package frama-c

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include Hptmap_sig.S with type key = Key.t with type v = Value.t
type key = Key.t

type of the keys

type v = Value.t

type of the values

type prefix
include Hptmap_sig.Shape with type key := key
type 'v map

Type of the maps from type key to type 'v.

val id : 'v map -> int

Bijective function. The ids are positive.

val is_empty : 'v map -> bool

is_empty m returns true if and only if the map m defines no bindings at all.

val is_singleton : 'v map -> (key * 'v) option

is_singleton m returns Some (k, d) if m is a singleton map that maps k to d. Otherwise, it returns None.

val on_singleton : (key -> 'v -> bool) -> 'v map -> bool

on_singleton f m returns f k d if m is a singleton map that maps k to d. Otherwise, it returns false.

val cardinal : 'v map -> int

cardinal m returns m's cardinal, that is, the number of keys it binds, or, in other words, its domain's cardinal.

val find : key -> 'v map -> 'v
val find_check_missing : key -> 'v map -> 'v

Both find key m and find_check_missing key m return the value bound to key in m, or raise Not_found is key is unbound. find is optimised for the case where key is bound in m, whereas find_check_missing is more efficient for the cases where m is big and key is missing.

val find_key : key -> 'v map -> key

This function is useful where there are multiple distinct keys that are equal for Key.equal.

val mem : key -> 'v map -> bool

mem k m returns true if k is bound in m, and false otherwise.

val min_binding : 'v map -> key * 'v
val max_binding : 'v map -> key * 'v

Iterators

val iter : (key -> 'v -> unit) -> 'v map -> unit

iter f m applies f to all bindings of the map m.

val for_all : (key -> 'v -> bool) -> 'v map -> bool

for_all p m returns true if all the bindings of the map m satisfy the predicate p.

val exists : (key -> 'v -> bool) -> 'v map -> bool

for_all p m returns true if at least one binding of the map m satisfies the predicate p.

val fold : (key -> 'v -> 'b -> 'b) -> 'v map -> 'b -> 'b

fold f m seed invokes f k d accu, in turn, for each binding from key k to datum d in the map m. Keys are presented to f in increasing order according to the map's ordering. The initial value of accu is seed; then, at each new call, its value is the value returned by the previous invocation of f. The value returned by fold is the final value of accu.

val fold_rev : (key -> 'v -> 'b -> 'b) -> 'v map -> 'b -> 'b

fold_rev performs exactly the same job as fold, but presents keys to f in the opposite order.

val to_seq : 'v map -> (key * 'v) Stdlib.Seq.t

to_seq m builds a sequence of each pair (key, datum) in the map m. Keys are presented in the sequence in increasing order according to the map's ordering.

val cached_fold : cache_name:string -> temporary:bool -> f:(key -> 'v -> 'b) -> joiner:('b -> 'b -> 'b) -> empty:'b -> 'v map -> 'b
val fold2_join_heterogeneous : cache:Hptmap_sig.cache_type -> empty_left:('b map -> 'c) -> empty_right:('a map -> 'c) -> both:(key -> 'a -> 'b -> 'c) -> join:('c -> 'c -> 'c) -> empty:'c -> 'a map -> 'b map -> 'c

fold2_join_heterogeneous ~cache ~empty_left ~empty_right ~both ~join ~empty m1 m2 iterates simultaneously on m1 and m2. If a subtree t is present in m1 but not in m2 (resp. in m2 but not in m1), empty_right t (resp. empty_left t) is called. If a key k is present in both trees, and bound to v1 and v2 respectively, both k v1 v2 is called. If both trees are empty, empty is returned. The values of type 'b returned by the auxiliary functions are merged using join, which is called in an unspecified order. The results of the function may be cached, depending on cache.

Binary predicates

type predicate_type =
  1. | ExistentialPredicate
  2. | UniversalPredicate

Existential (||) or universal (&&) predicates.

type predicate_result =
  1. | PTrue
  2. | PFalse
  3. | PUnknown

Does the given predicate hold or not. PUnknown indicates that the result is uncertain, and that the more aggressive analysis should be used.

val binary_predicate : Hptmap_sig.cache_type -> predicate_type -> decide_fast:('a map -> 'b map -> predicate_result) -> decide_fst:(key -> 'a -> bool) -> decide_snd:(key -> 'b -> bool) -> decide_both:(key -> 'a -> 'b -> bool) -> 'a map -> 'b map -> bool

binary_predicate decides whether some relation holds between two maps, according to the functions:

  • decide_fst and decide_snd, called on keys present only in the first or second map respectively;
  • decide_both, called on keys present in both trees;
  • decide_fast, called on entire maps as an optimization. As its name implies, it must be fast. If can prevent the analysis of some maps by directly returning PTrue or PFalse when possible. Otherwise, it returns PUnknown and the maps are analyzed by calling the functions above on each binding.

