/* * Copyright (C) 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "bounds_check_elimination.h" #include "base/arena_allocator.h" #include "base/macros.h" #include "builder.h" #include "gvn.h" #include "induction_var_analysis.h" #include "instruction_simplifier.h" #include "nodes.h" #include "optimizing_unit_test.h" #include "side_effects_analysis.h" #include "gtest/gtest.h" namespace art HIDDEN { /** * Fixture class for the BoundsCheckElimination tests. */ class BoundsCheckEliminationTest : public OptimizingUnitTest { public: void RunBCE() { graph_->SetHasBoundsChecks(true); graph_->BuildDominatorTree(); InstructionSimplifier(graph_, /* codegen= */ nullptr).Run(); SideEffectsAnalysis side_effects(graph_); side_effects.Run(); GVNOptimization(graph_, side_effects).Run(); HInductionVarAnalysis induction(graph_); induction.Run(); BoundsCheckElimination(graph_, side_effects, &induction).Run(); } HInstruction* BuildSSAGraph1(int initial, int increment, IfCondition cond = kCondGE); HInstruction* BuildSSAGraph2(int initial, int increment = -1, IfCondition cond = kCondLE); HInstruction* BuildSSAGraph3(int initial, int increment, IfCondition cond); HInstruction* BuildSSAGraph4(int initial, IfCondition cond = kCondGE); }; // if (i < 0) { array[i] = 1; // Can't eliminate. } // else if (i >= array.length) { array[i] = 1; // Can't eliminate. } // else { array[i] = 1; // Can eliminate. } TEST_F(BoundsCheckEliminationTest, NarrowingRangeArrayBoundsElimination) { CreateGraph(); HBasicBlock* entry = AddNewBlock(); graph_->SetEntryBlock(entry); HInstruction* parameter1 = MakeParam(DataType::Type::kReference); // array HInstruction* parameter2 = MakeParam(DataType::Type::kInt32); // i HInstruction* constant_1 = graph_->GetIntConstant(1); HInstruction* constant_0 = graph_->GetIntConstant(0); HBasicBlock* block1 = AddNewBlock(); HInstruction* cmp = MakeCondition(block1, kCondGE, parameter2, constant_0); MakeIf(block1, cmp); entry->AddSuccessor(block1); HBasicBlock* block2 = AddNewBlock(); HNullCheck* null_check = MakeNullCheck(block2, parameter1); HArrayLength* array_length = MakeArrayLength(block2, null_check); HBoundsCheck* bounds_check2 = MakeBoundsCheck(block2, parameter2, array_length); MakeArraySet(block2, null_check, bounds_check2, constant_1, DataType::Type::kInt32); HBasicBlock* block3 = AddNewBlock(); null_check = MakeNullCheck(block3, parameter1); array_length = MakeArrayLength(block3, null_check); cmp = MakeCondition(block3, kCondLT, parameter2, array_length); MakeIf(block3, cmp); HBasicBlock* block4 = AddNewBlock(); null_check = MakeNullCheck(block4, parameter1); array_length = MakeArrayLength(block4, null_check); HBoundsCheck* bounds_check4 = MakeBoundsCheck(block4, parameter2, array_length); MakeArraySet(block4, null_check, bounds_check4, constant_1, DataType::Type::kInt32); HBasicBlock* block5 = AddNewBlock(); null_check = MakeNullCheck(block5, parameter1); array_length = MakeArrayLength(block5, null_check); HBoundsCheck* bounds_check5 = MakeBoundsCheck(block5, parameter2, array_length); MakeArraySet(block5, null_check, bounds_check5, constant_1, DataType::Type::kInt32); HBasicBlock* exit = AddNewBlock(); block2->AddSuccessor(exit); block4->AddSuccessor(exit); block5->AddSuccessor(exit); MakeExit(exit); block1->AddSuccessor(block3); // True successor block1->AddSuccessor(block2); // False