14.5 Impersonators and Chaperones
An impersonator is a wrapper for a value where the wrapper redirects some of the value’s operations. Impersonators apply only to procedures, structures for which an accessor or mutator is available, structure types, hash tables, vectors, boxes, channels, and prompt tags. An impersonator is equal? to the original value, but not eq? to the original value.
A chaperone is a kind of impersonator whose refinement of a value’s operation is restricted to side effects (including, in particular, raising an exception) or chaperoning values supplied to or produced by the operation. For example, a vector chaperone can redirect vector-ref to raise an exception if the accessed vector slot contains a string, or it can cause the result of vector-ref to be a chaperoned variant of the value that is in the accessed vector slot, but it cannot redirect vector-ref to produce a value that is arbitrarily different from the value in the vector slot.
A non-chaperone impersonator, in contrast, can refine an operation to swap one value for any other. An impersonator cannot be applied to an immutable value or refine the access to an immutable field in an instance of a structure type, since arbitrary redirection of an operation amounts to mutation of the impersonated value.
Beware that each of the following operations can be redirected to an
arbitrary procedure through an impersonator on the operation’s
argument—
a structure-field accessor
a structure-field mutator
a structure type property accessor
application of a procedure
Derived operations, such as printing a value, can be redirected through impersonators due to their use of accessor functions. The equal?, equal-hash-code, and equal-secondary-hash-code operations, in contrast, may bypass impersonators (but they are not obliged to).
In addition to redirecting operations that work on a value, a impersonator can include impersonator properties for an impersonated value. An impersonator property is similar to a structure type property, but it applies to impersonators instead of structure types and their instances.
procedure
(impersonator? v) → boolean?
v : any/c
Programs and libraries generally should avoid impersonator? and treat impersonators the same as non-impersonator values. In rare cases, impersonator? may be needed to guard against redirection by an impersonator of an operation to an arbitrary procedure.
A limitation of impersonator? is that it does not recognize an impersonator that is created by instantiating a structure type with the prop:impersonator-of property. The limitation reflects how those impersonators cannot redirect structure access and mutation operations to arbitrary procedures.
procedure
(chaperone? v) → boolean?
v : any/c
Programs and libraries generally should avoid chaperone? for the same reason that they should avoid impersonator?. A true value for chaperone? implies a true value of impersonator?.
procedure
(impersonator-of? v1 v2) → boolean?
v1 : any/c v2 : any/c
Any two values that are eq? to one another are also impersonator-of?. For values that include no impersonators, v1 and v2 are considered impersonators of each other if they are equal?.
If v1 impersonates v1* then (impersonator-of? v1 v2) is #t if and only if (impersonator-of? v1* v2) is #t.
If v2 is a non-interposing impersonator that impersonates v2*, i.e., all of its interposition procedures are #f, then (impersonator-of? v1 v2) is #t if and only if (impersonator-of? v1 v2*) is #t.
When v2 is an impersonator constructed with at least one non-#f interposition procedure, but v1 is not an impersonator then (impersonator-of? v1 v2) is #f.
Otherwise, if neither v1 or v2 is an impersonator, but either of them contains an impersonator as a subpart (e.g., v1 is a list with an impersonator as one of its elements), then (impersonator-of? v1 v2) proceeds by comparing v1 and v2 recursively (as with equal?), returning true if all subparts are impersonator-of?.
> (impersonator-of? (impersonate-procedure add1 (λ (x) x)) add1) #t
> (impersonator-of? (impersonate-procedure add1 (λ (x) x)) sub1) #f
> (impersonator-of? (impersonate-procedure (impersonate-procedure add1 (λ (x) x)) (λ (x) x)) add1) #t
> (impersonator-of? (impersonate-procedure add1 (λ (x) x)) (impersonate-procedure add1 #f)) #t
> (impersonator-of? (impersonate-procedure add1 (λ (x) x)) (impersonate-procedure add1 (λ (x) x))) #f
> (impersonator-of? (list 1 2) (list 1 2)) #t
> (impersonator-of? (list (impersonate-procedure add1 (λ (x) x)) sub1) (list add1 sub1)) #t
procedure
(chaperone-of? v1 v2) → boolean?
v1 : any/c v2 : any/c
For values that include no chaperones or other impersonators, v1 and v2 can be considered chaperones of each other if they are equal-always?, which requires that they are equal? except that corresponding mutable vectors, boxes, hash tables, strings, byte strings, mutable pairs, and mutable structures within v1 and v2 must be eq?.