If the predicate is existential, then the function returns true as soon as one of the call to the functions above returns true. If the predicate is universal, the function returns true if all calls to the functions above return true.

The computation of this relation can be cached, according to cache_type.

val symmetric_binary_predicate : Hptmap_sig.cache_type -> predicate_type -> decide_fast:('v map -> 'v map -> predicate_result) -> decide_one:(key -> 'v -> bool) -> decide_both:(key -> 'v -> 'v -> bool) -> 'v map -> 'v map -> bool

Same as binary_predicate, but for a symmetric relation. decide_fst and decide_snd are thus merged into decide_one.

val decide_fast_inclusion : 'v map -> 'v map -> predicate_result

Function suitable for the decide_fast argument of binary_predicate, when testing for inclusion of the first map into the second. If the two arguments are equal, or the first one is empty, the relation holds.

val decide_fast_intersection : 'v map -> 'v map -> predicate_result

Function suitable for the decide_fast argument of symmetric_binary_predicate when testing for a non-empty intersection between two maps. If one map is empty, the intersection is empty. Otherwise, if the two maps are equal, the intersection is non-empty.

Misc

val clear_caches : unit -> unit

Clear all the persistent caches used internally by the functions of this module. Those caches are not project-aware, so this function must be called at least each time a project switch occurs.

include Datatype.S_with_collections with type t = v map
include Datatype.S with type t = v map
include Datatype.S_no_copy with type t = v map
include Datatype.Ty with type t = v map
module Set : Datatype.Set with type elt = t
module Map : Datatype.Map with type key = t
module Hashtbl : Datatype.Hashtbl with type key = t
val self : State.t
val empty : t

the empty map

val singleton : key -> v -> t

singleton k d returns a map whose only binding is from k to d.

val add : key -> v -> t -> t

add k d m returns a map whose bindings are all bindings in m, plus a binding of the key k to the datum d. If a binding already exists for k, it is overridden.

val remove : key -> t -> t

remove k m returns the map m deprived from any binding involving k.

val replace : (v option -> v option) -> key -> t -> t

replace f k m returns a map whose bindings are all bindings in m, except for the key k which is:

  • removed from the map if f o = None
  • bound to v' if f o = Some v' where o is (Some v) if k is bound to v in m, or None if k is not bound in m.

Filters and maps

val filter : (key -> bool) -> t -> t

filter f t keep only the bindings of m whose key verify f.

val map : (v -> v) -> t -> t

map f m returns the map obtained by composing the map m with the function f; that is, the map $k\mapsto f(m(k))$.

val map' : (key -> v -> v option) -> t -> t

Same as map, except if f k v returns None. In this case, k is not bound in the resulting map.

val cached_map : cache:(string * int) -> temporary:bool -> f:(key -> v -> v) -> t -> t
val replace_key : decide:(key -> v -> v -> v) -> key map -> t -> bool * t

replace_key ~decide shape map substitute keys in map according to shape: it returns the map in which all bindings from key to v such that key is bound to key' in shape are replaced by a binding from key' to v. If the new key key' was already bound in the map, or if two keys are replaced by a same key key', the decide function is used to compute the final value bound to key'. The returned boolean indicates whether the map has been modified: it is false if the intersection between shape and map is empty.

Merge of two maps

type empty_action =
  1. | Neutral
  2. | Absorbing
  3. | Traversing of key -> v -> v option
val merge : cache:Hptmap_sig.cache_type -> symmetric:bool -> idempotent:bool -> decide_both:(key -> v -> v -> v option) -> decide_left:empty_action -> decide_right:empty_action -> t -> t -> t

Merge of two trees, parameterized by a merge function. If symmetric holds, the function must verify merge x y = merge y x. If idempotent holds, the function must verify merge x x = x. For each key k present in both trees, and bound to v1 and v2 in the left and the right tree respectively, decide_both k v1 v2 is called. If the decide function returns None, the key will not be in the resulting map; otherwise, the new value computed will be bound to k. The decide_left action is performed to the left subtree t when a right subtree is empty (and conversely for the decide_right action when a left subtree is empty):

  • Neutral returns the subtree t unchanged;
  • Absorbing returns the empty tree;
  • (Traversing f) applies the function f to each binding of the remaining subtree t (see map').