successor block3->AddSuccessor(block5); // True successor block3->AddSuccessor(block4); // False successor RunBCE(); ASSERT_FALSE(IsRemoved(bounds_check2)); ASSERT_FALSE(IsRemoved(bounds_check4)); ASSERT_TRUE(IsRemoved(bounds_check5)); } // if (i > 0) { // // Positive number plus MAX_INT will overflow and be negative. // int j = i + Integer.MAX_VALUE; // if (j < array.length) array[j] = 1; // Can't eliminate. // } TEST_F(BoundsCheckEliminationTest, OverflowArrayBoundsElimination) { CreateGraph(); HBasicBlock* entry = AddNewBlock(); graph_->SetEntryBlock(entry); HInstruction* parameter1 = MakeParam(DataType::Type::kReference); // array HInstruction* parameter2 = MakeParam(DataType::Type::kInt32); // i HInstruction* constant_1 = graph_->GetIntConstant(1); HInstruction* constant_0 = graph_->GetIntConstant(0); HInstruction* constant_max_int = graph_->GetIntConstant(INT_MAX); HBasicBlock* block1 = AddNewBlock(); HInstruction* cmp = MakeCondition(block1, kCondLE, parameter2, constant_0); MakeIf(block1, cmp); entry->AddSuccessor(block1); HBasicBlock* block2 = AddNewBlock(); HInstruction* add = MakeBinOp(block2, DataType::Type::kInt32, parameter2, constant_max_int); HNullCheck* null_check = MakeNullCheck(block2, parameter1); HArrayLength* array_length = MakeArrayLength(block2, null_check); HInstruction* cmp2 = MakeCondition(block2, kCondGE, add, array_length); MakeIf(block2, cmp2); HBasicBlock* block3 = AddNewBlock(); HBoundsCheck* bounds_check = MakeBoundsCheck(block3, add, array_length); MakeArraySet(block3, null_check, bounds_check, constant_1, DataType::Type::kInt32); HBasicBlock* exit = AddNewBlock(); MakeExit(exit); block1->AddSuccessor(exit); // true successor block1->AddSuccessor(block2); // false successor block2->AddSuccessor(exit); // true successor block2->AddSuccessor(block3); // false successor block3->AddSuccessor(exit); RunBCE(); ASSERT_FALSE(IsRemoved(bounds_check)); } // if (i < array.length) { // int j = i - Integer.MAX_VALUE; // j = j - Integer.MAX_VALUE; // j is (i+2) after subtracting MAX_INT twice // if (j > 0) array[j] = 1; // Can't eliminate. // } TEST_F(BoundsCheckEliminationTest, UnderflowArrayBoundsElimination) { CreateGraph(); HBasicBlock* entry = AddNewBlock(); graph_->SetEntryBlock(entry); HInstruction* parameter1 = MakeParam(DataType::Type::kReference); // array HInstruction* parameter2 = MakeParam(DataType::Type::kInt32); // i HInstruction* constant_1 = graph_->GetIntConstant(1); HInstruction* constant_0 = graph_->GetIntConstant(0); HInstruction* constant_max_int = graph_->GetIntConstant(INT_MAX); HBasicBlock* block1 = AddNewBlock(); HNullCheck* null_check = MakeNullCheck(block1, parameter1); HArrayLength* array_length = MakeArrayLength(block1, null_check); HInstruction* cmp = MakeCondition(block1, kCondGE, parameter2, array_length); MakeIf(block1, cmp); entry->AddSuccessor(block1); HBasicBlock* block2 = AddNewBlock(); HInstruction* sub1 = MakeBinOp(block2, DataType::Type::kInt32, parameter2, constant_max_int); HInstruction* sub2 = MakeBinOp(block2, DataType::Type::kInt32, sub1, constant_max_int); HInstruction* cmp2 = MakeCondition(block2, kCondLE, sub2, constant_0); MakeIf(block2, cmp2); HBasicBlock* block3 = AddNewBlock(); HBoundsCheck* bounds_check = MakeBoundsCheck(block3, sub2, array_length); MakeArraySet(block3, null_check, bounds_check, constant_1, DataType::Type::kInt32); HBasicBlock* exit = AddNewBlock(); MakeExit(exit); block1->AddSuccessor(exit); // true successor block1->AddSuccessor(block2); // false successor block2->AddSuccessor(exit); // true successor block2->AddSuccessor(block3); // false successor block3->AddSuccessor(exit); RunBCE(); ASSERT_FALSE(IsRemoved(bounds_check)); } // array[6] = 1; // Can't eliminate. // array[5] = 1; // Can eliminate. // array[4] = 1; // Can eliminate. TEST_F(BoundsCheckEliminationTest, ConstantArrayBoundsElimination) { HBasicBlock* block = InitEntryMainExitGraphWithReturnVoid(); HInstruction* parameter = MakeParam(DataType::Type::kReference); HInstruction* constant_5 = graph_->GetIntConstant(5); HInstruction* constant_4 = graph_->GetIntConstant(4); HInstruction* constant_6 = graph_->GetIntConstant(6); HInstruction* constant_1 = graph_->GetIntConstant(1); HNullCheck* null_check = MakeNullCheck(block, parameter); HArrayLength* array_length = MakeArrayLength(block, null_check); HBoundsCheck* bounds_check6 = MakeBoundsCheck(block, constant_6, array_length); MakeArraySet(block, null_check, bounds_check6, constant_1, DataType::Type::kInt32); null_check = MakeNullCheck(block, parameter); array_length = MakeArrayLength(block, null_check); HBoundsCheck* bounds_check5 = MakeBoundsCheck(block, constant_5, array_length); MakeArraySet(block, null_check, bounds_check5, constant_1, DataType::Type::kInt32); null_check = MakeNullCheck(block, parameter); array_length = MakeArrayLength(block, null_check); HBoundsCheck* bounds_check4 = MakeBoundsCheck(block, constant_4, array_length); MakeArraySet(block, null_check, bounds_check4, constant_1, DataType::Type::kInt32); RunBCE(); ASSERT_FALSE(IsRemoved(bounds_check6)); ASSERT_TRUE(IsRemoved(bounds_check5)); ASSERT_TRUE(IsRemoved(bounds_check4)); } // for (int i=initial; iGetIntConstant(10); auto [phi, add] = MakeLinearLoopVar(loop_header, loop_body, initial, increment); HInstruction* null_check = MakeNullCheck(loop_header, parameter); HInstruction* array_length = MakeArrayLength(loop_header, null_check); DCHECK(cond == kCondGE || cond == kCondGT) << cond; HInstruction* cmp = MakeCondition(loop_header, cond, phi, array_length); MakeIf(loop_header, cmp); null_check = MakeNullCheck(loop_body, parameter); array_length = MakeArrayLength(loop_body, null_check); HInstruction* bounds_check = MakeBoundsCheck(loop_body, phi, array_length); MakeArraySet(loop_body, null_check, bounds_check, constant_10, DataType::Type::kInt32); return bounds_check; } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination1a) { // for (int i=0; i0; i+=increment) { array[i-1] = 10; } HInstruction* BoundsCheckEliminationTest::BuildSSAGraph2(int initial, int increment, IfCondition cond) { HBasicBlock* return_block = InitEntryMainExitGraphWithReturnVoid(); auto [pre_header, loop_header, loop_body] = CreateWhileLoop(return_block); HInstruction* parameter = MakeParam(DataType::Type::kReference); HInstruction* constant_initial = graph_->GetIntConstant(initial); HInstruction* constant_increment = graph_->GetIntConstant(increment); HInstruction* constant_minus_1 = graph_->GetIntConstant(-1); HInstruction* constant_10 = graph_->GetIntConstant(10); HInstruction* null_check = MakeNullCheck(pre_header, parameter); HInstruction* array_length = MakeArrayLength(pre_header, null_check); auto [phi, add] = MakeLinearLoopVar(loop_header, loop_body, array_length, constant_minus_1); DCHECK(cond == kCondLE || cond == kCondLT) << cond; HInstruction* cmp = MakeCondition(loop_header, cond, phi, constant_initial); MakeIf(loop_header, cmp); null_check = MakeNullCheck(loop_body, parameter); array_length = MakeArrayLength(loop_body, null_check); HInstruction* bounds_check = MakeBoundsCheck(loop_body, add, array_length); MakeArraySet(loop_body, null_check, bounds_check, constant_10, DataType::Type::kInt32); return bounds_check; } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination2a) { // for (int i=array.length; i>0; i--) { array[i-1] = 10; // Can eliminate with gvn. } HInstruction* bounds_check = BuildSSAGraph2(0); RunBCE(); ASSERT_TRUE(IsRemoved(bounds_check)); } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination2b) { // for (int i=array.length; i>1; i--) { array[i-1] = 10; // Can eliminate. } HInstruction* bounds_check = BuildSSAGraph2(1); RunBCE(); ASSERT_TRUE(IsRemoved(bounds_check)); } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination2c) { // for (int i=array.length; i>-1; i--) { array[i-1] = 10; // Can't eliminate. } HInstruction* bounds_check = BuildSSAGraph2(-1); RunBCE(); ASSERT_FALSE(IsRemoved(bounds_check)); } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination2d) { // for (int i=array.length; i>=0; i--) { array[i-1] = 10; // Can't eliminate. } HInstruction* bounds_check = BuildSSAGraph2(0, -1, kCondLT); RunBCE(); ASSERT_FALSE(IsRemoved(bounds_check)); } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination2e) { // for (int i=array.length; i>0; i-=2) { array[i-1] = 10; // Can eliminate. } HInstruction* bounds_check = BuildSSAGraph2(0, -2); RunBCE(); ASSERT_TRUE(IsRemoved(bounds_check)); } // int[] array = new int[10]; // for (int i=0; i<10; i+=increment) { array[i] = 10; } HInstruction* BoundsCheckEliminationTest::BuildSSAGraph3(int initial, int increment, IfCondition cond) { HBasicBlock* return_block = InitEntryMainExitGraphWithReturnVoid(); auto [pre_header, loop_header, loop_body] = CreateWhileLoop(return_block); HInstruction* constant_10 = graph_->GetIntConstant(10); // We pass a bogus constant for the class to avoid mocking one. HInstruction* new_array = MakeNewArray(pre_header, /* cls= */ constant_10, /* length= */ constant_10); auto [phi, add] = MakeLinearLoopVar(loop_header, loop_body, initial, increment); DCHECK(cond == kCondGE || cond == kCondGT) << cond; HInstruction* cmp = MakeCondition(loop_header, cond, phi, constant_10); MakeIf(loop_header, cmp); HNullCheck* null_check = MakeNullCheck(loop_body, new_array); HArrayLength* array_length = MakeArrayLength(loop_body, null_check); HInstruction* bounds_check = MakeBoundsCheck(loop_body, phi, array_length); MakeArraySet(loop_body, null_check, bounds_check, constant_10, DataType::Type::kInt32); return bounds_check; } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination3a) { // int[] array = new int[10]; // for (int i=0; i<10; i++) { array[i] = 10; // Can eliminate. } HInstruction* bounds_check = BuildSSAGraph3(0, 1, kCondGE); RunBCE(); ASSERT_TRUE(IsRemoved(bounds_check)); } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination3b) { // int[] array = new int[10]; // for (int i=1; i<10; i++) { array[i] = 10; // Can