Auto merge of #78179 - RalfJung:miri-comments, r=oli-obk

Miri engine: entirely skip interning of ZST, and improve some comments r? `@oli-obk`
2024-11-22 06:44:35 +00:00 · 2020-10-25 20:15:44 +00:00 · 2020-10-25 20:15:44 +00:00 · 4760b8fb88
commit 4760b8fb88
parent 0dce3f606e fcaf2338da
2 changed files with 25 additions and 23 deletions
--- a/compiler/rustc_mir/src/interpret/intern.rs
+++ b/compiler/rustc_mir/src/interpret/intern.rs
@ -33,8 +33,9 @@ struct InternVisitor<'rt, 'mir, 'tcx, M: CompileTimeMachine<'mir, 'tcx>> {
    /// A list of all encountered allocations. After type-based interning, we traverse this list to
    /// also intern allocations that are only referenced by a raw pointer or inside a union.
    leftover_allocations: &'rt mut FxHashSet<AllocId>,
-    /// The root kind of the value that we're looking at. This field is never mutated and only used
-    /// for sanity assertions that will ICE when `const_qualif` screws up.
+    /// The root kind of the value that we're looking at. This field is never mutated for a
+    /// particular allocation. It is primarily used to make as many allocations as possible
+    /// read-only so LLVM can place them in const memory.
    mode: InternMode,
    /// This field stores whether we are *currently* inside an `UnsafeCell`. This can affect
    /// the intern mode of references we encounter.
@ -113,8 +114,8 @@ fn intern_shallow<'rt, 'mir, 'tcx, M: CompileTimeMachine<'mir, 'tcx>>(
        // For this, we need to take into account `UnsafeCell`. When `ty` is `None`, we assume
        // no interior mutability.
        let frozen = ty.map_or(true, |ty| ty.is_freeze(ecx.tcx, ecx.param_env));
-        // For statics, allocation mutability is the combination of the place mutability and
-        // the type mutability.
+        // For statics, allocation mutability is the combination of place mutability and
+        // type mutability.
        // The entire allocation needs to be mutable if it contains an `UnsafeCell` anywhere.
        let immutable = mutability == Mutability::Not && frozen;
        if immutable {
@ -188,8 +189,8 @@ impl<'rt, 'mir, 'tcx: 'mir, M: CompileTimeMachine<'mir, 'tcx>> ValueVisitor<'mir
            }
        }

-        // ZSTs do not need validation unless they're uninhabited
-        if mplace.layout.is_zst() && !mplace.layout.abi.is_uninhabited() {
+        // ZSTs cannot contain pointers, so we can skip them.
+        if mplace.layout.is_zst() {
            return Ok(());
        }

@ -209,13 +210,12 @@ impl<'rt, 'mir, 'tcx: 'mir, M: CompileTimeMachine<'mir, 'tcx>> ValueVisitor<'mir
            if let ty::Dynamic(..) =
                tcx.struct_tail_erasing_lifetimes(referenced_ty, self.ecx.param_env).kind()
            {
-                // Validation will error (with a better message) on an invalid vtable pointer
-                // so we can safely not do anything if this is not a real pointer.
                if let Scalar::Ptr(vtable) = mplace.meta.unwrap_meta() {
                    // Explicitly choose const mode here, since vtables are immutable, even
                    // if the reference of the fat pointer is mutable.
                    self.intern_shallow(vtable.alloc_id, InternMode::ConstInner, None);
                } else {
+                    // Validation will error (with a better message) on an invalid vtable pointer.
                    // Let validation show the error message, but make sure it *does* error.
                    tcx.sess
                        .delay_span_bug(tcx.span, "vtables pointers cannot be integer pointers");
@ -224,7 +224,8 @@ impl<'rt, 'mir, 'tcx: 'mir, M: CompileTimeMachine<'mir, 'tcx>> ValueVisitor<'mir
            // Check if we have encountered this pointer+layout combination before.
            // Only recurse for allocation-backed pointers.
            if let Scalar::Ptr(ptr) = mplace.ptr {
-                // Compute the mode with which we intern this.
+                // Compute the mode with which we intern this. Our goal here is to make as many
+                // statics as we can immutable so they can be placed in const memory by LLVM.
                let ref_mode = match self.mode {
                    InternMode::Static(mutbl) => {
                        // In statics, merge outer mutability with reference mutability and
@ -243,8 +244,13 @@ impl<'rt, 'mir, 'tcx: 'mir, M: CompileTimeMachine<'mir, 'tcx>> ValueVisitor<'mir
                            }
                            Mutability::Not => {
                                // A shared reference, things become immutable.
-                                // We do *not* consier `freeze` here -- that is done more precisely
-                                // when traversing the referenced data (by tracking `UnsafeCell`).
+                                // We do *not* consider `freeze` here: `intern_shallow` considers
+                                // `freeze` for the actual mutability of this allocation; the intern
+                                // mode for references contained in this allocation is tracked more
+                                // precisely when traversing the referenced data (by tracking
+                                // `UnsafeCell`). This makes sure that `&(&i32, &Cell<i32>)` still
+                                // has the left inner reference interned into a read-only
+                                // allocation.
                                InternMode::Static(Mutability::Not)
                            }
                            Mutability::Mut => {
--- a/compiler/rustc_mir/src/interpret/validity.rs
+++ b/compiler/rustc_mir/src/interpret/validity.rs
@ -775,17 +775,13 @@ impl<'rt, 'mir, 'tcx: 'mir, M: Machine<'mir, 'tcx>> ValueVisitor<'mir, 'tcx, M>
                );
            }
            ty::Array(tys, ..) | ty::Slice(tys)
-                if {
-                    // This optimization applies for types that can hold arbitrary bytes (such as
-                    // integer and floating point types) or for structs or tuples with no fields.
-                    // FIXME(wesleywiser) This logic could be extended further to arbitrary structs
-                    // or tuples made up of integer/floating point types or inhabited ZSTs with no
-                    // padding.
-                    match tys.kind() {
-                        ty::Int(..) | ty::Uint(..) | ty::Float(..) => true,
-                        _ => false,
-                    }
-                } =>
+                // This optimization applies for types that can hold arbitrary bytes (such as
+                // integer and floating point types) or for structs or tuples with no fields.
+                // FIXME(wesleywiser) This logic could be extended further to arbitrary structs
+                // or tuples made up of integer/floating point types or inhabited ZSTs with no
+                // padding.
+                if matches!(tys.kind(), ty::Int(..) | ty::Uint(..) | ty::Float(..))
+                =>
            {
                // Optimized handling for arrays of integer/float type.

@ -853,7 +849,7 @@ impl<'rt, 'mir, 'tcx: 'mir, M: Machine<'mir, 'tcx>> ValueVisitor<'mir, 'tcx, M>
            // of an array and not all of them, because there's only a single value of a specific
            // ZST type, so either validation fails for all elements or none.
            ty::Array(tys, ..) | ty::Slice(tys) if self.ecx.layout_of(tys)?.is_zst() => {
-                // Validate just the first element
+                // Validate just the first element (if any).
                self.walk_aggregate(op, fields.take(1))?
            }
            _ => {