Optimizing: Move optimization objects to Arena.
This should reduce the stack size needed by the
OptimizingCompiler::CompileOptimized() which was very
close to our limits for clang builds, causing repeated
build breakages on otherwise healthy changes:
art/compiler/optimizing/optimizing_compiler.cc:395:37:
error: stack frame size of 1760 bytes in function
'art::OptimizingCompiler::CompileOptimized'
[-Werror,-Wframe-larger-than=]
Change-Id: I2f4ab0235f4eac61823a4a320bb4fe78942a23c2
diff --git a/compiler/optimizing/optimizing_compiler.cc b/compiler/optimizing/optimizing_compiler.cc
index bf0b9fa..303a7cb 100644
--- a/compiler/optimizing/optimizing_compiler.cc
+++ b/compiler/optimizing/optimizing_compiler.cc
@@ -318,49 +318,55 @@
const DexCompilationUnit& dex_compilation_unit,
PassInfoPrinter* pass_info_printer,
StackHandleScopeCollection* handles) {
- HDeadCodeElimination dce1(graph, stats,
- HDeadCodeElimination::kInitialDeadCodeEliminationPassName);
- HDeadCodeElimination dce2(graph, stats,
- HDeadCodeElimination::kFinalDeadCodeEliminationPassName);
- HConstantFolding fold1(graph);
- InstructionSimplifier simplify1(graph, stats);
- HBooleanSimplifier boolean_simplify(graph);
+ ArenaAllocator* arena = graph->GetArena();
+ HDeadCodeElimination* dce1 = new (arena) HDeadCodeElimination(
+ graph, stats, HDeadCodeElimination::kInitialDeadCodeEliminationPassName);
+ HDeadCodeElimination* dce2 = new (arena) HDeadCodeElimination(
+ graph, stats, HDeadCodeElimination::kFinalDeadCodeEliminationPassName);
+ HConstantFolding* fold1 = new (arena) HConstantFolding(graph);
+ InstructionSimplifier* simplify1 = new (arena) InstructionSimplifier(graph, stats);
+ HBooleanSimplifier* boolean_simplify = new (arena) HBooleanSimplifier(graph);
- HInliner inliner(graph, dex_compilation_unit, dex_compilation_unit, driver, handles, stats);
+ HInliner* inliner = new (arena) HInliner(
+ graph, dex_compilation_unit, dex_compilation_unit, driver, handles, stats);
- HConstantFolding fold2(graph, "constant_folding_after_inlining");
- SideEffectsAnalysis side_effects(graph);
- GVNOptimization gvn(graph, side_effects);
- LICM licm(graph, side_effects);
- BoundsCheckElimination bce(graph);
- ReferenceTypePropagation type_propagation(graph, handles);
- InstructionSimplifier simplify2(graph, stats, "instruction_simplifier_after_types");
- InstructionSimplifier simplify3(graph, stats, "last_instruction_simplifier");
- ReferenceTypePropagation type_propagation2(graph, handles);
+ HConstantFolding* fold2 = new (arena) HConstantFolding(graph, "constant_folding_after_inlining");
+ SideEffectsAnalysis* side_effects = new (arena) SideEffectsAnalysis(graph);
+ GVNOptimization* gvn = new (arena) GVNOptimization(graph, *side_effects);
+ LICM* licm = new (arena) LICM(graph, *side_effects);
+ BoundsCheckElimination* bce = new (arena) BoundsCheckElimination(graph);
+ ReferenceTypePropagation* type_propagation =
+ new (arena) ReferenceTypePropagation(graph, handles);
+ InstructionSimplifier* simplify2 = new (arena) InstructionSimplifier(
+ graph, stats, "instruction_simplifier_after_types");
+ InstructionSimplifier* simplify3 = new (arena) InstructionSimplifier(
+ graph, stats, "last_instruction_simplifier");
+ ReferenceTypePropagation* type_propagation2 =
+ new (arena) ReferenceTypePropagation(graph, handles);
- IntrinsicsRecognizer intrinsics(graph, driver);
+ IntrinsicsRecognizer* intrinsics = new (arena) IntrinsicsRecognizer(graph, driver);
HOptimization* optimizations[] = {
- &intrinsics,
- &dce1,
- &fold1,
- &simplify1,
- &type_propagation,
- &simplify2,
- &inliner,
+ intrinsics,
+ dce1,
+ fold1,
+ simplify1,
+ type_propagation,
+ simplify2,
+ inliner,
// Run another type propagation phase: inlining will open up more opprotunities
// to remove checkast/instanceof and null checks.
- &type_propagation2,
+ type_propagation2,
// BooleanSimplifier depends on the InstructionSimplifier removing redundant
// suspend checks to recognize empty blocks.
- &boolean_simplify,
- &fold2,
- &side_effects,
- &gvn,
- &licm,
- &bce,
- &simplify3,
- &dce2,
+ boolean_simplify,
+ fold2,
+ side_effects,
+ gvn,
+ licm,
+ bce,
+ simplify3,
+ dce2,
};
RunOptimizations(optimizations, arraysize(optimizations), pass_info_printer);