| /* |
| * 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 "code_generator_arm.h" |
| |
| #include "arch/arm/instruction_set_features_arm.h" |
| #include "art_method.h" |
| #include "code_generator_utils.h" |
| #include "entrypoints/quick/quick_entrypoints.h" |
| #include "gc/accounting/card_table.h" |
| #include "intrinsics.h" |
| #include "intrinsics_arm.h" |
| #include "mirror/array-inl.h" |
| #include "mirror/class-inl.h" |
| #include "thread.h" |
| #include "utils/arm/assembler_arm.h" |
| #include "utils/arm/managed_register_arm.h" |
| #include "utils/assembler.h" |
| #include "utils/stack_checks.h" |
| |
| namespace art { |
| |
| namespace arm { |
| |
| static bool ExpectedPairLayout(Location location) { |
| // We expected this for both core and fpu register pairs. |
| return ((location.low() & 1) == 0) && (location.low() + 1 == location.high()); |
| } |
| |
| static constexpr int kCurrentMethodStackOffset = 0; |
| static constexpr Register kMethodRegisterArgument = R0; |
| |
| // We unconditionally allocate R5 to ensure we can do long operations |
| // with baseline. |
| static constexpr Register kCoreSavedRegisterForBaseline = R5; |
| static constexpr Register kCoreCalleeSaves[] = |
| { R5, R6, R7, R8, R10, R11, PC }; |
| static constexpr SRegister kFpuCalleeSaves[] = |
| { S16, S17, S18, S19, S20, S21, S22, S23, S24, S25, S26, S27, S28, S29, S30, S31 }; |
| |
| // D31 cannot be split into two S registers, and the register allocator only works on |
| // S registers. Therefore there is no need to block it. |
| static constexpr DRegister DTMP = D31; |
| |
| #define __ down_cast<ArmAssembler*>(codegen->GetAssembler())-> |
| #define QUICK_ENTRY_POINT(x) QUICK_ENTRYPOINT_OFFSET(kArmWordSize, x).Int32Value() |
| |
| class NullCheckSlowPathARM : public SlowPathCodeARM { |
| public: |
| explicit NullCheckSlowPathARM(HNullCheck* instruction) : instruction_(instruction) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| CodeGeneratorARM* arm_codegen = down_cast<CodeGeneratorARM*>(codegen); |
| __ Bind(GetEntryLabel()); |
| arm_codegen->InvokeRuntime( |
| QUICK_ENTRY_POINT(pThrowNullPointer), instruction_, instruction_->GetDexPc(), this); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "NullCheckSlowPathARM"; } |
| |
| private: |
| HNullCheck* const instruction_; |
| DISALLOW_COPY_AND_ASSIGN(NullCheckSlowPathARM); |
| }; |
| |
| class DivZeroCheckSlowPathARM : public SlowPathCodeARM { |
| public: |
| explicit DivZeroCheckSlowPathARM(HDivZeroCheck* instruction) : instruction_(instruction) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| CodeGeneratorARM* arm_codegen = down_cast<CodeGeneratorARM*>(codegen); |
| __ Bind(GetEntryLabel()); |
| arm_codegen->InvokeRuntime( |
| QUICK_ENTRY_POINT(pThrowDivZero), instruction_, instruction_->GetDexPc(), this); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "DivZeroCheckSlowPathARM"; } |
| |
| private: |
| HDivZeroCheck* const instruction_; |
| DISALLOW_COPY_AND_ASSIGN(DivZeroCheckSlowPathARM); |
| }; |
| |
| class SuspendCheckSlowPathARM : public SlowPathCodeARM { |
| public: |
| SuspendCheckSlowPathARM(HSuspendCheck* instruction, HBasicBlock* successor) |
| : instruction_(instruction), successor_(successor) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| CodeGeneratorARM* arm_codegen = down_cast<CodeGeneratorARM*>(codegen); |
| __ Bind(GetEntryLabel()); |
| SaveLiveRegisters(codegen, instruction_->GetLocations()); |
| arm_codegen->InvokeRuntime( |
| QUICK_ENTRY_POINT(pTestSuspend), instruction_, instruction_->GetDexPc(), this); |
| RestoreLiveRegisters(codegen, instruction_->GetLocations()); |
| if (successor_ == nullptr) { |
| __ b(GetReturnLabel()); |
| } else { |
| __ b(arm_codegen->GetLabelOf(successor_)); |
| } |
| } |
| |
| Label* GetReturnLabel() { |
| DCHECK(successor_ == nullptr); |
| return &return_label_; |
| } |
| |
| HBasicBlock* GetSuccessor() const { |
| return successor_; |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "SuspendCheckSlowPathARM"; } |
| |
| private: |
| HSuspendCheck* const instruction_; |
| // If not null, the block to branch to after the suspend check. |
| HBasicBlock* const successor_; |
| |
| // If `successor_` is null, the label to branch to after the suspend check. |
| Label return_label_; |
| |
| DISALLOW_COPY_AND_ASSIGN(SuspendCheckSlowPathARM); |
| }; |
| |
| class BoundsCheckSlowPathARM : public SlowPathCodeARM { |
| public: |
| BoundsCheckSlowPathARM(HBoundsCheck* instruction, |
| Location index_location, |
| Location length_location) |
| : instruction_(instruction), |
| index_location_(index_location), |
| length_location_(length_location) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| CodeGeneratorARM* arm_codegen = down_cast<CodeGeneratorARM*>(codegen); |
| __ Bind(GetEntryLabel()); |
| // We're moving two locations to locations that could overlap, so we need a parallel |
| // move resolver. |
| InvokeRuntimeCallingConvention calling_convention; |
| codegen->EmitParallelMoves( |
| index_location_, |
| Location::RegisterLocation(calling_convention.GetRegisterAt(0)), |
| Primitive::kPrimInt, |
| length_location_, |
| Location::RegisterLocation(calling_convention.GetRegisterAt(1)), |
| Primitive::kPrimInt); |
| arm_codegen->InvokeRuntime( |
| QUICK_ENTRY_POINT(pThrowArrayBounds), instruction_, instruction_->GetDexPc(), this); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "BoundsCheckSlowPathARM"; } |
| |
| private: |
| HBoundsCheck* const instruction_; |
| const Location index_location_; |
| const Location length_location_; |
| |
| DISALLOW_COPY_AND_ASSIGN(BoundsCheckSlowPathARM); |
| }; |
| |
| class LoadClassSlowPathARM : public SlowPathCodeARM { |
| public: |
| LoadClassSlowPathARM(HLoadClass* cls, |
| HInstruction* at, |
| uint32_t dex_pc, |
| bool do_clinit) |
| : cls_(cls), at_(at), dex_pc_(dex_pc), do_clinit_(do_clinit) { |
| DCHECK(at->IsLoadClass() || at->IsClinitCheck()); |
| } |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| LocationSummary* locations = at_->GetLocations(); |
| |
| CodeGeneratorARM* arm_codegen = down_cast<CodeGeneratorARM*>(codegen); |
| __ Bind(GetEntryLabel()); |
| SaveLiveRegisters(codegen, locations); |
| |
| InvokeRuntimeCallingConvention calling_convention; |
| __ LoadImmediate(calling_convention.GetRegisterAt(0), cls_->GetTypeIndex()); |
| int32_t entry_point_offset = do_clinit_ |
| ? QUICK_ENTRY_POINT(pInitializeStaticStorage) |
| : QUICK_ENTRY_POINT(pInitializeType); |
| arm_codegen->InvokeRuntime(entry_point_offset, at_, dex_pc_, this); |
| |
| // Move the class to the desired location. |
| Location out = locations->Out(); |
| if (out.IsValid()) { |
| DCHECK(out.IsRegister() && !locations->GetLiveRegisters()->ContainsCoreRegister(out.reg())); |
| arm_codegen->Move32(locations->Out(), Location::RegisterLocation(R0)); |
| } |
| RestoreLiveRegisters(codegen, locations); |
| __ b(GetExitLabel()); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "LoadClassSlowPathARM"; } |
| |
| private: |
| // The class this slow path will load. |
| HLoadClass* const cls_; |
| |
| // The instruction where this slow path is happening. |
| // (Might be the load class or an initialization check). |
| HInstruction* const at_; |
| |
| // The dex PC of `at_`. |
| const uint32_t dex_pc_; |
| |
| // Whether to initialize the class. |
| const bool do_clinit_; |
| |
| DISALLOW_COPY_AND_ASSIGN(LoadClassSlowPathARM); |
| }; |
| |
| class LoadStringSlowPathARM : public SlowPathCodeARM { |
| public: |
| explicit LoadStringSlowPathARM(HLoadString* instruction) : instruction_(instruction) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| LocationSummary* locations = instruction_->GetLocations(); |
| DCHECK(!locations->GetLiveRegisters()->ContainsCoreRegister(locations->Out().reg())); |
| |
| CodeGeneratorARM* arm_codegen = down_cast<CodeGeneratorARM*>(codegen); |
| __ Bind(GetEntryLabel()); |
| SaveLiveRegisters(codegen, locations); |
| |
| InvokeRuntimeCallingConvention calling_convention; |
| __ LoadImmediate(calling_convention.GetRegisterAt(0), instruction_->GetStringIndex()); |
| arm_codegen->InvokeRuntime( |
| QUICK_ENTRY_POINT(pResolveString), instruction_, instruction_->GetDexPc(), this); |
| arm_codegen->Move32(locations->Out(), Location::RegisterLocation(R0)); |
| |
| RestoreLiveRegisters(codegen, locations); |
| __ b(GetExitLabel()); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "LoadStringSlowPathARM"; } |
| |
| private: |
| HLoadString* const instruction_; |
| |
| DISALLOW_COPY_AND_ASSIGN(LoadStringSlowPathARM); |
| }; |
| |
| class TypeCheckSlowPathARM : public SlowPathCodeARM { |
| public: |
| TypeCheckSlowPathARM(HInstruction* instruction, |
| Location class_to_check, |
| Location object_class, |
| uint32_t dex_pc) |
| : instruction_(instruction), |
| class_to_check_(class_to_check), |
| object_class_(object_class), |
| dex_pc_(dex_pc) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| LocationSummary* locations = instruction_->GetLocations(); |
| DCHECK(instruction_->IsCheckCast() |
| || !locations->GetLiveRegisters()->ContainsCoreRegister(locations->Out().reg())); |
| |
| CodeGeneratorARM* arm_codegen = down_cast<CodeGeneratorARM*>(codegen); |
| __ Bind(GetEntryLabel()); |
| SaveLiveRegisters(codegen, locations); |
| |
| // We're moving two locations to locations that could overlap, so we need a parallel |
| // move resolver. |
| InvokeRuntimeCallingConvention calling_convention; |
| codegen->EmitParallelMoves( |
| class_to_check_, |
| Location::RegisterLocation(calling_convention.GetRegisterAt(0)), |
| Primitive::kPrimNot, |
| object_class_, |
| Location::RegisterLocation(calling_convention.GetRegisterAt(1)), |
| Primitive::kPrimNot); |
| |
| if (instruction_->IsInstanceOf()) { |
| arm_codegen->InvokeRuntime( |
| QUICK_ENTRY_POINT(pInstanceofNonTrivial), instruction_, dex_pc_, this); |
| arm_codegen->Move32(locations->Out(), Location::RegisterLocation(R0)); |
| } else { |
| DCHECK(instruction_->IsCheckCast()); |
| arm_codegen->InvokeRuntime(QUICK_ENTRY_POINT(pCheckCast), instruction_, dex_pc_, this); |
| } |
| |
| RestoreLiveRegisters(codegen, locations); |
| __ b(GetExitLabel()); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "TypeCheckSlowPathARM"; } |
| |
| private: |
| HInstruction* const instruction_; |
| const Location class_to_check_; |
| const Location object_class_; |
| uint32_t dex_pc_; |
| |
| DISALLOW_COPY_AND_ASSIGN(TypeCheckSlowPathARM); |
| }; |
| |
| class DeoptimizationSlowPathARM : public SlowPathCodeARM { |
| public: |
| explicit DeoptimizationSlowPathARM(HInstruction* instruction) |
| : instruction_(instruction) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| __ Bind(GetEntryLabel()); |
| SaveLiveRegisters(codegen, instruction_->GetLocations()); |
| DCHECK(instruction_->IsDeoptimize()); |
| HDeoptimize* deoptimize = instruction_->AsDeoptimize(); |
| uint32_t dex_pc = deoptimize->GetDexPc(); |
| CodeGeneratorARM* arm_codegen = down_cast<CodeGeneratorARM*>(codegen); |
| arm_codegen->InvokeRuntime(QUICK_ENTRY_POINT(pDeoptimize), instruction_, dex_pc, this); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "DeoptimizationSlowPathARM"; } |
| |
| private: |
| HInstruction* const instruction_; |
| DISALLOW_COPY_AND_ASSIGN(DeoptimizationSlowPathARM); |
| }; |
| |
| #undef __ |
| #define __ down_cast<ArmAssembler*>(GetAssembler())-> |
| |
| inline Condition ARMCondition(IfCondition cond) { |
| switch (cond) { |
| case kCondEQ: return EQ; |
| case kCondNE: return NE; |
| case kCondLT: return LT; |
| case kCondLE: return LE; |
| case kCondGT: return GT; |
| case kCondGE: return GE; |
| default: |
| LOG(FATAL) << "Unknown if condition"; |
| } |
| return EQ; // Unreachable. |
| } |
| |
| inline Condition ARMOppositeCondition(IfCondition cond) { |
| switch (cond) { |
| case kCondEQ: return NE; |
| case kCondNE: return EQ; |
| case kCondLT: return GE; |
| case kCondLE: return GT; |
| case kCondGT: return LE; |
| case kCondGE: return LT; |
| default: |
| LOG(FATAL) << "Unknown if condition"; |
| } |
| return EQ; // Unreachable. |
| } |
| |
| void CodeGeneratorARM::DumpCoreRegister(std::ostream& stream, int reg) const { |
| stream << Register(reg); |
| } |
| |
| void CodeGeneratorARM::DumpFloatingPointRegister(std::ostream& stream, int reg) const { |
| stream << SRegister(reg); |
| } |
| |
| size_t CodeGeneratorARM::SaveCoreRegister(size_t stack_index, uint32_t reg_id) { |
| __ StoreToOffset(kStoreWord, static_cast<Register>(reg_id), SP, stack_index); |
| return kArmWordSize; |
| } |
| |
| size_t CodeGeneratorARM::RestoreCoreRegister(size_t stack_index, uint32_t reg_id) { |
| __ LoadFromOffset(kLoadWord, static_cast<Register>(reg_id), SP, stack_index); |
| return kArmWordSize; |
| } |
| |
| size_t CodeGeneratorARM::SaveFloatingPointRegister(size_t stack_index, uint32_t reg_id) { |
| __ StoreSToOffset(static_cast<SRegister>(reg_id), SP, stack_index); |
| return kArmWordSize; |
