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collector: recursively traverse 'mentioned' items to evaluate their constants

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This commit is contained in:
Ralf Jung 2024-03-15 21:06:40 +01:00
parent d31b6fb8c0
commit 712fe36611
24 changed files with 641 additions and 142 deletions
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9
compiler/rustc_data_structures/src/sync.rs
View File

@ -20,6 +20,7 @@
//! | ----------------------- | ------------------- | ------------------------------- |
//! | `Lrc<T>` | `rc::Rc<T>` | `sync::Arc<T>` |
//! |` Weak<T>` | `rc::Weak<T>` | `sync::Weak<T>` |
//! | `LRef<'a, T>` [^2] | `&'a mut T` | `&'a T` |
//! | | | |
//! | `AtomicBool` | `Cell<bool>` | `atomic::AtomicBool` |
//! | `AtomicU32` | `Cell<u32>` | `atomic::AtomicU32` |
@ -38,7 +39,7 @@
//! of a `RefCell`. This is appropriate when interior mutability is not
//! required.
//!
//! [^2] `MTLockRef` is a typedef.
//! [^2] `MTRef`, `MTLockRef` are type aliases.
pub use crate::marker::*;
use std::collections::HashMap;
@ -208,7 +209,7 @@ cfg_match! {
use std::cell::RefCell as InnerRwLock;
pub type MTLockRef<'a, T> = &'a mut MTLock<T>;
pub type LRef<'a, T> = &'a mut T;
#[derive(Debug, Default)]
pub struct MTLock<T>(T);
@ -274,7 +275,7 @@ cfg_match! {
pub use std::sync::Arc as Lrc;
pub use std::sync::Weak as Weak;
pub type MTLockRef<'a, T> = &'a MTLock<T>;
pub type LRef<'a, T> = &'a T;
#[derive(Debug, Default)]
pub struct MTLock<T>(Lock<T>);
@ -314,6 +315,8 @@ cfg_match! {
}
}
pub type MTLockRef<'a, T> = LRef<'a, MTLock<T>>;
#[derive(Default)]
#[cfg_attr(parallel_compiler, repr(align(64)))]
pub struct CacheAligned<T>(pub T);

29
compiler/rustc_middle/src/mir/mod.rs
View File

@ -20,6 +20,7 @@ use rustc_hir::def_id::{DefId, CRATE_DEF_ID};
use rustc_hir::{self, CoroutineDesugaring, CoroutineKind, ImplicitSelfKind};
use rustc_hir::{self as hir, HirId};
use rustc_session::Session;
use rustc_span::source_map::Spanned;
use rustc_target::abi::{FieldIdx, VariantIdx};
use polonius_engine::Atom;
@ -312,6 +313,16 @@ impl<'tcx> CoroutineInfo<'tcx> {
}
}
/// Some item that needs to monomorphize successfully for a MIR body to be considered well-formed.
#[derive(Copy, Clone, PartialEq, Debug, HashStable, TyEncodable, TyDecodable)]
#[derive(TypeFoldable, TypeVisitable)]
pub enum MentionedItem<'tcx> {
Fn(DefId, GenericArgsRef<'tcx>),
Drop(Ty<'tcx>),
// FIXME: add Vtable { source_ty: Ty<'tcx>, target_ty: Ty<'tcx> },
// FIXME: do we have to add closures?
}
/// The lowered representation of a single function.
#[derive(Clone, TyEncodable, TyDecodable, Debug, HashStable, TypeFoldable, TypeVisitable)]
pub struct Body<'tcx> {
@ -375,8 +386,24 @@ pub struct Body<'tcx> {
/// Constants that are required to evaluate successfully for this MIR to be well-formed.
/// We hold in this field all the constants we are not able to evaluate yet.
///
/// This is soundness-critical, we make a guarantee that all consts syntactically mentioned in a
/// function have successfully evaluated if the function ever gets executed at runtime.
pub required_consts: Vec<ConstOperand<'tcx>>,
/// Further items that were mentioned in this function and hence *may* become monomorphized,
/// depending on optimizations. We use this to avoid optimization-dependent compile errors: the
/// collector recursively traverses all "mentioned" items and evaluates all their
/// `required_consts`.
///
/// This is *not* soundness-critical and the contents of this list are *not* a stable guarantee.
/// All that's relevant is that this set is optimization-level-independent, and that it includes
/// everything that the collector would consider "used". (For example, we currently compute this
/// set after drop elaboration, so some drop calls that can never be reached are not considered
/// "mentioned".) See the documentation of `CollectionMode` in
/// `compiler/rustc_monomorphize/src/collector.rs` for more context.
pub mentioned_items: Vec<Spanned<MentionedItem<'tcx>>>,
/// Does this body use generic parameters. This is used for the `ConstEvaluatable` check.
///
/// Note that this does not actually mean that this body is not computable right now.
@ -453,6 +480,7 @@ impl<'tcx> Body<'tcx> {
var_debug_info,
span,
required_consts: Vec::new(),
mentioned_items: Vec::new(),
is_polymorphic: false,
injection_phase: None,
tainted_by_errors,
@ -482,6 +510,7 @@ impl<'tcx> Body<'tcx> {
spread_arg: None,
span: DUMMY_SP,
required_consts: Vec::new(),
mentioned_items: Vec::new(),
var_debug_info: Vec::new(),
is_polymorphic: false,
injection_phase: None,

1
compiler/rustc_mir_build/src/build/custom/mod.rs
View File

@ -56,6 +56,7 @@ pub(super) fn build_custom_mir<'tcx>(
var_debug_info: Vec::new(),
span,
required_consts: Vec::new(),
mentioned_items: Vec::new(),
is_polymorphic: false,
tainted_by_errors: None,
injection_phase: None,

27
compiler/rustc_mir_transform/src/inline.rs
View File

@ -565,7 +565,8 @@ impl<'tcx> Inliner<'tcx> {
mut callee_body: Body<'tcx>,
) {
let terminator = caller_body[callsite.block].terminator.take().unwrap();
let TerminatorKind::Call { args, destination, unwind, target, .. } = terminator.kind else {
let TerminatorKind::Call { func, args, destination, unwind, target, .. } = terminator.kind
else {
bug!("unexpected terminator kind {:?}", terminator.kind);
};
@ -717,6 +718,30 @@ impl<'tcx> Inliner<'tcx> {
Const::Val(..) | Const::Unevaluated(..) => true,
},
));
// Now that we incorporated the callee's `required_consts`, we can remove the callee from
// `mentioned_items` -- but we have to take their `mentioned_items` in return. This does
// some extra work here to save the monomorphization collector work later. It helps a lot,
// since monomorphization can avoid a lot of work when the "mentioned items" are similar to
// the actually used items. By doing this we can entirely avoid visiting the callee!
let callee_item = {
// We need to reconstruct the `required_item` for the callee so that we can find and
// remove it.
let func_ty = func.ty(caller_body, self.tcx);
match func_ty.kind() {
ty::FnDef(def_id, args) => MentionedItem::Fn(*def_id, args),
_ => bug!(),
}
};
if let Some(idx) =
caller_body.mentioned_items.iter().position(|item| item.node == callee_item)
{
// We found the callee, so remove it and add its items instead.
caller_body.mentioned_items.remove(idx);
caller_body.mentioned_items.extend(callee_body.mentioned_items);
} else {
// If we can't find the callee, there's no point in adding its items.
// Probably it already got removed by being inlined elsewhere in the same function.
}
}
fn make_call_args(

