sesstype

Crates.iosesstype
lib.rssesstype
version0.2.4
sourcesrc
created_at2017-12-05 16:17:31.872052
updated_at2017-12-18 16:41:05.684928
descriptionAn implementation of Multiparty Session Types
homepage
repositoryhttps://github.com/nickng/sesstype.rs
max_upload_size
id41834
size82,337
Nicholas Ng (nickng)

documentation

README

sesstype

Build Status Crates.io Version

This is an implementation of Multiparty Session Types in Rust. The sesstype crate contains core data structures and utility functions to model and manipulate a multiparty session type language.

Build

The best way to build this library is by Rust's cargo package manager.

$ cargo build

Usage

See the documentation for details usage.

$ cargo doc --open

Quickstart

Given the following source code (with the correct dependencies):

extern crate sesstype;

fn main() {
    let alice = sesstype::Role::new("Alice"); // Alice role
    let bob = sesstype::Role::new("Bob"); // Bob role

    // Creates an interaction between alice and bob (without message/continuation)
    let g0 = sesstype::global::Type::interaction(&alice, &bob);
    let global_type = sesstype::global::Type::add_message(
        g0,
        sesstype::Message::new("lab"), // Message (with "lab" as label)
        sesstype::global::Type::end(), // Continuation
    );

    let local_type = sesstype::project(&global_type, &bob);
    match local_type {
        Some(l) => {
            println!("Global type G: {}", global_type.to_string());
            println!("Local Type G@Bob: {}", l.to_string());
        }
        None => println!("Cannot project: {}", global_type.to_string()),
    }
}

Should give the following output:

$ cargo run
Global type G: Alice → Bob:lab().end
Local Type G@Bob: Bob?lab().end

Parsing

Alternative way of using the library is through a simple type language with the grammar:

Common

ident   = [A-Za-z][A-Za-z0-9]*
role    = ident
message = ident payload
payload = "()"
        | "(" ident ")"

Global Types

global   = role "->" role ":" interact
         | recur
         | typevar
         | end
interact = sendrecv | "{" sendrecv ("," sendrecv)+ "}"
sendrecv = message "." global
recur    = "*" ident "." global
typevar  = ident
end      = "end"

Local Types

local    = role "&" branch
         | role "+" select
         | lrecur
         | ltypevar
         | end
branch   = recv | "{" recv ("," recv)+ "}"
recv     = "?" message "." local
select   = send | "{" send ("," send)+ "}"
send     = "!" message "." local
lrecur   = "*" ident "." local
ltypevar = ident
lend     = "end"

Parsing example:

This program parses an input string, then re-parses the output global type:

extern crate sesstype;

let input = String::from("*T . A -> B: { l().T, l2(int).end }");
let (global, _registry) = sesstype::parser::parse_global_type(input.clone()).unwrap();
let parsed = global.to_string();
let (reparsed, registry) = sesstype::parser::parse_global_type(parsed.clone()).unwrap();
print!(
    "Input:\n\t{}\nParsed:\n\t{}\nRe-parsed:\n\t{}\n",
    input,
    parsed,
    reparsed.to_string()
);

// Project for A
let role_a = registry.find_role_str("A").unwrap();
let local = sesstype::project(&reparsed, &role_a).unwrap();
print!(
    "Projected (for A):\n\t{}\n",
    local.to_string()
);

This is one of the expected output (because branches order in interactions are non-deterministic):

Input:
	*T . A -> B: { l().T, l2(int).end }
Parsed:
	μT.A → B:{ l().T, l2(int).end }
Re-parsed:
	μT.A → B:{ l().T, l2(int).end }
Projected (for A):
	μT.A⊕{ !l().T, !l2(int).end }

License

sesstype is licensed under the Apache License.

Commit count: 31

cargo fmt