| } |
| |
| size_t CodeGeneratorARM::RestoreFloatingPointRegister(size_t stack_index, uint32_t reg_id) { |
| __ LoadSFromOffset(static_cast<SRegister>(reg_id), SP, stack_index); |
| return kArmWordSize; |
| } |
| |
| CodeGeneratorARM::CodeGeneratorARM(HGraph* graph, |
| const ArmInstructionSetFeatures& isa_features, |
| const CompilerOptions& compiler_options) |
| : CodeGenerator(graph, |
| kNumberOfCoreRegisters, |
| kNumberOfSRegisters, |
| kNumberOfRegisterPairs, |
| ComputeRegisterMask(reinterpret_cast<const int*>(kCoreCalleeSaves), |
| arraysize(kCoreCalleeSaves)), |
| ComputeRegisterMask(reinterpret_cast<const int*>(kFpuCalleeSaves), |
| arraysize(kFpuCalleeSaves)), |
| compiler_options), |
| block_labels_(graph->GetArena(), 0), |
| location_builder_(graph, this), |
| instruction_visitor_(graph, this), |
| move_resolver_(graph->GetArena(), this), |
| assembler_(), |
| isa_features_(isa_features) { |
| // Save the PC register to mimic Quick. |
| AddAllocatedRegister(Location::RegisterLocation(PC)); |
| } |
| |
| void CodeGeneratorARM::Finalize(CodeAllocator* allocator) { |
| // Ensure that we fix up branches and literal loads and emit the literal pool. |
| __ FinalizeCode(); |
| |
| // Adjust native pc offsets in stack maps. |
| for (size_t i = 0, num = stack_map_stream_.GetNumberOfStackMaps(); i != num; ++i) { |
| uint32_t old_position = stack_map_stream_.GetStackMap(i).native_pc_offset; |
| uint32_t new_position = __ GetAdjustedPosition(old_position); |
| stack_map_stream_.SetStackMapNativePcOffset(i, new_position); |
| } |
| // Adjust native pc offsets of block labels. |
| for (size_t block_idx = 0u, end = block_order_->Size(); block_idx != end; ++block_idx) { |
| HBasicBlock* block = block_order_->Get(block_idx); |
| // Get the label directly from block_labels_ rather than through GetLabelOf() to avoid |
| // FirstNonEmptyBlock() which could lead to adjusting a label more than once. |
| DCHECK_LT(static_cast<size_t>(block->GetBlockId()), block_labels_.Size()); |
| Label* block_label = &block_labels_.GetRawStorage()[block->GetBlockId()]; |
| DCHECK_EQ(block_label->IsBound(), !block->IsSingleJump()); |
| if (block_label->IsBound()) { |
| __ AdjustLabelPosition(block_label); |
| } |
| } |
| // Adjust pc offsets for the disassembly information. |
| if (disasm_info_ != nullptr) { |
| GeneratedCodeInterval* frame_entry_interval = disasm_info_->GetFrameEntryInterval(); |
| frame_entry_interval->start = __ GetAdjustedPosition(frame_entry_interval->start); |
| frame_entry_interval->end = __ GetAdjustedPosition(frame_entry_interval->end); |
| for (auto& it : *disasm_info_->GetInstructionIntervals()) { |
| it.second.start = __ GetAdjustedPosition(it.second.start); |
| it.second.end = __ GetAdjustedPosition(it.second.end); |
| } |
| for (auto& it : *disasm_info_->GetSlowPathIntervals()) { |
| it.code_interval.start = __ GetAdjustedPosition(it.code_interval.start); |
| it.code_interval.end = __ GetAdjustedPosition(it.code_interval.end); |
| } |
| } |
| |
| CodeGenerator::Finalize(allocator); |
| } |
| |
| Location CodeGeneratorARM::AllocateFreeRegister(Primitive::Type type) const { |
| switch (type) { |
| case Primitive::kPrimLong: { |
| size_t reg = FindFreeEntry(blocked_register_pairs_, kNumberOfRegisterPairs); |
| ArmManagedRegister pair = |
| ArmManagedRegister::FromRegisterPair(static_cast<RegisterPair>(reg)); |
| DCHECK(!blocked_core_registers_[pair.AsRegisterPairLow()]); |
| DCHECK(!blocked_core_registers_[pair.AsRegisterPairHigh()]); |
| |
| blocked_core_registers_[pair.AsRegisterPairLow()] = true; |
| blocked_core_registers_[pair.AsRegisterPairHigh()] = true; |
| UpdateBlockedPairRegisters(); |
| return Location::RegisterPairLocation(pair.AsRegisterPairLow(), pair.AsRegisterPairHigh()); |
| } |
| |
| case Primitive::kPrimByte: |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| int reg = FindFreeEntry(blocked_core_registers_, kNumberOfCoreRegisters); |
| // Block all register pairs that contain `reg`. |
| for (int i = 0; i < kNumberOfRegisterPairs; i++) { |
| ArmManagedRegister current = |
| ArmManagedRegister::FromRegisterPair(static_cast<RegisterPair>(i)); |
| if (current.AsRegisterPairLow() == reg || current.AsRegisterPairHigh() == reg) { |
| blocked_register_pairs_[i] = true; |
| } |
| } |
| return Location::RegisterLocation(reg); |
| } |
| |
| case Primitive::kPrimFloat: { |
| int reg = FindFreeEntry(blocked_fpu_registers_, kNumberOfSRegisters); |
| return Location::FpuRegisterLocation(reg); |
| } |
| |
| case Primitive::kPrimDouble: { |
| int reg = FindTwoFreeConsecutiveAlignedEntries(blocked_fpu_registers_, kNumberOfSRegisters); |
| DCHECK_EQ(reg % 2, 0); |
| return Location::FpuRegisterPairLocation(reg, reg + 1); |
| } |
| |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unreachable type " << type; |
| } |
| |
| return Location(); |
| } |
| |
| void CodeGeneratorARM::SetupBlockedRegisters(bool is_baseline) const { |
| // Don't allocate the dalvik style register pair passing. |
| blocked_register_pairs_[R1_R2] = true; |
| |
| // Stack register, LR and PC are always reserved. |
| blocked_core_registers_[SP] = true; |
| blocked_core_registers_[LR] = true; |
| blocked_core_registers_[PC] = true; |
| |
| // Reserve thread register. |
| blocked_core_registers_[TR] = true; |
| |
| // Reserve temp register. |
| blocked_core_registers_[IP] = true; |
| |
| if (is_baseline) { |
| for (size_t i = 0; i < arraysize(kCoreCalleeSaves); ++i) { |
| blocked_core_registers_[kCoreCalleeSaves[i]] = true; |
| } |
| |
| blocked_core_registers_[kCoreSavedRegisterForBaseline] = false; |
| |
| for (size_t i = 0; i < arraysize(kFpuCalleeSaves); ++i) { |
| blocked_fpu_registers_[kFpuCalleeSaves[i]] = true; |
| } |
| } |
| |
| UpdateBlockedPairRegisters(); |
| } |
| |
| void CodeGeneratorARM::UpdateBlockedPairRegisters() const { |
| for (int i = 0; i < kNumberOfRegisterPairs; i++) { |
| ArmManagedRegister current = |
| ArmManagedRegister::FromRegisterPair(static_cast<RegisterPair>(i)); |
| if (blocked_core_registers_[current.AsRegisterPairLow()] |
| || blocked_core_registers_[current.AsRegisterPairHigh()]) { |
| blocked_register_pairs_[i] = true; |
| } |
| } |
| } |
| |
| InstructionCodeGeneratorARM::InstructionCodeGeneratorARM(HGraph* graph, CodeGeneratorARM* codegen) |
| : HGraphVisitor(graph), |
| assembler_(codegen->GetAssembler()), |
| codegen_(codegen) {} |
| |
| void CodeGeneratorARM::ComputeSpillMask() { |
| core_spill_mask_ = allocated_registers_.GetCoreRegisters() & core_callee_save_mask_; |
| // Save one extra register for baseline. Note that on thumb2, there is no easy |
| // instruction to restore just the PC, so this actually helps both baseline |
| // and non-baseline to save and restore at least two registers at entry and exit. |
| core_spill_mask_ |= (1 << kCoreSavedRegisterForBaseline); |
| DCHECK_NE(core_spill_mask_, 0u) << "At least the return address register must be saved"; |
| fpu_spill_mask_ = allocated_registers_.GetFloatingPointRegisters() & fpu_callee_save_mask_; |
| // We use vpush and vpop for saving and restoring floating point registers, which take |
| // a SRegister and the number of registers to save/restore after that SRegister. We |
| // therefore update the `fpu_spill_mask_` to also contain those registers not allocated, |
| // but in the range. |
| if (fpu_spill_mask_ != 0) { |
| uint32_t least_significant_bit = LeastSignificantBit(fpu_spill_mask_); |
| uint32_t most_significant_bit = MostSignificantBit(fpu_spill_mask_); |
| for (uint32_t i = least_significant_bit + 1 ; i < most_significant_bit; ++i) { |
| fpu_spill_mask_ |= (1 << i); |
| } |
| } |
| } |
| |
| static dwarf::Reg DWARFReg(Register reg) { |
| return dwarf::Reg::ArmCore(static_cast<int>(reg)); |
| } |
| |
| static dwarf::Reg DWARFReg(SRegister reg) { |
| return dwarf::Reg::ArmFp(static_cast<int>(reg)); |
| } |
| |
| void CodeGeneratorARM::GenerateFrameEntry() { |
| bool skip_overflow_check = |
| IsLeafMethod() && !FrameNeedsStackCheck(GetFrameSize(), InstructionSet::kArm); |
| DCHECK(GetCompilerOptions().GetImplicitStackOverflowChecks()); |
| __ Bind(&frame_entry_label_); |
| |
| if (HasEmptyFrame()) { |
| return; |
| } |
| |
| if (!skip_overflow_check) { |
| __ AddConstant(IP, SP, -static_cast<int32_t>(GetStackOverflowReservedBytes(kArm))); |
| __ LoadFromOffset(kLoadWord, IP, IP, 0); |
| RecordPcInfo(nullptr, 0); |
| } |
| |
| // PC is in the list of callee-save to mimic Quick, but we need to push |
| // LR at entry instead. |
| uint32_t push_mask = (core_spill_mask_ & (~(1 << PC))) | 1 << LR; |
| __ PushList(push_mask); |
| __ cfi().AdjustCFAOffset(kArmWordSize * POPCOUNT(push_mask)); |
| __ cfi().RelOffsetForMany(DWARFReg(kMethodRegisterArgument), 0, push_mask, kArmWordSize); |
| if (fpu_spill_mask_ != 0) { |
| SRegister start_register = SRegister(LeastSignificantBit(fpu_spill_mask_)); |
| __ vpushs(start_register, POPCOUNT(fpu_spill_mask_)); |
| __ cfi().AdjustCFAOffset(kArmWordSize * POPCOUNT(fpu_spill_mask_)); |
| __ cfi().RelOffsetForMany(DWARFReg(S0), 0, fpu_spill_mask_, kArmWordSize); |
| } |
| int adjust = GetFrameSize() - FrameEntrySpillSize(); |
| __ AddConstant(SP, -adjust); |
| __ cfi().AdjustCFAOffset(adjust); |
| __ StoreToOffset(kStoreWord, kMethodRegisterArgument, SP, 0); |
| } |
| |
| void CodeGeneratorARM::GenerateFrameExit() { |
| if (HasEmptyFrame()) { |
| __ bx(LR); |
| return; |
| } |
| __ cfi().RememberState(); |
| int adjust = GetFrameSize() - FrameEntrySpillSize(); |
| __ AddConstant(SP, adjust); |
| __ cfi().AdjustCFAOffset(-adjust); |
| if (fpu_spill_mask_ != 0) { |
| SRegister start_register = SRegister(LeastSignificantBit(fpu_spill_mask_)); |
| __ vpops(start_register, POPCOUNT(fpu_spill_mask_)); |
| __ cfi().AdjustCFAOffset(-kArmPointerSize * POPCOUNT(fpu_spill_mask_)); |
| __ cfi().RestoreMany(DWARFReg(SRegister(0)), fpu_spill_mask_); |
| } |
| __ PopList(core_spill_mask_); |
| __ cfi().RestoreState(); |
| __ cfi().DefCFAOffset(GetFrameSize()); |
| } |
| |
| void CodeGeneratorARM::Bind(HBasicBlock* block) { |
| __ Bind(GetLabelOf(block)); |
| } |
| |
| Location CodeGeneratorARM::GetStackLocation(HLoadLocal* load) const { |
| switch (load->GetType()) { |
| case Primitive::kPrimLong: |
| case Primitive::kPrimDouble: |
| return Location::DoubleStackSlot(GetStackSlot(load->GetLocal())); |
| |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: |
| case Primitive::kPrimFloat: |
| return Location::StackSlot(GetStackSlot(load->GetLocal())); |
| |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unexpected type " << load->GetType(); |
| UNREACHABLE(); |
| } |
| |
| LOG(FATAL) << "Unreachable"; |
| UNREACHABLE(); |
| } |
| |
| Location InvokeDexCallingConventionVisitorARM::GetNextLocation(Primitive::Type type) { |
| switch (type) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| uint32_t index = gp_index_++; |
| uint32_t stack_index = stack_index_++; |
| if (index < calling_convention.GetNumberOfRegisters()) { |
| return Location::RegisterLocation(calling_convention.GetRegisterAt(index)); |
| } else { |
| return Location::StackSlot(calling_convention.GetStackOffsetOf(stack_index)); |
| } |
| } |
| |
| case Primitive::kPrimLong: { |
| uint32_t index = gp_index_; |
| uint32_t stack_index = stack_index_; |
| gp_index_ += 2; |
| stack_index_ += 2; |
| if (index + 1 < calling_convention.GetNumberOfRegisters()) { |
| if (calling_convention.GetRegisterAt(index) == R1) { |
| // Skip R1, and use R2_R3 instead. |
| gp_index_++; |
| index++; |
| } |
| } |
| if (index + 1 < calling_convention.GetNumberOfRegisters()) { |
| DCHECK_EQ(calling_convention.GetRegisterAt(index) + 1, |
| calling_convention.GetRegisterAt(index + 1)); |
| return Location::RegisterPairLocation(calling_convention.GetRegisterAt(index), |
| calling_convention.GetRegisterAt(index + 1)); |
| } else { |
| return Location::DoubleStackSlot(calling_convention.GetStackOffsetOf(stack_index)); |
| } |
| } |
| |
| case Primitive::kPrimFloat: { |
| uint32_t stack_index = stack_index_++; |
| if (float_index_ % 2 == 0) { |
| float_index_ = std::max(double_index_, float_index_); |
| } |
| if (float_index_ < calling_convention.GetNumberOfFpuRegisters()) { |
| return Location::FpuRegisterLocation(calling_convention.GetFpuRegisterAt(float_index_++)); |
| } else { |
| return Location::StackSlot(calling_convention.GetStackOffsetOf(stack_index)); |
| } |
| } |
| |
| case Primitive::kPrimDouble: { |
| double_index_ = std::max(double_index_, RoundUp(float_index_, 2)); |
| uint32_t stack_index = stack_index_; |
| stack_index_ += 2; |
| if (double_index_ + 1 < calling_convention.GetNumberOfFpuRegisters()) { |
| uint32_t index = double_index_; |
| double_index_ += 2; |
| Location result = Location::FpuRegisterPairLocation( |
| calling_convention.GetFpuRegisterAt(index), |
| calling_convention.GetFpuRegisterAt(index + 1)); |
| DCHECK(ExpectedPairLayout(result)); |
| return result; |