Otherwise, chaperones and other impersonators within v2 must be intact within v1 analogous to way that impersonator-of? requires that impersonators are preserved. Furthermore, v1 must not have any non-chaperone impersonators whose corresponding value in v2 is not the same impersonator. Note that chaperone-of? implies impersonator-of?, but not vice-versa.
procedure
v : any/c
In the terminology of ephemerons, v is the value of the ephemeron and all of the values that v impersonates are keys.
procedure
v : any/c
14.5.1 Impersonator Constructors
procedure
(impersonate-procedure proc wrapper-proc prop prop-val ... ...) → (and/c procedure? impersonator?) proc : procedure? wrapper-proc : (or/c procedure? #f) prop : impersonator-property? prop-val : any/c
The arity of wrapper-proc must include the arity of proc. The allowed keyword arguments of wrapper-proc must be a superset of the allowed keywords of proc. The required keyword arguments of wrapper-proc must be a subset of the required keywords of proc.
For applications without keywords, the result of wrapper-proc
must be at least the same number of values as supplied to it.
Additional results can be supplied—
An optional procedure, result-wrapper-proc, which will be applied to the results of proc; followed by
any number of repetitions of 'mark key val (i.e., three values), where the call proc is wrapped to install a continuation mark key and val.
If result-wrapper-proc is produced, it must be a procedure that accepts as many results as produced by proc; it must return the same number of results. If result-wrapper-proc is not supplied, then proc is called in tail position with respect to the call to the impersonator.
For applications that include keyword arguments, wrapper-proc must return an additional value before any other values but after result-wrapper-proc and 'mark key val sequences (if any). The additional value must be a list of replacements for the keyword arguments that were supplied to the impersonator (i.e., not counting optional arguments that were not supplied). The arguments must be ordered according to the sorted order of the supplied arguments’ keywords.
If wrapper-proc is #f, then applying the resulting impersonator is the same as applying proc. If wrapper-proc is #f and no prop is provided, then proc is returned and is not impersonated.
Pairs of prop and prop-val (the number of arguments to impersonate-procedure must be even) add impersonator properties or override impersonator-property values of proc.
If any prop is impersonator-prop:application-mark and if the
associated prop-val is a pair, then the call to proc
is wrapped with with-continuation-mark using (car prop-val) as the mark key and (cdr prop-val) as the mark
value. In addition, if the immediate
continuation frame of the call to the impersonated procedure
includes a value for (car prop-val)—
Changed in version 6.3.0.5 of package base: Added support for 'mark key val results from wrapper-proc.
> (define (add15 x) (+ x 15))
> (define add15+print (impersonate-procedure add15 (λ (x) (printf "called with ~s\n" x) (values (λ (res) (printf "returned ~s\n" res) res) x)))) > (add15 27) 42
> (add15+print 27)
called with 27
returned 42
42
> (define-values (imp-prop:p1 imp-prop:p1? imp-prop:p1-get) (make-impersonator-property 'imp-prop:p1))
> (define-values (imp-prop:p2 imp-prop:p2? imp-prop:p2-get) (make-impersonator-property 'imp-prop:p2)) > (define add15.2 (impersonate-procedure add15 #f imp-prop:p1 11)) > (add15.2 2) 17
> (imp-prop:p1? add15.2) #t
> (imp-prop:p1-get add15.2) 11
> (imp-prop:p2? add15.2) #f
> (define add15.3 (impersonate-procedure add15.2 #f imp-prop:p2 13)) > (add15.3 3) 18
> (imp-prop:p1? add15.3) #t
> (imp-prop:p1-get add15.3) 11
> (imp-prop:p2? add15.3) #t
> (imp-prop:p2-get add15.3) 13
> (define add15.4 (impersonate-procedure add15.3 #f imp-prop:p1 101)) > (add15.4 4) 19
> (imp-prop:p1? add15.4) #t
> (imp-prop:p1-get add15.4) 101
> (imp-prop:p2? add15.4) #t
> (imp-prop:p2-get add15.4) 13
procedure
(impersonate-procedure* proc wrapper-proc prop prop-val ... ...) → (and/c procedure? impersonator?) proc : procedure? wrapper-proc : (or/c procedure? #f) prop : impersonator-property? prop-val : any/c
If the result of impersonate-procedure* is applied directly, then orig-proc is that result. If the result is further impersonated before being applied, however, orig-proc is the further impersonator.
