use super::ScalarInt; use rustc_macros::{HashStable, TyDecodable, TyEncodable}; #[derive(Copy, Clone, Debug, Hash, TyEncodable, TyDecodable, Eq, PartialEq, Ord, PartialOrd)] #[derive(HashStable)] /// This datastructure is used to represent the value of constants used in the type system. /// /// We explicitly choose a different datastructure from the way values are processed within /// CTFE, as in the type system equal values (according to their `PartialEq`) must also have /// equal representation (`==` on the rustc data structure, e.g. `ValTree`) and vice versa. /// Since CTFE uses `AllocId` to represent pointers, it often happens that two different /// `AllocId`s point to equal values. So we may end up with different representations for /// two constants whose value is `&42`. Furthermore any kind of struct that has padding will /// have arbitrary values within that padding, even if the values of the struct are the same. /// /// `ValTree` does not have this problem with representation, as it only contains integers or /// lists of (nested) `ValTree`. pub enum ValTree<'tcx> { /// ZSTs, integers, `bool`, `char` are represented as scalars. /// See the `ScalarInt` documentation for how `ScalarInt` guarantees that equal values /// of these types have the same representation. Leaf(ScalarInt), //SliceOrStr(ValSlice<'tcx>), // dont use SliceOrStr for now /// The fields of any kind of aggregate. Structs, tuples and arrays are represented by /// listing their fields' values in order. /// Enums are represented by storing their discriminant as a field, followed by all /// the fields of the variant. Branch(&'tcx [ValTree<'tcx>]), } impl<'tcx> ValTree<'tcx> { pub fn zst() -> Self { Self::Branch(&[]) } #[inline] pub fn unwrap_leaf(self) -> ScalarInt { match self { Self::Leaf(s) => s, _ => bug!("expected leaf, got {:?}", self), } } #[inline] pub fn unwrap_branch(self) -> &'tcx [Self] { match self { Self::Branch(branch) => branch, _ => bug!("expected branch, got {:?}", self), } } }