| } else { |
| return Location::DoubleStackSlot(calling_convention.GetStackOffsetOf(stack_index)); |
| } |
| } |
| |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unexpected parameter type " << type; |
| break; |
| } |
| return Location(); |
| } |
| |
| Location InvokeDexCallingConventionVisitorARM::GetReturnLocation(Primitive::Type type) const { |
| switch (type) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| return Location::RegisterLocation(R0); |
| } |
| |
| case Primitive::kPrimFloat: { |
| return Location::FpuRegisterLocation(S0); |
| } |
| |
| case Primitive::kPrimLong: { |
| return Location::RegisterPairLocation(R0, R1); |
| } |
| |
| case Primitive::kPrimDouble: { |
| return Location::FpuRegisterPairLocation(S0, S1); |
| } |
| |
| case Primitive::kPrimVoid: |
| return Location(); |
| } |
| |
| UNREACHABLE(); |
| } |
| |
| Location InvokeDexCallingConventionVisitorARM::GetMethodLocation() const { |
| return Location::RegisterLocation(kMethodRegisterArgument); |
| } |
| |
| void CodeGeneratorARM::Move32(Location destination, Location source) { |
| if (source.Equals(destination)) { |
| return; |
| } |
| if (destination.IsRegister()) { |
| if (source.IsRegister()) { |
| __ Mov(destination.AsRegister<Register>(), source.AsRegister<Register>()); |
| } else if (source.IsFpuRegister()) { |
| __ vmovrs(destination.AsRegister<Register>(), source.AsFpuRegister<SRegister>()); |
| } else { |
| __ LoadFromOffset(kLoadWord, destination.AsRegister<Register>(), SP, source.GetStackIndex()); |
| } |
| } else if (destination.IsFpuRegister()) { |
| if (source.IsRegister()) { |
| __ vmovsr(destination.AsFpuRegister<SRegister>(), source.AsRegister<Register>()); |
| } else if (source.IsFpuRegister()) { |
| __ vmovs(destination.AsFpuRegister<SRegister>(), source.AsFpuRegister<SRegister>()); |
| } else { |
| __ LoadSFromOffset(destination.AsFpuRegister<SRegister>(), SP, source.GetStackIndex()); |
| } |
| } else { |
| DCHECK(destination.IsStackSlot()) << destination; |
| if (source.IsRegister()) { |
| __ StoreToOffset(kStoreWord, source.AsRegister<Register>(), SP, destination.GetStackIndex()); |
| } else if (source.IsFpuRegister()) { |
| __ StoreSToOffset(source.AsFpuRegister<SRegister>(), SP, destination.GetStackIndex()); |
| } else { |
| DCHECK(source.IsStackSlot()) << source; |
| __ LoadFromOffset(kLoadWord, IP, SP, source.GetStackIndex()); |
| __ StoreToOffset(kStoreWord, IP, SP, destination.GetStackIndex()); |
| } |
| } |
| } |
| |
| void CodeGeneratorARM::Move64(Location destination, Location source) { |
| if (source.Equals(destination)) { |
| return; |
| } |
| if (destination.IsRegisterPair()) { |
| if (source.IsRegisterPair()) { |
| EmitParallelMoves( |
| Location::RegisterLocation(source.AsRegisterPairHigh<Register>()), |
| Location::RegisterLocation(destination.AsRegisterPairHigh<Register>()), |
| Primitive::kPrimInt, |
| Location::RegisterLocation(source.AsRegisterPairLow<Register>()), |
| Location::RegisterLocation(destination.AsRegisterPairLow<Register>()), |
| Primitive::kPrimInt); |
| } else if (source.IsFpuRegister()) { |
| UNIMPLEMENTED(FATAL); |
| } else { |
| DCHECK(source.IsDoubleStackSlot()); |
| DCHECK(ExpectedPairLayout(destination)); |
| __ LoadFromOffset(kLoadWordPair, destination.AsRegisterPairLow<Register>(), |
| SP, source.GetStackIndex()); |
| } |
| } else if (destination.IsFpuRegisterPair()) { |
| if (source.IsDoubleStackSlot()) { |
| __ LoadDFromOffset(FromLowSToD(destination.AsFpuRegisterPairLow<SRegister>()), |
| SP, |
| source.GetStackIndex()); |
| } else { |
| UNIMPLEMENTED(FATAL); |
| } |
| } else { |
| DCHECK(destination.IsDoubleStackSlot()); |
| if (source.IsRegisterPair()) { |
| // No conflict possible, so just do the moves. |
| if (source.AsRegisterPairLow<Register>() == R1) { |
| DCHECK_EQ(source.AsRegisterPairHigh<Register>(), R2); |
| __ StoreToOffset(kStoreWord, R1, SP, destination.GetStackIndex()); |
| __ StoreToOffset(kStoreWord, R2, SP, destination.GetHighStackIndex(kArmWordSize)); |
| } else { |
| __ StoreToOffset(kStoreWordPair, source.AsRegisterPairLow<Register>(), |
| SP, destination.GetStackIndex()); |
| } |
| } else if (source.IsFpuRegisterPair()) { |
| __ StoreDToOffset(FromLowSToD(source.AsFpuRegisterPairLow<SRegister>()), |
| SP, |
| destination.GetStackIndex()); |
| } else { |
| DCHECK(source.IsDoubleStackSlot()); |
| EmitParallelMoves( |
| Location::StackSlot(source.GetStackIndex()), |
| Location::StackSlot(destination.GetStackIndex()), |
| Primitive::kPrimInt, |
| Location::StackSlot(source.GetHighStackIndex(kArmWordSize)), |
| Location::StackSlot(destination.GetHighStackIndex(kArmWordSize)), |
| Primitive::kPrimInt); |
| } |
| } |
| } |
| |
| void CodeGeneratorARM::Move(HInstruction* instruction, Location location, HInstruction* move_for) { |
| LocationSummary* locations = instruction->GetLocations(); |
| if (instruction->IsCurrentMethod()) { |
| Move32(location, Location::StackSlot(kCurrentMethodStackOffset)); |
| } else if (locations != nullptr && locations->Out().Equals(location)) { |
| return; |
| } else if (locations != nullptr && locations->Out().IsConstant()) { |
| HConstant* const_to_move = locations->Out().GetConstant(); |
| if (const_to_move->IsIntConstant() || const_to_move->IsNullConstant()) { |
| int32_t value = GetInt32ValueOf(const_to_move); |
| if (location.IsRegister()) { |
| __ LoadImmediate(location.AsRegister<Register>(), value); |
| } else { |
| DCHECK(location.IsStackSlot()); |
| __ LoadImmediate(IP, value); |
| __ StoreToOffset(kStoreWord, IP, SP, location.GetStackIndex()); |
| } |
| } else { |
| DCHECK(const_to_move->IsLongConstant()) << const_to_move->DebugName(); |
| int64_t value = const_to_move->AsLongConstant()->GetValue(); |
| if (location.IsRegisterPair()) { |
| __ LoadImmediate(location.AsRegisterPairLow<Register>(), Low32Bits(value)); |
| __ LoadImmediate(location.AsRegisterPairHigh<Register>(), High32Bits(value)); |
| } else { |
| DCHECK(location.IsDoubleStackSlot()); |
| __ LoadImmediate(IP, Low32Bits(value)); |
| __ StoreToOffset(kStoreWord, IP, SP, location.GetStackIndex()); |
| __ LoadImmediate(IP, High32Bits(value)); |
| __ StoreToOffset(kStoreWord, IP, SP, location.GetHighStackIndex(kArmWordSize)); |
| } |
| } |
| } else if (instruction->IsLoadLocal()) { |
| uint32_t stack_slot = GetStackSlot(instruction->AsLoadLocal()->GetLocal()); |
| switch (instruction->GetType()) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: |
| case Primitive::kPrimFloat: |
| Move32(location, Location::StackSlot(stack_slot)); |
| break; |
| |
| case Primitive::kPrimLong: |
| case Primitive::kPrimDouble: |
| Move64(location, Location::DoubleStackSlot(stack_slot)); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type " << instruction->GetType(); |
| } |
| } else if (instruction->IsTemporary()) { |
| Location temp_location = GetTemporaryLocation(instruction->AsTemporary()); |
| if (temp_location.IsStackSlot()) { |
| Move32(location, temp_location); |
| } else { |
| DCHECK(temp_location.IsDoubleStackSlot()); |
| Move64(location, temp_location); |
| } |
| } else { |
| DCHECK((instruction->GetNext() == move_for) || instruction->GetNext()->IsTemporary()); |
| switch (instruction->GetType()) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimNot: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimFloat: |
| Move32(location, locations->Out()); |
| break; |
| |
| case Primitive::kPrimLong: |
| case Primitive::kPrimDouble: |
| Move64(location, locations->Out()); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type " << instruction->GetType(); |
| } |
| } |
| } |
| |
| void CodeGeneratorARM::InvokeRuntime(int32_t entry_point_offset, |
| HInstruction* instruction, |
| uint32_t dex_pc, |
| SlowPathCode* slow_path) { |
| __ LoadFromOffset(kLoadWord, LR, TR, entry_point_offset); |
| __ blx(LR); |
| RecordPcInfo(instruction, dex_pc, slow_path); |
| DCHECK(instruction->IsSuspendCheck() |
| || instruction->IsBoundsCheck() |
| || instruction->IsNullCheck() |
| || instruction->IsDivZeroCheck() |
| || instruction->GetLocations()->CanCall() |
| || !IsLeafMethod()); |
| } |
| |
| void InstructionCodeGeneratorARM::HandleGoto(HInstruction* got, HBasicBlock* successor) { |
| DCHECK(!successor->IsExitBlock()); |
| |
| HBasicBlock* block = got->GetBlock(); |
| HInstruction* previous = got->GetPrevious(); |
| |
| HLoopInformation* info = block->GetLoopInformation(); |
| if (info != nullptr && info->IsBackEdge(*block) && info->HasSuspendCheck()) { |
| codegen_->ClearSpillSlotsFromLoopPhisInStackMap(info->GetSuspendCheck()); |
| GenerateSuspendCheck(info->GetSuspendCheck(), successor); |
| return; |
| } |
| |
| if (block->IsEntryBlock() && (previous != nullptr) && previous->IsSuspendCheck()) { |
| GenerateSuspendCheck(previous->AsSuspendCheck(), nullptr); |
| } |
| if (!codegen_->GoesToNextBlock(got->GetBlock(), successor)) { |
| __ b(codegen_->GetLabelOf(successor)); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitGoto(HGoto* got) { |
| got->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitGoto(HGoto* got) { |
| HandleGoto(got, got->GetSuccessor()); |
| } |
| |
| void LocationsBuilderARM::VisitTryBoundary(HTryBoundary* try_boundary) { |
| try_boundary->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitTryBoundary(HTryBoundary* try_boundary) { |
| HBasicBlock* successor = try_boundary->GetNormalFlowSuccessor(); |
| if (!successor->IsExitBlock()) { |
| HandleGoto(try_boundary, successor); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitExit(HExit* exit) { |
| exit->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitExit(HExit* exit) { |
| UNUSED(exit); |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateTestAndBranch(HInstruction* instruction, |
| Label* true_target, |
| Label* false_target, |
| Label* always_true_target) { |
| HInstruction* cond = instruction->InputAt(0); |
| if (cond->IsIntConstant()) { |
| // Constant condition, statically compared against 1. |
| int32_t cond_value = cond->AsIntConstant()->GetValue(); |
| if (cond_value == 1) { |
| if (always_true_target != nullptr) { |
| __ b(always_true_target); |
| } |
| return; |
| } else { |
| DCHECK_EQ(cond_value, 0); |
| } |
| } else { |
| if (!cond->IsCondition() || cond->AsCondition()->NeedsMaterialization()) { |
| // Condition has been materialized, compare the output to 0 |
| DCHECK(instruction->GetLocations()->InAt(0).IsRegister()); |
| __ CompareAndBranchIfNonZero(instruction->GetLocations()->InAt(0).AsRegister<Register>(), |
| true_target); |
| } else { |
| // Condition has not been materialized, use its inputs as the |
| // comparison and its condition as the branch condition. |
| LocationSummary* locations = cond->GetLocations(); |
| DCHECK(locations->InAt(0).IsRegister()) << locations->InAt(0); |
| Register left = locations->InAt(0).AsRegister<Register>(); |
| if (locations->InAt(1).IsRegister()) { |
| __ cmp(left, ShifterOperand(locations->InAt(1).AsRegister<Register>())); |
| } else { |
| DCHECK(locations->InAt(1).IsConstant()); |
| HConstant* constant = locations->InAt(1).GetConstant(); |
| int32_t value = CodeGenerator::GetInt32ValueOf(constant); |
| ShifterOperand operand; |
| if (GetAssembler()->ShifterOperandCanHold(R0, left, CMP, value, &operand)) { |
| __ cmp(left, operand); |
| } else { |
| Register temp = IP; |
| __ LoadImmediate(temp, value); |
| __ cmp(left, ShifterOperand(temp)); |
| } |
| } |
| __ b(true_target, ARMCondition(cond->AsCondition()->GetCondition())); |
| } |
| } |
| if (false_target != nullptr) { |
| __ b(false_target); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitIf(HIf* if_instr) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(if_instr, LocationSummary::kNoCall); |
| HInstruction* cond = if_instr->InputAt(0); |
| if (!cond->IsCondition() || cond->AsCondition()->NeedsMaterialization()) { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitIf(HIf* if_instr) { |
| Label* true_target = codegen_->GetLabelOf(if_instr->IfTrueSuccessor()); |
| Label* false_target = codegen_->GetLabelOf(if_instr->IfFalseSuccessor()); |
| Label* always_true_target = true_target; |
| if (codegen_->GoesToNextBlock(if_instr->GetBlock(), |
| if_instr->IfTrueSuccessor())) { |
| always_true_target = nullptr; |
| } |
| if (codegen_->GoesToNextBlock(if_instr->GetBlock(), |
| if_instr->IfFalseSuccessor())) { |
| false_target = nullptr; |
| } |
| GenerateTestAndBranch(if_instr, true_target, false_target, always_true_target); |
| } |
| |
| void LocationsBuilderARM::VisitDeoptimize(HDeoptimize* deoptimize) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) |
| LocationSummary(deoptimize, LocationSummary::kCallOnSlowPath); |
| HInstruction* cond = deoptimize->InputAt(0); |
| DCHECK(cond->IsCondition()); |
| if (cond->AsCondition()->NeedsMaterialization()) { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitDeoptimize(HDeoptimize* deoptimize) { |
| SlowPathCodeARM* slow_path = new (GetGraph()->GetArena()) |
