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0.1.0 | Aug 26, 2020 |
#137 in #function
12KB
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Constany is a rust macro to allow constant result for any function.
Constant functions in rust is a group of function with its result will be evaluated during compile time. It can significantly reduce generated binary size and improve performance. However, due to technical and logical limitations, some expression cannot be evaluated as constant function. For example:
fn main() {
println!("{}", add_one_to_six());
}
const fn add_one_to_six() -> String {
let mut a = 1;
for b in 1..7 { // error[E0744]: `for` is not allowed in a `const fn`
a += b;
}
return a.to_string();
}
Constany use a workaround for this: by using Constany, the function and the main function will be compiled twice. The value of the function will be evaluated at the first time, and the value will be wrapped into a constant function at the second time.
Cargo.toml:
[features]
stage_one = ["constany_stage_one"]
stage_two = ["constany_stage_two"]
[dependencies]
constany_stage_one = {version = "0.1", optional = true}
constany_stage_two = {version = "0.1", optional = true}
constany_blank = {version = "1"}
main.rs:
#[cfg(any(
not(any(feature = "stage_one", feature = "stage_two")),
all(feature = "stage_two", feature = "stage_one")
))]
use constany_blank as constany; // This line is for grammar checkers that enable all feature / disable all feature. If you do not have a checker, you can delete those lines safely.
#[cfg(all(feature = "stage_one", not(feature = "stage_two")))]
use constany_stage_one as constany;
#[cfg(all(feature = "stage_two", not(feature = "stage_one")))]
use constany_stage_two as constany;
#[constany::main_fn("function_evaled_at_compile_time")]
fn main() {
println!("Hello, world!");
function_evaled_at_compile_time();
}
#[constany::const_fn]
fn function_evaled_at_compile_time() -> i32 {
let mut a = 1;
let b = 5;
for _ in 0..b {
a += 1; // For loop is not allowed in `const fn`
}
a
}
When you need to build the function, do this:
$ cargo run --featues stage_one
$ cargo build --features stage_two // If you want to run the command instead, use `cargo run`
And your function will be interpreted as constant function.
Multiple constant function
Having multiple constant functions are also applicable, you just need to make sure every function you want to make constant are labeled with const_fn
and the function name is inside main_fn
:
#[cfg(any(
not(any(feature = "stage_one", feature = "stage_two")),
all(feature = "stage_two", feature = "stage_one")
))]
use constany_blank as constany;
#[cfg(all(feature = "stage_one", not(feature = "stage_two")))]
use constany_stage_one as constany;
#[cfg(all(feature = "stage_two", not(feature = "stage_one")))]
use constany_stage_two as constany;
#[constany::main_fn("function_evaled_at_compile_time", "function_evaled_at_compile_time")]
fn main() {
println!("Hello, world!");
function_evaled_at_compile_time();
function_evaled_at_compile_time_2();
}
#[constany::const_fn]
fn function_evaled_at_compile_time() -> i32 {
let mut a = 1;
let b = 5;
for _ in 0..b {
a += 1;
}
a
}
#[constany::const_fn]
fn function_evaled_at_compile_time_2() -> i32 {
let mut a = 1;
let b = 100;
for _ in 0..b {
a += 1;
}
a
}
Function with non-primitive result
Returning a non-primitive result (probably struct
or enum
) is troublesome and prone to error. The most elegant way is to use lazy_static
for stage one and default to avoid compiler warning, and use constant value function for stage two:
#[cfg(feature = "stage_two")]
const ABC: String = constant_function().to_string();
#[cfg(not(feature = "stage_two"))]
lazy_static::lazy_static! {
const ref ABC: String = constant_function().to_string();
}
However, this will not work for most of the non-primitive type because their constructor is usually not static
.
There are two workaround for this: the debug + pub
solution and memop
solution.
The debug + pub
solution first use debug
trait to print the structure, and use the pub
trait to rebuild it.
This solution can recreate the structure without unsafe
code. However, this require the structure to derive Debug
.
Current implementation also require the structure to not have paths
, such as std::string::String
(if there are ::
in the identifier, it's likely that this solution will not work out).
The memop
solution transmute the memory directly.
This solution can rebuild any structure, but please note that this method is unsafe
and very dangerous.
The generated function will be fn
instead of const_fn
because memory allocation is not allowed in const
, although the memory itself is hard-coded inside the function.
Dependencies
~1.5MB
~37K SLoC