问题
I was going through the code behind some of the basic types in Rust, e.g. the pleasantly simple implementation of Option<T>
or the weird macro magic behind tuple
and I was able to find all of the types that I wanted in libcore. All except for one - bool
. I couldn't find it anywhere else either.
Where is the code behind bool
in Rust? I know this is not the most novel type out there, but I was surprised I could not find it.
Thanks to the answers by Francis and rodrigo, I noticed that the code I found for other primitives was just their traits and related macros, but not actual implementations.
The Rust book states that the primitives are built-in to the language, but I'm not satisfied with this explanation. When were they built in? Can it be traced to the time when the Rust compiler was first built with Rust or did it happen when it was still built in OCaml? Does any relevant code exist?
回答1:
So here's a bit more information about what goes on in the compiler. For starters, as has already been mentioned, the actual operations that occur with booleans are entirely handled by LLVM, and get directly translated to the corresponding CPU instructions. While there are some cases where code just magically appears due to bootstrapping, this is not one of them. The compiler is specifically written to handle these types and emit the correct LLVM instructions.
For the earliest parts of compilation (e.g. during macro expansion) the type bool
isn't special. It's just some path with the identifier bool
. Eventually around here it will get converted to a primitive type. The actual definition of the type is here.
So now let's look at how the !
operator works. As I mentioned earlier, the code in libcore that does impl Not for bool
never gets used. Code in the form !expr
gets transformed into <T as Not>::not(expr)
here. However, you'll notice that it checks to see if this particular expression is in fact a method call or not, and just leaves it as !expr
if it's not meant to be a method call. How does it know? The call in MIR is just a cache lookup. The cache got populated during the type checking pass. Here is where the cache insertion occurs -- basically checking to see if the Not
trait is implemented for a given type any time it sees a !
. And you'll notice that this line specifically excludes booleans and integral types, which end up compiling down to LLVM instructions directly.
That's the rough picture of how it's defined. You'll find similar code in the same files for other primitives. In theory there could be some line somewhere that was enum bool { true, false }
-- but ultimately this same code would still need to override it and emit the appropriate LLVM intrinsics, and integers couldn't be represented this way.
回答2:
bool is a primitive type. Primitive types and operations on them are implemented by the compiler, i.e. the compiler emits specialized code to perform operations on primitive types.
You'll see that bool
implements many traits. Those implementations come from libcore, but they are often implemented by using the corresponding operator. For example, Not::not is implemented by returning !self. For any non-primitive type, this would invoke Not::not
recursively and cause a stack overflow, but for primitive types, the compiler resolves the operator differently, and those trait implementations are only provided for the benefit of generic code.
回答3:
You can see the definition for core::i32
only because of the constants i32::MIN
and i32::MAX
. The actual type is just an alias for the built-in type i32
.
In the core::f32
case, for example there are a lot of useful constants.
But for bool
, there is no useful values, other than true
and false
that are keywords, so there is no source for bool
.
来源:https://stackoverflow.com/questions/39335747/where-are-rusts-boolean-and-other-primitive-types-implemented