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Only collect mono items from reachable blocks
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e78913baef
commit
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@ -257,20 +257,19 @@ pub fn codegen_mir<'a, 'tcx, Bx: BuilderMethods<'a, 'tcx>>(
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// Apply debuginfo to the newly allocated locals.
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fx.debug_introduce_locals(&mut start_bx);
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let reachable_blocks = mir.reachable_blocks_in_mono(cx.tcx(), instance);
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// The builders will be created separately for each basic block at `codegen_block`.
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// So drop the builder of `start_llbb` to avoid having two at the same time.
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drop(start_bx);
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let reachable_blocks = traversal::mono_reachable_as_bitset(mir, cx.tcx(), instance);
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// Codegen the body of each block using reverse postorder
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for (bb, _) in traversal::reverse_postorder(mir) {
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if reachable_blocks.contains(bb) {
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fx.codegen_block(bb);
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} else {
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// This may have references to things we didn't monomorphize, so we
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// don't actually codegen the body. We still create the block so
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// terminators in other blocks can reference it without worry.
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// We want to skip this block, because it's not reachable. But we still create
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// the block so terminators in other blocks can reference it.
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fx.codegen_block_as_unreachable(bb);
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}
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}
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@ -30,7 +30,6 @@ pub use rustc_ast::Mutability;
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use rustc_data_structures::fx::FxHashMap;
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use rustc_data_structures::fx::FxHashSet;
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use rustc_data_structures::graph::dominators::Dominators;
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use rustc_data_structures::stack::ensure_sufficient_stack;
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use rustc_index::bit_set::BitSet;
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use rustc_index::{Idx, IndexSlice, IndexVec};
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use rustc_serialize::{Decodable, Encodable};
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@ -687,57 +686,6 @@ impl<'tcx> Body<'tcx> {
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self.injection_phase.is_some()
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}
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/// Finds which basic blocks are actually reachable for a specific
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/// monomorphization of this body.
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///
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/// This is allowed to have false positives; just because this says a block
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/// is reachable doesn't mean that's necessarily true. It's thus always
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/// legal for this to return a filled set.
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///
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/// Regardless, the [`BitSet::domain_size`] of the returned set will always
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/// exactly match the number of blocks in the body so that `contains`
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/// checks can be done without worrying about panicking.
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///
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/// This is mostly useful because it lets us skip lowering the `false` side
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/// of `if <T as Trait>::CONST`, as well as `intrinsics::debug_assertions`.
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pub fn reachable_blocks_in_mono(
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&self,
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tcx: TyCtxt<'tcx>,
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instance: Instance<'tcx>,
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) -> BitSet<BasicBlock> {
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let mut set = BitSet::new_empty(self.basic_blocks.len());
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self.reachable_blocks_in_mono_from(tcx, instance, &mut set, START_BLOCK);
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set
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}
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fn reachable_blocks_in_mono_from(
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&self,
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tcx: TyCtxt<'tcx>,
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instance: Instance<'tcx>,
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set: &mut BitSet<BasicBlock>,
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bb: BasicBlock,
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) {
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if !set.insert(bb) {
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return;
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}
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let data = &self.basic_blocks[bb];
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if let Some((bits, targets)) = Self::try_const_mono_switchint(tcx, instance, data) {
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let target = targets.target_for_value(bits);
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ensure_sufficient_stack(|| {
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self.reachable_blocks_in_mono_from(tcx, instance, set, target)
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});
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return;
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}
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for target in data.terminator().successors() {
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ensure_sufficient_stack(|| {
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self.reachable_blocks_in_mono_from(tcx, instance, set, target)
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});
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}
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}
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/// If this basic block ends with a [`TerminatorKind::SwitchInt`] for which we can evaluate the
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/// dimscriminant in monomorphization, we return the discriminant bits and the
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/// [`SwitchTargets`], just so the caller doesn't also have to match on the terminator.
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@ -245,7 +245,7 @@ pub fn reachable<'a, 'tcx>(
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/// Returns a `BitSet` containing all basic blocks reachable from the `START_BLOCK`.
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pub fn reachable_as_bitset(body: &Body<'_>) -> BitSet<BasicBlock> {
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let mut iter = preorder(body);
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iter.by_ref().for_each(drop);
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while let Some(_) = iter.next() {}
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iter.visited
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}
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@ -279,3 +279,97 @@ pub fn reverse_postorder<'a, 'tcx>(
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{
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body.basic_blocks.reverse_postorder().iter().map(|&bb| (bb, &body.basic_blocks[bb]))
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}
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/// Traversal of a [`Body`] that tries to avoid unreachable blocks in a monomorphized [`Instance`].
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///
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/// This is allowed to have false positives; blocks may be visited even if they are not actually
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/// reachable.
