package octez-proto-libs

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include Tezos_context_sigs.Context.VIEW with type t := tree and type tree := tree with type key := key with type value := value

Getters

val mem : tree -> key -> bool Lwt.t

mem t k is an Lwt promise that resolves to true iff k is bound to a value in t.

val mem_tree : tree -> key -> bool Lwt.t

mem_tree t k is like mem but for trees.

val find : tree -> key -> value option Lwt.t

find t k is an Lwt promise that resolves to Some v if k is bound to the value v in t and None otherwise.

val find_tree : tree -> key -> tree option Lwt.t

find_tree t k is like find but for trees.

val list : tree -> ?offset:int -> ?length:int -> key -> (string * tree) list Lwt.t

list t key is the list of files and sub-nodes stored under k in t. The result order is not specified but is stable.

offset and length are used for pagination.

val length : tree -> key -> int Lwt.t

length t key is an Lwt promise that resolves to the number of files and sub-nodes stored under k in t.

It is equivalent to let+ l = list t k in List.length l but has a constant-time complexity.

Setters

val add : tree -> key -> value -> tree Lwt.t

add t k v is an Lwt promise that resolves to c such that:

  • k is bound to v in c;
  • and c is similar to t otherwise.

If k was already bound in t to a value that is physically equal to v, the result of the function is a promise that resolves to t. Otherwise, the previous binding of k in t disappears.

val add_tree : tree -> key -> tree -> tree Lwt.t

add_tree is like add but for trees.

val remove : tree -> key -> tree Lwt.t

remove t k v is an Lwt promise that resolves to c such that:

  • k is unbound in c;
  • and c is similar to t otherwise.

Folding

val fold : ?depth:Tezos_context_sigs.Context.depth -> tree -> key -> order:[ `Sorted | `Undefined ] -> init:'a -> f:(key -> tree -> 'a -> 'a Lwt.t) -> 'a Lwt.t

fold ?depth t root ~order ~init ~f recursively folds over the trees and values of t. The f callbacks are called with a key relative to root. f is never called with an empty key for values; i.e., folding over a value is a no-op.

The depth is 0-indexed. If depth is set (by default it is not), then f is only called when the conditions described by the parameter is true:

  • Eq d folds over nodes and values of depth exactly d.
  • Lt d folds over nodes and values of depth strictly less than d.
  • Le d folds over nodes and values of depth less than or equal to d.
  • Gt d folds over nodes and values of depth strictly more than d.
  • Ge d folds over nodes and values of depth more than or equal to d.

If order is `Sorted (the default), the elements are traversed in lexicographic order of their keys. For large nodes, it is memory-consuming, use `Undefined for a more memory efficient fold.

Configuration

config t is t's hash configuration.

val empty : t -> tree

empty _ is the empty tree.

val is_empty : tree -> bool

is_empty t is true iff t is empty _.

kind t is t's kind. It's either a tree node or a leaf value.

val to_value : tree -> value option Lwt.t

to_value t is an Lwt promise that resolves to Some v if t is a leaf tree and None otherwise. It is equivalent to find t [].

val of_value : t -> value -> tree Lwt.t

of_value _ v is an Lwt promise that resolves to the leaf tree v. Is is equivalent to add (empty _) [] v.

hash t is t's Merkle hash.

val equal : tree -> tree -> bool

equal x y is true iff x and y have the same Merkle hash.

Caches

val clear : ?depth:int -> tree -> unit

clear ?depth t clears all caches in the tree t for subtrees with a depth higher than depth. If depth is not set, all of the subtrees are cleared.

val pp : Format.formatter -> tree -> unit
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