag-part x) p t a?)))
|
|
|
|
(define wrf-exactnum
|
|
(lambda (x p t a?)
|
|
(put-u8 p (constant fasl-type-exactnum))
|
|
(wrf ($exactnum-real-part x) p t a?)
|
|
(wrf ($exactnum-imag-part x) p t a?)))
|
|
|
|
(define wrf-char
|
|
(lambda (x p)
|
|
(wrf-immediate
|
|
(fxlogor (fxsll (char->integer x) (constant char-data-offset))
|
|
(constant type-char))
|
|
p)))
|
|
|
|
(define wrf-immediate
|
|
(lambda (x p)
|
|
(put-u8 p (constant fasl-type-immediate))
|
|
(put-uptr p x)))
|
|
|
|
(define wrf-flonum
|
|
(lambda (x p)
|
|
(put-u8 p (constant fasl-type-flonum))
|
|
(let ([n ($object-ref 'unsigned-64 x (constant flonum-data-disp))])
|
|
(put-uptr p (ash n -32))
|
|
(put-uptr p (logand n #xFFFFFFFF)))))
|
|
|
|
(define wrf-graph
|
|
(lambda (x p t a? handler)
|
|
(let ([a (eq-hashtable-ref (table-hash t) x #f)])
|
|
(cond
|
|
[(not a)
|
|
(handler x p t a?)]
|
|
[(cdr a)
|
|
(put-u8 p (constant fasl-type-graph-def))
|
|
(put-uptr p (car a))
|
|
(set-cdr! a #f)
|
|
(handler x p t a?)]
|
|
[else
|
|
(put-u8 p (constant fasl-type-graph-ref))
|
|
(put-uptr p (car a))]))))
|
|
|
|
(define wrf
|
|
(lambda (x p t a?)
|
|
(cond
|
|
[(symbol? x) (wrf-graph x p t a? wrf-symbol)]
|
|
[(pair? x) (wrf-graph x p t a? wrf-pair)]
|
|
[(small-integer? x) (wrf-small-integer x p t a?)]
|
|
[(null? x) (wrf-immediate (constant snil) p)]
|
|
[(not x) (wrf-immediate (constant sfalse) p)]
|
|
[(eq? x #t) (wrf-immediate (constant strue) p)]
|
|
[(string? x) (wrf-graph x p t a? wrf-string)]
|
|
[(fxvector? x) (wrf-graph x p t a? wrf-fxvector)]
|
|
[(bytevector? x) (wrf-graph x p t a? wrf-bytevector)]
|
|
; this check must go before $record? check
|
|
[(annotation? x)
|
|
(if a?
|
|
(wrf-graph x p t a? wrf-annotation)
|
|
(wrf (annotation-stripped x) p t a?))]
|
|
; this check must go before $record? check
|
|
[(eq-hashtable? x) (wrf-graph x p t a? wrf-eqht)]
|
|
; this check must go before $record? check
|
|
[(symbol-hashtable? x) (wrf-graph x p t a? wrf-symht)]
|
|
; this check must go before $record? check
|
|
[(hashtable? x) ($oops 'fasl-write "invalid fasl object ~s" x)]
|
|
[($record? x) (wrf-graph x p t a? wrf-record)]
|
|
[(vector? x) (wrf-graph x p t a? wrf-vector)]
|
|
[(char? x) (wrf-char x p)]
|
|
[(box? x) (wrf-graph x p t a? wrf-box)]
|
|
[(large-integer? x) (wrf-graph x p t a? wrf-large-integer)]
|
|
[(ratnum? x) (wrf-graph x p t a? wrf-ratnum)]
|
|
[(flonum? x) (wrf-flonum x p)]
|
|
[($inexactnum? x) (wrf-graph x p t a? wrf-inexactnum)]
|
|
[($exactnum? x) (wrf-graph x p t a? wrf-exactnum)]
|
|
[(eof-object? x) (wrf-immediate (constant seof) p)]
|
|
[(bwp-object? x) (wrf-immediate (constant sbwp) p)]
|
|
[($unbound-object? x) (wrf-immediate (constant sunbound) p)]
|
|
[(eq? x (void)) (wrf-immediate (constant svoid) p)]
|
|
[(eq? x '#0=#0#) (wrf-immediate (constant black-hole) p)]
|
|
[($rtd-counts? x) (wrf-immediate (constant sfalse) p)]
|
|
[else ($oops 'fasl-write "invalid fasl object ~s" x)])))
|
|
|
|
(define start
|
|
(lambda (p t situation proc)
|
|
(define (append-bvs bv*)
|
|
(let f ([bv* bv*] [n 0])
|
|
(if (null? bv*)
|
|
(if (fixnum? n)
|
|
(make-bytevector n)
|
|
($oops 'fasl-write "fasl output is too large to compress"))
|
|
(let ([bv1 (car bv*)])
|
|
(let ([m (bytevector-length bv1)])
|
|
(let ([bv2 (f (cdr bv*) (+ n m))])
|
|
(bytevector-copy! bv1 0 bv2 n m)
|
|
bv2))))))
|
|
(dump-graph)
|
|
(let-values ([(bv* size)
|
|
(let-values ([(p extractor) ($open-bytevector-list-output-port)])
|
|
(let ([n (table-count t)])
|
|
(unless (fx= n 0)
|
|
(put-u8 p (constant fasl-type-graph))
|
|
(put-uptr p n)))
|
|
(proc p)
|
|
(extractor))])
|
|
(put-u8 p situation)
|
|
(if (and (>= size 100) (fasl-compressed))
|
|
(let* ([fmt ($tc-field 'compress-format ($tc))]
|
|
[bv (append-bvs bv*)]
|
|
[uncompressed-size-bv (call-with-bytevector-output-port (lambda (bvp) (put-uptr bvp (bytevector-length bv))))]
