rust/compiler/rustc_smir/src/stable_mir/fold.rs

use std::ops::ControlFlow;

use crate::rustc_internal::Opaque;

use super::ty::{
    Allocation, Binder, Const, ConstDef, ExistentialPredicate, FnSig, GenericArgKind, GenericArgs,
    Promoted, RigidTy, TermKind, Ty, UnevaluatedConst,
};

pub trait Folder: Sized {
    type Break;
    fn visit_ty(&mut self, ty: &Ty) -> ControlFlow<Self::Break, Ty> {
        ty.super_fold(self)
    }
    fn fold_const(&mut self, c: &Const) -> ControlFlow<Self::Break, Const> {
        c.super_fold(self)
    }
}

pub trait Foldable: Sized + Clone {
    fn fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        self.super_fold(folder)
    }
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self>;
}

impl Foldable for Ty {
    fn fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        folder.visit_ty(self)
    }
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        let mut kind = self.kind();
        match &mut kind {
            super::ty::TyKind::RigidTy(ty) => *ty = ty.fold(folder)?,
            super::ty::TyKind::Alias(_, alias) => alias.args = alias.args.fold(folder)?,
            super::ty::TyKind::Param(_) => {}
            super::ty::TyKind::Bound(_, _) => {}
        }
        ControlFlow::Continue(kind.into())
    }
}

impl Foldable for Const {
    fn fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        folder.fold_const(self)
    }
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        let mut this = self.clone();
        match &mut this.literal {
            super::ty::ConstantKind::Allocated(alloc) => *alloc = alloc.fold(folder)?,
            super::ty::ConstantKind::Unevaluated(uv) => *uv = uv.fold(folder)?,
            super::ty::ConstantKind::ParamCt(param) => *param = param.fold(folder)?,
        }
        this.ty = this.ty.fold(folder)?;
        ControlFlow::Continue(this)
    }
}

impl Foldable for Opaque {
    fn super_fold<V: Folder>(&self, _folder: &mut V) -> ControlFlow<V::Break, Self> {
        ControlFlow::Continue(self.clone())
    }
}

impl Foldable for Allocation {
    fn super_fold<V: Folder>(&self, _folder: &mut V) -> ControlFlow<V::Break, Self> {
        ControlFlow::Continue(self.clone())
    }
}

impl Foldable for UnevaluatedConst {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        let UnevaluatedConst { def, args, promoted } = self;
        ControlFlow::Continue(UnevaluatedConst {
            def: def.fold(folder)?,
            args: args.fold(folder)?,
            promoted: promoted.fold(folder)?,
        })
    }
}

impl Foldable for ConstDef {
    fn super_fold<V: Folder>(&self, _folder: &mut V) -> ControlFlow<V::Break, Self> {
        ControlFlow::Continue(self.clone())
    }
}

impl<T: Foldable> Foldable for Option<T> {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        ControlFlow::Continue(match self {
            Some(val) => Some(val.fold(folder)?),
            None => None,
        })
    }
}

impl Foldable for Promoted {
    fn super_fold<V: Folder>(&self, _folder: &mut V) -> ControlFlow<V::Break, Self> {
        ControlFlow::Continue(self.clone())
    }
}

impl Foldable for GenericArgs {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        ControlFlow::Continue(GenericArgs(self.0.fold(folder)?))
    }
}

impl Foldable for GenericArgKind {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        let mut this = self.clone();
        match &mut this {
            GenericArgKind::Lifetime(lt) => *lt = lt.fold(folder)?,
            GenericArgKind::Type(t) => *t = t.fold(folder)?,
            GenericArgKind::Const(c) => *c = c.fold(folder)?,
        }
        ControlFlow::Continue(this)
    }
}

impl Foldable for RigidTy {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        let mut this = self.clone();
        match &mut this {
            RigidTy::Bool
            | RigidTy::Char
            | RigidTy::Int(_)
            | RigidTy::Uint(_)
            | RigidTy::Float(_)
            | RigidTy::Never
            | RigidTy::Foreign(_)
            | RigidTy::Str => {}
            RigidTy::Array(t, c) => {
                *t = t.fold(folder)?;
                *c = c.fold(folder)?;
            }
            RigidTy::Slice(inner) => *inner = inner.fold(folder)?,
            RigidTy::RawPtr(ty, _) => *ty = ty.fold(folder)?,
            RigidTy::Ref(_, ty, _) => *ty = ty.fold(folder)?,
            RigidTy::FnDef(_, args) => *args = args.fold(folder)?,
            RigidTy::FnPtr(sig) => *sig = sig.fold(folder)?,
            RigidTy::Closure(_, args) => *args = args.fold(folder)?,
            RigidTy::Generator(_, args, _) => *args = args.fold(folder)?,
            RigidTy::Dynamic(pred, r, _) => {
                *pred = pred.fold(folder)?;
                *r = r.fold(folder)?;
            }
            RigidTy::Tuple(fields) => *fields = fields.fold(folder)?,
            RigidTy::Adt(_, args) => *args = args.fold(folder)?,
        }
        ControlFlow::Continue(this)
    }
}

