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D-inspired contract programming in Rust using macros

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ErichDonGubler/adhesion-rs

Adhesion

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A set of macros for design by contract in Rust. The design of this library was inspired by D's contract programming facilities. Here's a quick example:

use std::i32;

contract! {
    fn add_one_to_odd(x: i32) -> i32 {
        post(y) {
            assert!(y - 1 == x, "reverse operation did not produce input");
        }
        body {
            x + 1
        }
        pre {
            assert!(x != i32::MAX, "cannot add one to input at max of number range");
            assert!(x % 2 != 0, "evens ain't appropriate here");
        }
    }
}

assert!(add_one_to_odd(3) == 4);
assert!(add_one_to_odd(5) == 6);
assert_that!(add_one_to_odd(2), panics);
assert_that!(add_one_to_odd(i32::MAX), panics);

In the above example, pre runs before body, and post, which has the return value of this function bound to y, runs after. We can also define checks with the double_check block, which will be checked before and after body has run:

struct Counter {
    count: u32,
    max: u32
}

contract! {
    fn increment_counter(c: &mut Counter) {
        double_check {
            assert!(c.count <= c.max, "counter max has been exceeded");
        }
        body {
            c.count += 1;
        }
    }
}

let mut counter = Counter { count: 0, max: 3 };

macro_rules! assert_incremented_eq {
    ($e: expr) => ({
        increment_counter(&mut counter);
        assert!(counter.count == $e, format!("expected counter to be {}, got {}", $e, counter.count));
    })
}

assert_incremented_eq!(1);
assert_incremented_eq!(2);
assert_incremented_eq!(3);
assert_incremented_eq!(4); // panics!

Actually, the above example can use a top-level double_check block inside of an impl block instead, so that invariants can be maintained for each method without needing to duplicate code:

struct Counter {
    count: u32,
    max: u32
}

impl Counter {
    contract! {
        double_check {
            assert!(self.count <= self.max, "counter max has been exceeded");
        }

        fn increment(&mut self) {
            body {
                self.count.checked_add();
            }
        }
    }

}

let mut counter = Counter { count: 0, max: 3 };

macro_rules! assert_incremented_eq {
    ($e: expr) => ({
        counter.increment();
        assert!(counter.count == $e, format!("expected counter to be {}, got {}", $e, counter.count));
    })
}

assert_incremented_eq!(1);
assert_incremented_eq!(2);
assert_incremented_eq!(3);
assert_incremented_eq!(4); // panics!

Nifty, right? Check out the docs if you want more detail about this crate and what you can do with it.

FAQ

Why "Adhesion"?

This library is called "Adhesion" in reference to a particular type of contract called a "contract of adhesion", also known as a "take-it-or-leave-it" contract. Assertions in programming are definitely "take it or leave it" -- if an assertion is failing, you either have to fix the conditions of the assertion, or change the assertion itself. It sounded appropriate!

Why has D's invariant been renamed to double_check?

After the v0.2.0 release, @eternaleye pointed out in this Reddit thread that technically an "invariant" connotes a strong guarantee that must be rigorously maintained between ALL operations in code. This sort of guarantee is NOT provided by the behavior D's invariant block, as demonstrated by the link that @eternaleye provided.

Semantics are important, especially in systems that attempt to introduce more rigor to software development like design by contract. For this reason, the combined pre- and post-check block that D calls invariant is called double_check in this library.

Licensing

This project is dual-licensed under your choice of the MIT license or the Apache 2.0 license.

  • Adhesion uses a modified version of components from the rust-parse-generics project. Both the original and modified versions here use the same dual license as this project.

Contributors

  • @ErichDonGubler, original author
  • @dzamlo, for providing assistance with various important features.
  • @DanielKeep, for his incredible help making it possible for generics to be parsed and used in macros generally, and for his mentoring during Adhesion's development of its features involving generics.
  • @eternaleye, for bringing some security expertise to bear and motivating the double_check divergence from D's invariant.