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11.5.1 Using Places
place-enabled?
place?
place-channel?
dynamic-place
dynamic-place*
place
place*
place/  context
place-wait
place-dead-evt
place-kill
place-break
place-channel
place-channel-put
place-channel-get
place-channel-put/  get
place-message-allowed?
prop:  place-location
place-location?
11.5.2 Places Logging

11.5 Places

+Parallelism with Places in The Racket Guide introduces places.

 (require racket/place) package: base
The bindings documented in this section are provided by the racket/place and racket libraries, but not racket/base.

Places enable the development of parallel programs that take advantage of machines with multiple processors, cores, or hardware threads.

Currently, parallel support for places is enabled only for the 3m (main) and CS variants of Racket, and only by default for Windows, Linux x86/x86_64, and Mac OS x86/x86_64. To enable support for other platforms, use --enable-places with configure when building Racket. The place-enabled? function reports whether places run in parallel.

Implementation and operating-system constraints may limit the scalability of places. For example, although places can perform garbage collections independently in the 3m variant, a garbage collection may need to manipulate a page table that is shared across all places, and that shared page table can be a bottleneck with enough places—perhaps around 8 or 16.

A place is a parallel task that is effectively a separate instance of the Racket virtual machine, although all places run within a single operating-system process. Places communicate through place channels, which are endpoints for a two-way buffered communication.

To a first approximation, place channels support only immutable, transparent values as messages. In addition, place channels themselves can be sent across channels to establish new (possibly more direct) lines of communication in addition to any existing lines. Finally, mutable values produced by shared-flvector, make-shared-flvector, shared-fxvector, make-shared-fxvector, shared-bytes, and make-shared-bytes can be sent across place channels; mutation of such values is visible to all places that share the value, because they are allowed in a shared memory space. See place-message-allowed?.

A place channel can be used as a synchronizable event (see Events) to receive a value through the channel. A place channel is ready for synchronization when a message is available on the channel, and the place channel’s synchronization result is the message (which is removed on synchronization). A place can also receive messages with place-channel-get, and messages can be sent with place-channel-put.

Two place channels are equal? if they are endpoints for the same underlying channels while both or neither is a place descriptor. Place channels can be equal? without being eq? after being sent messages through a place channel.

Constraints on messages across a place channel—and therefore on the kinds of data that places share—enable greater parallelism than future, even including separate garbage collection of separate places. At the same time, the setup and communication costs for places can be higher than for futures.

For example, the following expression launches two places, echoes a message to each, and then waits for the places to terminate:

(let ([pls (for/list ([i (in-range 2)])
              (dynamic-place "place-worker.rkt" 'place-main))])
   (for ([i (in-range 2)]
         [p pls])
      (place-channel-put p i)
      (printf "~a\n" (place-channel-get p)))
   (map place-wait pls))

The "place-worker.rkt" module must export the place-main function that each place executes, where place-main must accept a single place channel argument:

#lang racket
(provide place-main)
 
(define (place-main pch)
  (place-channel-put pch (format "Hello from place ~a"
                                  (place-channel-get pch))))

Place channels are subject to garbage collection, like other Racket values, and a thread that is blocked reading from a place channel can be garbage collected if place channel’s writing end becomes unreachable. However, unlike normal channel blocking, if otherwise unreachable threads are mutually blocked on place channels that are reachable only from the same threads, the threads and place channels are all considered reachable, instead of unreachable.

When a place is created, its parameter values are generally set to the initial values of the parameters in the creating place, except that the current values of the following parameters are used: current-library-collection-paths, current-library-collection-links, and current-compiled-file-roots.

A newly created place is registered with the current custodian, so that the place is terminated when the custodian is shut down.

11.5.1 Using Places

procedure

(place-enabled?)  boolean?

Returns #t if Racket is configured so that dynamic-place and place create places that can run in parallel, #f if dynamic-place and place are simulated using thread.

procedure

(place? v)  boolean?

  v : any/c
Returns #t if v is a place descriptor value, #f otherwise. Every place descriptor is also a place channel.

procedure

(place-channel? v)  boolean?

  v : any/c
Returns #t if v is place channel, #f otherwise.

procedure

(dynamic-place module-path    
  start-name    
  [#:at location    
  #:named named])  place?
  module-path : (or/c module-path? path?)
  start-name : symbol?
  location : (or/c #f place-location?) = #f
  named : any/c = #f
Creates a place to run the procedure that is identified by module-path and start-name. The result is a place descriptor value that represents the new parallel task; the place descriptor is returned immediately. The place descriptor value is also a place channel that permits communication with the place.

The module indicated by module-path must export a function with the name start-name. The function must accept a single argument, which is a place channel that corresponds to the other end of communication for the place descriptor returned by place.

If location is provided, it must be a place location, such as a distributed places node produced by create-place-node.

When the place is created, the initial exit handler terminates the place, using the argument to the exit handler as the place’s completion value. Use (exit v) to immediately terminate a place with the completion value v. Since a completion value is limited to an exact integer between 0 and 255, any other value for v is converted to 0.

If the function indicated by module-path and start-name returns, then the place terminates with the completion value 0.

In the created place, the current-input-port parameter is set to an empty input port, while the values of the current-output-port and current-error-port parameters are connected to the current ports in the creating place. If the output ports in the creating place are file-stream ports, then the connected ports in the created place share the underlying streams, otherwise a thread in the creating place pumps bytes from the created place’s ports to the current ports in the creating place.

