1999-09-14 08:45:02 -04:00
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; Copyright (c) 1993-1999 by Richard Kelsey and Jonathan Rees. See file COPYING.
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; Allocation
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; s48-*hp* is the heap pointer and s48-*limit* is the limit beyond which no
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; storage should be allocated. Both of these are addresses (not
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; descriptors).
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(define s48-*hp*)
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(define s48-*limit*)
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(define *oldspace-hp*)
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(define *oldspace-limit*)
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; These are all in address units
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(define *newspace-begin*)
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(define *newspace-end*)
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(define *oldspace-begin*)
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(define *oldspace-end*)
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; For the GC (which is in another module)
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(define (heap-pointer)
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s48-*hp*)
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(define (set-heap-pointer! new-hp)
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(set! s48-*hp* new-hp))
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(define (heap-start)
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*newspace-begin*)
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(define (heap-limit)
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*newspace-end*)
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;----------------
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(define (s48-initialize-heap start size)
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(let ((semisize (cells->a-units (quotient size 2))))
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(set! *newspace-begin* start)
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(set! *newspace-end* (address+ *newspace-begin* semisize))
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(set! s48-*hp* *newspace-begin*)
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(set! s48-*limit* *newspace-end*)
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(set! *oldspace-begin* *newspace-end*)
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(set! *oldspace-end* (address+ *oldspace-begin* semisize))
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(set! *oldspace-hp* *oldspace-begin*)
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(set! *oldspace-limit* *oldspace-end*)))
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; To write images we need to be able to undo the swapping.
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(define-syntax swap!
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(syntax-rules ()
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((swap! a b)
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(let ((temp a))
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(set! a b)
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(set! b temp)))))
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(define (swap-spaces)
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(swap! s48-*limit* *oldspace-limit*)
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(swap! s48-*hp* *oldspace-hp*)
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(swap! *newspace-begin* *oldspace-begin*)
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(swap! *newspace-end* *oldspace-end*))
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2002-08-15 12:35:26 -04:00
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(define (s48-newspace<oldspace?)
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(address< s48-*limit* *oldspace-limit*))
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1999-09-14 08:45:02 -04:00
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;----------------
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(define (s48-available? cells)
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(address< (address+ s48-*hp* (cells->a-units cells)) s48-*limit*))
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(define (s48-available)
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(a-units->cells (address-difference s48-*limit* s48-*hp*)))
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(define (s48-heap-size)
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(address-difference *newspace-end* *newspace-begin*))
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(define (store-next! descriptor)
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(store! s48-*hp* descriptor)
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(set! s48-*hp* (address1+ s48-*hp*)))
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; Pre-Allocation
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;
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; Preallocation and keys are used to ensure that for every call to MAKE-STOB
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; there is a corresponding call to ENSURE-SPACE to see if there is sufficient
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; heap space. ENSURE-SPACE returns a key and MAKE-STOB checks that the
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; key it is passed is the most recently allocated key and that the space
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; needed is no greater than the argument to ENSURE-SPACE.
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;
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; Another solution would be to make ENSURE-SPACE and MAKE-STOB a single
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; procedure. The difficulty is that ENSURE-SPACE may trigger a garbage
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; collection, which in turn requires that all live data be reachable
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; from the VM's registers. The VM solves this by only calling ENSURE-SPACE
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; at the beginning of an instruction, before any values have been removed
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; from the stack or any of the registers. Once the key has been obtained
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; the instruction is free to make any number of calls to MAKE-STOB, as long
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; as the total heap space required is no more than what was checked for.
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;
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; There is a flag, CHECK-PREALLOCATION?, that determines whether MAKE-STOB
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; actually checks the keys. In the VM as seen by the Pre-Scheme compiler
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; this flag is defined to be #f and never set, so all of the key code is
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; constant-folded into oblivion.
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;
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; The main virtue of the keys is not that they can be checked but
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; that they exist at all. MAKE-STOB requires a key argument, and
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; if there is none available you know that you forgot an ENSURE-SPACE.
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; Occasionally I run the VM in Scheme with checking enabled, just
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; to see if it all still works.
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(define check-preallocation? #f)
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(define *heap-key* 0)
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(define *okayed-space* 0)
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(define (s48-preallocate-space cells)
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(cond (check-preallocation?
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(assert (s48-available? cells))
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(set! *heap-key* (+ *heap-key* 1))
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(set! *okayed-space* cells)
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*heap-key*)
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(else
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0)))
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(define (s48-allocate-space type len key) ;len is in bytes
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(= type 0) ; declaration for type-checker
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(if check-preallocation?