The results of the function may be cached, depending on cache. If a cache is used, then the merge functions must be pure.

val generic_join : cache:Hptmap_sig.cache_type -> symmetric:bool -> idempotent:bool -> decide:(key -> v option -> v option -> v) -> t -> t -> t

Merge of two trees, parameterized by the decide function. If symmetric holds, the function must verify decide key v1 v2 = decide key v2 v1. If idempotent holds, the function must verify decide k (Some x) (Some x) = x.

val inter : cache:Hptmap_sig.cache_type -> symmetric:bool -> idempotent:bool -> decide:(key -> v -> v -> v option) -> t -> t -> t

Intersection of two trees, parameterized by the decide function. If the decide function returns None, the key will not be in the resulting map. Keys present in only one map are similarly unmapped in the result.

val inter_with_shape : 'a map -> t -> t

inter_with_shape s m keeps only the elements of m that are also bound in the map s. No caching is used, but this function is more efficient than successive calls to remove or add to build the resulting map.

val diff_with_shape : 'a map -> t -> t

diff_with_shape s m keeps only the elements of m that are not bound in the map s. No caching is used, but this function is more efficient than successive calls to remove or add to build the resulting map.

val partition_with_shape : 'a map -> t -> t * t

partition_with_shape s m returns two maps inter, diff such that:

  • inter contains the elements of m bound in the shape s;
  • diff contains the elements of m not bound in the shape s.

Misc

val from_shape : (key -> 'a -> v) -> 'a map -> t

Build an entire map from another map indexed by the same keys. More efficient than just performing successive add the elements of the other map

val compositional_bool : t -> bool

Value of the compositional boolean associated to the tree, as computed by the Compositional_bool argument of the functor.

val pretty_debug : Stdlib.Format.formatter -> t -> unit

Verbose pretty printer for debug purposes.

Prefixes and subtree; Undocumented

type subtree
exception Found_prefix of prefix * subtree * subtree
val comp_prefixes : t -> t -> unit
val pretty_prefix : prefix -> Stdlib.Format.formatter -> t -> unit
val find_prefix : t -> prefix -> subtree option
val hash_subtree : subtree -> int
val equal_subtree : subtree -> subtree -> bool
include Lattice with type t := t
include Lattice_type.Bounded_Join_Semi_Lattice with type t := t
include Lattice_type.Join_Semi_Lattice with type t := t

datatype of element of the lattice

include Datatype.S with type t := t
include Datatype.S_no_copy with type t := t
include Datatype.Ty with type t := t
val name : string

Unique name of the datatype.

val descr : t Descr.t

Datatype descriptor.

val packed_descr : Structural_descr.pack

Packed version of the descriptor.

val reprs : t list

List of representants of the descriptor.

val equal : t -> t -> bool

Equality: same spec than Stdlib.(=).

val compare : t -> t -> int

Comparison: same spec than Stdlib.compare.

val hash : t -> int

Hash function: same spec than Hashtbl.hash.

val pretty : Stdlib.Format.formatter -> t -> unit

Pretty print each value in an user-friendly way.

val mem_project : (Project_skeleton.t -> bool) -> t -> bool

mem_project f x must return true iff there is a value p of type Project.t in x such that f p returns true.

val copy : t -> t

Deep copy: no possible sharing between x and copy x.

val join : t -> t -> t

over-approximation of union

val is_included : t -> t -> bool

is first argument included in the second?

val bottom : t

smallest element

include Lattice_type.With_Narrow with type t := t
val narrow : t -> t -> t

over-approximation of intersection

include Lattice_type.With_Under_Approximation with type t := t

under-approximation of union

val meet : t -> t -> t

under-approximation of intersection

include Lattice_type.With_Intersects with type t := t
val intersects : t -> t -> bool

intersects t1 t2 returns true iff the intersection of t1 and t2 is non-empty.

include Lattice_type.With_Diff with type t := t
val diff : t -> t -> t

diff t1 t2 is an over-approximation of t1-t2. t2 must be an under-approximation or exact.

val find_or_bottom : key -> t -> v

find key t returns the value bound to key in t, or Value.bottom if key does not belong to t.

val find_lonely_key : t -> key * v

If t is a singleton map binding k to v, then returns the pair (k,v).

  • raises Not_found

    otherwise.

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