eliminate. } HInstruction* bounds_check = BuildSSAGraph3(1, 1, kCondGE); RunBCE(); ASSERT_TRUE(IsRemoved(bounds_check)); } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination3c) { // int[] array = new int[10]; // for (int i=0; i<=10; i++) { array[i] = 10; // Can't eliminate. } HInstruction* bounds_check = BuildSSAGraph3(0, 1, kCondGT); RunBCE(); ASSERT_FALSE(IsRemoved(bounds_check)); } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination3d) { // int[] array = new int[10]; // for (int i=1; i<10; i+=8) { array[i] = 10; // Can eliminate. } HInstruction* bounds_check = BuildSSAGraph3(1, 8, kCondGE); RunBCE(); ASSERT_TRUE(IsRemoved(bounds_check)); } // for (int i=initial; iGetIntConstant(10); HInstruction* constant_minus_1 = graph_->GetIntConstant(-1); auto [phi, add] = MakeLinearLoopVar(loop_header, loop_body, initial, /*increment=*/ 1); HInstruction* null_check = MakeNullCheck(loop_header, parameter); HInstruction* array_length = MakeArrayLength(loop_header, null_check); DCHECK(cond == kCondGE || cond == kCondGT) << cond; HInstruction* cmp = MakeCondition(loop_header, cond, phi, array_length); MakeIf(loop_header, cmp); null_check = MakeNullCheck(loop_body, parameter); array_length = MakeArrayLength(loop_body, null_check); HInstruction* sub = MakeBinOp(loop_body, DataType::Type::kInt32, array_length, phi); HInstruction* add_minus_1 = MakeBinOp(loop_body, DataType::Type::kInt32, sub, constant_minus_1); HInstruction* bounds_check = MakeBoundsCheck(loop_body, add_minus_1, array_length); MakeArraySet(loop_body, null_check, bounds_check, constant_10, DataType::Type::kInt32); return bounds_check; } TEST_F(BoundsCheckEliminationTest, LoopArrayBoundsElimination4a) { // for (int i=0; i array[j+1]) { // int temp = array[j+1]; // array[j+1] = array[j]; // array[j] = temp; // } // } // } TEST_F(BoundsCheckEliminationTest, BubbleSortArrayBoundsElimination) { HBasicBlock* return_block = InitEntryMainExitGraphWithReturnVoid(); auto [outer_pre_header, outer_header, outer_body_add] = CreateWhileLoop(return_block); auto [inner_pre_header, inner_header, inner_body_add] = CreateWhileLoop(outer_body_add); auto [inner_body_compare, inner_body_swap, skip_swap] = CreateDiamondPattern(inner_body_add); HInstruction* parameter = MakeParam(DataType::Type::kReference); HInstruction* constant_0 = graph_->GetIntConstant(0); HInstruction* constant_minus_1 = graph_->GetIntConstant(-1); HInstruction* constant_1 = graph_->GetIntConstant(1); auto [phi_i, add_i] = MakeLinearLoopVar(outer_header, outer_body_add, /*initial=*/ 0, /*increment=*/ 1); HNullCheck* null_check = MakeNullCheck(outer_header, parameter); HArrayLength* array_length = MakeArrayLength(outer_header, null_check); HAdd* add = MakeBinOp(outer_header, DataType::Type::kInt32, array_length, constant_minus_1); HInstruction* cmp = MakeCondition(outer_header, kCondGE, phi_i, add); MakeIf(outer_header, cmp); auto [phi_j, add_j] = MakeLinearLoopVar(inner_header, inner_body_add, /*initial=*/ 0, /*increment=*/ 1); null_check = MakeNullCheck(inner_header, parameter); array_length = MakeArrayLength(inner_header, null_check); HSub* sub = MakeBinOp(inner_header, DataType::Type::kInt32, array_length, phi_i); add = MakeBinOp(inner_header, DataType::Type::kInt32, sub, constant_minus_1); cmp = MakeCondition(inner_header, kCondGE, phi_j, add); MakeIf(inner_header, cmp); null_check = MakeNullCheck(inner_body_compare, parameter); array_length = MakeArrayLength(inner_body_compare, null_check); HBoundsCheck* bounds_check1 = MakeBoundsCheck(inner_body_compare, phi_j, array_length); HArrayGet* array_get_j = MakeArrayGet(inner_body_compare, null_check, bounds_check1, DataType::Type::kInt32); HInstruction* j_plus_1 = MakeBinOp(inner_body_compare, DataType::Type::kInt32, phi_j, constant_1); null_check = MakeNullCheck(inner_body_compare, parameter); array_length = MakeArrayLength(inner_body_compare, null_check); HBoundsCheck* bounds_check2 = MakeBoundsCheck(inner_body_compare, j_plus_1, array_length); HArrayGet* array_get_j_plus_1 = MakeArrayGet(inner_body_compare, null_check, bounds_check2, DataType::Type::kInt32); cmp = MakeCondition(inner_body_compare, kCondGE, array_get_j, array_get_j_plus_1); MakeIf(inner_body_compare, cmp); j_plus_1 = MakeBinOp(inner_body_swap, DataType::Type::kInt32, phi_j, constant_1); // temp = array[j+1] null_check = MakeNullCheck(inner_body_swap, parameter); array_length = MakeArrayLength(inner_body_swap, null_check); HInstruction* bounds_check3 = MakeBoundsCheck(inner_body_swap, j_plus_1, array_length); array_get_j_plus_1 = MakeArrayGet(inner_body_swap, null_check, bounds_check3, DataType::Type::kInt32); // array[j+1] = array[j] null_check = MakeNullCheck(inner_body_swap, parameter); array_length = MakeArrayLength(inner_body_swap, null_check); HInstruction* bounds_check4 = MakeBoundsCheck(inner_body_swap, phi_j, array_length); array_get_j = MakeArrayGet(inner_body_swap, null_check, bounds_check4, DataType::Type::kInt32); null_check = MakeNullCheck(inner_body_swap, parameter); array_length = MakeArrayLength(inner_body_swap, null_check); HInstruction* bounds_check5 = MakeBoundsCheck(inner_body_swap, j_plus_1, array_length); MakeArraySet(inner_body_swap, null_check, bounds_check5, array_get_j, DataType::Type::kInt32); // array[j] = temp null_check = MakeNullCheck(inner_body_swap, parameter); array_length = MakeArrayLength(inner_body_swap, null_check); HInstruction* bounds_check6 = MakeBoundsCheck(inner_body_swap, phi_j, array_length); MakeArraySet( inner_body_swap, null_check, bounds_check6, array_get_j_plus_1, DataType::Type::kInt32); RunBCE(); // gvn removes same bounds check already ASSERT_TRUE(IsRemoved(bounds_check1)); ASSERT_TRUE(IsRemoved(bounds_check2)); ASSERT_TRUE(IsRemoved(bounds_check3)); ASSERT_TRUE(IsRemoved(bounds_check4)); ASSERT_TRUE(IsRemoved(bounds_check5)); ASSERT_TRUE(IsRemoved(bounds_check6)); } // int[] array = new int[10]; // for (int i=0; i<200; i++) { // array[i%10] = 10; // Can eliminate // array[i%1] = 10; // Can eliminate // array[i%200] = 10; // Cannot eliminate // array[i%-10] = 10; // Can eliminate // array[i%array.length] = 10; // Can eliminate // array[param_i%10] = 10; // Can't eliminate, when param_i < 0 // } TEST_F(BoundsCheckEliminationTest, ModArrayBoundsElimination) { HBasicBlock* return_block = InitEntryMainExitGraphWithReturnVoid(); auto [pre_header, loop_header, loop_body] = CreateWhileLoop(return_block); HInstruction* param_i = MakeParam(DataType::Type::kInt32); HInstruction* constant_1 = graph_->GetIntConstant(1); HInstruction* constant_10 = graph_->GetIntConstant(10); HInstruction* constant_200 = graph_->GetIntConstant(200); HInstruction* constant_minus_10 = graph_->GetIntConstant(-10); // We