5
compiler/rustc_mir_transform/src/lib.rs
View File

@ -89,6 +89,7 @@ mod lint;
mod lower_intrinsics;
mod lower_slice_len;
mod match_branches;
mod mentioned_items;
mod multiple_return_terminators;
mod normalize_array_len;
mod nrvo;
@ -566,6 +567,10 @@ fn run_optimization_passes<'tcx>(tcx: TyCtxt<'tcx>, body: &mut Body<'tcx>) {
tcx,
body,
&[
// Before doing anything, remember which items are being mentioned so that the set of items
// visited does not depend on the optimization level.
&mentioned_items::MentionedItems,
// Add some UB checks before any UB gets optimized away.
&check_alignment::CheckAlignment,
// Before inlining: trim down MIR with passes to reduce inlining work.

57
compiler/rustc_mir_transform/src/mentioned_items.rs Normal file
View File

@ -0,0 +1,57 @@
use rustc_middle::mir::visit::Visitor;
use rustc_middle::mir::{self, ConstOperand, Location, MentionedItem, MirPass};
use rustc_middle::ty::{self, TyCtxt};
use rustc_session::Session;
use rustc_span::source_map::Spanned;
pub struct MentionedItems;
struct MentionedItemsVisitor<'a, 'tcx> {
tcx: TyCtxt<'tcx>,
body: &'a mir::Body<'tcx>,
mentioned_items: &'a mut Vec<Spanned<MentionedItem<'tcx>>>,
}
impl<'tcx> MirPass<'tcx> for MentionedItems {
fn is_enabled(&self, _sess: &Session) -> bool {
// If this pass is skipped the collector assume that nothing got mentioned! We could
// potentially skip it in opt-level 0 if we are sure that opt-level will never *remove* uses
// of anything, but that still seems fragile. Furthermore, even debug builds use level 1, so
// special-casing level 0 is just not worth it.
true
}
fn run_pass(&self, tcx: TyCtxt<'tcx>, body: &mut mir::Body<'tcx>) {
debug_assert!(body.mentioned_items.is_empty());
let mut mentioned_items = Vec::new();
MentionedItemsVisitor { tcx, body, mentioned_items: &mut mentioned_items }.visit_body(body);
body.mentioned_items = mentioned_items;
}
}
impl<'tcx> Visitor<'tcx> for MentionedItemsVisitor<'_, 'tcx> {
fn visit_constant(&mut self, constant: &ConstOperand<'tcx>, _: Location) {
let const_ = constant.const_;
// This is how function items get referenced: via constants of `FnDef` type. This handles
// both functions that are called and those that are just turned to function pointers.
if let ty::FnDef(def_id, args) = const_.ty().kind() {
debug!("adding to required_items: {def_id:?}");
self.mentioned_items
.push(Spanned { node: MentionedItem::Fn(*def_id, args), span: constant.span });
}
}
fn visit_terminator(&mut self, terminator: &mir::Terminator<'tcx>, location: Location) {
self.super_terminator(terminator, location);
match terminator.kind {
// We don't need to handle `Call` as we already handled all function type operands in
// `visit_constant`. But we do need to handle `Drop`.
mir::TerminatorKind::Drop { place, .. } => {
let ty = place.ty(self.body, self.tcx).ty;
let span = self.body.source_info(location).span;
self.mentioned_items.push(Spanned { node: MentionedItem::Drop(ty), span });
}
_ => {}
}
}
}

4
compiler/rustc_mir_transform/src/shim.rs
View File

@ -17,7 +17,7 @@ use std::iter;
use crate::{
abort_unwinding_calls, add_call_guards, add_moves_for_packed_drops, deref_separator,
pass_manager as pm, remove_noop_landing_pads, simplify,
mentioned_items, pass_manager as pm, remove_noop_landing_pads, simplify,
};
use rustc_middle::mir::patch::MirPatch;
use rustc_mir_dataflow::elaborate_drops::{self, DropElaborator, DropFlagMode, DropStyle};
@ -147,6 +147,7 @@ fn make_shim<'tcx>(tcx: TyCtxt<'tcx>, instance: ty::InstanceDef<'tcx>) -> Body<'
tcx,
&mut body,
&[
&mentioned_items::MentionedItems,
&abort_unwinding_calls::AbortUnwindingCalls,
&add_call_guards::CriticalCallEdges,
],
@ -178,6 +179,7 @@ fn make_shim<'tcx>(tcx: TyCtxt<'tcx>, instance: ty::InstanceDef<'tcx>) -> Body<'
tcx,
&mut result,
&[
&mentioned_items::MentionedItems,
&add_moves_for_packed_drops::AddMovesForPackedDrops,
&deref_separator::Derefer,
&remove_noop_landing_pads::RemoveNoopLandingPads,