| DeoptimizationSlowPathARM(deoptimize); |
| codegen_->AddSlowPath(slow_path); |
| Label* slow_path_entry = slow_path->GetEntryLabel(); |
| GenerateTestAndBranch(deoptimize, slow_path_entry, nullptr, slow_path_entry); |
| } |
| |
| void LocationsBuilderARM::VisitCondition(HCondition* cond) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(cond, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(cond->InputAt(1))); |
| if (cond->NeedsMaterialization()) { |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitCondition(HCondition* cond) { |
| if (!cond->NeedsMaterialization()) return; |
| LocationSummary* locations = cond->GetLocations(); |
| Register left = locations->InAt(0).AsRegister<Register>(); |
| |
| if (locations->InAt(1).IsRegister()) { |
| __ cmp(left, ShifterOperand(locations->InAt(1).AsRegister<Register>())); |
| } else { |
| DCHECK(locations->InAt(1).IsConstant()); |
| int32_t value = CodeGenerator::GetInt32ValueOf(locations->InAt(1).GetConstant()); |
| ShifterOperand operand; |
| if (GetAssembler()->ShifterOperandCanHold(R0, left, CMP, value, &operand)) { |
| __ cmp(left, operand); |
| } else { |
| Register temp = IP; |
| __ LoadImmediate(temp, value); |
| __ cmp(left, ShifterOperand(temp)); |
| } |
| } |
| __ it(ARMCondition(cond->GetCondition()), kItElse); |
| __ mov(locations->Out().AsRegister<Register>(), ShifterOperand(1), |
| ARMCondition(cond->GetCondition())); |
| __ mov(locations->Out().AsRegister<Register>(), ShifterOperand(0), |
| ARMOppositeCondition(cond->GetCondition())); |
| } |
| |
| void LocationsBuilderARM::VisitEqual(HEqual* comp) { |
| VisitCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitEqual(HEqual* comp) { |
| VisitCondition(comp); |
| } |
| |
| void LocationsBuilderARM::VisitNotEqual(HNotEqual* comp) { |
| VisitCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitNotEqual(HNotEqual* comp) { |
| VisitCondition(comp); |
| } |
| |
| void LocationsBuilderARM::VisitLessThan(HLessThan* comp) { |
| VisitCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitLessThan(HLessThan* comp) { |
| VisitCondition(comp); |
| } |
| |
| void LocationsBuilderARM::VisitLessThanOrEqual(HLessThanOrEqual* comp) { |
| VisitCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitLessThanOrEqual(HLessThanOrEqual* comp) { |
| VisitCondition(comp); |
| } |
| |
| void LocationsBuilderARM::VisitGreaterThan(HGreaterThan* comp) { |
| VisitCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitGreaterThan(HGreaterThan* comp) { |
| VisitCondition(comp); |
| } |
| |
| void LocationsBuilderARM::VisitGreaterThanOrEqual(HGreaterThanOrEqual* comp) { |
| VisitCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitGreaterThanOrEqual(HGreaterThanOrEqual* comp) { |
| VisitCondition(comp); |
| } |
| |
| void LocationsBuilderARM::VisitLocal(HLocal* local) { |
| local->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitLocal(HLocal* local) { |
| DCHECK_EQ(local->GetBlock(), GetGraph()->GetEntryBlock()); |
| } |
| |
| void LocationsBuilderARM::VisitLoadLocal(HLoadLocal* load) { |
| load->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitLoadLocal(HLoadLocal* load) { |
| // Nothing to do, this is driven by the code generator. |
| UNUSED(load); |
| } |
| |
| void LocationsBuilderARM::VisitStoreLocal(HStoreLocal* store) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(store, LocationSummary::kNoCall); |
| switch (store->InputAt(1)->GetType()) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: |
| case Primitive::kPrimFloat: |
| locations->SetInAt(1, Location::StackSlot(codegen_->GetStackSlot(store->GetLocal()))); |
| break; |
| |
| case Primitive::kPrimLong: |
| case Primitive::kPrimDouble: |
| locations->SetInAt(1, Location::DoubleStackSlot(codegen_->GetStackSlot(store->GetLocal()))); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected local type " << store->InputAt(1)->GetType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitStoreLocal(HStoreLocal* store) { |
| UNUSED(store); |
| } |
| |
| void LocationsBuilderARM::VisitIntConstant(HIntConstant* constant) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(constant, LocationSummary::kNoCall); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitIntConstant(HIntConstant* constant) { |
| // Will be generated at use site. |
| UNUSED(constant); |
| } |
| |
| void LocationsBuilderARM::VisitNullConstant(HNullConstant* constant) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(constant, LocationSummary::kNoCall); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitNullConstant(HNullConstant* constant) { |
| // Will be generated at use site. |
| UNUSED(constant); |
| } |
| |
| void LocationsBuilderARM::VisitLongConstant(HLongConstant* constant) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(constant, LocationSummary::kNoCall); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitLongConstant(HLongConstant* constant) { |
| // Will be generated at use site. |
| UNUSED(constant); |
| } |
| |
| void LocationsBuilderARM::VisitFloatConstant(HFloatConstant* constant) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(constant, LocationSummary::kNoCall); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitFloatConstant(HFloatConstant* constant) { |
| // Will be generated at use site. |
| UNUSED(constant); |
| } |
| |
| void LocationsBuilderARM::VisitDoubleConstant(HDoubleConstant* constant) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(constant, LocationSummary::kNoCall); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitDoubleConstant(HDoubleConstant* constant) { |
| // Will be generated at use site. |
| UNUSED(constant); |
| } |
| |
| void LocationsBuilderARM::VisitMemoryBarrier(HMemoryBarrier* memory_barrier) { |
| memory_barrier->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitMemoryBarrier(HMemoryBarrier* memory_barrier) { |
| GenerateMemoryBarrier(memory_barrier->GetBarrierKind()); |
| } |
| |
| void LocationsBuilderARM::VisitReturnVoid(HReturnVoid* ret) { |
| ret->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitReturnVoid(HReturnVoid* ret) { |
| UNUSED(ret); |
| codegen_->GenerateFrameExit(); |
| } |
| |
| void LocationsBuilderARM::VisitReturn(HReturn* ret) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(ret, LocationSummary::kNoCall); |
| locations->SetInAt(0, parameter_visitor_.GetReturnLocation(ret->InputAt(0)->GetType())); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitReturn(HReturn* ret) { |
| UNUSED(ret); |
| codegen_->GenerateFrameExit(); |
| } |
| |
| void LocationsBuilderARM::VisitInvokeStaticOrDirect(HInvokeStaticOrDirect* invoke) { |
| // When we do not run baseline, explicit clinit checks triggered by static |
| // invokes must have been pruned by art::PrepareForRegisterAllocation. |
| DCHECK(codegen_->IsBaseline() || !invoke->IsStaticWithExplicitClinitCheck()); |
| |
| IntrinsicLocationsBuilderARM intrinsic(GetGraph()->GetArena(), |
| codegen_->GetInstructionSetFeatures()); |
| if (intrinsic.TryDispatch(invoke)) { |
| return; |
| } |
| |
| HandleInvoke(invoke); |
| } |
| |
| static bool TryGenerateIntrinsicCode(HInvoke* invoke, CodeGeneratorARM* codegen) { |
| if (invoke->GetLocations()->Intrinsified()) { |
| IntrinsicCodeGeneratorARM intrinsic(codegen); |
| intrinsic.Dispatch(invoke); |
| return true; |
| } |
| return false; |
| } |
| |
| void InstructionCodeGeneratorARM::VisitInvokeStaticOrDirect(HInvokeStaticOrDirect* invoke) { |
| // When we do not run baseline, explicit clinit checks triggered by static |
| // invokes must have been pruned by art::PrepareForRegisterAllocation. |
| DCHECK(codegen_->IsBaseline() || !invoke->IsStaticWithExplicitClinitCheck()); |
| |
| if (TryGenerateIntrinsicCode(invoke, codegen_)) { |
| return; |
| } |
| |
| LocationSummary* locations = invoke->GetLocations(); |
| codegen_->GenerateStaticOrDirectCall( |
| invoke, locations->HasTemps() ? locations->GetTemp(0) : Location::NoLocation()); |
| codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); |
| } |
| |
| void LocationsBuilderARM::HandleInvoke(HInvoke* invoke) { |
| InvokeDexCallingConventionVisitorARM calling_convention_visitor; |
| CodeGenerator::CreateCommonInvokeLocationSummary(invoke, &calling_convention_visitor); |
| } |
| |
| void LocationsBuilderARM::VisitInvokeVirtual(HInvokeVirtual* invoke) { |
| IntrinsicLocationsBuilderARM intrinsic(GetGraph()->GetArena(), |
| codegen_->GetInstructionSetFeatures()); |
| if (intrinsic.TryDispatch(invoke)) { |
| return; |
| } |
| |
| HandleInvoke(invoke); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitInvokeVirtual(HInvokeVirtual* invoke) { |
| if (TryGenerateIntrinsicCode(invoke, codegen_)) { |
| return; |
| } |
| |
| Register temp = invoke->GetLocations()->GetTemp(0).AsRegister<Register>(); |
| uint32_t method_offset = mirror::Class::EmbeddedVTableEntryOffset( |
| invoke->GetVTableIndex(), kArmPointerSize).Uint32Value(); |
| LocationSummary* locations = invoke->GetLocations(); |
| Location receiver = locations->InAt(0); |
| uint32_t class_offset = mirror::Object::ClassOffset().Int32Value(); |
| // temp = object->GetClass(); |
| DCHECK(receiver.IsRegister()); |
| __ LoadFromOffset(kLoadWord, temp, receiver.AsRegister<Register>(), class_offset); |
| codegen_->MaybeRecordImplicitNullCheck(invoke); |
| __ MaybeUnpoisonHeapReference(temp); |
| // temp = temp->GetMethodAt(method_offset); |
| uint32_t entry_point = ArtMethod::EntryPointFromQuickCompiledCodeOffset( |
| kArmWordSize).Int32Value(); |
| __ LoadFromOffset(kLoadWord, temp, temp, method_offset); |
| // LR = temp->GetEntryPoint(); |
| __ LoadFromOffset(kLoadWord, LR, temp, entry_point); |
| // LR(); |
| __ blx(LR); |
| DCHECK(!codegen_->IsLeafMethod()); |
| codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); |
| } |
| |
| void LocationsBuilderARM::VisitInvokeInterface(HInvokeInterface* invoke) { |
| HandleInvoke(invoke); |
| // Add the hidden argument. |
| invoke->GetLocations()->AddTemp(Location::RegisterLocation(R12)); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitInvokeInterface(HInvokeInterface* invoke) { |
| // TODO: b/18116999, our IMTs can miss an IncompatibleClassChangeError. |
| Register temp = invoke->GetLocations()->GetTemp(0).AsRegister<Register>(); |
| uint32_t method_offset = mirror::Class::EmbeddedImTableEntryOffset( |
| invoke->GetImtIndex() % mirror::Class::kImtSize, kArmPointerSize).Uint32Value(); |
| LocationSummary* locations = invoke->GetLocations(); |
| Location receiver = locations->InAt(0); |
| uint32_t class_offset = mirror::Object::ClassOffset().Int32Value(); |
| |
| // Set the hidden argument. |
| __ LoadImmediate(invoke->GetLocations()->GetTemp(1).AsRegister<Register>(), |
| invoke->GetDexMethodIndex()); |
| |
| // temp = object->GetClass(); |
| if (receiver.IsStackSlot()) { |
| __ LoadFromOffset(kLoadWord, temp, SP, receiver.GetStackIndex()); |
| __ LoadFromOffset(kLoadWord, temp, temp, class_offset); |
| } else { |
| __ LoadFromOffset(kLoadWord, temp, receiver.AsRegister<Register>(), class_offset); |
| } |
| codegen_->MaybeRecordImplicitNullCheck(invoke); |
| __ MaybeUnpoisonHeapReference(temp); |
| // temp = temp->GetImtEntryAt(method_offset); |
| uint32_t entry_point = ArtMethod::EntryPointFromQuickCompiledCodeOffset( |
| kArmWordSize).Int32Value(); |
| __ LoadFromOffset(kLoadWord, temp, temp, method_offset); |
| // LR = temp->GetEntryPoint(); |
| __ LoadFromOffset(kLoadWord, LR, temp, entry_point); |
| // LR(); |
| __ blx(LR); |
| DCHECK(!codegen_->IsLeafMethod()); |
| codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); |
| } |
| |
| void LocationsBuilderARM::VisitNeg(HNeg* neg) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(neg, LocationSummary::kNoCall); |
| switch (neg->GetResultType()) { |
| case Primitive::kPrimInt: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| case Primitive::kPrimLong: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kOutputOverlap); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected neg type " << neg->GetResultType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitNeg(HNeg* neg) { |
| LocationSummary* locations = neg->GetLocations(); |
| Location out = locations->Out(); |
| Location in = locations->InAt(0); |
| switch (neg->GetResultType()) { |
| case Primitive::kPrimInt: |
| DCHECK(in.IsRegister()); |
| __ rsb(out.AsRegister<Register>(), in.AsRegister<Register>(), ShifterOperand(0)); |
| break; |
| |
| case Primitive::kPrimLong: |
| DCHECK(in.IsRegisterPair()); |
| // out.lo = 0 - in.lo (and update the carry/borrow (C) flag) |
| __ rsbs(out.AsRegisterPairLow<Register>(), |
| in.AsRegisterPairLow<Register>(), |
| ShifterOperand(0)); |
| // We cannot emit an RSC (Reverse Subtract with Carry) |
| // instruction here, as it does not exist in the Thumb-2 |
| // instruction set. We use the following approach |
| // using SBC and SUB instead. |
| // |
| // out.hi = -C |
| __ sbc(out.AsRegisterPairHigh<Register>(), |
