Embed C Save
Embed C code at compile time inside Rust using C2Rust
embed-c
embed-c is a crate that allows you to embed C code inside Rust code files. The C code is
translated into Rust code at compile time using C2Rust,
which means that it is fully interoperable with Rust. C code can call Rust code, and vice-versa.
Basic usage
#![feature(rustc_private)]
use embed_c::embed_c;
embed_c! {
int add(int x, int y) {
return x + y;
}
}
fn main() {
let x = unsafe { add(1, 2) };
println!("{}", x);
}
Install
The library is not yet on crates.io. Clone the repository somewhere and set it up:
git clone https://github.com/zdimension/embed-c.git
cd embed-c
git submodule update --init c2rust
cp Cargo.lock ..
cd ..
and add this to your Cargo.toml:
[dependencies]
embed-c = { path = "./embed-c", version = "0.1" }
[patch.crates-io]
c2rust-transpile = { path = "./embed-c/c2rust/c2rust-transpile" }
NOTE: this crate is designed to work for the nightly-2019-12-05 version of Rust,
so put this in your rust-toolchain.toml:
[toolchain]
channel = "nightly-2019-12-05"
And change the package.edition setting in your Cargo.toml to be "2018":
[package]
edition = "2018"
If you get errors about the matches! macro, or from the half or rustc_demangle crates, copy the Cargo.lock
file to your project root again.
Usage details
The example at the top is translated into:
#[no_mangle]
pub unsafe extern "C" fn add(mut x: libc::c_int, mut y: libc::c_int)
-> libc::c_int {
return x + y;
}
fn main() {
let x = unsafe { add(1, 2) };
println!("{}", x);
}
The #![feature(rustc_private)] bit is required since the crate uses internal features while not being loaded
from crates.io.
See more examples in src/lib.rs.
embed_c! {
void send(to, from, count)
register short *to, *from;
register count;
{
register n = (count + 7) / 8;
switch (count % 8) {
case 0: do { *to++ = *from++;
case 7: *to++ = *from++;
case 6: *to++ = *from++;
case 5: *to++ = *from++;
case 4: *to++ = *from++;
case 3: *to++ = *from++;
case 2: *to++ = *from++;
case 1: *to++ = *from++;
} while (--n > 0);
}
}
}
fn main() {
let mut source = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10];
let mut dest = [0; 10];
unsafe { send(dest.as_mut_ptr(), source.as_mut_ptr(), 10); };
assert_eq!(source, dest);
}
Here, the send function becomes:
#[no_mangle]
pub unsafe extern "C" fn send(mut to: *mut libc::c_short,
mut from: *mut libc::c_short,
mut count: libc::c_int) {
let mut n: libc::c_int = (count + 7 as libc::c_int) / 8 as libc::c_int;
let mut current_block_7: u64;
match count % 8 as libc::c_int {
0 => { current_block_7 = 8258075665625361029; }
7 => { current_block_7 = 8412423308551259261; }
6 => { current_block_7 = 15077176690991321518; }
...
1 => { current_block_7 = 14053040055230693409; }
_ => { current_block_7 = 13586036798005543211; }
}
loop {
match current_block_7 {
13586036798005543211 => { return; }
8258075665625361029 => {
let fresh0 = from;
from = from.offset(1);
let fresh1 = to;
to = to.offset(1);
*fresh1 = *fresh0;
current_block_7 = 8412423308551259261;
}
8412423308551259261 => ...
...
_ => {
let fresh14 = from;
from = from.offset(1);
let fresh15 = to;
to = to.offset(1);
*fresh15 = *fresh14;
n -= 1;
if n > 0 as libc::c_int {
current_block_7 = 8258075665625361029;
} else { current_block_7 = 13586036798005543211; }
}
}
};
}
As you can see, the interweaved switch-do construct is transpiled into a very idiomatic Rust function through the use of pattern matching. You may not like it, but this is what peak functional programming looks like.
Limitations
Many
Motivation
N/A
License
This project is licensed under either of
- Apache License, Version 2.0, (LICENSE-APACHE or https://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or https://opensource.org/licenses/MIT) at your option.
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