382
compiler/rustc_monomorphize/src/collector.rs
View File

@ -137,21 +137,41 @@
//! just linked to and no node is created; which is exactly what we want, since
//! no machine code should be generated in the current crate for such an item.
//!
//! Eager and Lazy Collection Mode
//! ------------------------------
//! Mono item collection can be performed in one of two modes:
//! Eager and Lazy Collection Strategy
//! ----------------------------------
//! Mono item collection can be performed with one of two strategies:
//!
//! - Lazy mode means that items will only be instantiated when actually
//! - Lazy strategy means that items will only be instantiated when actually
//! used. The goal is to produce the least amount of machine code
//! possible.
//!
//! - Eager mode is meant to be used in conjunction with incremental compilation
//! - Eager strategy is meant to be used in conjunction with incremental compilation
//! where a stable set of mono items is more important than a minimal
//! one. Thus, eager mode will instantiate drop-glue for every drop-able type
//! one. Thus, eager strategy will instantiate drop-glue for every drop-able type
//! in the crate, even if no drop call for that type exists (yet). It will
//! also instantiate default implementations of trait methods, something that
//! otherwise is only done on demand.
//!
//! Collection-time const evaluation and "mentioned" items
//! ------------------------------------------------------
//!
//! One important role of collection is to evaluate all constants that are used by all the items
//! which are being collected. Codegen can then rely on only encountering constants that evaluate
//! successfully, and if a constant fails to evaluate, the collector has much better context to be
//! able to show where this constant comes up.
//!
//! However, the exact set of "used" items (collected as described above), and therefore the exact
//! set of used constants, can depend on optimizations. Optimizing away dead code may optimize away
//! a function call that uses a failing constant, so an unoptimized build may fail where an
//! optimized build succeeds. This is undesirable.
//!
//! To avoid this, the collector has the concept of "mentioned" items. Some time during the MIR
//! pipeline, before any optimization-level-dependent optimizations, we compute a list of all items
//! that syntactically appear in the code. These are considered "mentioned", and even if they are in
//! dead code and get optimized away (which makes them no longer "used"), they are still
//! "mentioned". For every used item, the collector ensures that all mentioned items, recursively,
//! do not use a failing constant. This is reflected via the [`CollectionMode`], which determines
//! whether we are visiting a used item or merely a mentioned item.
//!
//! Open Issues
//! -----------
@ -165,15 +185,16 @@
//! regardless of whether it is actually needed or not.
use rustc_data_structures::fx::{FxHashMap, FxHashSet};
use rustc_data_structures::sync::{par_for_each_in, MTLock, MTLockRef};
use rustc_data_structures::sync::{par_for_each_in, LRef, MTLock};
use rustc_hir as hir;
use rustc_hir::def::DefKind;
use rustc_hir::def_id::{DefId, DefIdMap, LocalDefId};
use rustc_hir::lang_items::LangItem;
use rustc_middle::middle::codegen_fn_attrs::CodegenFnAttrFlags;
use rustc_middle::mir::interpret::{AllocId, ErrorHandled, GlobalAlloc, Scalar};
use rustc_middle::mir::mono::{InstantiationMode, MonoItem};
use rustc_middle::mir::visit::Visitor as MirVisitor;
use rustc_middle::mir::{self, Location};
use rustc_middle::mir::{self, Location, MentionedItem};
use rustc_middle::query::TyCtxtAt;
use rustc_middle::ty::adjustment::{CustomCoerceUnsized, PointerCoercion};
use rustc_middle::ty::layout::ValidityRequirement;
@ -183,7 +204,6 @@ use rustc_middle::ty::{
TypeVisitableExt, VtblEntry,
};
use rustc_middle::ty::{GenericArgKind, GenericArgs};
use rustc_middle::{middle::codegen_fn_attrs::CodegenFnAttrFlags, mir::visit::TyContext};
use rustc_session::config::EntryFnType;
use rustc_session::lint::builtin::LARGE_ASSIGNMENTS;
use rustc_session::Limit;
@ -199,7 +219,7 @@ use crate::errors::{
};
#[derive(PartialEq)]
pub enum MonoItemCollectionMode {
pub enum MonoItemCollectionStrategy {
Eager,
Lazy,
}
@ -214,6 +234,35 @@ pub struct UsageMap<'tcx> {
type MonoItems<'tcx> = Vec<Spanned<MonoItem<'tcx>>>;
/// The state that is shared across the concurrent threads that are doing collection.
struct SharedState<'tcx> {
/// Items that have been or are currently being recursively collected.
visited: MTLock<FxHashSet<MonoItem<'tcx>>>,
/// Items that have been or are currently being recursively treated as "mentioned", i.e., their
/// consts are evaluated but nothing is added to the collection.
mentioned: MTLock<FxHashSet<MonoItem<'tcx>>>,
/// Which items are being used where, for better errors.
usage_map: MTLock<UsageMap<'tcx>>,
}
/// See module-level docs on some contect for "mentioned" items.
#[derive(Copy, Clone, Debug, PartialEq)]
enum CollectionMode {
/// Collect items that are used, i.e., actually needed for codegen.
///
/// Which items are used can depend on optimization levels, as MIR optimizations can remove
/// uses.
UsedItems,
/// Collect items that are mentioned. The goal of this mode is that it is independent of
/// optimizations: the set of "mentioned" items is computed before optimizations are run.
///
/// The exact contents of this set are *not* a stable guarantee. (For instance, it is currently
/// computed after drop-elaboration. If we ever do some optimizations even in debug builds, we
/// might decide to run them before computing mentioned items.) The key property of this set is
/// that it is optimization-independent.
MentionedItems,
}
impl<'tcx> UsageMap<'tcx> {
fn new() -> UsageMap<'tcx> {
UsageMap { used_map: FxHashMap::default(), user_map: FxHashMap::default() }
@ -253,25 +302,28 @@ impl<'tcx> UsageMap<'tcx> {
}
}
#[instrument(skip(tcx, mode), level = "debug")]
#[instrument(skip(tcx, strategy), level = "debug")]
pub fn collect_crate_mono_items(
tcx: TyCtxt<'_>,
mode: MonoItemCollectionMode,