| out.AsRegisterPairHigh<Register>(), |
| ShifterOperand(out.AsRegisterPairHigh<Register>())); |
| // out.hi = out.hi - in.hi |
| __ sub(out.AsRegisterPairHigh<Register>(), |
| out.AsRegisterPairHigh<Register>(), |
| ShifterOperand(in.AsRegisterPairHigh<Register>())); |
| break; |
| |
| case Primitive::kPrimFloat: |
| DCHECK(in.IsFpuRegister()); |
| __ vnegs(out.AsFpuRegister<SRegister>(), in.AsFpuRegister<SRegister>()); |
| break; |
| |
| case Primitive::kPrimDouble: |
| DCHECK(in.IsFpuRegisterPair()); |
| __ vnegd(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(in.AsFpuRegisterPairLow<SRegister>())); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected neg type " << neg->GetResultType(); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitTypeConversion(HTypeConversion* conversion) { |
| Primitive::Type result_type = conversion->GetResultType(); |
| Primitive::Type input_type = conversion->GetInputType(); |
| DCHECK_NE(result_type, input_type); |
| |
| // The float-to-long, double-to-long and long-to-float type conversions |
| // rely on a call to the runtime. |
| LocationSummary::CallKind call_kind = |
| (((input_type == Primitive::kPrimFloat || input_type == Primitive::kPrimDouble) |
| && result_type == Primitive::kPrimLong) |
| || (input_type == Primitive::kPrimLong && result_type == Primitive::kPrimFloat)) |
| ? LocationSummary::kCall |
| : LocationSummary::kNoCall; |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(conversion, call_kind); |
| |
| // The Java language does not allow treating boolean as an integral type but |
| // our bit representation makes it safe. |
| |
| switch (result_type) { |
| case Primitive::kPrimByte: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: |
| // Processing a Dex `int-to-byte' instruction. |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimShort: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: |
| // Processing a Dex `int-to-short' instruction. |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimInt: |
| switch (input_type) { |
| case Primitive::kPrimLong: |
| // Processing a Dex `long-to-int' instruction. |
| locations->SetInAt(0, Location::Any()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| case Primitive::kPrimFloat: |
| // Processing a Dex `float-to-int' instruction. |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresRegister()); |
| locations->AddTemp(Location::RequiresFpuRegister()); |
| break; |
| |
| case Primitive::kPrimDouble: |
| // Processing a Dex `double-to-int' instruction. |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresRegister()); |
| locations->AddTemp(Location::RequiresFpuRegister()); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimLong: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: |
| // Processing a Dex `int-to-long' instruction. |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| case Primitive::kPrimFloat: { |
| // Processing a Dex `float-to-long' instruction. |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::FpuRegisterLocation( |
| calling_convention.GetFpuRegisterAt(0))); |
| locations->SetOut(Location::RegisterPairLocation(R0, R1)); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| // Processing a Dex `double-to-long' instruction. |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::FpuRegisterPairLocation( |
| calling_convention.GetFpuRegisterAt(0), |
| calling_convention.GetFpuRegisterAt(1))); |
| locations->SetOut(Location::RegisterPairLocation(R0, R1)); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimChar: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| // Processing a Dex `int-to-char' instruction. |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimFloat: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: |
| // Processing a Dex `int-to-float' instruction. |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresFpuRegister()); |
| break; |
| |
| case Primitive::kPrimLong: { |
| // Processing a Dex `long-to-float' instruction. |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterPairLocation( |
| calling_convention.GetRegisterAt(0), calling_convention.GetRegisterAt(1))); |
| locations->SetOut(Location::FpuRegisterLocation(calling_convention.GetFpuRegisterAt(0))); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: |
| // Processing a Dex `double-to-float' instruction. |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| }; |
| break; |
| |
| case Primitive::kPrimDouble: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: |
| // Processing a Dex `int-to-double' instruction. |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresFpuRegister()); |
| break; |
| |
| case Primitive::kPrimLong: |
| // Processing a Dex `long-to-double' instruction. |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresFpuRegister()); |
| locations->AddTemp(Location::RequiresFpuRegister()); |
| locations->AddTemp(Location::RequiresFpuRegister()); |
| break; |
| |
| case Primitive::kPrimFloat: |
| // Processing a Dex `float-to-double' instruction. |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| }; |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitTypeConversion(HTypeConversion* conversion) { |
| LocationSummary* locations = conversion->GetLocations(); |
| Location out = locations->Out(); |
| Location in = locations->InAt(0); |
| Primitive::Type result_type = conversion->GetResultType(); |
| Primitive::Type input_type = conversion->GetInputType(); |
| DCHECK_NE(result_type, input_type); |
| switch (result_type) { |
| case Primitive::kPrimByte: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: |
| // Processing a Dex `int-to-byte' instruction. |
| __ sbfx(out.AsRegister<Register>(), in.AsRegister<Register>(), 0, 8); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimShort: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: |
| // Processing a Dex `int-to-short' instruction. |
| __ sbfx(out.AsRegister<Register>(), in.AsRegister<Register>(), 0, 16); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimInt: |
| switch (input_type) { |
| case Primitive::kPrimLong: |
| // Processing a Dex `long-to-int' instruction. |
| DCHECK(out.IsRegister()); |
| if (in.IsRegisterPair()) { |
| __ Mov(out.AsRegister<Register>(), in.AsRegisterPairLow<Register>()); |
| } else if (in.IsDoubleStackSlot()) { |
| __ LoadFromOffset(kLoadWord, out.AsRegister<Register>(), SP, in.GetStackIndex()); |
| } else { |
| DCHECK(in.IsConstant()); |
| DCHECK(in.GetConstant()->IsLongConstant()); |
| int64_t value = in.GetConstant()->AsLongConstant()->GetValue(); |
| __ LoadImmediate(out.AsRegister<Register>(), static_cast<int32_t>(value)); |
| } |
| break; |
| |
| case Primitive::kPrimFloat: { |
| // Processing a Dex `float-to-int' instruction. |
| SRegister temp = locations->GetTemp(0).AsFpuRegisterPairLow<SRegister>(); |
| __ vmovs(temp, in.AsFpuRegister<SRegister>()); |
| __ vcvtis(temp, temp); |
| __ vmovrs(out.AsRegister<Register>(), temp); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| // Processing a Dex `double-to-int' instruction. |
| SRegister temp_s = locations->GetTemp(0).AsFpuRegisterPairLow<SRegister>(); |
| DRegister temp_d = FromLowSToD(temp_s); |
| __ vmovd(temp_d, FromLowSToD(in.AsFpuRegisterPairLow<SRegister>())); |
| __ vcvtid(temp_s, temp_d); |
| __ vmovrs(out.AsRegister<Register>(), temp_s); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimLong: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: |
| // Processing a Dex `int-to-long' instruction. |
| DCHECK(out.IsRegisterPair()); |
| DCHECK(in.IsRegister()); |
| __ Mov(out.AsRegisterPairLow<Register>(), in.AsRegister<Register>()); |
| // Sign extension. |
| __ Asr(out.AsRegisterPairHigh<Register>(), |
| out.AsRegisterPairLow<Register>(), |
| 31); |
| break; |
| |
| case Primitive::kPrimFloat: |
| // Processing a Dex `float-to-long' instruction. |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pF2l), |
| conversion, |
| conversion->GetDexPc(), |
| nullptr); |
| break; |
| |
| case Primitive::kPrimDouble: |
| // Processing a Dex `double-to-long' instruction. |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pD2l), |
| conversion, |
| conversion->GetDexPc(), |
| nullptr); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimChar: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| // Processing a Dex `int-to-char' instruction. |
| __ ubfx(out.AsRegister<Register>(), in.AsRegister<Register>(), 0, 16); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| break; |
| |
| case Primitive::kPrimFloat: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: { |
| // Processing a Dex `int-to-float' instruction. |
| __ vmovsr(out.AsFpuRegister<SRegister>(), in.AsRegister<Register>()); |
| __ vcvtsi(out.AsFpuRegister<SRegister>(), out.AsFpuRegister<SRegister>()); |
| break; |
| } |
| |
| case Primitive::kPrimLong: |
| // Processing a Dex `long-to-float' instruction. |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pL2f), |
| conversion, |
| conversion->GetDexPc(), |
| nullptr); |
| break; |
| |
| case Primitive::kPrimDouble: |
| // Processing a Dex `double-to-float' instruction. |
| __ vcvtsd(out.AsFpuRegister<SRegister>(), |
| FromLowSToD(in.AsFpuRegisterPairLow<SRegister>())); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| }; |
| break; |
| |
| case Primitive::kPrimDouble: |
| switch (input_type) { |
| case Primitive::kPrimBoolean: |
| // Boolean input is a result of code transformations. |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimChar: { |
| // Processing a Dex `int-to-double' instruction. |
| __ vmovsr(out.AsFpuRegisterPairLow<SRegister>(), in.AsRegister<Register>()); |
| __ vcvtdi(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()), |
| out.AsFpuRegisterPairLow<SRegister>()); |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| // Processing a Dex `long-to-double' instruction. |
| Register low = in.AsRegisterPairLow<Register>(); |
| Register high = in.AsRegisterPairHigh<Register>(); |
| SRegister out_s = out.AsFpuRegisterPairLow<SRegister>(); |
| DRegister out_d = FromLowSToD(out_s); |
| SRegister temp_s = locations->GetTemp(0).AsFpuRegisterPairLow<SRegister>(); |
| DRegister temp_d = FromLowSToD(temp_s); |
| SRegister constant_s = locations->GetTemp(1).AsFpuRegisterPairLow<SRegister>(); |
| DRegister constant_d = FromLowSToD(constant_s); |
| |
| // temp_d = int-to-double(high) |
| __ vmovsr(temp_s, high); |
| __ vcvtdi(temp_d, temp_s); |
| // constant_d = k2Pow32EncodingForDouble |
| __ LoadDImmediate(constant_d, bit_cast<double, int64_t>(k2Pow32EncodingForDouble)); |
| // out_d = unsigned-to-double(low) |
| __ vmovsr(out_s, low); |
| __ vcvtdu(out_d, out_s); |
| // out_d += temp_d * constant_d |
| __ vmlad(out_d, temp_d, constant_d); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: |
| // Processing a Dex `float-to-double' instruction. |
| __ vcvtds(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()), |
| in.AsFpuRegister<SRegister>()); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| }; |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| } |
| |
| void LocationsBuilderARM::VisitAdd(HAdd* add) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(add, LocationSummary::kNoCall); |
| switch (add->GetResultType()) { |
| case Primitive::kPrimInt: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(add->InputAt(1))); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected add type " << add->GetResultType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitAdd(HAdd* add) { |
| LocationSummary* locations = add->GetLocations(); |
| Location out = locations->Out(); |
| Location first = locations->InAt(0); |
| Location second = locations->InAt(1); |
| switch (add->GetResultType()) { |
| case Primitive::kPrimInt: |
| if (second.IsRegister()) { |
| __ add(out.AsRegister<Register>(), |
| first.AsRegister<Register>(), |
| ShifterOperand(second.AsRegister<Register>())); |
| } else { |
| __ AddConstant(out.AsRegister<Register>(), |
| first.AsRegister<Register>(), |
| second.GetConstant()->AsIntConstant()->GetValue()); |
| } |
| break; |
| |
| case Primitive::kPrimLong: { |
| DCHECK(second.IsRegisterPair()); |
| __ adds(out.AsRegisterPairLow<Register>(), |
| first.AsRegisterPairLow<Register>(), |
| ShifterOperand(second.AsRegisterPairLow<Register>())); |
| __ adc(out.AsRegisterPairHigh<Register>(), |
| first.AsRegisterPairHigh<Register>(), |
| ShifterOperand(second.AsRegisterPairHigh<Register>())); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: |
| __ vadds(out.AsFpuRegister<SRegister>(), |
| first.AsFpuRegister<SRegister>(), |
| second.AsFpuRegister<SRegister>()); |
| break; |
| |
| case Primitive::kPrimDouble: |
| __ vaddd(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(first.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(second.AsFpuRegisterPairLow<SRegister>())); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected add type " << add->GetResultType(); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitSub(HSub* sub) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(sub, LocationSummary::kNoCall); |
