Crates.io | hoare |
lib.rs | hoare |
version | 0.1.1 |
source | src |
created_at | 2014-11-16 20:17:35.693362 |
updated_at | 2015-12-12 23:55:19.918092 |
description | Design by contract style assertions for Rust |
homepage | |
repository | https://github.com/nick29581/libhoare |
max_upload_size | |
id | 114 |
size | 37,659 |
Simple Rust support for design by contract-style assertions. Supports
precond
),postcond
),invariant
).Each macro takes a predicate given as a string parameter. Each macro is
available in a debug_
version which only checks the assertion in debug builds,
they should be zero overhead in non-debug builds. You can use result
inside a
postcondition to get the value returned by the function.
Preconditions are checked on entry to a function. Postcondiitons are checked when leaving the function by any path.
(The library is named for Tony, not Graydon. Or rather it is named for the logic which was named after Tony).
Theoretically you can use libhoare with Cargo by adding
[dependencies.hoare]
git = "https://github.com/nick29581/libhoare.git"
to your projects Cargo manifest. I haven't actually managed to get Cargo to work, so I haven't tested this.
Otherwise, download this repo, build it (see build instructions below), make
sure the path to the compiled libhoare is on your library path in some way (one
way of doing this is to export LD_LIBRARY_PATH=/path/to/libhoare/obj
before
building).
Then (whether or not you used Cargo), in your crate you will need the following boilerplate:
#![feature(phase)]
#[phase(plugin)]
extern crate hoare;
Then you can use the macros as shown below.
#[precond="x > 0"]
#[postcond="result > 1"]
fn foo(x: int) -> int {
let y = 45 / x;
y + 1
}
struct Bar {
f1: int,
f2: int
}
#[invariant="x.f1 < x.f2"]
fn baz(x: &mut Bar) {
x.f1 += 10;
x.f2 += 10;
}
fn main() {
foo(12);
foo(26);
// task '<main>' failed at 'precondition of foo (x > 0)'
// foo(-3);
let mut b = Bar { f1: 0, f2: 10 };
baz(&mut b);
b.f2 = 100;
baz(&mut b);
b.f2 = -5;
// task '<main>' failed at 'invariant entering baz (x.f1 < x.f2)'
// baz(&mut b);
}
All the code for checking conditions is in libhoare
. Currently, there is only
a single file, lib.rs
.
The test
directory contains unit tests for the library.
The eg
directory contains a few examples of how to use the library:
hello.rs is a very simple (hello world!) example of how to use an invariant (useful as a basic test case);
doc.rs contains the examples above, so we can check they compiler and run;
lexer.rs is a more realistic example of use - a simple (and certainly not industrial-strength) lexer for a very small language.
To build libhoare from the top level of your checked out repo run
$RUSTC ./libhoare/lib.rs
This will create libhoare.rs in the current directory, you might want to specify
an output file using -o
.
To build the examples run eg.sh
in the top level and to run the tests run tests.sh
.
Both of these assume that you have a sibling directory called obj
and that you
used
$RUSTC ./libhoare/lib.rs -o "../obj/libhoare.so"
to build libhoare. Examples are created in ../obj
<precondition>
rather than <quote expansion>
, etc.
These appear in the user-visible error messages, so it would be nice if they could
be informative).Wish list:
[#invariant="..."]
to a struct, enum, etc. and the
invariant would be checked on entering and leaving every method defined in any
impl for the object).