strategy: MonoItemCollectionStrategy,
) -> (FxHashSet<MonoItem<'_>>, UsageMap<'_>) {
let _prof_timer = tcx.prof.generic_activity("monomorphization_collector");
let roots =
tcx.sess.time("monomorphization_collector_root_collections", || collect_roots(tcx, mode));
let roots = tcx
.sess
.time("monomorphization_collector_root_collections", || collect_roots(tcx, strategy));
debug!("building mono item graph, beginning at roots");
let mut visited = MTLock::new(FxHashSet::default());
let mut usage_map = MTLock::new(UsageMap::new());
let mut state = SharedState {
visited: MTLock::new(FxHashSet::default()),
mentioned: MTLock::new(FxHashSet::default()),
usage_map: MTLock::new(UsageMap::new()),
};
let recursion_limit = tcx.recursion_limit();
{
let visited: MTLockRef<'_, _> = &mut visited;
let usage_map: MTLockRef<'_, _> = &mut usage_map;
let state: LRef<'_, _> = &mut state;
tcx.sess.time("monomorphization_collector_graph_walk", || {
par_for_each_in(roots, |root| {
@ -279,22 +331,22 @@ pub fn collect_crate_mono_items(
collect_items_rec(
tcx,
dummy_spanned(root),
visited,
state,
&mut recursion_depths,
recursion_limit,
usage_map,
CollectionMode::UsedItems,
);
});
});
}
(visited.into_inner(), usage_map.into_inner())
(state.visited.into_inner(), state.usage_map.into_inner())
}
// Find all non-generic items by walking the HIR. These items serve as roots to
// start monomorphizing from.
#[instrument(skip(tcx, mode), level = "debug")]
fn collect_roots(tcx: TyCtxt<'_>, mode: MonoItemCollectionMode) -> Vec<MonoItem<'_>> {
fn collect_roots(tcx: TyCtxt<'_>, mode: MonoItemCollectionStrategy) -> Vec<MonoItem<'_>> {
debug!("collecting roots");
let mut roots = Vec::new();
@ -303,7 +355,7 @@ fn collect_roots(tcx: TyCtxt<'_>, mode: MonoItemCollectionMode) -> Vec<MonoItem<
debug!("collect_roots: entry_fn = {:?}", entry_fn);
let mut collector = RootCollector { tcx, mode, entry_fn, output: &mut roots };
let mut collector = RootCollector { tcx, strategy: mode, entry_fn, output: &mut roots };
let crate_items = tcx.hir_crate_items(());
@ -331,21 +383,38 @@ fn collect_roots(tcx: TyCtxt<'_>, mode: MonoItemCollectionMode) -> Vec<MonoItem<
/// Collect all monomorphized items reachable from `starting_point`, and emit a note diagnostic if a
/// post-monomorphization error is encountered during a collection step.
#[instrument(skip(tcx, visited, recursion_depths, recursion_limit, usage_map), level = "debug")]
///
/// `mode` determined whether we are scanning for [used items][CollectionMode::UsedItems]
/// or [mentioned items][CollectionMode::MentionedItems].
#[instrument(skip(tcx, state, recursion_depths, recursion_limit), level = "debug")]
fn collect_items_rec<'tcx>(
tcx: TyCtxt<'tcx>,
starting_item: Spanned<MonoItem<'tcx>>,
visited: MTLockRef<'_, FxHashSet<MonoItem<'tcx>>>,
state: LRef<'_, SharedState<'tcx>>,
recursion_depths: &mut DefIdMap<usize>,
recursion_limit: Limit,
usage_map: MTLockRef<'_, UsageMap<'tcx>>,
mode: CollectionMode,
) {
if !visited.lock_mut().insert(starting_item.node) {
// We've been here already, no need to search again.
return;
if mode == CollectionMode::UsedItems {
if !state.visited.lock_mut().insert(starting_item.node) {
// We've been here already, no need to search again.
return;
}
} else {
if state.visited.lock().contains(&starting_item.node) {
// We've already done a *full* visit on this one, no need to do the "mention" visit.
return;
}
if !state.mentioned.lock_mut().insert(starting_item.node) {
// We've been here already, no need to search again.
return;
}
// There's some risk that we first do a 'mention' visit and then a full visit. But there's no
// harm in that, the mention visit will trigger all the queries and the results are cached.
}
let mut used_items = Vec::new();
let mut used_items = MonoItems::new();
let mut mentioned_items = MonoItems::new();
let recursion_depth_reset;
// Post-monomorphization errors MVP
@ -373,37 +442,48 @@ fn collect_items_rec<'tcx>(
// FIXME: don't rely on global state, instead bubble up errors. Note: this is very hard to do.
let error_count = tcx.dcx().err_count();
// In `mentioned_items` we collect items that were mentioned in this MIR but possibly do not
// need to be monomorphized. This is done to ensure that optimizing away function calls does not
// hide const-eval errors that those calls would otherwise have triggered.
match starting_item.node {
MonoItem::Static(def_id) => {
let instance = Instance::mono(tcx, def_id);
// Sanity check whether this ended up being collected accidentally
debug_assert!(should_codegen_locally(tcx, &instance));
let DefKind::Static { nested, .. } = tcx.def_kind(def_id) else { bug!() };
// Nested statics have no type.
if !nested {
let ty = instance.ty(tcx, ty::ParamEnv::reveal_all());
visit_drop_use(tcx, ty, true, starting_item.span, &mut used_items);
}
recursion_depth_reset = None;
if let Ok(alloc) = tcx.eval_static_initializer(def_id) {
for &prov in alloc.inner().provenance().ptrs().values() {
collect_alloc(tcx, prov.alloc_id(), &mut used_items);
// Statics always get evaluted (which is possible because they can't be generic), so for
// `MentionedItems` collection there's nothing to do here.
if mode == CollectionMode::UsedItems {
let instance = Instance::mono(tcx, def_id);
// Sanity check whether this ended up being collected accidentally
debug_assert!(should_codegen_locally(tcx, &instance));
let DefKind::Static { nested, .. } = tcx.def_kind(def_id) else { bug!() };
// Nested statics have no type.
if !nested {
let ty = instance.ty(tcx, ty::ParamEnv::reveal_all());
visit_drop_use(tcx, ty, true, starting_item.span, &mut used_items);
}
if let Ok(alloc) = tcx.eval_static_initializer(def_id) {
for &prov in alloc.inner().provenance().ptrs().values() {
collect_alloc(tcx, prov.alloc_id(), &mut used_items);
}
}
if tcx.needs_thread_local_shim(def_id) {
used_items.push(respan(
starting_item.span,
MonoItem::Fn(Instance {
def: InstanceDef::ThreadLocalShim(def_id),
args: GenericArgs::empty(),
}),
));
}
}
if tcx.needs_thread_local_shim(def_id) {
used_items.push(respan(
starting_item.span,
MonoItem::Fn(Instance {