An orig-proc argument might be useful so that wrapper-proc can extract impersonator properties that are overridden by further impersonators, for example.
Added in version 6.1.1.5 of package base.
procedure
(impersonate-struct v [ struct-type] orig-proc redirect-proc ... ... prop prop-val ... ...) → any/c v : any/c struct-type : struct-type? = unspecified
orig-proc :
(or/c struct-accessor-procedure? struct-mutator-procedure? struct-type-property-accessor-procedure?) redirect-proc : (or/c procedure? #f) prop : impersonator-property? prop-val : any/c
The protocol for a redirect-proc depends on the corresponding orig-proc, where self refers to the value to which orig-proc is originally applied:
A structure-field accessor: redirect-proc must accept two arguments, self and the value field-v that orig-proc produces for v; it must return a replacement for field-v. The corresponding field must not be immutable, and either the field’s structure type must be accessible via the current inspector or one of the other orig-procs must be a structure-field mutator for the same field.
A structure-field mutator: redirect-proc must accept two arguments, self and the value field-v supplied to the mutator; it must return a replacement for field-v to be propagated to orig-proc and v.
A property accessor: redirect-proc uses the same protocol as for a structure-field accessor. The accessor’s property must have been created with 'can-impersonate as the second argument to make-struct-type-property.
When a redirect-proc is #f, the corresponding orig-proc is unaffected. Supplying #f for a redirect-proc is useful to allow its orig-proc to act as a “witness” of v’s representation and enable the addition of props.
Pairs of prop and prop-val (the number of arguments to impersonate-struct must be even if struct-type is provided, odd otherwise) add impersonator properties or override impersonator-property values of v.
Each orig-proc must indicate a distinct operation. If no struct-type and no orig-procs are supplied, then no props must be supplied. If orig-procs are supplied only with #f redirect-procs and no props are supplied, then v is returned and is not impersonated.
If any orig-proc is itself an impersonator, then a use of the accessor or mutator that orig-proc impersonates is redirected for the resulting impersonated structure to use orig-proc on v before redirect-proc (in the case of accessor) or after redirect-proc (in the case of a mutator).
Changed in version 6.1.1.2 of package base: Changed first argument to an
accessor or mutator
redirect-proc from
v to self.
Changed in version 6.1.1.8: Added optional struct-type
argument.
procedure
(impersonate-vector vec ref-proc set-proc prop prop-val ... ...) → (and/c vector? impersonator?) vec : (and/c vector? (not/c immutable?)) ref-proc : (or/c (vector? exact-nonnegative-integer? any/c . -> . any/c) #f) set-proc : (or/c (vector? exact-nonnegative-integer? any/c . -> . any/c) #f) prop : impersonator-property? prop-val : any/c
The ref-proc and set-proc arguments must either both be procedures or both be #f. If they are #f then impersonate-vector does not interpose on vec, but still allows attaching impersonator properties.
If ref-proc is a procedure it must accept vec, an index passed to vector-ref, and the value that vector-ref on vec produces for the given index; it must produce a replacement for the value, which is the result of vector-ref on the impersonator.
If set-proc is a procedure it must accept vec, an index passed to vector-set!, and the value passed to vector-set!; it must produce a replacement for the value, which is used with vector-set! on the original vec to install the value.