The module-path argument must not be a module path of the form (quote sym) unless the module is predefined (see module-predefined?).

The dynamic-place binding is protected in the sense of protect-out, so access to this operation can be prevented by adjusting the code inspector (see Code Inspectors).

procedure

(dynamic-place* module-path    
  start-name    
  [#:in in    
  #:out out    
  #:err err])  
place?
(or/c output-port? #f)
(or/c input-port? #f)
(or/c input-port? #f)
  module-path : (or/c module-path? path?)
  start-name : symbol?
  in : (or/c input-port? #f) = #f
  out : (or/c output-port? #f) = (current-output-port)
  err : (or/c output-port? #f) = (current-error-port)
Like dynamic-place, but accepts specific ports to the new place’s ports, and returns a created port when #f is supplied for a port. The in, out, and err ports are connected to the current-input-port, current-output-port, and current-error-port ports, respectively, for the place. Any of the ports can be #f, in which case a file-stream port (for an operating-system pipe) is created and returned by dynamic-place*. The err argument can be 'stdout, in which case the same file-stream port or that is supplied as standard output is also used for standard error. For each port or 'stdout that is provided, no pipe is created and the corresponding returned value is #f.

The caller of dynamic-place* is responsible for closing all returned ports; none are closed automatically.

The dynamic-place* procedure returns four values:

The dynamic-place* binding is protected in the same way as dynamic-place.

syntax

(place id body ...+)

Creates a place that evaluates body expressions with id bound to a place channel. The bodys close only over id plus the top-level bindings of the enclosing module, because the bodys are lifted to a submodule. The result of place is a place descriptor, like the result of dynamic-place.

The generated submodule has the name place-body-n for an integer n, and the submodule exports a main function that takes a place channel for the new place. The submodule is not intended for use, however, except by the expansion of the place form.

The place binding is protected in the same way as dynamic-place.

syntax

(place* maybe-port ...
        id
        body ...+)
 
maybe-port = 
  | #:in in-expr
  | #:out out-expr
  | #:err err-expr
Like place, but supports optional #:in, #:out, and #:err expressions (at most one of each) to specify ports in the same way and with the same defaults as dynamic-place*. The result of a place* form is also the same as for dynamic-place*.

The place* binding is protected in the same way as dynamic-place.

syntax

(place/context id body ...+)

Like place, but body ... may have free lexical variables, which are automatically sent to the newly-created place. Note that these variables must have values accepted by place-message-allowed?, otherwise an exn:fail:contract exception is raised.

procedure

(place-wait p)  exact-integer?

  p : place?
Returns the completion value of the place indicated by p, blocking until the place has terminated.

If any pumping threads were created to connect a non-file-stream port to the ports in the place for p (see dynamic-place), place-wait returns only when the pumping threads have completed.

procedure

(place-dead-evt p)  evt?

  p : place?
Returns a synchronizable event (see Events) that is ready for synchronization if and only if p has terminated. The synchronization result of a place-dead event is the place-dead event itself.

If any pumping threads were created to connect a non-file-stream port to the ports in the place for p (see dynamic-place), the event returned by place-dead-evt may become ready even if a pumping thread is still running.

procedure

(place-kill p)  void?

  p : place?
Immediately terminates the place, setting the place’s completion value to 1 if the place does not have a completion value already.

procedure

(place-break p [kind])  void?

  p : place?
  kind : (or/c #f 'hang-up 'terminate) = #f
Sends the main thread of place p a break; see Breaks.

Returns two place channels. Data sent through the first channel can be received through the second channel, and data sent through the second channel can be received from the first.

Typically, one place channel is used by the current place to send messages to a destination place; the other place channel is sent to the destination place (via an existing place channel).

procedure

(place-channel-put pch v)  void

  pch : place-channel?
  v : place-message-allowed?
Sends a message v on channel pch. Since place channels are asynchronous, place-channel-put calls are non-blocking.

See place-message-allowed? form information on automatic coercions in v, such as converting a mutable string to an immutable string.

Returns a message received on channel pch, blocking until a message is available.

procedure

(place-channel-put/get pch v)  any/c

  pch : place-channel?
  v : any/c
Sends an immutable message v on channel pch and then waits for a message (perhaps a reply) on the same channel.

procedure

(place-message-allowed? v)  boolean?

  v : any/c
Returns #t if v is allowed as a message on a place channel, #f otherwise.

If (place-enabled?) returns #f, then the result is always #t and no conversions are performed on v as a message. Otherwise, the following kinds of data are allowed as messages:

A structure type property and associated predicate for implementations of place locations. The value of prop:place-location must be a procedure of four arguments: the place location itself, a module path, a symbol for the start function exported by the module, and a place name (which can be #f for an anonymous place).

A place location can be passed as the #:at argument to dynamic-place, which in turn simply calls the prop:place-location value of the place location.

A distributed places note created with create-place-node is an example of a place location.

11.5.2 Places Logging

Place events are reported to a logger named 'place. In addition to its string message, each event logged for a place has a data value that is an instance of a place-event prefab structure:

(struct place-event (place-id action value time)
  #:prefab)

The place-id field is an exact integer that identifies a place.

The time field is an inexact number that represents time in the same way as current-inexact-milliseconds.

The action field is a symbol:

Changed in version 6.0.0.2 of package base: Added logging via 'place and place-event.