On this page:
continuation-marks
current-continuation-marks
continuation-mark-set->list
make-continuation-mark-key
continuation-mark-set->list*
continuation-mark-set->iterator
continuation-mark-set-first
call-with-immediate-continuation-mark
continuation-mark-key?
continuation-mark-set?
continuation-mark-set->context

10.5 Continuation Marks

See Continuation Frames and Marks and Prompts, Delimited Continuations, and Barriers for general information about continuation marks.

The list of continuation marks for a key k and a continuation C that extends C0 is defined as follows:

The with-continuation-mark form installs a mark on the first frame of the current continuation (see Continuation Marks: with-continuation-mark). Procedures such as current-continuation-marks allow inspection of marks.

Whenever Racket creates an exception record for a primitive exception, it fills the continuation-marks field with the value of (current-continuation-marks), thus providing a snapshot of the continuation marks at the time of the exception.

When a continuation procedure returned by call-with-current-continuation or call-with-composable-continuation is invoked, it restores the captured continuation, and also restores the marks in the continuation’s frames to the marks that were present when call-with-current-continuation or call-with-composable-continuation was invoked.

procedure

(continuation-marks cont [prompt-tag])  continuation-mark-set?

  cont : (or/c continuation? thread? #f)
  prompt-tag : continuation-prompt-tag?
   = (default-continuation-prompt-tag)
Returns an opaque value containing the set of continuation marks for all keys in the continuation cont (or the current continuation of cont if it is a thread) up to the prompt tagged by prompt-tag. If cont is #f, the resulting set of continuation marks is empty. If cont is an escape continuation (see Prompts, Delimited Continuations, and Barriers), then the current continuation must extend cont, or the exn:fail:contract exception is raised. If cont was not captured with respect to prompt-tag and does not include a prompt for prompt-tag, the exn:fail:contract exception is raised. If cont is a dead thread, the result is an empty set of continuation marks.

Returns an opaque value containing the set of continuation marks for all keys in the current continuation up to prompt-tag. In other words, it produces the same value as

(call-with-current-continuation
  (lambda (k)
    (continuation-marks k prompt-tag))
  prompt-tag)

procedure

(continuation-mark-set->list mark-set    
  key-v    
  [prompt-tag])  list?
  mark-set : continuation-mark-set?
  key-v : any/c
  prompt-tag : continuation-prompt-tag?
   = (default-continuation-prompt-tag)
Returns a newly-created list containing the marks for key-v in mark-set, which is a set of marks returned by current-continuation-marks. The result list is truncated at the first point, if any, where continuation frames were originally separated by a prompt tagged with prompt-tag. Producing the result takes time proportional to the size of the continuation reflected by mark-set.

Creates a continuation mark key that is not equal? to the result of any other value (including prior and future results from make-continuation-mark-key). The continuation mark key can be used as the key argument for with-continuation-mark or accessor procedures like continuation-mark-set-first. The mark key can be chaperoned or impersonated, unlike other values that are used as the mark key.

The optional sym argument, if provided, is used when printing the continuation mark.

procedure

(continuation-mark-set->list* mark-set    
  key-list    
  [none-v    
  prompt-tag])  (listof vector?)
  mark-set : continuation-mark-set?
  key-list : (listof any/c)
  none-v : any/c = #f
  prompt-tag : continuation-prompt-tag?
   = (default-continuation-prompt-tag)
Returns a newly-created list containing vectors of marks in mark-set for the keys in key-list, up to prompt-tag. The length of each vector in the result list is the same as the length of key-list, and a value in a particular vector position is the value for the corresponding key in key-list. Values for multiple keys appear in a single vector only when the marks are for the same continuation frame in mark-set. The none-v argument is used for vector elements to indicate the lack of a value. Producing the result takes time proportional to the size of the continuation reflected by mark-set times the length of key-list.

procedure

(continuation-mark-set->iterator mark-set 
  key-list 
  [none-v 
  prompt-tag]) 
  (-> (values (or/c vector? #f) procedure?))
  mark-set : continuation-mark-set?
  key-list : (listof any/c)
  none-v : any/c = #f
  prompt-tag : continuation-prompt-tag?
   = (default-continuation-prompt-tag)
Like continuation-mark-set->list*, but instead of returning a list of values, returns a functional iterator in the form of a procedure that returns one element of the would-be list and a new iterator function for the rest of the would-be list. An iterator procedure returns #f instead of a vector when no more elements are available; in that case, the returned iterator procedure is like the called one, producing no further values. The time required for each step is proportional to the length of key-list times the size of the segment of the continuation reflected by mark-set between frames that have keys in key-list.