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///
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/// Such a traversal is mostly useful because it lets us skip lowering the `false` side
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/// of `if <T as Trait>::CONST`, as well as [`NullOp::UbChecks`].
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///
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/// [`NullOp::UbChecks`]: rustc_middle::mir::NullOp::UbChecks
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pub fn mono_reachable<'a, 'tcx>(
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body: &'a Body<'tcx>,
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tcx: TyCtxt<'tcx>,
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instance: Instance<'tcx>,
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) -> MonoReachable<'a, 'tcx> {
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MonoReachable::new(body, tcx, instance)
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}
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/// [`MonoReachable`] internally accumulates a [`BitSet`] of visited blocks. This is just a
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/// convenience function to run that traversal then extract its set of reached blocks.
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pub fn mono_reachable_as_bitset<'a, 'tcx>(
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body: &'a Body<'tcx>,
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tcx: TyCtxt<'tcx>,
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instance: Instance<'tcx>,
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) -> BitSet<BasicBlock> {
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let mut iter = mono_reachable(body, tcx, instance);
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while let Some(_) = iter.next() {}
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iter.visited
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}
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pub struct MonoReachable<'a, 'tcx> {
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body: &'a Body<'tcx>,
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tcx: TyCtxt<'tcx>,
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instance: Instance<'tcx>,
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visited: BitSet<BasicBlock>,
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// Other traversers track their worklist in a Vec. But we don't care about order, so we can
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// store ours in a BitSet and thus save allocations because BitSet has a small size
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// optimization.
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worklist: BitSet<BasicBlock>,
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}
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impl<'a, 'tcx> MonoReachable<'a, 'tcx> {
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pub fn new(
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body: &'a Body<'tcx>,
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tcx: TyCtxt<'tcx>,
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instance: Instance<'tcx>,
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) -> MonoReachable<'a, 'tcx> {
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let mut worklist = BitSet::new_empty(body.basic_blocks.len());
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worklist.insert(START_BLOCK);
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MonoReachable {
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body,
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tcx,
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instance,
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visited: BitSet::new_empty(body.basic_blocks.len()),
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worklist,
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}
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}
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fn add_work(&mut self, blocks: impl IntoIterator<Item = BasicBlock>) {
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for block in blocks.into_iter() {
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if !self.visited.contains(block) {
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self.worklist.insert(block);
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}
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}
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}
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}
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impl<'a, 'tcx> Iterator for MonoReachable<'a, 'tcx> {
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type Item = (BasicBlock, &'a BasicBlockData<'tcx>);
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fn next(&mut self) -> Option<(BasicBlock, &'a BasicBlockData<'tcx>)> {
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while let Some(idx) = self.worklist.iter().next() {
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self.worklist.remove(idx);
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if !self.visited.insert(idx) {
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continue;
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}
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let data = &self.body[idx];
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if let Some((bits, targets)) =
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Body::try_const_mono_switchint(self.tcx, self.instance, data)
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{
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let target = targets.target_for_value(bits);
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self.add_work([target]);
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} else {
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self.add_work(data.terminator().successors());
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}
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return Some((idx, data));
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}
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None
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}
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}
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@ -214,6 +214,7 @@ use rustc_hir::lang_items::LangItem;
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use rustc_middle::middle::codegen_fn_attrs::CodegenFnAttrFlags;
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use rustc_middle::mir::interpret::{AllocId, ErrorHandled, GlobalAlloc, Scalar};
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use rustc_middle::mir::mono::{InstantiationMode, MonoItem};
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use rustc_middle::mir::traversal;
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use rustc_middle::mir::visit::Visitor as MirVisitor;
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use rustc_middle::mir::{self, Location, MentionedItem};
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use rustc_middle::query::TyCtxtAt;
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@ -1414,17 +1415,18 @@ fn collect_items_of_instance<'tcx>(
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};
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if mode == CollectionMode::UsedItems {
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// Visit everything. Here we rely on the visitor also visiting `required_consts`, so that we
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// evaluate them and abort compilation if any of them errors.
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collector.visit_body(body);
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} else {
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// We only need to evaluate all constants, but can ignore the rest of the MIR.
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for (bb, data) in traversal::mono_reachable(body, tcx, instance) {
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collector.visit_basic_block_data(bb, data)
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}
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}
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// Always visit all `required_consts`, so that we evaluate them and abort compilation if any of
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// them errors.
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for const_op in &body.required_consts {
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if let Some(val) = collector.eval_constant(const_op) {
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collect_const_value(tcx, val, mentioned_items);
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}
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}
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}
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// Always gather mentioned items. We try to avoid processing items that we have already added to
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// `used_items` above.
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