Pairs of prop and prop-val (the number of arguments to impersonate-vector must be odd) add impersonator properties or override impersonator-property values of vec.
Changed in version 6.9.0.2 of package base: Added non-interposing vector impersonators.
procedure
(impersonate-vector* vec ref-proc set-proc prop prop-val ... ...) → (and/c vector? impersonator?) vec : (and/c vector? (not/c immutable?)) ref-proc : (or/c (vector? vector? exact-nonnegative-integer? any/c . -> . any/c) #f) set-proc : (or/c (vector? vector? exact-nonnegative-integer? any/c . -> . any/c) #f) prop : impersonator-property? prop-val : any/c
The additional vector argument might be useful so that ref-proc or set-proc can extract impersonator properties that are overridden by further impersonators, for example.
Added in version 6.9.0.2 of package base.
procedure
(impersonate-box box unbox-proc set-proc prop prop-val ... ...) → (and/c box? impersonator?) box : (and/c box? (not/c immutable?)) unbox-proc : (box? any/c . -> . any/c) set-proc : (box? any/c . -> . any/c) prop : impersonator-property? prop-val : any/c
The unbox-proc must accept box and the value that unbox produces on box; it must produce a replacement value, which is the result of unbox on the impersonator.
The set-proc must accept box and the value passed to set-box!; it must produce a replacement value, which is used with set-box! on the original box to install the value.
Pairs of prop and prop-val (the number of arguments to impersonate-box must be odd) add impersonator properties or override impersonator-property values of box.
procedure
(impersonate-hash hash ref-proc set-proc remove-proc key-proc [ clear-proc equal-key-proc] prop prop-val ... ...) → (and/c hash? impersonator?) hash : (and/c hash? (not/c immutable?))
ref-proc :
(hash? any/c . -> . (values any/c (hash? any/c any/c . -> . any/c))) set-proc : (hash? any/c any/c . -> . (values any/c any/c)) remove-proc : (hash? any/c . -> . any/c) key-proc : (hash? any/c . -> . any/c) clear-proc : (or/c #f (hash? . -> . any)) = #f equal-key-proc : (or/c #f (hash? any/c . -> . any/c)) = #f prop : impersonator-property? prop-val : any/c
The ref-proc must accept hash and a key passed to hash-ref. It must return a replacement key as well as a procedure. The returned procedure is called only if the returned key is found in hash via hash-ref, in which case the procedure is called with hash, the previously returned key, and the found value. The returned procedure must itself return a replacement for the found value. The returned procedure is ignored by hash-ref-key.
The set-proc must accept hash, a key passed to hash-set! or hash-set, and the value passed to hash-set! or hash-set; it must produce two values: a replacement for the key and a replacement for the value. The returned key and value are used with hash-set! or hash-set on the original hash to install the value.
The remove-proc must accept hash and a key passed to hash-remove! or hash-remove; it must produce a replacement for the key, which is used with hash-remove! or hash-remove on the original hash to remove any mapping using the (impersonator-replaced) key.
The key-proc must accept hash and a key that has been extracted from hash (by hash-ref-key, hash-iterate-key, or other operations that use hash-iterate-key internally); it must produce a replacement for the key, which is then reported as a key extracted from the table.
If clear-proc is not #f, it must accept hash as an argument, and its result is ignored. The fact that clear-proc returns (as opposed to raising an exception or otherwise escaping) grants the capability to remove all keys from hash. If clear-proc is #f, then hash-clear or hash-clear! on the impersonator is implemented using hash-iterate-key and hash-remove or hash-remove!.
If equal-key-proc is not #f, it effectively interposes on calls to equal?, equal-hash-code, and equal-secondary-hash-code for the keys of hash. The equal-key-proc must accept as its arguments hash and a key that is either mapped by hash or passed to hash-ref, etc., where the latter has potentially been adjusted by the corresponding ref-proc, etc. The result is a value that is passed to equal?, equal-hash-code, and equal-secondary-hash-code as needed to hash and compare keys. In the case of hash-set! or hash-set, the key that is passed to equal-key-proc is the one stored in the hash table for future lookup.
