package octez-proto-libs

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Octez protocol libraries

Install

Dune Dependency

www.tezos.com Readme Edit opam file Versions (5)

Authors

T

Tezos devteam

Maintainers

C

contact@tezos.com

Sources

octez-19.0.tar.gz

sha256=c6df840ebbf115e454db949028c595bec558a59a66cade73b52a6d099d6fa4d4

sha512=d8aee903b9fe130d73176bc8ec38b78c9ff65317da3cb4f3415f09af0c625b4384e7498201fdb61aa39086a7d5d409d0ab3423f9bc3ab989a680cf444a79bc13

doc/octez-proto-libs.protocol-environment/Tezos_protocol_environment/V2/Make/Set/index.html

Module `Make.Set`Source

Sets over ordered types.

This module implements the set data structure, given a total ordering function over the set elements. All operations over sets are purely applicative (no side-effects). The implementation uses balanced binary trees, and is therefore reasonably efficient: insertion and membership take time logarithmic in the size of the set, for instance.

The Make functor constructs implementations for any type, given a compare function. For instance:

  module IntPairs =
    struct
      type t = int * int
      let compare (x0,y0) (x1,y1) =
        match Stdlib.compare x0 x1 with
            0 -> Stdlib.compare y0 y1
          | c -> c
    end

  module PairsSet = Set.Make(IntPairs)

  let m = PairsSet.(empty |> add (2,3) |> add (5,7) |> add (11,13))

This creates a new module PairsSet, with a new type PairsSet.t of sets of int * int.

Sourcemodule type OrderedType = sig ... end

Input signature of the functor Set.Make.

Sourcemodule Make (Ord : OrderedType) : S.SET with type elt = Ord.t

Functor building an implementation of the set structure given a totally ordered type.