1Ephemeron(3) OCaml library Ephemeron(3)
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6 Ephemeron - Ephemerons and weak hash table
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9 Module Ephemeron
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12 Module Ephemeron
13 : sig end
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16 Ephemerons and weak hash table
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24 Ephemerons and weak hash table are useful when one wants to cache or
25 memorize the computation of a function, as long as the arguments and
26 the function are used, without creating memory leaks by continuously
27 keeping old computation results that are not useful anymore because one
28 argument or the function is freed. An implementation using Hashtbl.t is
29 not suitable because all associations would keep in memory the argu‐
30 ments and the result.
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32 Ephemerons can also be used for "adding" a field to an arbitrary boxed
33 ocaml value: you can attach an information to a value created by an
34 external library without memory leaks.
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36 Ephemerons hold some keys and one or no data. They are all boxed ocaml
37 values. The keys of an ephemeron have the same behavior than weak
38 pointers according to the garbage collector. In fact ocaml weak point‐
39 ers are implemented as ephemerons without data.
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41 The keys and data of an ephemeron are said to be full if they point to
42 a value, empty if the value have never been set, have been unset, or
43 was erased by the GC. In the function that accesses the keys or data
44 these two states are represented by the option type.
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46 The data is considered by the garbage collector alive if all the full
47 keys are alive and if the ephemeron is alive. When one of the keys is
48 not considered alive anymore by the GC, the data is emptied from the
49 ephemeron. The data could be alive for another reason and in that case
50 the GC will not free it, but the ephemeron will not hold the data any‐
51 more.
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53 The ephemerons complicate the notion of liveness of values, because it
54 is not anymore an equivalence with the reachability from root value by
55 usual pointers (not weak and not ephemerons). With ephemerons the
56 notion of liveness is constructed by the least fixpoint of: A value is
57 alive if:
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59 -it is a root value
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61 -it is reachable from alive value by usual pointers
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63 -it is the data of an alive ephemeron with all its full keys alive
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65 Notes:
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67 -All the types defined in this module cannot be marshaled using out‐
68 put_value or the functions of the Marshal module.
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70 Ephemerons are defined in a language agnostic way in this paper: B.
71 Hayes, Ephemerons: a New Finalization Mechanism, OOPSLA'9
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73 module type S = sig end
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76 The output signature of the functor Ephemeron.K1.Make and
77 Ephemeron.K2.Make . These hash tables are weak in the keys. If all the
78 keys of a binding are alive the binding is kept, but if one of the keys
79 of the binding is dead then the binding is removed.
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82 module type SeededS = sig end
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85 The output signature of the functor Ephemeron.K1.MakeSeeded and
86 Ephemeron.K2.MakeSeeded .
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89 module K1 : sig end
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94 module K2 : sig end
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99 module Kn : sig end
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104 module GenHashTable : sig end
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112OCamldoc 2020-02-27 Ephemeron(3)