The hash-iterate-value, hash-map, or hash-for-each functions use a combination of hash-iterate-key and hash-ref. If a key produced by key-proc does not yield a value through hash-ref, then the exn:fail:contract exception is raised.
Pairs of prop and prop-val add impersonator properties or override impersonator-property values of hash.
In the case of an immutable hash table, two impersonated hash tables count as “the same value” (for purposes of impersonator-of?) when their redirection procedures were originally attached to a hash table by the same call to impersonate-hash or chaperone-hash (and potentially propagated by hash-set, hash-remove, or hash-clear), as long as the content of the first hash table is impersonator-of? of the second hash table.
Changed in version 6.3.0.11 of package base: Added the equal-key-proc argument.
procedure
(impersonate-channel channel get-proc put-proc prop prop-val ... ...) → (and/c channel? impersonator?) channel : channel? get-proc : (channel? . -> . (values channel? (any/c . -> . any/c))) put-proc : (channel? any/c . -> . any/c) prop : impersonator-property? prop-val : any/c
The get-proc generator is called on channel-get or any other operation that fetches results from the channel (such as a sync on the channel). The get-proc must return two values: a channel that is an impersonator of channel, and a procedure that is used to check the channel’s contents.
The put-proc must accept channel and the value passed to channel-put; it must produce a replacement value, which is used with channel-put on the original channel to send the value over the channel.
Pairs of prop and prop-val (the number of arguments to impersonate-channel must be odd) add impersonator properties or override impersonator-property values of channel.
procedure
(impersonate-prompt-tag prompt-tag handle-proc abort-proc [ cc-guard-proc callcc-impersonate-proc] prop prop-val ... ...) → (and/c continuation-prompt-tag? impersonator?) prompt-tag : continuation-prompt-tag? handle-proc : procedure? abort-proc : procedure? cc-guard-proc : procedure? = values
callcc-impersonate-proc : (procedure? . -> . procedure?) = (lambda (p) p) prop : impersonator-property? prop-val : any/c
The handle-proc must accept the values that the handler of a continuation prompt would take and it must produce replacement values, which will be passed to the handler.
The abort-proc must accept the values passed to abort-current-continuation; it must produce replacement values, which are aborted to the appropriate prompt.
The cc-guard-proc must accept the values produced by call-with-continuation-prompt in the case that a non-composable continuation is applied to replace the continuation that is delimited by the prompt, but only if abort-current-continuation is not later used to abort the continuation delimited by the prompt (in which case abort-proc is used).
The callcc-impersonate-proc must accept a procedure that guards the result of a continuation captured by call-with-current-continuation with the impersonated prompt tag. The callcc-impersonate-proc is applied (under a continuation barrier) when the captured continuation is applied to refine a guard function (initially values) that is specific to the delimiting prompt; this prompt-specific guard is ultimately composed with any cc-guard-proc that is in effect at the delimiting prompt, and it is not used in the same case that a cc-guard-proc is not used (i.e., when abort-current-continuation is used to abort to the prompt). In the special case where the delimiting prompt at application time is a thread’s built-in initial prompt, callcc-impersonate-proc is ignored (partly on the grounds that the initial prompt’s result is ignored).
Pairs of prop and prop-val (the number of arguments to impersonate-prompt-tag must be odd) add impersonator properties or override impersonator-property values of prompt-tag.
> (define tag (impersonate-prompt-tag (make-continuation-prompt-tag) (lambda (n) (* n 2)) (lambda (n) (+ n 1))))
> (call-with-continuation-prompt (lambda () (abort-current-continuation tag 5)) tag (lambda (n) n)) 12
procedure
(impersonate-continuation-mark-key key get-proc set-proc prop prop-val ... ...) → (and/c continuation-mark? impersonator?) key : continuation-mark-key? get-proc : procedure? set-proc : procedure? prop : impersonator-property? prop-val : any/c
The get-proc must accept the value attached to a continuation mark and it must produce a replacement value, which will be returned by the continuation mark accessor.
The set-proc must accept a value passed to with-continuation-mark; it must produce a replacement value, which is attached to the continuation frame.