def: InstanceDef::ThreadLocalShim(def_id),
args: GenericArgs::empty(),
}),
));
}
// mentioned_items stays empty since there's no codegen for statics. statics don't get
// optimized, and if they did then the const-eval interpreter would have to worry about
// mentioned_items.
}
MonoItem::Fn(instance) => {
// Sanity check whether this ended up being collected accidentally
@ -420,10 +500,20 @@ fn collect_items_rec<'tcx>(
check_type_length_limit(tcx, instance);
rustc_data_structures::stack::ensure_sufficient_stack(|| {
collect_used_items(tcx, instance, &mut used_items);
collect_items_of_instance(
tcx,
instance,
&mut used_items,
&mut mentioned_items,
mode,
)
});
}
MonoItem::GlobalAsm(item_id) => {
assert!(
mode == CollectionMode::UsedItems,
"should never encounter global_asm when collecting mentioned items"
);
recursion_depth_reset = None;
let item = tcx.hir().item(item_id);
@ -459,8 +549,10 @@ fn collect_items_rec<'tcx>(
} else {
span_bug!(item.span, "Mismatch between hir::Item type and MonoItem type")
}
// mention_items stays empty as nothing gets optimized here.
}
}
};
// Check for PMEs and emit a diagnostic if one happened. To try to show relevant edges of the
// mono item graph.
@ -474,10 +566,41 @@ fn collect_items_rec<'tcx>(
formatted_item,
});
}
usage_map.lock_mut().record_used(starting_item.node, &used_items);
// Only updating `usage_map` for used items as otherwise we may be inserting the same item
// multiple times (if it is first 'mentioned' and then later actuall used), and the usage map
// logic does not like that.
// This is part of the output of collection and hence only relevant for "used" items.
// ("Mentioned" items are only considered internally during collection.)
if mode == CollectionMode::UsedItems {
state.usage_map.lock_mut().record_used(starting_item.node, &used_items);
}
for used_item in used_items {
collect_items_rec(tcx, used_item, visited, recursion_depths, recursion_limit, usage_map);
if mode == CollectionMode::MentionedItems {
assert!(used_items.is_empty(), "'mentioned' collection should never encounter used items");
} else {
for used_item in used_items {
collect_items_rec(
tcx,
used_item,
state,
recursion_depths,
recursion_limit,
CollectionMode::UsedItems,
);
}
}
// Walk over mentioned items *after* used items, so that if an item is both mentioned and used then
// the loop above has fully collected it, so this loop will skip it.
for mentioned_item in mentioned_items {
collect_items_rec(
tcx,
mentioned_item,
state,
recursion_depths,
recursion_limit,
CollectionMode::MentionedItems,
);
}
if let Some((def_id, depth)) = recursion_depth_reset {
@ -596,7 +719,7 @@ fn check_type_length_limit<'tcx>(tcx: TyCtxt<'tcx>, instance: Instance<'tcx>) {
struct MirUsedCollector<'a, 'tcx> {
tcx: TyCtxt<'tcx>,
body: &'a mir::Body<'tcx>,
output: &'a mut MonoItems<'tcx>,
used_items: &'a mut MonoItems<'tcx>,
instance: Instance<'tcx>,
/// Spans for move size lints already emitted. Helps avoid duplicate lints.
move_size_spans: Vec<Span>,
@ -735,6 +858,31 @@ impl<'a, 'tcx> MirUsedCollector<'a, 'tcx> {
);
self.move_size_spans.push(span);
}
/// Evaluates a *not yet monomorphized* constant.
fn eval_constant(
&mut self,
constant: &mir::ConstOperand<'tcx>,
) -> Option<mir::ConstValue<'tcx>> {
let const_ = self.monomorphize(constant.const_);
let param_env = ty::ParamEnv::reveal_all();
// Evaluate the constant. This makes const eval failure a collection-time error (rather than
// a codegen-time error). rustc stops after collection if there was an error, so this
// ensures codegen never has to worry about failing consts.
// (codegen relies on this and ICEs will happen if this is violated.)
match const_.eval(self.tcx, param_env, constant.span) {
Ok(v) => Some(v),
Err(ErrorHandled::TooGeneric(..)) => span_bug!(
constant.span,
"collection encountered polymorphic constant: {:?}",
const_
),
Err(err @ ErrorHandled::Reported(..)) => {
err.emit_note(self.tcx);
return None;
}
}
}
}
impl<'a, 'tcx> MirVisitor<'tcx> for MirUsedCollector<'a, 'tcx> {
@ -769,7 +917,7 @@ impl<'a, 'tcx> MirVisitor<'tcx> for MirUsedCollector<'a, 'tcx> {
target_ty,
source_ty,
span,
self.output,
self.used_items,
);
}
}
@ -780,7 +928,7 @@ impl<'a, 'tcx> MirVisitor<'tcx> for MirUsedCollector<'a, 'tcx> {
) => {
let fn_ty = operand.ty(self.body, self.tcx);
let fn_ty = self.monomorphize(fn_ty);
visit_fn_use(self.tcx, fn_ty, false, span, self.output);
visit_fn_use(self.tcx, fn_ty, false, span, self.used_items);
}
mir::Rvalue::Cast(
mir::CastKind::PointerCoercion(PointerCoercion::ClosureFnPointer(_)),
@ -798,7 +946,7 @@ impl<'a, 'tcx> MirVisitor<'tcx> for MirUsedCollector<'a, 'tcx> {
ty::ClosureKind::FnOnce,
);
if should_codegen_locally(self.tcx, &instance) {
self.output.push(create_fn_mono_item(self.tcx, instance, span));
self.used_items.push(create_fn_mono_item(self.tcx, instance, span));
}
}
_ => bug!(),
@ -809,7 +957,7 @@ impl<'a, 'tcx> MirVisitor<'tcx> for MirUsedCollector<'a, 'tcx> {
let instance = Instance::mono(self.tcx, def_id);
if should_codegen_locally(self.tcx, &instance) {
trace!("collecting thread-local static {:?}", def_id);
self.output.push(respan(span, MonoItem::Static(def_id)));
self.used_items.push(respan(span, MonoItem::Static(def_id)));
}
}
_ => { /* not interesting */ }
@ -822,26 +970,9 @@ impl<'a, 'tcx> MirVisitor<'tcx> for MirUsedCollector<'a, 'tcx> {
/// to ensure that the constant evaluates successfully and walk the result.
#[instrument(skip(self), level = "debug")]
fn visit_constant(&mut self, constant: &mir::ConstOperand<'tcx>, location: Location) {
let const_ = self.monomorphize(constant.const_);
let param_env = ty::ParamEnv::reveal_all();
// Evaluate the constant. This makes const eval failure a collection-time error (rather than
// a codegen-time error). rustc stops after collection if there was an error, so this
// ensures codegen never has to worry about failing consts.
// (codegen relies on this and ICEs will happen if this is violated.)
let val = match const_.eval(self.tcx, param_env, constant.span) {
Ok(v) => v,
Err(ErrorHandled::TooGeneric(..)) => span_bug!(
self.body.source_info(location).span,