| switch (sub->GetResultType()) { |
| case Primitive::kPrimInt: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(sub->InputAt(1))); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected sub type " << sub->GetResultType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitSub(HSub* sub) { |
| LocationSummary* locations = sub->GetLocations(); |
| Location out = locations->Out(); |
| Location first = locations->InAt(0); |
| Location second = locations->InAt(1); |
| switch (sub->GetResultType()) { |
| case Primitive::kPrimInt: { |
| if (second.IsRegister()) { |
| __ sub(out.AsRegister<Register>(), |
| first.AsRegister<Register>(), |
| ShifterOperand(second.AsRegister<Register>())); |
| } else { |
| __ AddConstant(out.AsRegister<Register>(), |
| first.AsRegister<Register>(), |
| -second.GetConstant()->AsIntConstant()->GetValue()); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| DCHECK(second.IsRegisterPair()); |
| __ subs(out.AsRegisterPairLow<Register>(), |
| first.AsRegisterPairLow<Register>(), |
| ShifterOperand(second.AsRegisterPairLow<Register>())); |
| __ sbc(out.AsRegisterPairHigh<Register>(), |
| first.AsRegisterPairHigh<Register>(), |
| ShifterOperand(second.AsRegisterPairHigh<Register>())); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| __ vsubs(out.AsFpuRegister<SRegister>(), |
| first.AsFpuRegister<SRegister>(), |
| second.AsFpuRegister<SRegister>()); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| __ vsubd(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(first.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(second.AsFpuRegisterPairLow<SRegister>())); |
| break; |
| } |
| |
| |
| default: |
| LOG(FATAL) << "Unexpected sub type " << sub->GetResultType(); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitMul(HMul* mul) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(mul, LocationSummary::kNoCall); |
| switch (mul->GetResultType()) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected mul type " << mul->GetResultType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitMul(HMul* mul) { |
| LocationSummary* locations = mul->GetLocations(); |
| Location out = locations->Out(); |
| Location first = locations->InAt(0); |
| Location second = locations->InAt(1); |
| switch (mul->GetResultType()) { |
| case Primitive::kPrimInt: { |
| __ mul(out.AsRegister<Register>(), |
| first.AsRegister<Register>(), |
| second.AsRegister<Register>()); |
| break; |
| } |
| case Primitive::kPrimLong: { |
| Register out_hi = out.AsRegisterPairHigh<Register>(); |
| Register out_lo = out.AsRegisterPairLow<Register>(); |
| Register in1_hi = first.AsRegisterPairHigh<Register>(); |
| Register in1_lo = first.AsRegisterPairLow<Register>(); |
| Register in2_hi = second.AsRegisterPairHigh<Register>(); |
| Register in2_lo = second.AsRegisterPairLow<Register>(); |
| |
| // Extra checks to protect caused by the existence of R1_R2. |
| // The algorithm is wrong if out.hi is either in1.lo or in2.lo: |
| // (e.g. in1=r0_r1, in2=r2_r3 and out=r1_r2); |
| DCHECK_NE(out_hi, in1_lo); |
| DCHECK_NE(out_hi, in2_lo); |
| |
| // input: in1 - 64 bits, in2 - 64 bits |
| // output: out |
| // formula: out.hi : out.lo = (in1.lo * in2.hi + in1.hi * in2.lo)* 2^32 + in1.lo * in2.lo |
| // parts: out.hi = in1.lo * in2.hi + in1.hi * in2.lo + (in1.lo * in2.lo)[63:32] |
| // parts: out.lo = (in1.lo * in2.lo)[31:0] |
| |
| // IP <- in1.lo * in2.hi |
| __ mul(IP, in1_lo, in2_hi); |
| // out.hi <- in1.lo * in2.hi + in1.hi * in2.lo |
| __ mla(out_hi, in1_hi, in2_lo, IP); |
| // out.lo <- (in1.lo * in2.lo)[31:0]; |
| __ umull(out_lo, IP, in1_lo, in2_lo); |
| // out.hi <- in2.hi * in1.lo + in2.lo * in1.hi + (in1.lo * in2.lo)[63:32] |
| __ add(out_hi, out_hi, ShifterOperand(IP)); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| __ vmuls(out.AsFpuRegister<SRegister>(), |
| first.AsFpuRegister<SRegister>(), |
| second.AsFpuRegister<SRegister>()); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| __ vmuld(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(first.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(second.AsFpuRegisterPairLow<SRegister>())); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected mul type " << mul->GetResultType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::DivRemOneOrMinusOne(HBinaryOperation* instruction) { |
| DCHECK(instruction->IsDiv() || instruction->IsRem()); |
| DCHECK(instruction->GetResultType() == Primitive::kPrimInt); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Location second = locations->InAt(1); |
| DCHECK(second.IsConstant()); |
| |
| Register out = locations->Out().AsRegister<Register>(); |
| Register dividend = locations->InAt(0).AsRegister<Register>(); |
| int32_t imm = second.GetConstant()->AsIntConstant()->GetValue(); |
| DCHECK(imm == 1 || imm == -1); |
| |
| if (instruction->IsRem()) { |
| __ LoadImmediate(out, 0); |
| } else { |
| if (imm == 1) { |
| __ Mov(out, dividend); |
| } else { |
| __ rsb(out, dividend, ShifterOperand(0)); |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::DivRemByPowerOfTwo(HBinaryOperation* instruction) { |
| DCHECK(instruction->IsDiv() || instruction->IsRem()); |
| DCHECK(instruction->GetResultType() == Primitive::kPrimInt); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Location second = locations->InAt(1); |
| DCHECK(second.IsConstant()); |
| |
| Register out = locations->Out().AsRegister<Register>(); |
| Register dividend = locations->InAt(0).AsRegister<Register>(); |
| Register temp = locations->GetTemp(0).AsRegister<Register>(); |
| int32_t imm = second.GetConstant()->AsIntConstant()->GetValue(); |
| uint32_t abs_imm = static_cast<uint32_t>(std::abs(imm)); |
| DCHECK(IsPowerOfTwo(abs_imm)); |
| int ctz_imm = CTZ(abs_imm); |
| |
| if (ctz_imm == 1) { |
| __ Lsr(temp, dividend, 32 - ctz_imm); |
| } else { |
| __ Asr(temp, dividend, 31); |
| __ Lsr(temp, temp, 32 - ctz_imm); |
| } |
| __ add(out, temp, ShifterOperand(dividend)); |
| |
| if (instruction->IsDiv()) { |
| __ Asr(out, out, ctz_imm); |
| if (imm < 0) { |
| __ rsb(out, out, ShifterOperand(0)); |
| } |
| } else { |
| __ ubfx(out, out, 0, ctz_imm); |
| __ sub(out, out, ShifterOperand(temp)); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateDivRemWithAnyConstant(HBinaryOperation* instruction) { |
| DCHECK(instruction->IsDiv() || instruction->IsRem()); |
| DCHECK(instruction->GetResultType() == Primitive::kPrimInt); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Location second = locations->InAt(1); |
| DCHECK(second.IsConstant()); |
| |
| Register out = locations->Out().AsRegister<Register>(); |
| Register dividend = locations->InAt(0).AsRegister<Register>(); |
| Register temp1 = locations->GetTemp(0).AsRegister<Register>(); |
| Register temp2 = locations->GetTemp(1).AsRegister<Register>(); |
| int64_t imm = second.GetConstant()->AsIntConstant()->GetValue(); |
| |
| int64_t magic; |
| int shift; |
| CalculateMagicAndShiftForDivRem(imm, false /* is_long */, &magic, &shift); |
| |
| __ LoadImmediate(temp1, magic); |
| __ smull(temp2, temp1, dividend, temp1); |
| |
| if (imm > 0 && magic < 0) { |
| __ add(temp1, temp1, ShifterOperand(dividend)); |
| } else if (imm < 0 && magic > 0) { |
| __ sub(temp1, temp1, ShifterOperand(dividend)); |
| } |
| |
| if (shift != 0) { |
| __ Asr(temp1, temp1, shift); |
| } |
| |
| if (instruction->IsDiv()) { |
| __ sub(out, temp1, ShifterOperand(temp1, ASR, 31)); |
| } else { |
| __ sub(temp1, temp1, ShifterOperand(temp1, ASR, 31)); |
| // TODO: Strength reduction for mls. |
| __ LoadImmediate(temp2, imm); |
| __ mls(out, temp1, temp2, dividend); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateDivRemConstantIntegral(HBinaryOperation* instruction) { |
| DCHECK(instruction->IsDiv() || instruction->IsRem()); |
| DCHECK(instruction->GetResultType() == Primitive::kPrimInt); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Location second = locations->InAt(1); |
| DCHECK(second.IsConstant()); |
| |
| int32_t imm = second.GetConstant()->AsIntConstant()->GetValue(); |
| if (imm == 0) { |
| // Do not generate anything. DivZeroCheck would prevent any code to be executed. |
| } else if (imm == 1 || imm == -1) { |
| DivRemOneOrMinusOne(instruction); |
| } else if (IsPowerOfTwo(std::abs(imm))) { |
| DivRemByPowerOfTwo(instruction); |
| } else { |
| DCHECK(imm <= -2 || imm >= 2); |
| GenerateDivRemWithAnyConstant(instruction); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitDiv(HDiv* div) { |
| LocationSummary::CallKind call_kind = LocationSummary::kNoCall; |
| if (div->GetResultType() == Primitive::kPrimLong) { |
| // pLdiv runtime call. |
| call_kind = LocationSummary::kCall; |
| } else if (div->GetResultType() == Primitive::kPrimInt && div->InputAt(1)->IsConstant()) { |
| // sdiv will be replaced by other instruction sequence. |
| } else if (div->GetResultType() == Primitive::kPrimInt && |
| !codegen_->GetInstructionSetFeatures().HasDivideInstruction()) { |
| // pIdivmod runtime call. |
| call_kind = LocationSummary::kCall; |
| } |
| |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(div, call_kind); |
| |
| switch (div->GetResultType()) { |
| case Primitive::kPrimInt: { |
| if (div->InputAt(1)->IsConstant()) { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(div->InputAt(1))); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| int32_t abs_imm = std::abs(div->InputAt(1)->AsIntConstant()->GetValue()); |
| if (abs_imm <= 1) { |
| // No temp register required. |
| } else { |
| locations->AddTemp(Location::RequiresRegister()); |
| if (!IsPowerOfTwo(abs_imm)) { |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| } |
| } else if (codegen_->GetInstructionSetFeatures().HasDivideInstruction()) { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } else { |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| locations->SetInAt(1, Location::RegisterLocation(calling_convention.GetRegisterAt(1))); |
| // Note: divrem will compute both the quotient and the remainder as the pair R0 and R1, but |
| // we only need the former. |
| locations->SetOut(Location::RegisterLocation(R0)); |
| } |
| break; |
| } |
| case Primitive::kPrimLong: { |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterPairLocation( |
| calling_convention.GetRegisterAt(0), calling_convention.GetRegisterAt(1))); |
| locations->SetInAt(1, Location::RegisterPairLocation( |
| calling_convention.GetRegisterAt(2), calling_convention.GetRegisterAt(3))); |
| locations->SetOut(Location::RegisterPairLocation(R0, R1)); |
| break; |
| } |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected div type " << div->GetResultType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitDiv(HDiv* div) { |
| LocationSummary* locations = div->GetLocations(); |
| Location out = locations->Out(); |
| Location first = locations->InAt(0); |
| Location second = locations->InAt(1); |
| |
| switch (div->GetResultType()) { |
| case Primitive::kPrimInt: { |
| if (second.IsConstant()) { |
| GenerateDivRemConstantIntegral(div); |
| } else if (codegen_->GetInstructionSetFeatures().HasDivideInstruction()) { |
| __ sdiv(out.AsRegister<Register>(), |
| first.AsRegister<Register>(), |
| second.AsRegister<Register>()); |
| } else { |
| InvokeRuntimeCallingConvention calling_convention; |
| DCHECK_EQ(calling_convention.GetRegisterAt(0), first.AsRegister<Register>()); |
| DCHECK_EQ(calling_convention.GetRegisterAt(1), second.AsRegister<Register>()); |
| DCHECK_EQ(R0, out.AsRegister<Register>()); |
| |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pIdivmod), div, div->GetDexPc(), nullptr); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| InvokeRuntimeCallingConvention calling_convention; |
| DCHECK_EQ(calling_convention.GetRegisterAt(0), first.AsRegisterPairLow<Register>()); |
| DCHECK_EQ(calling_convention.GetRegisterAt(1), first.AsRegisterPairHigh<Register>()); |
| DCHECK_EQ(calling_convention.GetRegisterAt(2), second.AsRegisterPairLow<Register>()); |
| DCHECK_EQ(calling_convention.GetRegisterAt(3), second.AsRegisterPairHigh<Register>()); |
| DCHECK_EQ(R0, out.AsRegisterPairLow<Register>()); |
| DCHECK_EQ(R1, out.AsRegisterPairHigh<Register>()); |
| |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pLdiv), div, div->GetDexPc(), nullptr); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| __ vdivs(out.AsFpuRegister<SRegister>(), |
| first.AsFpuRegister<SRegister>(), |
| second.AsFpuRegister<SRegister>()); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| __ vdivd(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(first.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(second.AsFpuRegisterPairLow<SRegister>())); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected div type " << div->GetResultType(); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitRem(HRem* rem) { |