Pairs of prop and prop-val (the number of arguments to impersonate-continuation-mark-key must be odd) add impersonator properties or override impersonator-property values of key.
> (define mark-key (impersonate-continuation-mark-key (make-continuation-mark-key) (lambda (l) (map char-upcase l)) (lambda (s) (string->list s))))
> (with-continuation-mark mark-key "quiche" (continuation-mark-set-first (current-continuation-marks) mark-key)) '(#\Q #\U #\I #\C #\H #\E)
The property value must be a procedure of one argument, which is a structure whose structure type has the property. The result can be #f to indicate the structure does not represent an impersonator, otherwise the result is a value for which the original structure is an impersonator (so the original structure is an impersonator-of? and equal? to the result value). The result value must have the same prop:impersonator-of and prop:equal+hash property values as the original structure, if any, and the property values must be inherited from the same structure type (which ensures some consistency between impersonator-of? and equal?).
Impersonator property predicates and accessors applied to a structure with the prop:impersonator-of property first check for the property on the immediate structure, and if it is not found, the value produced by the prop:impersonator-of procedure is checked (recursively).
Changed in version 6.1.1.8 of package base: Made impersonator property predicates and accessors sensitive to prop:impersonator-of.
Instances of an authentic structure type cannot be impersonated via impersonate-struct or chaperoned via chaperone-struct. As a consequence, an instance of an authentic structure type can be given a contract (see struct/c) only if it is a flat contract.
Declaring a structure type as authentic can prevent unwanted structure impersonation, but exposed structure types normally should support impersonators or chaperones to facilitate contracts. Declaring a structure type as authentic can also slightly improve the performance of structure predicates, selectors, and mutators, which can be appropriate for data structures that are private and frequently used within a library.
Added in version 6.9.0.4 of package base.
14.5.2 Chaperone Constructors
procedure
(chaperone-procedure proc wrapper-proc prop prop-val ... ...) → (and/c procedure? chaperone?) proc : procedure? wrapper-proc : (or/c procedure? #f) prop : impersonator-property? prop-val : any/c
For applications that include keyword arguments, wrapper-proc must return an additional value before any other values but after the result-chaperoning procedure (if any). The additional value must be a list of chaperones of the keyword arguments that were supplied to the chaperone procedure (i.e., not counting optional arguments that were not supplied). The arguments must be ordered according to the sorted order of the supplied arguments’ keywords.
procedure
(chaperone-procedure* proc wrapper-proc prop prop-val ... ...) → (and/c procedure? chaperone?) proc : procedure? wrapper-proc : (or/c procedure? #f) prop : impersonator-property? prop-val : any/c
Added in version 6.1.1.5 of package base.
procedure
(chaperone-struct v [ struct-type] orig-proc redirect-proc ... ... prop prop-val ... ...) → any/c v : any/c struct-type : struct-type? = unspecified
orig-proc :
(or/c struct-accessor-procedure? struct-mutator-procedure? struct-type-property-accessor-procedure? (lambda (proc) (eq? proc struct-info))) redirect-proc : (or/c procedure? #f) prop : impersonator-property? prop-val : any/c
With a structure-field accessor as orig-proc, redirect-proc must accept two arguments, self and the value field-v that orig-proc produces for v; it must return a chaperone of field-v. The corresponding field may be immutable.
With structure-field mutator as orig-proc, redirect-proc must accept two arguments, self and the value field-v supplied to the mutator; it must return a chaperone of field-v to be propagated to orig-proc and v.
A property accessor can be supplied as orig-proc, and the property need not have been created with 'can-impersonate. The corresponding redirect-proc uses the same protocol as for a structure-field accessor.
With struct-info as orig-proc, the corresponding redirect-proc must accept two values, which are the results of struct-info on v; it must return each values or a chaperone of each value. The redirect-proc is not called if struct-info would return #f as its first argument. An orig-proc can be struct-info only if struct-type or some other orig-proc is supplied.
Any accessor or mutator orig-proc that is an impersonator must be specifically a chaperone.