"collection encountered polymorphic constant: {:?}",
const_
),
Err(err @ ErrorHandled::Reported(..)) => {
err.emit_note(self.tcx);
return;
}
};
collect_const_value(self.tcx, val, self.output);
MirVisitor::visit_ty(self, const_.ty(), TyContext::Location(location));
// No `super_constant` as we don't care about `visit_ty`/`visit_ty_const`.
let Some(val) = self.eval_constant(constant) else { return };
collect_const_value(self.tcx, val, self.used_items);
}
fn visit_terminator(&mut self, terminator: &mir::Terminator<'tcx>, location: Location) {
@ -852,7 +983,7 @@ impl<'a, 'tcx> MirVisitor<'tcx> for MirUsedCollector<'a, 'tcx> {
let push_mono_lang_item = |this: &mut Self, lang_item: LangItem| {
let instance = Instance::mono(tcx, tcx.require_lang_item(lang_item, Some(source)));
if should_codegen_locally(tcx, &instance) {
this.output.push(create_fn_mono_item(tcx, instance, source));
this.used_items.push(create_fn_mono_item(tcx, instance, source));
}
};
@ -861,25 +992,25 @@ impl<'a, 'tcx> MirVisitor<'tcx> for MirUsedCollector<'a, 'tcx> {
let callee_ty = func.ty(self.body, tcx);
let callee_ty = self.monomorphize(callee_ty);
self.check_fn_args_move_size(callee_ty, args, *fn_span, location);
visit_fn_use(self.tcx, callee_ty, true, source, &mut self.output)
visit_fn_use(self.tcx, callee_ty, true, source, &mut self.used_items)
}
mir::TerminatorKind::Drop { ref place, .. } => {
let ty = place.ty(self.body, self.tcx).ty;
let ty = self.monomorphize(ty);
visit_drop_use(self.tcx, ty, true, source, self.output);
visit_drop_use(self.tcx, ty, true, source, self.used_items);
}
mir::TerminatorKind::InlineAsm { ref operands, .. } => {
for op in operands {
match *op {
mir::InlineAsmOperand::SymFn { ref value } => {
let fn_ty = self.monomorphize(value.const_.ty());
visit_fn_use(self.tcx, fn_ty, false, source, self.output);
visit_fn_use(self.tcx, fn_ty, false, source, self.used_items);
}
mir::InlineAsmOperand::SymStatic { def_id } => {
let instance = Instance::mono(self.tcx, def_id);
if should_codegen_locally(self.tcx, &instance) {
trace!("collecting asm sym static {:?}", def_id);
self.output.push(respan(source, MonoItem::Static(def_id)));
self.used_items.push(respan(source, MonoItem::Static(def_id)));
}
}
_ => {}
@ -1239,7 +1370,7 @@ fn create_mono_items_for_vtable_methods<'tcx>(
struct RootCollector<'a, 'tcx> {
tcx: TyCtxt<'tcx>,
mode: MonoItemCollectionMode,
strategy: MonoItemCollectionStrategy,
output: &'a mut MonoItems<'tcx>,
entry_fn: Option<(DefId, EntryFnType)>,
}
@ -1248,7 +1379,7 @@ impl<'v> RootCollector<'_, 'v> {
fn process_item(&mut self, id: hir::ItemId) {
match self.tcx.def_kind(id.owner_id) {
DefKind::Enum | DefKind::Struct | DefKind::Union => {
if self.mode == MonoItemCollectionMode::Eager
if self.strategy == MonoItemCollectionStrategy::Eager
&& self.tcx.generics_of(id.owner_id).count() == 0
{
debug!("RootCollector: ADT drop-glue for `{id:?}`",);
@ -1279,7 +1410,7 @@ impl<'v> RootCollector<'_, 'v> {
}
}
DefKind::Impl { .. } => {
if self.mode == MonoItemCollectionMode::Eager {
if self.strategy == MonoItemCollectionStrategy::Eager {
create_mono_items_for_default_impls(self.tcx, id, self.output);
}
}
@ -1298,9 +1429,9 @@ impl<'v> RootCollector<'_, 'v> {
fn is_root(&self, def_id: LocalDefId) -> bool {
!self.tcx.generics_of(def_id).requires_monomorphization(self.tcx)
&& match self.mode {
MonoItemCollectionMode::Eager => true,
MonoItemCollectionMode::Lazy => {
&& match self.strategy {
MonoItemCollectionStrategy::Eager => true,
MonoItemCollectionStrategy::Lazy => {
self.entry_fn.and_then(|(id, _)| id.as_local()) == Some(def_id)
|| self.tcx.is_reachable_non_generic(def_id)
|| self
@ -1497,26 +1628,67 @@ fn build_skip_move_check_fns(tcx: TyCtxt<'_>) -> Vec<DefId> {
}
/// Scans the MIR in order to find function calls, closures, and drop-glue.
#[instrument(skip(tcx, output), level = "debug")]
fn collect_used_items<'tcx>(
///
/// Anything that's found is added to `output`. Furthermore the "mentioned items" of the MIR are returned.
#[instrument(skip(tcx, used_items, mentioned_items), level = "debug")]
fn collect_items_of_instance<'tcx>(
tcx: TyCtxt<'tcx>,
instance: Instance<'tcx>,
output: &mut MonoItems<'tcx>,
used_items: &mut MonoItems<'tcx>,
mentioned_items: &mut MonoItems<'tcx>,
mode: CollectionMode,
) {
let body = tcx.instance_mir(instance.def);
// Here we rely on the visitor also visiting `required_consts`, so that we evaluate them
// and abort compilation if any of them errors.
MirUsedCollector {
let mut collector = MirUsedCollector {
tcx,
body: body,
output,
body,
used_items,
instance,
move_size_spans: vec![],
visiting_call_terminator: false,
skip_move_check_fns: None,
};
if mode == CollectionMode::UsedItems {
// Visit everything. Here we rely on the visitor also visiting `required_consts`, so that we
// evaluate them and abort compilation if any of them errors.
collector.visit_body(body);
} else {
// We only need to evaluate all constants, but can ignore the rest of the MIR.
for const_op in &body.required_consts {
if let Some(val) = collector.eval_constant(const_op) {
collect_const_value(tcx, val, mentioned_items);
}
}
}
// Always gather mentioned items.
for item in &body.mentioned_items {
let item_mono = collector.monomorphize(item.node);
visit_mentioned_item(tcx, &item_mono, item.span, mentioned_items);
}
}
/// `item` must be already monomorphized
fn visit_mentioned_item<'tcx>(
tcx: TyCtxt<'tcx>,
item: &MentionedItem<'tcx>,
span: Span,
output: &mut MonoItems<'tcx>,
) {
match *item {
MentionedItem::Fn(def_id, args) => {
let instance = Instance::expect_resolve(tcx, ty::ParamEnv::reveal_all(), def_id, args);
// `visit_instance_use` was written for "used" item collection but works just as well
// for "mentioned" item collection.
// We can set `is_direct_call`; that just means we'll skip a bunch of shims that anyway
// can't have their own failing constants.
visit_instance_use(tcx, instance, /*is_direct_call*/ true, span, output);
}
MentionedItem::Drop(ty) => {
visit_drop_use(tcx, ty, /*is_direct_call*/ true, span, output);
}
}
.visit_body(body);
}
#[instrument(skip(tcx, output), level = "debug")]

