% Conditional Compilation
Rust has a special attribute, #[cfg], which allows you to compile code based on a flag passed to the compiler. It has two forms:
#[cfg(foo)] # fn foo() {} #[cfg(bar = "baz")] # fn bar() {}
They also have some helpers:
#[cfg(any(unix, windows))] # fn foo() {} #[cfg(all(unix, target_pointer_width = "32"))] # fn bar() {} #[cfg(not(foo))] # fn not_foo() {}
These can nest arbitrarily:
#[cfg(any(not(unix), all(target_os="macos", target_arch = "powerpc")))] # fn foo() {}
As for how to enable or disable these switches, if you’re using Cargo, they get set in the [features] section of your Cargo.toml:
[features] # no features by default default = [] # Add feature "foo" here, then you can use it. # Our "foo" feature depends on nothing else. foo = []
When you do this, Cargo passes along a flag to rustc:
--cfg feature="${feature_name}"
The sum of these cfg flags will determine which ones get activated, and therefore, which code gets compiled. Let’s take this code:
#[cfg(feature = "foo")] mod foo { }
If we compile it with cargo build --features "foo", it will send the --cfg feature="foo" flag to rustc, and the output will have the mod foo in it. If we compile it with a regular cargo build, no extra flags get passed on, and so, no foo module will exist.
You can also set another attribute based on a cfg variable with cfg_attr:
#[cfg_attr(a, b)] # fn foo() {}
Will be the same as #[b] if a is set by cfg attribute, and nothing otherwise.
The cfg! syntax extension lets you use these kinds of flags elsewhere in your code, too:
if cfg!(target_os = "macos") || cfg!(target_os = "ios") { println!("Think Different!"); }
These will be replaced by a true or false at compile-time, depending on the configuration settings.