Supplying a property accessor for orig-proc enables prop arguments, the same as supplying an accessor, mutator, or structure type.
Changed in version 6.1.1.2 of package base: Changed first argument to an
accessor or mutator
redirect-proc from
v to self.
Changed in version 6.1.1.8: Added optional struct-type
argument.
procedure
(chaperone-vector vec ref-proc set-proc prop prop-val ... ...) → (and/c vector? chaperone?) vec : vector? ref-proc : (or/c (vector? exact-nonnegative-integer? any/c . -> . any/c) #f) set-proc : (or/c (vector? exact-nonnegative-integer? any/c . -> . any/c) #f) prop : impersonator-property? prop-val : any/c
procedure
(chaperone-vector* vec ref-proc set-proc prop prop-val ... ...) → (and/c vector? chaperone?) vec : vector? ref-proc : (or/c (vector? vector? exact-nonnegative-integer? any/c . -> . any/c) #f) set-proc : (or/c (vector? vector? exact-nonnegative-integer? any/c . -> . any/c) #f) prop : impersonator-property? prop-val : any/c
Added in version 6.9.0.2 of package base.
procedure
(chaperone-box box unbox-proc set-proc prop prop-val ... ...) → (and/c box? chaperone?) box : box? unbox-proc : (box? any/c . -> . any/c) set-proc : (box? any/c . -> . any/c) prop : impersonator-property? prop-val : any/c
procedure
(chaperone-hash hash ref-proc set-proc remove-proc key-proc [ clear-proc equal-key-proc] prop prop-val ... ...) → (and/c hash? chaperone?) hash : hash?
ref-proc :
(hash? any/c . -> . (values any/c (hash? any/c any/c . -> . any/c))) set-proc : (hash? any/c any/c . -> . (values any/c any/c)) remove-proc : (hash? any/c . -> . any/c) key-proc : (hash? any/c . -> . any/c) clear-proc : (or/c #f (hash? . -> . any)) = #f equal-key-proc : (or/c #f (hash? any/c . -> . any/c)) = #f prop : impersonator-property? prop-val : any/c
Changed in version 6.3.0.11 of package base: Added the equal-key-proc argument.
procedure
(chaperone-struct-type struct-type struct-info-proc make-constructor-proc guard-proc prop prop-val ... ...) → (and/c struct-type? chaperone?) struct-type : struct-type? struct-info-proc : procedure? make-constructor-proc : (procedure? . -> . procedure?) guard-proc : procedure? prop : impersonator-property? prop-val : any/c
The struct-info-proc must accept 8 arguments—
The make-constructor-proc must accept a single procedure argument, which is a constructor produced by struct-type-make-constructor on struct-type. It must return the same or a chaperone of the procedure, which is used as the result of struct-type-make-constructor on the chaperoned structure type.
The guard-proc is like a guard argument to make-struct-type: it must accept one more argument than a constructor for struct-type, where the last argument is the name the name of the instantiated structure type. It must return the number of values needed by the constructor (i.e. one value for each argument but the last), and each returned value must be the same as or a chaperone of the corresponding argument. The guard-proc is added as a constructor guard when a subtype is created of the chaperoned structure type.
Pairs of prop and prop-val (the number of arguments to chaperone-struct-type must be even) add impersonator properties or override impersonator-property values of struct-type.
procedure
(chaperone-evt evt proc prop prop-val ... ...)
→ (and/c evt? chaperone?) evt : evt? proc : (evt? . -> . (values evt? (any/c . -> . any/c))) prop : impersonator-property? prop-val : any/c
The proc generator is called on synchronization, much like the procedure passed to guard-evt, except that proc is given evt. The proc must return two values: a synchronizable event that is a chaperone of evt, and a procedure that is used to check the event’s result if it is chosen in a selection. The latter procedure accepts the result of evt, and it must return a chaperone of that value.
Pairs of prop and prop-val (the number of arguments to chaperone-evt must be even) add impersonator properties or override impersonator-property values of evt.
