95 lines
2.9 KiB
Scheme
95 lines
2.9 KiB
Scheme
; Copyright (c) 1993-1999 by Richard Kelsey and Jonathan Rees. See file COPYING.
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; This is file fluid.scm.
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; Fluid (dynamic) variables.
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; Fluid variables are implemented using deep binding. This allows
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; each thread in a multiprocessor system to have its own fluid
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; environment, and allows for fast thread switching in a multitasking
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; one.
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; CURRENT-THREAD and SET-CURRENT-THREAD! access a special virtual
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; machine register. On a multiprocessor, each processor would have
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; its own current-thread register. The run-time system stores the
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; current thread in this register.
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; Here we define a particular thread record, but a different one is
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; defined by the (uniprocessor) threads package. The current thread
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; may actually be any kind of record as long as its first component
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; can be used by the fluid variable implementation to maintain the
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; deep-binding dynamic environment and its second component can be
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; used by DYNAMIC-WIND. This is kind of gross but it is motivated by
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; efficiency concerns.
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(define-record-type thread :thread
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(make-thread dynamic-env dynamic-point)
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(dynamic-env thread-dynamic-env)
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(dynamic-point thread-dynamic-point))
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(define (get-dynamic-env)
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(record-ref (current-thread) 1))
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(define (set-dynamic-env! env)
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(record-set! (current-thread) 1 env))
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; The dynamic-wind point used to be just an ordinary fluid variable, which
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; doesn't work well with threads.
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(define (get-dynamic-point)
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(record-ref (current-thread) 2))
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(define (set-dynamic-point! point)
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(record-set! (current-thread) 2 point))
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(define (initialize-dynamic-state!)
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(set-current-thread! (make-thread (empty-dynamic-env) #f)))
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;----------------
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; Dynamic environment
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; A dynamic environment is an alist where the cars are fluid records.
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(define (with-dynamic-env env thunk)
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(let ((saved-env (get-dynamic-env)))
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(set-dynamic-env! env)
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(set! env #f) ;For GC and debugger
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(call-with-values
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;; thunk
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(let ((x thunk)) (set! thunk #f) x) ;For GC
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(lambda results
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(set-dynamic-env! saved-env)
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(apply values results)))))
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(define (empty-dynamic-env) '())
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; Each fluid has a top-level value that is used when the fluid is unbound
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; in the current dynamic environment.
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(define-record-type fluid :fluid
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(make-fluid top)
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(top fluid-top-level-value set-fluid-top-level-value!))
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(define (fluid f)
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(let ((probe (assq f (get-dynamic-env))))
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(if probe (cdr probe) (fluid-top-level-value f))))
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(define (set-fluid! f val)
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(let ((probe (assq f (get-dynamic-env))))
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(if probe (set-cdr! probe val) (set-fluid-top-level-value! f val))))
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(define (let-fluid f val thunk)
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(with-dynamic-env (cons (cons f val) (get-dynamic-env)) thunk))
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(define (let-fluids . args)
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(let loop ((args args)
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(env (get-dynamic-env)))
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(if (null? (cdr args))
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(with-dynamic-env env (car args))
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(loop (cddr args)
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(cons (cons (car args) (cadr args)) env)))))
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; Initialize
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(initialize-dynamic-state!)
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