14
compiler/rustc_monomorphize/src/partitioning.rs
View File

@ -117,7 +117,7 @@ use rustc_session::CodegenUnits;
use rustc_span::symbol::Symbol;
use crate::collector::UsageMap;
use crate::collector::{self, MonoItemCollectionMode};
use crate::collector::{self, MonoItemCollectionStrategy};
use crate::errors::{CouldntDumpMonoStats, SymbolAlreadyDefined, UnknownCguCollectionMode};
struct PartitioningCx<'a, 'tcx> {
@ -1087,30 +1087,30 @@ where
}
fn collect_and_partition_mono_items(tcx: TyCtxt<'_>, (): ()) -> (&DefIdSet, &[CodegenUnit<'_>]) {
let collection_mode = match tcx.sess.opts.unstable_opts.print_mono_items {
let collection_strategy = match tcx.sess.opts.unstable_opts.print_mono_items {
Some(ref s) => {
let mode = s.to_lowercase();
let mode = mode.trim();
if mode == "eager" {
MonoItemCollectionMode::Eager
MonoItemCollectionStrategy::Eager
} else {
if mode != "lazy" {
tcx.dcx().emit_warn(UnknownCguCollectionMode { mode });
}
MonoItemCollectionMode::Lazy
MonoItemCollectionStrategy::Lazy
}
}
None => {
if tcx.sess.link_dead_code() {
MonoItemCollectionMode::Eager
MonoItemCollectionStrategy::Eager
} else {
MonoItemCollectionMode::Lazy
MonoItemCollectionStrategy::Lazy
}
}
};
let (items, usage_map) = collector::collect_crate_mono_items(tcx, collection_mode);
let (items, usage_map) = collector::collect_crate_mono_items(tcx, collection_strategy);
// If there was an error during collection (e.g. from one of the constants we evaluated),
// then we stop here. This way codegen does not have to worry about failing constants.

6
tests/ui/consts/required-consts/collect-in-dead-drop.noopt.stderr
View File

@ -1,13 +1,13 @@
error[E0080]: evaluation of `Fail::<i32>::C` failed
--> $DIR/collect-in-dead-drop.rs:12:19
--> $DIR/collect-in-dead-drop.rs:9:19
|
LL | const C: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-drop.rs:12:19
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-drop.rs:9:19
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-drop.rs:19:17
--> $DIR/collect-in-dead-drop.rs:16:17
|
LL | let _ = Fail::<T>::C;
| ^^^^^^^^^^^^

20
tests/ui/consts/required-consts/collect-in-dead-drop.opt.stderr Normal file
View File

@ -0,0 +1,20 @@
error[E0080]: evaluation of `Fail::<i32>::C` failed
--> $DIR/collect-in-dead-drop.rs:9:19
|
LL | const C: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-drop.rs:9:19
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-drop.rs:16:17
|
LL | let _ = Fail::<T>::C;
| ^^^^^^^^^^^^
note: the above error was encountered while instantiating `fn <Fail<i32> as std::ops::Drop>::drop`
--> $SRC_DIR/core/src/ptr/mod.rs:LL:COL
error: aborting due to 1 previous error
For more information about this error, try `rustc --explain E0080`.

7
tests/ui/consts/required-consts/collect-in-dead-drop.rs
View File

@ -1,15 +1,12 @@
//@revisions: noopt opt
//@[noopt] build-fail
//@ build-fail
//@[opt] compile-flags: -O
//FIXME: `opt` revision currently does not stop with an error due to
//<https://github.com/rust-lang/rust/issues/107503>.
//@[opt] build-pass
//! Make sure we detect erroneous constants post-monomorphization even when they are unused. This is
//! crucial, people rely on it for soundness. (https://github.com/rust-lang/rust/issues/112090)
struct Fail<T>(T);
impl<T> Fail<T> {
const C: () = panic!(); //[noopt]~ERROR evaluation of `Fail::<i32>::C` failed
const C: () = panic!(); //~ERROR evaluation of `Fail::<i32>::C` failed
}
// This function is not actually called, but is mentioned implicitly as destructor in dead code in a

8
tests/ui/consts/required-consts/collect-in-dead-fn.noopt.stderr
View File

@ -1,19 +1,19 @@
error[E0080]: evaluation of `Fail::<i32>::C` failed
--> $DIR/collect-in-dead-fn.rs:12:19
--> $DIR/collect-in-dead-fn.rs:9:19
|
LL | const C: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-fn.rs:12:19
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-fn.rs:9:19
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-fn.rs:22:17
--> $DIR/collect-in-dead-fn.rs:19:17
|
LL | let _ = Fail::<T>::C;
| ^^^^^^^^^^^^
note: the above error was encountered while instantiating `fn not_called::<i32>`
--> $DIR/collect-in-dead-fn.rs:29:9
--> $DIR/collect-in-dead-fn.rs:26:9
|
LL | not_called::<T>();
| ^^^^^^^^^^^^^^^^^

23
tests/ui/consts/required-consts/collect-in-dead-fn.opt.stderr Normal file
View File

@ -0,0 +1,23 @@
error[E0080]: evaluation of `Fail::<i32>::C` failed
--> $DIR/collect-in-dead-fn.rs:9:19
|
LL | const C: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-fn.rs:9:19
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-fn.rs:19:17
|
LL | let _ = Fail::<T>::C;
| ^^^^^^^^^^^^
note: the above error was encountered while instantiating `fn not_called::<i32>`
--> $DIR/collect-in-dead-fn.rs:26:9
|
LL | not_called::<T>();
| ^^^^^^^^^^^^^^^
error: aborting due to 1 previous error
For more information about this error, try `rustc --explain E0080`.

7
tests/ui/consts/required-consts/collect-in-dead-fn.rs
View File

@ -1,15 +1,12 @@
//@revisions: noopt opt
//@[noopt] build-fail
//@ build-fail
//@[opt] compile-flags: -O
//FIXME: `opt` revision currently does not stop with an error due to
//<https://github.com/rust-lang/rust/issues/107503>.
//@[opt] build-pass
//! Make sure we detect erroneous constants post-monomorphization even when they are unused. This is
//! crucial, people rely on it for soundness. (https://github.com/rust-lang/rust/issues/112090)
struct Fail<T>(T);
impl<T> Fail<T> {
const C: () = panic!(); //[noopt]~ERROR evaluation of `Fail::<i32>::C` failed
const C: () = panic!(); //~ERROR evaluation of `Fail::<i32>::C` failed
}
// This function is not actually called, but it is mentioned in dead code in a function that is

20
tests/ui/consts/required-consts/collect-in-dead-fnptr-in-const.noopt.stderr Normal file
View File

@ -0,0 +1,20 @@
error[E0080]: evaluation of `Late::<i32>::FAIL` failed
--> $DIR/collect-in-dead-fnptr-in-const.rs:8:22
|
LL | const FAIL: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-fnptr-in-const.rs:8:22
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-fnptr-in-const.rs:9:28
|
LL | const FNPTR: fn() = || Self::FAIL;
| ^^^^^^^^^^
note: the above error was encountered while instantiating `fn Late::<i32>::FNPTR::{closure#0}`
--> $SRC_DIR/core/src/ops/function.rs:LL:COL
error: aborting due to 1 previous error
For more information about this error, try `rustc --explain E0080`.