The result is chaperone-of? the argument evt. However, if evt is a thread, semaphore, input port, output port, or will executor, the result is not recognized as such. For example, thread? applied to the result of chaperone-evt will always produce #f.
procedure
(chaperone-channel channel get-proc put-proc prop prop-val ... ...) → (and/c channel? chaperone?) channel : channel? get-proc : (channel? . -> . (values channel? (any/c . -> . any/c))) put-proc : (channel? any/c . -> . any/c) prop : impersonator-property? prop-val : any/c
The get-proc must return two values: a channel that is a chaperone of channel, and a procedure that is used to check the channel’s contents. The latter procedure must return the original value or a chaperone of that value.
The put-proc must produce a replacement value that is either the original value communicated on the channel or a chaperone of that value.
Pairs of prop and prop-val (the number of arguments to chaperone-channel must be odd) add impersonator properties or override impersonator-property values of channel.
procedure
(chaperone-prompt-tag prompt-tag handle-proc abort-proc [ cc-guard-proc callcc-chaperone-proc] prop prop-val ... ...) → (and/c continuation-prompt-tag? chaperone?) prompt-tag : continuation-prompt-tag? handle-proc : procedure? abort-proc : procedure? cc-guard-proc : procedure? = values
callcc-chaperone-proc : (procedure? . -> . procedure?) = (lambda (p) p) prop : impersonator-property? prop-val : any/c
> (define bad-chaperone (chaperone-prompt-tag (make-continuation-prompt-tag) (lambda (n) (* n 2)) (lambda (n) (+ n 1))))
> (call-with-continuation-prompt (lambda () (abort-current-continuation bad-chaperone 5)) bad-chaperone (lambda (n) n)) abort-current-continuation: non-chaperone result; received a
prompt-abort argument that is not a chaperone of the
original prompt-abort argument
original: 5
received: 6
> (define good-chaperone (chaperone-prompt-tag (make-continuation-prompt-tag) (lambda (n) (if (even? n) n (error "not even"))) (lambda (n) (if (even? n) n (error "not even")))))
> (call-with-continuation-prompt (lambda () (abort-current-continuation good-chaperone 2)) good-chaperone (lambda (n) n)) 2
procedure
(chaperone-continuation-mark-key key get-proc set-proc prop prop-val ... ...) → (and/c continuation-mark-key? chaperone?) key : continuation-mark-key? get-proc : procedure? set-proc : procedure? prop : impersonator-property? prop-val : any/c
> (define bad-chaperone (chaperone-continuation-mark-key (make-continuation-mark-key) (lambda (l) (map char-upcase l)) string->list))
> (with-continuation-mark bad-chaperone "timballo" (continuation-mark-set-first (current-continuation-marks) bad-chaperone)) with-continuation-mark: non-chaperone result; received a
value that is not a chaperone of the original value
original: "timballo"
received: '(#\t #\i #\m #\b #\a #\l #\l #\o)
> (define (checker s) (if (> (string-length s) 5) s (error "expected string of length at least 5")))
> (define good-chaperone (chaperone-continuation-mark-key (make-continuation-mark-key) checker checker))
> (with-continuation-mark good-chaperone "zabaione" (continuation-mark-set-first (current-continuation-marks) good-chaperone)) "zabaione"
14.5.3 Impersonator Properties
procedure
(make-impersonator-property name)
→
impersonator-property? (-> any/c boolean?) (->* (impersonator?) (any/c) any) name : symbol?
an impersonator property descriptor, for use with impersonate-procedure, chaperone-procedure, and other impersonator constructors;
an impersonator property predicate procedure, which takes an arbitrary value and returns #t if the value is an impersonator with a value for the property, #f otherwise;
an impersonator property accessor procedure, which returns the value associated with an impersonator for the property; if a value given to the accessor is not an impersonator or does not have a value for the property (i.e. if the corresponding impersonator property predicate returns #f), then a second optional argument to the selector determines its response: the exn:fail:contract exception is raised if a second argument is not provided, the second argument is tail-called with zero arguments if it is a procedure, and the second argument is returned otherwise.
procedure
v : any/c
procedure
v : any/c