Remove the make_target_blocks
hack
It was introduced 4 years ago in a1d0266878
to improve LLVM
optimization time. Measurements today indicate it is no longer needed.
This commit is contained in:
parent
4d1bd0db7f
commit
31bad13f82
@ -1699,59 +1699,51 @@ fn test_candidates<'pat, 'b, 'c>(
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debug!("tested_candidates: {}", total_candidate_count - candidates.len());
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debug!("untested_candidates: {}", candidates.len());
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// HACK(matthewjasper) This is a closure so that we can let the test
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// create its blocks before the rest of the match. This currently
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// improves the speed of llvm when optimizing long string literal
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// matches
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let make_target_blocks = move |this: &mut Self| -> Vec<BasicBlock> {
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// The block that we should branch to if none of the
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// `target_candidates` match. This is either the block where we
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// start matching the untested candidates if there are any,
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// otherwise it's the `otherwise_block`.
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let remainder_start = &mut None;
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let remainder_start =
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if candidates.is_empty() { &mut *otherwise_block } else { remainder_start };
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// The block that we should branch to if none of the
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// `target_candidates` match. This is either the block where we
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// start matching the untested candidates if there are any,
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// otherwise it's the `otherwise_block`.
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let remainder_start = &mut None;
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let remainder_start =
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if candidates.is_empty() { &mut *otherwise_block } else { remainder_start };
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// For each outcome of test, process the candidates that still
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// apply. Collect a list of blocks where control flow will
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// branch if one of the `target_candidate` sets is not
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// exhaustive.
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let target_blocks: Vec<_> = target_candidates
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.into_iter()
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.map(|mut candidates| {
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if !candidates.is_empty() {
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let candidate_start = this.cfg.start_new_block();
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this.match_candidates(
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span,
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scrutinee_span,
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candidate_start,
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remainder_start,
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&mut *candidates,
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fake_borrows,
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);
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candidate_start
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} else {
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*remainder_start.get_or_insert_with(|| this.cfg.start_new_block())
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}
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})
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.collect();
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// For each outcome of test, process the candidates that still
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// apply. Collect a list of blocks where control flow will
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// branch if one of the `target_candidate` sets is not
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// exhaustive.
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let target_blocks: Vec<_> = target_candidates
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.into_iter()
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.map(|mut candidates| {
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if !candidates.is_empty() {
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let candidate_start = self.cfg.start_new_block();
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self.match_candidates(
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span,
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scrutinee_span,
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candidate_start,
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remainder_start,
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&mut *candidates,
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fake_borrows,
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);
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candidate_start
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} else {
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*remainder_start.get_or_insert_with(|| self.cfg.start_new_block())
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}
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})
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.collect();
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if !candidates.is_empty() {
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let remainder_start = remainder_start.unwrap_or_else(|| this.cfg.start_new_block());
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this.match_candidates(
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span,
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scrutinee_span,
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remainder_start,
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otherwise_block,
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candidates,
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fake_borrows,
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);
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};
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if !candidates.is_empty() {
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let remainder_start = remainder_start.unwrap_or_else(|| self.cfg.start_new_block());
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self.match_candidates(
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span,
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scrutinee_span,
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remainder_start,
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otherwise_block,
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candidates,
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fake_borrows,
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);
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}
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target_blocks
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};
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self.perform_test(span, scrutinee_span, block, &match_place, &test, make_target_blocks);
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self.perform_test(span, scrutinee_span, block, &match_place, &test, target_blocks);
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}
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/// Determine the fake borrows that are needed from a set of places that
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@ -147,7 +147,7 @@ pub(super) fn add_variants_to_switch<'pat>(
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}
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}
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#[instrument(skip(self, make_target_blocks, place_builder), level = "debug")]
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#[instrument(skip(self, target_blocks, place_builder), level = "debug")]
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pub(super) fn perform_test(
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&mut self,
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match_start_span: Span,
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@ -155,7 +155,7 @@ pub(super) fn perform_test(
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block: BasicBlock,
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place_builder: &PlaceBuilder<'tcx>,
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test: &Test<'tcx>,
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make_target_blocks: impl FnOnce(&mut Self) -> Vec<BasicBlock>,
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target_blocks: Vec<BasicBlock>,
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) {
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let place = place_builder.to_place(self);
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let place_ty = place.ty(&self.local_decls, self.tcx);
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@ -164,7 +164,6 @@ pub(super) fn perform_test(
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let source_info = self.source_info(test.span);
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match test.kind {
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TestKind::Switch { adt_def, ref variants } => {
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let target_blocks = make_target_blocks(self);
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// Variants is a BitVec of indexes into adt_def.variants.