20
tests/ui/consts/required-consts/collect-in-dead-fnptr-in-const.opt.stderr Normal file
View File

@ -0,0 +1,20 @@
error[E0080]: evaluation of `Late::<i32>::FAIL` failed
--> $DIR/collect-in-dead-fnptr-in-const.rs:8:22
|
LL | const FAIL: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-fnptr-in-const.rs:8:22
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-fnptr-in-const.rs:9:28
|
LL | const FNPTR: fn() = || Self::FAIL;
| ^^^^^^^^^^
note: the above error was encountered while instantiating `fn Late::<i32>::FNPTR::{closure#0}`
--> $SRC_DIR/core/src/ops/function.rs:LL:COL
error: aborting due to 1 previous error
For more information about this error, try `rustc --explain E0080`.

33
tests/ui/consts/required-consts/collect-in-dead-fnptr-in-const.rs Normal file
View File

@ -0,0 +1,33 @@
//@revisions: noopt opt
//@ build-fail
//@[opt] compile-flags: -O
//! This fails without optimizations, so it should also fail with optimizations.
struct Late<T>(T);
impl<T> Late<T> {
const FAIL: () = panic!(); //~ERROR evaluation of `Late::<i32>::FAIL` failed
const FNPTR: fn() = || Self::FAIL;
}
// This function is not actually called, but it is mentioned in dead code in a function that is
// called. The function then mentions a const that evaluates to a fnptr that points to a function
// that used a const that fails to evaluate.
// This tests that when processing mentioned items, we also check the fnptrs in the final values
// of consts that we encounter.
#[inline(never)]
fn not_called<T>() {
if false {
let _ = Late::<T>::FNPTR;
}
}
#[inline(never)]
fn called<T>() {
if false {
not_called::<T>();
}
}
pub fn main() {
called::<i32>();
}

23
tests/ui/consts/required-consts/collect-in-dead-fnptr.noopt.stderr Normal file
View File

@ -0,0 +1,23 @@
error[E0080]: evaluation of `Fail::<i32>::C` failed
--> $DIR/collect-in-dead-fnptr.rs:8:19
|
LL | const C: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-fnptr.rs:8:19
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-fnptr.rs:17:17
|
LL | let _ = Fail::<T>::C;
| ^^^^^^^^^^^^
note: the above error was encountered while instantiating `fn not_called::<i32>`
--> $DIR/collect-in-dead-fnptr.rs:26:28
|
LL | let _fnptr: fn() = not_called::<T>;
| ^^^^^^^^^^^^^^^
error: aborting due to 1 previous error
For more information about this error, try `rustc --explain E0080`.

23
tests/ui/consts/required-consts/collect-in-dead-fnptr.opt.stderr Normal file
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@ -0,0 +1,23 @@
error[E0080]: evaluation of `Fail::<i32>::C` failed
--> $DIR/collect-in-dead-fnptr.rs:8:19
|
LL | const C: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-fnptr.rs:8:19
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-fnptr.rs:17:17
|
LL | let _ = Fail::<T>::C;
| ^^^^^^^^^^^^
note: the above error was encountered while instantiating `fn not_called::<i32>`
--> $DIR/collect-in-dead-fnptr.rs:26:28
|
LL | let _fnptr: fn() = not_called::<T>;
| ^^^^^^^^^^^^^^^
error: aborting due to 1 previous error
For more information about this error, try `rustc --explain E0080`.

32
tests/ui/consts/required-consts/collect-in-dead-fnptr.rs Normal file
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@ -0,0 +1,32 @@
//@revisions: noopt opt
//@ build-fail
//@[opt] compile-flags: -O
//! This fails without optimizations, so it should also fail with optimizations.
struct Fail<T>(T);
impl<T> Fail<T> {
const C: () = panic!(); //~ERROR evaluation of `Fail::<i32>::C` failed
}
// This function is not actually called, but it is mentioned in dead code in a function that is
// called. Make sure we still find this error.
// This ensures that we consider ReifyFnPointer coercions when gathering "mentioned" items.
#[inline(never)]
fn not_called<T>() {
if false {
let _ = Fail::<T>::C;
}
}
#[inline(never)]
fn called<T>() {
if false {
// We don't call the function, but turn it to a function pointer.
// Make sure it still gest added to `mentioned_items`.
let _fnptr: fn() = not_called::<T>;
}
}
pub fn main() {
called::<i32>();
}

6
tests/ui/consts/required-consts/collect-in-dead-move.noopt.stderr
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@ -1,13 +1,13 @@
error[E0080]: evaluation of `Fail::<i32>::C` failed
--> $DIR/collect-in-dead-move.rs:12:19
--> $DIR/collect-in-dead-move.rs:9:19
|
LL | const C: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-move.rs:12:19
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-move.rs:9:19
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-move.rs:19:17
--> $DIR/collect-in-dead-move.rs:16:17
|
LL | let _ = Fail::<T>::C;
| ^^^^^^^^^^^^

20
tests/ui/consts/required-consts/collect-in-dead-move.opt.stderr Normal file
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@ -0,0 +1,20 @@
error[E0080]: evaluation of `Fail::<i32>::C` failed
--> $DIR/collect-in-dead-move.rs:9:19
|
LL | const C: () = panic!();
| ^^^^^^^^ the evaluated program panicked at 'explicit panic', $DIR/collect-in-dead-move.rs:9:19
|
= note: this error originates in the macro `$crate::panic::panic_2015` which comes from the expansion of the macro `panic` (in Nightly builds, run with -Z macro-backtrace for more info)
note: erroneous constant encountered
--> $DIR/collect-in-dead-move.rs:16:17
|
LL | let _ = Fail::<T>::C;
| ^^^^^^^^^^^^
note: the above error was encountered while instantiating `fn <Fail<i32> as std::ops::Drop>::drop`
--> $SRC_DIR/core/src/ptr/mod.rs:LL:COL
error: aborting due to 1 previous error
For more information about this error, try `rustc --explain E0080`.

7
tests/ui/consts/required-consts/collect-in-dead-move.rs
View File

@ -1,15 +1,12 @@
//@revisions: noopt opt
//@[noopt] build-fail
//@ build-fail
//@[opt] compile-flags: -O
//FIXME: `opt` revision currently does not stop with an error due to
//<https://github.com/rust-lang/rust/issues/107503>.
//@[opt] build-pass
//! Make sure we detect erroneous constants post-monomorphization even when they are unused. This is
//! crucial, people rely on it for soundness. (https://github.com/rust-lang/rust/issues/112090)
struct Fail<T>(T);
impl<T> Fail<T> {
const C: () = panic!(); //[noopt]~ERROR evaluation of `Fail::<i32>::C` failed
const C: () = panic!(); //~ERROR evaluation of `Fail::<i32>::C` failed
}
// This function is not actually called, but is mentioned implicitly as destructor in dead code in a