Crates.io | contracts |
lib.rs | contracts |
version | 0.6.3 |
source | src |
created_at | 2019-04-06 21:59:04.505218 |
updated_at | 2022-03-13 09:42:29.122387 |
description | Design-by-contract attributes |
homepage | |
repository | https://gitlab.com/karroffel/contracts |
max_upload_size | |
id | 126273 |
size | 107,192 |
Annotate functions and methods with "contracts", using invariants, pre-conditions and post-conditions.
Design by contract is a popular method to augment code with formal interface specifications. These specifications are used to increase the correctness of the code by checking them as assertions at runtime.
pub struct Library {
available: HashSet<String>,
lent: HashSet<String>,
}
impl Library {
fn book_exists(&self, book_id: &str) -> bool {
self.available.contains(book_id)
|| self.lent.contains(book_id)
}
#[debug_requires(!self.book_exists(book_id), "Book IDs are unique")]
#[debug_ensures(self.available.contains(book_id), "Book now available")]
#[ensures(self.available.len() == old(self.available.len()) + 1)]
#[ensures(self.lent.len() == old(self.lent.len()), "No lent change")]
pub fn add_book(&mut self, book_id: &str) {
self.available.insert(book_id.to_string());
}
#[debug_requires(self.book_exists(book_id))]
#[ensures(ret -> self.available.len() == old(self.available.len()) - 1)]
#[ensures(ret -> self.lent.len() == old(self.lent.len()) + 1)]
#[debug_ensures(ret -> self.lent.contains(book_id))]
#[debug_ensures(!ret -> self.lent.contains(book_id), "Book already lent")]
pub fn lend(&mut self, book_id: &str) -> bool {
if self.available.contains(book_id) {
self.available.remove(book_id);
self.lent.insert(book_id.to_string());
true
} else {
false
}
}
#[debug_requires(self.lent.contains(book_id), "Can't return a non-lent book")]
#[ensures(self.lent.len() == old(self.lent.len()) - 1)]
#[ensures(self.available.len() == old(self.available.len()) + 1)]
#[debug_ensures(!self.lent.contains(book_id))]
#[debug_ensures(self.available.contains(book_id), "Book available again")]
pub fn return_book(&mut self, book_id: &str) {
self.lent.remove(book_id);
self.available.insert(book_id.to_string());
}
}
This crate exposes the requires
, ensures
and invariant
attributes.
requires
are checked before a function/method is executed.ensures
are checked after a function/method ran to completioninvariant
s are checked both before and after a function/method ran.Additionally, all those attributes have versions with different "modes". See the Modes section below.
For trait
s and trait impl
s the contract_trait
attribute can be used.
More specific information can be found in the crate documentation.
old()
functionOne unique feature that this crate provides is an old()
pseudo-function which
allows to perform checks using a value of a parameter before the function call
happened. This is only available in ensures
attributes.
#[ensures(*x == old(*x) + 1, "after the call `x` was incremented")]
fn incr(x: &mut usize) {
*x += 1;
}
->
operatorFor more complex functions it can be useful to express behaviour using logical implication. Because Rust does not feature an operator for implication, this crate adds this operator for use in attributes.
#[ensures(person_name.is_some() -> ret.contains(person_name.unwrap()))]
fn geeting(person_name: Option<&str>) -> String {
let mut s = String::from("Hello");
if let Some(name) = person_name {
s.push(' ');
s.push_str(name);
}
s.push('!');
s
}
This operator is right-associative.
Note: Because of the design of syn
, it is tricky to add custom operators
to be parsed, so this crate performs a rewrite of the TokenStream
instead.
The rewrite works by separating the expression into a part that's left of the
->
operator and the rest on the right side. This means that
if a -> b { c } else { d }
will not generate the expected code.
Explicit grouping using parenthesis or curly-brackets can be used to avoid this.
All the attributes (requires, ensures, invariant) have debug_*
and test_*
versions.
debug_requires
/debug_ensures
/debug_invariant
use debug_assert!
internally rather than assert!
test_requires
/test_ensures
/test_invariant
guard the assert!
with an
if cfg!(test)
.
This should mostly be used for stating equivalence to "slow but obviously
correct" alternative implementations or checks.
For example, a merge-sort implementation might look like this
#[test_ensures(is_sorted(input))]
fn merge_sort<T: Ord + Copy>(input: &mut [T]) {
// ...
}
To install the latest version, add contracts
to the dependency section of the
Cargo.toml
file.
[dependencies]
contracts = "0.6.3"
To then bring all procedural macros into scope, you can add use contracts::*;
in all files you plan to use the contract attributes.
Alternatively use the "old-style" of importing macros to have them available project-wide.
#[macro_use]
extern crate contracts;
This crate exposes a number of feature flags to configure the assertion behavior.
disable_contracts
- disables all checks and assertions.override_debug
- changes all contracts (except test_
ones) into debug_*
versionsoverride_log
- changes all contracts (except test_
ones) into a
log::error!()
call if the condition is violated.
No abortion happens.mirai_assertions
- instead of regular assert! style macros, emit macros
used by the MIRAI static analyzer. For more documentation of this usage,
head to the MIRAI repo.