| Primitive::Type type = rem->GetResultType(); |
| |
| // Most remainders are implemented in the runtime. |
| LocationSummary::CallKind call_kind = LocationSummary::kCall; |
| if (rem->GetResultType() == Primitive::kPrimInt && rem->InputAt(1)->IsConstant()) { |
| // sdiv will be replaced by other instruction sequence. |
| call_kind = LocationSummary::kNoCall; |
| } else if ((rem->GetResultType() == Primitive::kPrimInt) |
| && codegen_->GetInstructionSetFeatures().HasDivideInstruction()) { |
| // Have hardware divide instruction for int, do it with three instructions. |
| call_kind = LocationSummary::kNoCall; |
| } |
| |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(rem, call_kind); |
| |
| switch (type) { |
| case Primitive::kPrimInt: { |
| if (rem->InputAt(1)->IsConstant()) { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(rem->InputAt(1))); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| int32_t abs_imm = std::abs(rem->InputAt(1)->AsIntConstant()->GetValue()); |
| if (abs_imm <= 1) { |
| // No temp register required. |
| } else { |
| locations->AddTemp(Location::RequiresRegister()); |
| if (!IsPowerOfTwo(abs_imm)) { |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| } |
| } else if (codegen_->GetInstructionSetFeatures().HasDivideInstruction()) { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| locations->AddTemp(Location::RequiresRegister()); |
| } else { |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| locations->SetInAt(1, Location::RegisterLocation(calling_convention.GetRegisterAt(1))); |
| // Note: divrem will compute both the quotient and the remainder as the pair R0 and R1, but |
| // we only need the latter. |
| locations->SetOut(Location::RegisterLocation(R1)); |
| } |
| break; |
| } |
| case Primitive::kPrimLong: { |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterPairLocation( |
| calling_convention.GetRegisterAt(0), calling_convention.GetRegisterAt(1))); |
| locations->SetInAt(1, Location::RegisterPairLocation( |
| calling_convention.GetRegisterAt(2), calling_convention.GetRegisterAt(3))); |
| // The runtime helper puts the output in R2,R3. |
| locations->SetOut(Location::RegisterPairLocation(R2, R3)); |
| break; |
| } |
| case Primitive::kPrimFloat: { |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::FpuRegisterLocation(calling_convention.GetFpuRegisterAt(0))); |
| locations->SetInAt(1, Location::FpuRegisterLocation(calling_convention.GetFpuRegisterAt(1))); |
| locations->SetOut(Location::FpuRegisterLocation(S0)); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::FpuRegisterPairLocation( |
| calling_convention.GetFpuRegisterAt(0), calling_convention.GetFpuRegisterAt(1))); |
| locations->SetInAt(1, Location::FpuRegisterPairLocation( |
| calling_convention.GetFpuRegisterAt(2), calling_convention.GetFpuRegisterAt(3))); |
| locations->SetOut(Location::Location::FpuRegisterPairLocation(S0, S1)); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected rem type " << type; |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitRem(HRem* rem) { |
| LocationSummary* locations = rem->GetLocations(); |
| Location out = locations->Out(); |
| Location first = locations->InAt(0); |
| Location second = locations->InAt(1); |
| |
| Primitive::Type type = rem->GetResultType(); |
| switch (type) { |
| case Primitive::kPrimInt: { |
| if (second.IsConstant()) { |
| GenerateDivRemConstantIntegral(rem); |
| } else if (codegen_->GetInstructionSetFeatures().HasDivideInstruction()) { |
| Register reg1 = first.AsRegister<Register>(); |
| Register reg2 = second.AsRegister<Register>(); |
| Register temp = locations->GetTemp(0).AsRegister<Register>(); |
| |
| // temp = reg1 / reg2 (integer division) |
| // temp = temp * reg2 |
| // dest = reg1 - temp |
| __ sdiv(temp, reg1, reg2); |
| __ mul(temp, temp, reg2); |
| __ sub(out.AsRegister<Register>(), reg1, ShifterOperand(temp)); |
| } else { |
| InvokeRuntimeCallingConvention calling_convention; |
| DCHECK_EQ(calling_convention.GetRegisterAt(0), first.AsRegister<Register>()); |
| DCHECK_EQ(calling_convention.GetRegisterAt(1), second.AsRegister<Register>()); |
| DCHECK_EQ(R1, out.AsRegister<Register>()); |
| |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pIdivmod), rem, rem->GetDexPc(), nullptr); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pLmod), rem, rem->GetDexPc(), nullptr); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pFmodf), rem, rem->GetDexPc(), nullptr); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pFmod), rem, rem->GetDexPc(), nullptr); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected rem type " << type; |
| } |
| } |
| |
| void LocationsBuilderARM::VisitDivZeroCheck(HDivZeroCheck* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RegisterOrConstant(instruction->InputAt(0))); |
| if (instruction->HasUses()) { |
| locations->SetOut(Location::SameAsFirstInput()); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitDivZeroCheck(HDivZeroCheck* instruction) { |
| SlowPathCodeARM* slow_path = new (GetGraph()->GetArena()) DivZeroCheckSlowPathARM(instruction); |
| codegen_->AddSlowPath(slow_path); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Location value = locations->InAt(0); |
| |
| switch (instruction->GetType()) { |
| case Primitive::kPrimInt: { |
| if (value.IsRegister()) { |
| __ CompareAndBranchIfZero(value.AsRegister<Register>(), slow_path->GetEntryLabel()); |
| } else { |
| DCHECK(value.IsConstant()) << value; |
| if (value.GetConstant()->AsIntConstant()->GetValue() == 0) { |
| __ b(slow_path->GetEntryLabel()); |
| } |
| } |
| break; |
| } |
| case Primitive::kPrimLong: { |
| if (value.IsRegisterPair()) { |
| __ orrs(IP, |
| value.AsRegisterPairLow<Register>(), |
| ShifterOperand(value.AsRegisterPairHigh<Register>())); |
| __ b(slow_path->GetEntryLabel(), EQ); |
| } else { |
| DCHECK(value.IsConstant()) << value; |
| if (value.GetConstant()->AsLongConstant()->GetValue() == 0) { |
| __ b(slow_path->GetEntryLabel()); |
| } |
| } |
| break; |
| default: |
| LOG(FATAL) << "Unexpected type for HDivZeroCheck " << instruction->GetType(); |
| } |
| } |
| } |
| |
| void LocationsBuilderARM::HandleShift(HBinaryOperation* op) { |
| DCHECK(op->IsShl() || op->IsShr() || op->IsUShr()); |
| |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(op, LocationSummary::kNoCall); |
| |
| switch (op->GetResultType()) { |
| case Primitive::kPrimInt: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(op->InputAt(1))); |
| // Make the output overlap, as it will be used to hold the masked |
| // second input. |
| locations->SetOut(Location::RequiresRegister(), Location::kOutputOverlap); |
| break; |
| } |
| case Primitive::kPrimLong: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| locations->AddTemp(Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister()); |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected operation type " << op->GetResultType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::HandleShift(HBinaryOperation* op) { |
| DCHECK(op->IsShl() || op->IsShr() || op->IsUShr()); |
| |
| LocationSummary* locations = op->GetLocations(); |
| Location out = locations->Out(); |
| Location first = locations->InAt(0); |
| Location second = locations->InAt(1); |
| |
| Primitive::Type type = op->GetResultType(); |
| switch (type) { |
| case Primitive::kPrimInt: { |
| Register out_reg = out.AsRegister<Register>(); |
| Register first_reg = first.AsRegister<Register>(); |
| // Arm doesn't mask the shift count so we need to do it ourselves. |
| if (second.IsRegister()) { |
| Register second_reg = second.AsRegister<Register>(); |
| __ and_(out_reg, second_reg, ShifterOperand(kMaxIntShiftValue)); |
| if (op->IsShl()) { |
| __ Lsl(out_reg, first_reg, out_reg); |
| } else if (op->IsShr()) { |
| __ Asr(out_reg, first_reg, out_reg); |
| } else { |
| __ Lsr(out_reg, first_reg, out_reg); |
| } |
| } else { |
| int32_t cst = second.GetConstant()->AsIntConstant()->GetValue(); |
| uint32_t shift_value = static_cast<uint32_t>(cst & kMaxIntShiftValue); |
| if (shift_value == 0) { // arm does not support shifting with 0 immediate. |
| __ Mov(out_reg, first_reg); |
| } else if (op->IsShl()) { |
| __ Lsl(out_reg, first_reg, shift_value); |
| } else if (op->IsShr()) { |
| __ Asr(out_reg, first_reg, shift_value); |
| } else { |
| __ Lsr(out_reg, first_reg, shift_value); |
| } |
| } |
| break; |
| } |
| case Primitive::kPrimLong: { |
| Register o_h = out.AsRegisterPairHigh<Register>(); |
| Register o_l = out.AsRegisterPairLow<Register>(); |
| |
| Register temp = locations->GetTemp(0).AsRegister<Register>(); |
| |
| Register high = first.AsRegisterPairHigh<Register>(); |
| Register low = first.AsRegisterPairLow<Register>(); |
| |
| Register second_reg = second.AsRegister<Register>(); |
| |
| if (op->IsShl()) { |
| __ and_(o_l, second_reg, ShifterOperand(kMaxLongShiftValue)); |
| // Shift the high part |
| __ Lsl(o_h, high, o_l); |
| // Shift the low part and `or` what overflew on the high part |
| __ rsb(temp, o_l, ShifterOperand(kArmBitsPerWord)); |
| __ Lsr(temp, low, temp); |
| __ orr(o_h, o_h, ShifterOperand(temp)); |
| // If the shift is > 32 bits, override the high part |
| __ subs(temp, o_l, ShifterOperand(kArmBitsPerWord)); |
| __ it(PL); |
| __ Lsl(o_h, low, temp, false, PL); |
| // Shift the low part |
| __ Lsl(o_l, low, o_l); |
| } else if (op->IsShr()) { |
| __ and_(o_h, second_reg, ShifterOperand(kMaxLongShiftValue)); |
| // Shift the low part |
| __ Lsr(o_l, low, o_h); |
| // Shift the high part and `or` what underflew on the low part |
| __ rsb(temp, o_h, ShifterOperand(kArmBitsPerWord)); |
| __ Lsl(temp, high, temp); |
| __ orr(o_l, o_l, ShifterOperand(temp)); |
| // If the shift is > 32 bits, override the low part |
| __ subs(temp, o_h, ShifterOperand(kArmBitsPerWord)); |
| __ it(PL); |
| __ Asr(o_l, high, temp, false, PL); |
| // Shift the high part |
| __ Asr(o_h, high, o_h); |
| } else { |
| __ and_(o_h, second_reg, ShifterOperand(kMaxLongShiftValue)); |
| // same as Shr except we use `Lsr`s and not `Asr`s |
| __ Lsr(o_l, low, o_h); |
| __ rsb(temp, o_h, ShifterOperand(kArmBitsPerWord)); |
| __ Lsl(temp, high, temp); |
| __ orr(o_l, o_l, ShifterOperand(temp)); |
| __ subs(temp, o_h, ShifterOperand(kArmBitsPerWord)); |
| __ it(PL); |
| __ Lsr(o_l, high, temp, false, PL); |
| __ Lsr(o_h, high, o_h); |
| } |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected operation type " << type; |
| } |
| } |
| |
| void LocationsBuilderARM::VisitShl(HShl* shl) { |
| HandleShift(shl); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitShl(HShl* shl) { |
| HandleShift(shl); |
| } |
| |
| void LocationsBuilderARM::VisitShr(HShr* shr) { |
| HandleShift(shr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitShr(HShr* shr) { |
| HandleShift(shr); |
| } |
| |
| void LocationsBuilderARM::VisitUShr(HUShr* ushr) { |
| HandleShift(ushr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitUShr(HUShr* ushr) { |
| HandleShift(ushr); |
| } |
| |
| void LocationsBuilderARM::VisitNewInstance(HNewInstance* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCall); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->AddTemp(Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(1))); |
| locations->SetOut(Location::RegisterLocation(R0)); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitNewInstance(HNewInstance* instruction) { |
| InvokeRuntimeCallingConvention calling_convention; |
| __ LoadImmediate(calling_convention.GetRegisterAt(0), instruction->GetTypeIndex()); |
| // Note: if heap poisoning is enabled, the entry point takes cares |
| // of poisoning the reference. |
| codegen_->InvokeRuntime(GetThreadOffset<kArmWordSize>(instruction->GetEntrypoint()).Int32Value(), |
| instruction, |
| instruction->GetDexPc(), |
| nullptr); |
| } |
| |
| void LocationsBuilderARM::VisitNewArray(HNewArray* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCall); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->AddTemp(Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| locations->SetOut(Location::RegisterLocation(R0)); |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(1))); |
| locations->SetInAt(1, Location::RegisterLocation(calling_convention.GetRegisterAt(2))); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitNewArray(HNewArray* instruction) { |
| InvokeRuntimeCallingConvention calling_convention; |
| __ LoadImmediate(calling_convention.GetRegisterAt(0), instruction->GetTypeIndex()); |
| // Note: if heap poisoning is enabled, the entry point takes cares |
| // of poisoning the reference. |
| codegen_->InvokeRuntime(GetThreadOffset<kArmWordSize>(instruction->GetEntrypoint()).Int32Value(), |
| instruction, |
| instruction->GetDexPc(), |
| nullptr); |
| } |
| |