impl<T: Foldable> Foldable for Vec<T> {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        let mut this = self.clone();
        for arg in &mut this {
            *arg = arg.fold(folder)?;
        }
        ControlFlow::Continue(this)
    }
}

impl<T: Foldable> Foldable for Binder<T> {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        ControlFlow::Continue(Self {
            value: self.value.fold(folder)?,
            bound_vars: self.bound_vars.clone(),
        })
    }
}

impl Foldable for ExistentialPredicate {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        let mut this = self.clone();
        match &mut this {
            ExistentialPredicate::Trait(tr) => tr.generic_args = tr.generic_args.fold(folder)?,
            ExistentialPredicate::Projection(p) => {
                p.term = p.term.fold(folder)?;
                p.generic_args = p.generic_args.fold(folder)?;
            }
            ExistentialPredicate::AutoTrait(_) => {}
        }
        ControlFlow::Continue(this)
    }
}

impl Foldable for TermKind {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        ControlFlow::Continue(match self {
            TermKind::Type(t) => TermKind::Type(t.fold(folder)?),
            TermKind::Const(c) => TermKind::Const(c.fold(folder)?),
        })
    }
}

impl Foldable for FnSig {
    fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {
        ControlFlow::Continue(Self {
            inputs_and_output: self.inputs_and_output.fold(folder)?,
            c_variadic: self.c_variadic,
            unsafety: self.unsafety,
            abi: self.abi.clone(),
        })
    }
}
Add type folder to SMIR 2023-09-04 14:31:14 +00:00			`use std::ops::ControlFlow;`

			`use crate::rustc_internal::Opaque;`

			`use super::ty::{`
			`Allocation, Binder, Const, ConstDef, ExistentialPredicate, FnSig, GenericArgKind, GenericArgs,`
			`Promoted, RigidTy, TermKind, Ty, UnevaluatedConst,`
			`};`

			`pub trait Folder: Sized {`
			`type Break;`
			`fn visit_ty(&mut self, ty: &Ty) -> ControlFlow<Self::Break, Ty> {`
			`ty.super_fold(self)`
			`}`
			`fn fold_const(&mut self, c: &Const) -> ControlFlow<Self::Break, Const> {`
			`c.super_fold(self)`
			`}`
			`}`

			`pub trait Foldable: Sized + Clone {`
			`fn fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`self.super_fold(folder)`
			`}`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self>;`
			`}`

			`impl Foldable for Ty {`
			`fn fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`folder.visit_ty(self)`
			`}`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`let mut kind = self.kind();`
			`match &mut kind {`
			`super::ty::TyKind::RigidTy(ty) => *ty = ty.fold(folder)?,`
			`super::ty::TyKind::Alias(_, alias) => alias.args = alias.args.fold(folder)?,`
			`super::ty::TyKind::Param(_) => {}`
			`super::ty::TyKind::Bound(_, _) => {}`
			`}`
			`ControlFlow::Continue(kind.into())`
			`}`
			`}`

			`impl Foldable for Const {`
			`fn fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`folder.fold_const(self)`
			`}`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`let mut this = self.clone();`
			`match &mut this.literal {`
			`super::ty::ConstantKind::Allocated(alloc) => *alloc = alloc.fold(folder)?,`
			`super::ty::ConstantKind::Unevaluated(uv) => *uv = uv.fold(folder)?,`
			`super::ty::ConstantKind::ParamCt(param) => *param = param.fold(folder)?,`
			`}`
Add types to all constants 2023-09-04 15:07:17 +00:00			`this.ty = this.ty.fold(folder)?;`
Add type folder to SMIR 2023-09-04 14:31:14 +00:00			`ControlFlow::Continue(this)`
			`}`
			`}`

			`impl Foldable for Opaque {`
			`fn super_fold<V: Folder>(&self, _folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`ControlFlow::Continue(self.clone())`
			`}`
			`}`

			`impl Foldable for Allocation {`
			`fn super_fold<V: Folder>(&self, _folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`ControlFlow::Continue(self.clone())`
			`}`
			`}`

			`impl Foldable for UnevaluatedConst {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
Add types to all constants 2023-09-04 15:07:17 +00:00			`let UnevaluatedConst { def, args, promoted } = self;`
Add type folder to SMIR 2023-09-04 14:31:14 +00:00			`ControlFlow::Continue(UnevaluatedConst {`
			`def: def.fold(folder)?,`
			`args: args.fold(folder)?,`
			`promoted: promoted.fold(folder)?,`
			`})`
			`}`
			`}`