pass a bogus constant for the class to avoid mocking one. HInstruction* new_array = MakeNewArray(pre_header, /* cls= */ constant_10, /* length= */ constant_10); auto [phi, add] = MakeLinearLoopVar(loop_header, loop_body, /*initial=*/ 0, /*increment=*/ 1); HInstruction* cmp = MakeCondition(loop_header, kCondGE, phi, constant_200); MakeIf(loop_header, cmp); ////////////////////////////////////////////////////////////////////////////////// // LOOP BODY: // array[i % 10] = 10; HRem* i_mod_10 = MakeBinOp(loop_body, DataType::Type::kInt32, phi, constant_10); HBoundsCheck* bounds_check_i_mod_10 = MakeBoundsCheck(loop_body, i_mod_10, constant_10); MakeArraySet(loop_body, new_array, bounds_check_i_mod_10, constant_10, DataType::Type::kInt32); // array[i % 1] = 10; HRem* i_mod_1 = MakeBinOp(loop_body, DataType::Type::kInt32, phi, constant_1); HBoundsCheck* bounds_check_i_mod_1 = MakeBoundsCheck(loop_body, i_mod_1, constant_10); MakeArraySet(loop_body, new_array, bounds_check_i_mod_1, constant_10, DataType::Type::kInt32); // array[i % 200] = 10; HRem* i_mod_200 = MakeBinOp(loop_body, DataType::Type::kInt32, phi, constant_200); HBoundsCheck* bounds_check_i_mod_200 = MakeBoundsCheck(loop_body, i_mod_200, constant_10); MakeArraySet(loop_body, new_array, bounds_check_i_mod_200, constant_10, DataType::Type::kInt32); // array[i % -10] = 10; HRem* i_mod_minus_10 = MakeBinOp(loop_body, DataType::Type::kInt32, phi, constant_minus_10); HBoundsCheck* bounds_check_i_mod_minus_10 = MakeBoundsCheck(loop_body, i_mod_minus_10, constant_10); MakeArraySet( loop_body, new_array, bounds_check_i_mod_minus_10, constant_10, DataType::Type::kInt32); // array[i%array.length] = 10; HNullCheck* null_check = MakeNullCheck(loop_body, new_array); HArrayLength* array_length = MakeArrayLength(loop_body, null_check); HRem* i_mod_array_length = MakeBinOp(loop_body, DataType::Type::kInt32, phi, array_length); HBoundsCheck* bounds_check_i_mod_array_len = MakeBoundsCheck(loop_body, i_mod_array_length, array_length); MakeArraySet( loop_body, null_check, bounds_check_i_mod_array_len, constant_10, DataType::Type::kInt32); // array[param_i % 10] = 10; HRem* param_i_mod_10 = MakeBinOp(loop_body, DataType::Type::kInt32, param_i, constant_10); HBoundsCheck* bounds_check_param_i_mod_10 = MakeBoundsCheck(loop_body, param_i_mod_10, constant_10); MakeArraySet( loop_body, new_array, bounds_check_param_i_mod_10, constant_10, DataType::Type::kInt32); // array[param_i%array.length] = 10; null_check = MakeNullCheck(loop_body, new_array); array_length = MakeArrayLength(loop_body, null_check); HRem* param_i_mod_array_length = MakeBinOp(loop_body, DataType::Type::kInt32, param_i, array_length); HBoundsCheck* bounds_check_param_i_mod_array_len = MakeBoundsCheck(loop_body, param_i_mod_array_length, array_length); MakeArraySet(loop_body, null_check, bounds_check_param_i_mod_array_len, constant_10, DataType::Type::kInt32); ////////////////////////////////////////////////////////////////////////////////// RunBCE(); ASSERT_TRUE(IsRemoved(bounds_check_i_mod_10)); ASSERT_TRUE(IsRemoved(bounds_check_i_mod_1)); ASSERT_FALSE(IsRemoved(bounds_check_i_mod_200)); ASSERT_TRUE(IsRemoved(bounds_check_i_mod_minus_10)); ASSERT_TRUE(IsRemoved(bounds_check_i_mod_array_len)); ASSERT_FALSE(IsRemoved(bounds_check_param_i_mod_10)); } } // namespace art