Added in version 7.5.0.7 of package base.

procedure

(continuation-mark-set-first mark-set    
  key-v    
  [none-v    
  prompt-tag])  any
  mark-set : (or/c continuation-mark-set? #f)
  key-v : any/c
  none-v : any/c = #f
  prompt-tag : continuation-prompt-tag?
   = (default-continuation-prompt-tag)
Returns the first element of the list that would be returned by (continuation-mark-set->list (or mark-set (current-continuation-marks prompt-tag)) key-v prompt-tag), or none-v if the result would be the empty list.

The result is produced in (amortized) constant time. Typically, this result can be computed more quickly using continuation-mark-set-first than using continuation-mark-set->list or by using continuation-mark-set->iterator and iterating just once.

Although #f and (current-continuation-marks prompt-tag) are equivalent for mark-set, providing #f as mark-set can enable shortcuts that make it even faster.

procedure

(call-with-immediate-continuation-mark key-v    
  proc    
  [default-v])  any
  key-v : any/c
  proc : (any/c . -> . any)
  default-v : any/c = #f
Calls proc with the value associated with key-v in the first frame of the current continuation (i.e., a value that would be replaced if the call to call-with-immediate-continuation-mark were replaced with a with-continuation-mark form using key-v as the key expression). If no such value exists in the first frame, default-v is passed to proc. The proc is called in tail position with respect to the call-with-immediate-continuation-mark call.

This function could be implemented with a combination of with-continuation-mark, current-continuation-marks, and continuation-mark-set->list*, as shown below, but call-with-immediate-continuation-mark is implemented more efficiently; it inspects only the first frame of the current continuation.

; Equivalent, but inefficient:
(define (call-with-immediate-continuation-mark key-v proc [default-v #f])
  (define private-key (gensym))
  (with-continuation-mark
   private-key #t
   (let ([vecs (continuation-mark-set->list* (current-continuation-marks)
                                             (list key-v private-key)
                                             default-v)])
     (proc (vector-ref (car vecs) 0)))))

procedure

(continuation-mark-key? v)  boolean?

  v : any/c
Returns #t if v is a mark key created by make-continuation-mark-key, #f otherwise.

procedure

(continuation-mark-set? v)  boolean?

  v : any/c
Returns #t if v is a mark set created by continuation-marks or current-continuation-marks, #f otherwise.

procedure

(continuation-mark-set->context mark-set)  list?

  mark-set : continuation-mark-set?
Returns a list representing an approximate “stack trace” for mark-set’s continuation. The list contains pairs, where the car of each pair contains either #f or a symbol for a procedure name, and the cdr of each pair contains either #f or a srcloc value for the procedure’s source location (see Counting Positions, Lines, and Columns); the car and cdr are never both #f.

Conceptually, the stack-trace list is the result of continuation-mark-set->list with mark-set and Racket’s private key for procedure-call marks. The implementation may be different, however, and the results may merely approximate the correct answer. Thus, while the result may contain useful hints to humans about the context of an expression, it is not reliable enough for programmatic use.

A stack trace is extracted from an exception and displayed by the default error display handler (see error-display-handler) for exceptions other than exn:fail:user (see raise-user-error in Raising Exceptions).

Examples:
> (define (extract-current-continuation-marks key)
    (continuation-mark-set->list
     (current-continuation-marks)
     key))
> (with-continuation-mark 'key 'mark
    (extract-current-continuation-marks 'key))

'(mark)

> (with-continuation-mark 'key1 'mark1
    (with-continuation-mark 'key2 'mark2
      (list
       (extract-current-continuation-marks 'key1)
       (extract-current-continuation-marks 'key2))))

'((mark1) (mark2))

> (with-continuation-mark 'key 'mark1
    (with-continuation-mark 'key 'mark2 ; replaces previous mark
      (extract-current-continuation-marks 'key)))

'(mark2)

> (with-continuation-mark 'key 'mark1
    (list ; continuation extended to evaluate the argument
     (with-continuation-mark 'key 'mark2
        (extract-current-continuation-marks 'key))))

'((mark2 mark1))

> (let loop ([n 1000])
    (if (zero? n)
        (extract-current-continuation-marks 'key)
        (with-continuation-mark 'key n
          (loop (sub1 n)))))

'(1)