			`impl Foldable for ConstDef {`
			`fn super_fold<V: Folder>(&self, _folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`ControlFlow::Continue(self.clone())`
			`}`
			`}`

			`impl<T: Foldable> Foldable for Option<T> {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`ControlFlow::Continue(match self {`
			`Some(val) => Some(val.fold(folder)?),`
			`None => None,`
			`})`
			`}`
			`}`

			`impl Foldable for Promoted {`
			`fn super_fold<V: Folder>(&self, _folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`ControlFlow::Continue(self.clone())`
			`}`
			`}`

			`impl Foldable for GenericArgs {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`ControlFlow::Continue(GenericArgs(self.0.fold(folder)?))`
			`}`
			`}`

			`impl Foldable for GenericArgKind {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`let mut this = self.clone();`
			`match &mut this {`
			`GenericArgKind::Lifetime(lt) => *lt = lt.fold(folder)?,`
			`GenericArgKind::Type(t) => *t = t.fold(folder)?,`
			`GenericArgKind::Const(c) => *c = c.fold(folder)?,`
			`}`
			`ControlFlow::Continue(this)`
			`}`
			`}`

			`impl Foldable for RigidTy {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`let mut this = self.clone();`
			`match &mut this {`
			`RigidTy::Bool`
			`\| RigidTy::Char`
			`\| RigidTy::Int(_)`
			`\| RigidTy::Uint(_)`
			`\| RigidTy::Float(_)`
			`\| RigidTy::Never`
			`\| RigidTy::Foreign(_)`
			`\| RigidTy::Str => {}`
			`RigidTy::Array(t, c) => {`
			`*t = t.fold(folder)?;`
			`*c = c.fold(folder)?;`
			`}`
			`RigidTy::Slice(inner) => *inner = inner.fold(folder)?,`
			`RigidTy::RawPtr(ty, _) => *ty = ty.fold(folder)?,`
			`RigidTy::Ref(_, ty, _) => *ty = ty.fold(folder)?,`
			`RigidTy::FnDef(_, args) => *args = args.fold(folder)?,`
			`RigidTy::FnPtr(sig) => *sig = sig.fold(folder)?,`
			`RigidTy::Closure(_, args) => *args = args.fold(folder)?,`
			`RigidTy::Generator(_, args, _) => *args = args.fold(folder)?,`
			`RigidTy::Dynamic(pred, r, _) => {`
			`*pred = pred.fold(folder)?;`
			`*r = r.fold(folder)?;`
			`}`
			`RigidTy::Tuple(fields) => *fields = fields.fold(folder)?,`
			`RigidTy::Adt(_, args) => *args = args.fold(folder)?,`
			`}`
			`ControlFlow::Continue(this)`
			`}`
			`}`

			`impl<T: Foldable> Foldable for Vec<T> {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`let mut this = self.clone();`
			`for arg in &mut this {`
			`*arg = arg.fold(folder)?;`
			`}`
			`ControlFlow::Continue(this)`
			`}`
			`}`

			`impl<T: Foldable> Foldable for Binder<T> {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`ControlFlow::Continue(Self {`
			`value: self.value.fold(folder)?,`
			`bound_vars: self.bound_vars.clone(),`
			`})`
			`}`
			`}`

			`impl Foldable for ExistentialPredicate {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`let mut this = self.clone();`
			`match &mut this {`
			`ExistentialPredicate::Trait(tr) => tr.generic_args = tr.generic_args.fold(folder)?,`
			`ExistentialPredicate::Projection(p) => {`
			`p.term = p.term.fold(folder)?;`
			`p.generic_args = p.generic_args.fold(folder)?;`
			`}`
			`ExistentialPredicate::AutoTrait(_) => {}`
			`}`
			`ControlFlow::Continue(this)`
			`}`
			`}`

			`impl Foldable for TermKind {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`ControlFlow::Continue(match self {`
			`TermKind::Type(t) => TermKind::Type(t.fold(folder)?),`
			`TermKind::Const(c) => TermKind::Const(c.fold(folder)?),`
			`})`
			`}`
			`}`

			`impl Foldable for FnSig {`
			`fn super_fold<V: Folder>(&self, folder: &mut V) -> ControlFlow<V::Break, Self> {`
			`ControlFlow::Continue(Self {`
			`inputs_and_output: self.inputs_and_output.fold(folder)?,`
			`c_variadic: self.c_variadic,`
			`unsafety: self.unsafety,`
			`abi: self.abi.clone(),`
			`})`
			`}`
			`}`