|
|
[bv ($bytevector-compress bv fmt)])
|
|
(put-uptr p (+ 1 (bytevector-length uncompressed-size-bv) (bytevector-length bv)))
|
|
(put-u8 p
|
|
(cond
|
|
[(eqv? fmt (constant COMPRESS-GZIP)) (constant fasl-type-gzip)]
|
|
[(eqv? fmt (constant COMPRESS-LZ4)) (constant fasl-type-lz4)]
|
|
[else ($oops 'fasl-write "unexpected $compress-format value ~s" fmt)]))
|
|
(put-bytevector p uncompressed-size-bv)
|
|
(put-bytevector p bv))
|
|
(begin
|
|
(put-uptr p (+ size 1))
|
|
(put-u8 p (constant fasl-type-uncompressed))
|
|
(for-each (lambda (bv) (put-bytevector p bv)) bv*))))))
|
|
|
|
(module (fasl-write fasl-file)
|
|
; when called from fasl-write or fasl-file, always preserve annotations;
|
|
; otherwise use value passed in by the compiler
|
|
(define fasl-one
|
|
(lambda (x p)
|
|
(let ([t (make-table)])
|
|
(bld x t (constant annotation-all))
|
|
(start p t (constant fasl-type-visit-revisit) (lambda (p) (wrf x p t (constant annotation-all)))))))
|
|
|
|
(define-who fasl-write
|
|
(lambda (x p)
|
|
(unless (and (output-port? p) (binary-port? p))
|
|
($oops who "~s is not a binary output port" p))
|
|
(when ($port-flags-set? p (constant port-flag-compressed)) ($compressed-warning who p))
|
|
(emit-header p (constant scheme-version) (constant machine-type-any))
|
|
(fasl-one x p)))
|
|
|
|
(define-who fasl-file
|
|
(lambda (in out)
|
|
(unless (string? in) ($oops who "~s is not a string" in))
|
|
(unless (string? out) ($oops who "~s is not a string" out))
|
|
(let ([ip ($open-file-input-port who in (file-options)
|
|
(buffer-mode block) (current-transcoder))]
|
|
[op ($open-file-output-port who out (file-options replace))])
|
|
(on-reset
|
|
(begin
|
|
(close-input-port ip)
|
|
(delete-file out #f))
|
|
(on-reset
|
|
(close-port op)
|
|
(emit-header op (constant scheme-version) (constant machine-type-any))
|
|
(let fasl-loop ()
|
|
(let ([x (read ip)])
|
|
(unless (eof-object? x)
|
|
(fasl-one x op)
|
|
(fasl-loop)))))
|
|
(close-port op))
|
|
(close-port ip)))))
|
|
|
|
(define fasl-base-rtd
|
|
(lambda (x p)
|
|
(emit-header p (constant scheme-version) (constant machine-type-any))
|
|
(let ([t (make-table)])
|
|
(bld-graph x t #f really-bld-record)
|
|
(start p t (constant fasl-type-visit-revisit) (lambda (p) (wrf-graph x p t #f really-wrf-record))))))
|
|
|
|
($fasl-target (make-target bld-graph bld wrf start make-table wrf-graph fasl-base-rtd fasl-write fasl-file))
|
|
)
|
|
|
|
(let ()
|
|
(define fasl-target
|
|
(lambda ()
|
|
(let ([target ($fasl-target)])
|
|
(assert target)
|
|
target)))
|
|
(set! $fasl-bld-graph (lambda (x t a? handler) ((target-fasl-bld-graph (fasl-target)) x t a? handler)))
|
|
(set! $fasl-enter (lambda (x t a?) ((target-fasl-enter (fasl-target)) x t a?)))
|
|
(set! $fasl-out (lambda (x p t a?) ((target-fasl-out (fasl-target)) x p t a?)))
|
|
(set! $fasl-start (lambda (p t situation proc) ((target-fasl-start (fasl-target)) p t situation proc)))
|
|
(set! $fasl-table (lambda () ((target-fasl-table (fasl-target)))))
|
|
(set! $fasl-wrf-graph (lambda (x p t a? handler) ((target-fasl-wrf-graph (fasl-target)) x p t a? handler)))
|
|
(set! $fasl-base-rtd (lambda (x p) ((target-fasl-base-rtd (fasl-target)) x p)))
|
|
(set! fasl-write (lambda (x p) ((target-fasl-write (fasl-target)) x p)))
|
|
(set! fasl-file (lambda (in out) ((target-fasl-file (fasl-target)) in out))))
|
|
|
|
(when ($unbound-object? (#%$top-level-value '$capture-fasl-target))
|
|
(let ([ht (make-hashtable values =)])
|
|
(set! $capture-fasl-target
|
|
(lambda (mt)
|
|
(hashtable-set! ht mt ($fasl-target))))
|
|
(set-who! $with-fasl-target
|
|
(lambda (mt th)
|
|
(cond
|
|
[(hashtable-ref ht mt #f) =>
|
|
(lambda (target)
|
|
(parameterize ([$fasl-target target])
|
|
(th)))]
|
|
[else ($oops who "unrecognized machine type ~s" mt)])))))
|
|
|
|
($capture-fasl-target (constant machine-type))
|
|
)
|