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let num_enum_variants = adt_def.variants().len();
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debug_assert_eq!(target_blocks.len(), num_enum_variants + 1);
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@ -210,7 +209,6 @@ pub(super) fn perform_test(
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}
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TestKind::SwitchInt { switch_ty, ref options } => {
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let target_blocks = make_target_blocks(self);
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let terminator = if *switch_ty.kind() == ty::Bool {
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assert!(!options.is_empty() && options.len() <= 2);
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let [first_bb, second_bb] = *target_blocks else {
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@ -240,6 +238,9 @@ pub(super) fn perform_test(
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TestKind::Eq { value, ty } => {
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let tcx = self.tcx;
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let [success_block, fail_block] = *target_blocks else {
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bug!("`TestKind::Eq` should have two target blocks")
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};
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if let ty::Adt(def, _) = ty.kind()
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&& Some(def.did()) == tcx.lang_items().string()
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{
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@ -280,38 +281,43 @@ pub(super) fn perform_test(
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);
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self.non_scalar_compare(
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eq_block,
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make_target_blocks,
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success_block,
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fail_block,
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source_info,
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value,
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ref_str,
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ref_str_ty,
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);
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return;
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}
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if !ty.is_scalar() {
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} else if !ty.is_scalar() {
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// Use `PartialEq::eq` instead of `BinOp::Eq`
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// (the binop can only handle primitives)
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self.non_scalar_compare(
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block,
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make_target_blocks,
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success_block,
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fail_block,
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source_info,
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value,
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place,
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ty,
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);
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} else if let [success, fail] = *make_target_blocks(self) {
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} else {
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assert_eq!(value.ty(), ty);
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let expect = self.literal_operand(test.span, value);
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let val = Operand::Copy(place);
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self.compare(block, success, fail, source_info, BinOp::Eq, expect, val);
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} else {
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bug!("`TestKind::Eq` should have two target blocks");
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self.compare(
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block,
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success_block,
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fail_block,
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source_info,
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BinOp::Eq,
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expect,
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val,
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);
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}
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}
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TestKind::Range(ref range) => {
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let lower_bound_success = self.cfg.start_new_block();
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let target_blocks = make_target_blocks(self);
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// Test `val` by computing `lo <= val && val <= hi`, using primitive comparisons.
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// FIXME: skip useless comparison when the range is half-open.
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@ -341,8 +347,6 @@ pub(super) fn perform_test(
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}
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TestKind::Len { len, op } => {
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let target_blocks = make_target_blocks(self);
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let usize_ty = self.tcx.types.usize;
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let actual = self.temp(usize_ty, test.span);
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@ -406,7 +410,8 @@ fn compare(
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fn non_scalar_compare(
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&mut self,
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block: BasicBlock,
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make_target_blocks: impl FnOnce(&mut Self) -> Vec<BasicBlock>,
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success_block: BasicBlock,
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fail_block: BasicBlock,
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source_info: SourceInfo,
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value: Const<'tcx>,
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mut val: Place<'tcx>,
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@ -531,9 +536,6 @@ fn non_scalar_compare(
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);
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self.diverge_from(block);
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let [success_block, fail_block] = *make_target_blocks(self) else {
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bug!("`TestKind::Eq` should have two target blocks")
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};
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// check the result
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self.cfg.terminate(
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eq_block,
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@ -38,22 +38,22 @@ fn match_tuple(_1: (u32, bool, Option<i32>, u32)) -> u32 {
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bb4: {
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_5 = Le(const 6_u32, (_1.3: u32));
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switchInt(move _5) -> [0: bb6, otherwise: bb5];
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switchInt(move _5) -> [0: bb5, otherwise: bb7];
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}
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bb5: {
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_6 = Le((_1.3: u32), const 9_u32);
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switchInt(move _6) -> [0: bb6, otherwise: bb8];
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_3 = Le(const 13_u32, (_1.3: u32));
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switchInt(move _3) -> [0: bb1, otherwise: bb6];
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}
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bb6: {
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_3 = Le(const 13_u32, (_1.3: u32));
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switchInt(move _3) -> [0: bb1, otherwise: bb7];
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_4 = Le((_1.3: u32), const 16_u32);
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switchInt(move _4) -> [0: bb1, otherwise: bb8];
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}
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bb7: {
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_4 = Le((_1.3: u32), const 16_u32);
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switchInt(move _4) -> [0: bb1, otherwise: bb8];
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_6 = Le((_1.3: u32), const 9_u32);
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switchInt(move _6) -> [0: bb5, otherwise: bb8];
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}
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bb8: {
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@ -28,43 +28,43 @@ fn main() -> () {
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StorageLive(_3);
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PlaceMention(_1);
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_6 = Le(const 0_i32, _1);
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switchInt(move _6) -> [0: bb4, otherwise: bb1];
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switchInt(move _6) -> [0: bb3, otherwise: bb8];
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}
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bb1: {
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_7 = Lt(_1, const 10_i32);
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switchInt(move _7) -> [0: bb4, otherwise: bb2];
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falseEdge -> [real: bb9, imaginary: bb4];
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}
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bb2: {
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falseEdge -> [real: bb9, imaginary: bb6];
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}
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bb3: {
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_3 = const 3_i32;
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goto -> bb14;
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}
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bb4: {
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bb3: {
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_4 = Le(const 10_i32, _1);
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switchInt(move _4) -> [0: bb7, otherwise: bb5];
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switchInt(move _4) -> [0: bb5, otherwise: bb7];
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}
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bb4: {
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falseEdge -> [real: bb12, imaginary: bb6];
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}
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bb5: {
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_5 = Le(_1, const 20_i32);
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switchInt(move _5) -> [0: bb7, otherwise: bb6];
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switchInt(_1) -> [4294967295: bb6, otherwise: bb2];
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}
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bb6: {
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falseEdge -> [real: bb12, imaginary: bb8];
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falseEdge -> [real: bb13, imaginary: bb2];
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}
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bb7: {
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switchInt(_1) -> [4294967295: bb8, otherwise: bb3];
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_5 = Le(_1, const 20_i32);
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switchInt(move _5) -> [0: bb5, otherwise: bb4];
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}
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bb8: {
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falseEdge -> [real: bb13, imaginary: bb3];
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_7 = Lt(_1, const 10_i32);
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switchInt(move _7) -> [0: bb3, otherwise: bb1];
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}
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bb9: {
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@ -83,7 +83,7 @@ fn main() -> () {
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bb11: {
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StorageDead(_9);
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falseEdge -> [real: bb3, imaginary: bb6];
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falseEdge -> [real: bb2, imaginary: bb4];
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}
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bb12: {
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