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(let ((cells (+ (bytes->cells len) 1)))
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(assert (s48-available? cells))
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(if (not (and (= key *heap-key*)
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(>= *okayed-space* cells)))
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(error "invalid heap key" key cells))
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(set! *okayed-space* (- *okayed-space* cells))))
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(let ((new s48-*hp*))
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(set! s48-*hp* (address+ s48-*hp* (bytes->a-units len)))
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new))
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(define (s48-write-barrier stob address value)
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(address+ address (+ stob value)) ; for the type checker
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(unspecific))
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;----------------
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; Keeping track of all the areas.
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(define *pure-areas*)
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(define *impure-areas*)
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(define *pure-sizes*)
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(define *impure-sizes*)
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(define *pure-area-count* 0)
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(define *impure-area-count* 0)
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(define (have-static-areas?)
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(or (< 0 *impure-area-count*)
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(< 0 *pure-area-count*)))
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(define (s48-register-static-areas pure-count pure-areas pure-sizes
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impure-count impure-areas impure-sizes)
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(set! *pure-area-count* pure-count)
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(set! *pure-areas* pure-areas)
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(set! *pure-sizes* pure-sizes)
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(set! *impure-area-count* impure-count)
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(set! *impure-areas* impure-areas)
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(set! *impure-sizes* impure-sizes))
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(define (walk-areas proc areas sizes count)
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(let loop ((i 0))
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(cond ((>= i count)
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#t)
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((proc (vector-ref areas i)
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(address+ (vector-ref areas i)
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(vector-ref sizes i)))
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(loop (+ i 1)))
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(else
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#f))))
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(define (walk-pure-areas proc)
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(if (< 0 *pure-area-count*)
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(walk-areas proc *pure-areas* *pure-sizes* *pure-area-count*)))
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(define (walk-impure-areas proc)
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(if (< 0 *impure-area-count*)
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(walk-areas proc *impure-areas* *impure-sizes* *impure-area-count*)))
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;----------------------------------------------------------------
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; Finding things in the heap.
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(define *finding-type* (enum stob symbol)) ; work around lack of closures
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; Call PREDICATE on all objects of type *FINDING-TYPE* found between START and END.
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; The objects for which PREDICATE returns #T are pushed onto the heap using STORE-NEXT!.
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; Returns #T for success and #F for failure.
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(define (collect-type-in-area predicate)
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(lambda (start end)
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(let ((type *finding-type*))
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(let loop ((addr start))
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(if (address>= addr end)
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#t
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(let* ((d (fetch addr))
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(next (address+ addr
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(+ (cells->a-units stob-overhead)
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(header-length-in-a-units d)))))
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(cond ((not (header? d))
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(write-string "heap is in an inconsistent state."
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(current-error-port))
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#f)
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((not (= type (header-type d)))
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(loop next))
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(else
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(let ((obj (address->stob-descriptor (address1+ addr))))
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(cond ((not (predicate obj))
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(loop next))
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((s48-available? (cells->a-units 1))
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(store-next! obj)
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(loop next))
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(else
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#f)))))))))))
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; Returns a procedure that will walk the heap calling PREDICATE on every
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; object of a particular type. Returns a vector containing all objects
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; for which PREDICATE returns #t. If the heap is screwed up or there isn't
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; room for the vector we return FALSE.
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(define (generic-find-all predicate)
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(let ((proc (collect-type-in-area predicate)))
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(lambda (type)
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(set! *finding-type* type) ; we don't have closures
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(let ((start-hp s48-*hp*))
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(store-next! 0) ; reserve space for header
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(cond ((and (proc *newspace-begin* start-hp)
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(walk-impure-areas proc)
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(walk-pure-areas proc))
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(let ((size (address-difference s48-*hp* (address1+ start-hp))))
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(store! start-hp (make-header (enum stob vector) size) )
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(address->stob-descriptor (address1+ start-hp))))
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(else
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(set! s48-*hp* start-hp) ; out of space, so undo and give up
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false))))))
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; Find everything with a given type.
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(define s48-find-all
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(generic-find-all (lambda (thing) #t)))
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; Find all records of a given record type (as determined by the first slot
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; in each record).
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(define s48-find-all-records
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(let* ((the-record-type false)
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(finder (generic-find-all
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(lambda (record)
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(vm-eq? (record-type record)
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the-record-type)))))
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(lambda (record-type)
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(set! the-record-type record-type)
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(finder (enum stob record)))))
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(define find-resumer-records
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(let ((finder (generic-find-all
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(lambda (record)
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(let ((type (record-type record)))
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(and (record? type)
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(stob? (record-type-resumer type))))))))
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(lambda ()
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(finder (enum stob record)))))
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; Functions for accessing records. Getting these from STRUCT would introduce
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; a circular module dependency.
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(define (record? x)
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(and (stob? x)
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(= (header-type (stob-header x))
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(enum stob record))))
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(define (record-type record)
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(record-ref record -1))
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(define (record-type-resumer record-type)
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(record-ref record-type 0))
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(define (record-ref record offset)
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(fetch (address+ (address-after-header record)
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(cells->a-units (+ offset 1)))))
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