| void LocationsBuilderARM::VisitParameterValue(HParameterValue* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| Location location = parameter_visitor_.GetNextLocation(instruction->GetType()); |
| if (location.IsStackSlot()) { |
| location = Location::StackSlot(location.GetStackIndex() + codegen_->GetFrameSize()); |
| } else if (location.IsDoubleStackSlot()) { |
| location = Location::DoubleStackSlot(location.GetStackIndex() + codegen_->GetFrameSize()); |
| } |
| locations->SetOut(location); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitParameterValue( |
| HParameterValue* instruction ATTRIBUTE_UNUSED) { |
| // Nothing to do, the parameter is already at its location. |
| } |
| |
| void LocationsBuilderARM::VisitCurrentMethod(HCurrentMethod* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetOut(Location::RegisterLocation(kMethodRegisterArgument)); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitCurrentMethod(HCurrentMethod* instruction ATTRIBUTE_UNUSED) { |
| // Nothing to do, the method is already at its location. |
| } |
| |
| void LocationsBuilderARM::VisitNot(HNot* not_) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(not_, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitNot(HNot* not_) { |
| LocationSummary* locations = not_->GetLocations(); |
| Location out = locations->Out(); |
| Location in = locations->InAt(0); |
| switch (not_->GetResultType()) { |
| case Primitive::kPrimInt: |
| __ mvn(out.AsRegister<Register>(), ShifterOperand(in.AsRegister<Register>())); |
| break; |
| |
| case Primitive::kPrimLong: |
| __ mvn(out.AsRegisterPairLow<Register>(), |
| ShifterOperand(in.AsRegisterPairLow<Register>())); |
| __ mvn(out.AsRegisterPairHigh<Register>(), |
| ShifterOperand(in.AsRegisterPairHigh<Register>())); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unimplemented type for not operation " << not_->GetResultType(); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitBooleanNot(HBooleanNot* bool_not) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(bool_not, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitBooleanNot(HBooleanNot* bool_not) { |
| LocationSummary* locations = bool_not->GetLocations(); |
| Location out = locations->Out(); |
| Location in = locations->InAt(0); |
| __ eor(out.AsRegister<Register>(), in.AsRegister<Register>(), ShifterOperand(1)); |
| } |
| |
| void LocationsBuilderARM::VisitCompare(HCompare* compare) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(compare, LocationSummary::kNoCall); |
| switch (compare->InputAt(0)->GetType()) { |
| case Primitive::kPrimLong: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| // Output overlaps because it is written before doing the low comparison. |
| locations->SetOut(Location::RequiresRegister(), Location::kOutputOverlap); |
| break; |
| } |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| locations->SetOut(Location::RequiresRegister()); |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected type for compare operation " << compare->InputAt(0)->GetType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitCompare(HCompare* compare) { |
| LocationSummary* locations = compare->GetLocations(); |
| Register out = locations->Out().AsRegister<Register>(); |
| Location left = locations->InAt(0); |
| Location right = locations->InAt(1); |
| |
| Label less, greater, done; |
| Primitive::Type type = compare->InputAt(0)->GetType(); |
| switch (type) { |
| case Primitive::kPrimLong: { |
| __ cmp(left.AsRegisterPairHigh<Register>(), |
| ShifterOperand(right.AsRegisterPairHigh<Register>())); // Signed compare. |
| __ b(&less, LT); |
| __ b(&greater, GT); |
| // Do LoadImmediate before any `cmp`, as LoadImmediate might affect the status flags. |
| __ LoadImmediate(out, 0); |
| __ cmp(left.AsRegisterPairLow<Register>(), |
| ShifterOperand(right.AsRegisterPairLow<Register>())); // Unsigned compare. |
| break; |
| } |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| __ LoadImmediate(out, 0); |
| if (type == Primitive::kPrimFloat) { |
| __ vcmps(left.AsFpuRegister<SRegister>(), right.AsFpuRegister<SRegister>()); |
| } else { |
| __ vcmpd(FromLowSToD(left.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(right.AsFpuRegisterPairLow<SRegister>())); |
| } |
| __ vmstat(); // transfer FP status register to ARM APSR. |
| __ b(compare->IsGtBias() ? &greater : &less, VS); // VS for unordered. |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected compare type " << type; |
| } |
| __ b(&done, EQ); |
| __ b(&less, CC); // CC is for both: unsigned compare for longs and 'less than' for floats. |
| |
| __ Bind(&greater); |
| __ LoadImmediate(out, 1); |
| __ b(&done); |
| |
| __ Bind(&less); |
| __ LoadImmediate(out, -1); |
| |
| __ Bind(&done); |
| } |
| |
| void LocationsBuilderARM::VisitPhi(HPhi* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| for (size_t i = 0, e = instruction->InputCount(); i < e; ++i) { |
| locations->SetInAt(i, Location::Any()); |
| } |
| locations->SetOut(Location::Any()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitPhi(HPhi* instruction) { |
| UNUSED(instruction); |
| LOG(FATAL) << "Unreachable"; |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateMemoryBarrier(MemBarrierKind kind) { |
| // TODO (ported from quick): revisit Arm barrier kinds |
| DmbOptions flavor = DmbOptions::ISH; // quiet c++ warnings |
| switch (kind) { |
| case MemBarrierKind::kAnyStore: |
| case MemBarrierKind::kLoadAny: |
| case MemBarrierKind::kAnyAny: { |
| flavor = DmbOptions::ISH; |
| break; |
| } |
| case MemBarrierKind::kStoreStore: { |
| flavor = DmbOptions::ISHST; |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected memory barrier " << kind; |
| } |
| __ dmb(flavor); |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateWideAtomicLoad(Register addr, |
| uint32_t offset, |
| Register out_lo, |
| Register out_hi) { |
| if (offset != 0) { |
| __ LoadImmediate(out_lo, offset); |
| __ add(IP, addr, ShifterOperand(out_lo)); |
| addr = IP; |
| } |
| __ ldrexd(out_lo, out_hi, addr); |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateWideAtomicStore(Register addr, |
| uint32_t offset, |
| Register value_lo, |
| Register value_hi, |
| Register temp1, |
| Register temp2, |
| HInstruction* instruction) { |
| Label fail; |
| if (offset != 0) { |
| __ LoadImmediate(temp1, offset); |
| __ add(IP, addr, ShifterOperand(temp1)); |
| addr = IP; |
| } |
| __ Bind(&fail); |
| // We need a load followed by store. (The address used in a STREX instruction must |
| // be the same as the address in the most recently executed LDREX instruction.) |
| __ ldrexd(temp1, temp2, addr); |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| __ strexd(temp1, value_lo, value_hi, addr); |
| __ CompareAndBranchIfNonZero(temp1, &fail); |
| } |
| |
| void LocationsBuilderARM::HandleFieldSet(HInstruction* instruction, const FieldInfo& field_info) { |
| DCHECK(instruction->IsInstanceFieldSet() || instruction->IsStaticFieldSet()); |
| |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| |
| Primitive::Type field_type = field_info.GetFieldType(); |
| if (Primitive::IsFloatingPointType(field_type)) { |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| } else { |
| locations->SetInAt(1, Location::RequiresRegister()); |
| } |
| |
| bool is_wide = field_type == Primitive::kPrimLong || field_type == Primitive::kPrimDouble; |
| bool generate_volatile = field_info.IsVolatile() |
| && is_wide |
| && !codegen_->GetInstructionSetFeatures().HasAtomicLdrdAndStrd(); |
| bool needs_write_barrier = |
| CodeGenerator::StoreNeedsWriteBarrier(field_type, instruction->InputAt(1)); |
| // Temporary registers for the write barrier. |
| // TODO: consider renaming StoreNeedsWriteBarrier to StoreNeedsGCMark. |
| if (needs_write_barrier) { |
| locations->AddTemp(Location::RequiresRegister()); // Possibly used for reference poisoning too. |
| locations->AddTemp(Location::RequiresRegister()); |
| } else if (generate_volatile) { |
| // Arm encoding have some additional constraints for ldrexd/strexd: |
| // - registers need to be consecutive |
| // - the first register should be even but not R14. |
| // We don't test for Arm yet, and the assertion makes sure that we revisit this if we ever |
| // enable Arm encoding. |
| DCHECK_EQ(InstructionSet::kThumb2, codegen_->GetInstructionSet()); |
| |
| locations->AddTemp(Location::RequiresRegister()); |
| locations->AddTemp(Location::RequiresRegister()); |
| if (field_type == Primitive::kPrimDouble) { |
| // For doubles we need two more registers to copy the value. |
| locations->AddTemp(Location::RegisterLocation(R2)); |
| locations->AddTemp(Location::RegisterLocation(R3)); |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::HandleFieldSet(HInstruction* instruction, |
| const FieldInfo& field_info, |
| bool value_can_be_null) { |
| DCHECK(instruction->IsInstanceFieldSet() || instruction->IsStaticFieldSet()); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Register base = locations->InAt(0).AsRegister<Register>(); |
| Location value = locations->InAt(1); |
| |
| bool is_volatile = field_info.IsVolatile(); |
| bool atomic_ldrd_strd = codegen_->GetInstructionSetFeatures().HasAtomicLdrdAndStrd(); |
| Primitive::Type field_type = field_info.GetFieldType(); |
| uint32_t offset = field_info.GetFieldOffset().Uint32Value(); |
| bool needs_write_barrier = |
| CodeGenerator::StoreNeedsWriteBarrier(field_type, instruction->InputAt(1)); |
| |
| if (is_volatile) { |
| GenerateMemoryBarrier(MemBarrierKind::kAnyStore); |
| } |
| |
| switch (field_type) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: { |
| __ StoreToOffset(kStoreByte, value.AsRegister<Register>(), base, offset); |
| break; |
| } |
| |
| case Primitive::kPrimShort: |
| case Primitive::kPrimChar: { |
| __ StoreToOffset(kStoreHalfword, value.AsRegister<Register>(), base, offset); |
| break; |
| } |
| |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| if (kPoisonHeapReferences && needs_write_barrier) { |
| // Note that in the case where `value` is a null reference, |
| // we do not enter this block, as a null reference does not |
| // need poisoning. |
| DCHECK_EQ(field_type, Primitive::kPrimNot); |
| Register temp = locations->GetTemp(0).AsRegister<Register>(); |
| __ Mov(temp, value.AsRegister<Register>()); |
| __ PoisonHeapReference(temp); |
| __ StoreToOffset(kStoreWord, temp, base, offset); |
| } else { |
| __ StoreToOffset(kStoreWord, value.AsRegister<Register>(), base, offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| if (is_volatile && !atomic_ldrd_strd) { |
| GenerateWideAtomicStore(base, offset, |
| value.AsRegisterPairLow<Register>(), |
| value.AsRegisterPairHigh<Register>(), |
| locations->GetTemp(0).AsRegister<Register>(), |
| locations->GetTemp(1).AsRegister<Register>(), |
| instruction); |
| } else { |
| __ StoreToOffset(kStoreWordPair, value.AsRegisterPairLow<Register>(), base, offset); |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| __ StoreSToOffset(value.AsFpuRegister<SRegister>(), base, offset); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| DRegister value_reg = FromLowSToD(value.AsFpuRegisterPairLow<SRegister>()); |
| if (is_volatile && !atomic_ldrd_strd) { |
| Register value_reg_lo = locations->GetTemp(0).AsRegister<Register>(); |
| Register value_reg_hi = locations->GetTemp(1).AsRegister<Register>(); |
| |
| __ vmovrrd(value_reg_lo, value_reg_hi, value_reg); |
| |
| GenerateWideAtomicStore(base, offset, |
| value_reg_lo, |
| value_reg_hi, |
| locations->GetTemp(2).AsRegister<Register>(), |
| locations->GetTemp(3).AsRegister<Register>(), |
| instruction); |
| } else { |
| __ StoreDToOffset(value_reg, base, offset); |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unreachable type " << field_type; |
| UNREACHABLE(); |
| } |
| |
| // Longs and doubles are handled in the switch. |
| if (field_type != Primitive::kPrimLong && field_type != Primitive::kPrimDouble) { |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| } |
| |
| if (CodeGenerator::StoreNeedsWriteBarrier(field_type, instruction->InputAt(1))) { |
| Register temp = locations->GetTemp(0).AsRegister<Register>(); |
| Register card = locations->GetTemp(1).AsRegister<Register>(); |
| codegen_->MarkGCCard( |
| temp, card, base, value.AsRegister<Register>(), value_can_be_null); |
| } |
| |
| if (is_volatile) { |
| GenerateMemoryBarrier(MemBarrierKind::kAnyAny); |
| } |
| } |
| |
| void LocationsBuilderARM::HandleFieldGet(HInstruction* instruction, const FieldInfo& field_info) { |
| DCHECK(instruction->IsInstanceFieldGet() || instruction->IsStaticFieldGet()); |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| |
| bool volatile_for_double = field_info.IsVolatile() |
| && (field_info.GetFieldType() == Primitive::kPrimDouble) |
| && !codegen_->GetInstructionSetFeatures().HasAtomicLdrdAndStrd(); |
| bool overlap = field_info.IsVolatile() && (field_info.GetFieldType() == Primitive::kPrimLong); |
| |
| if (Primitive::IsFloatingPointType(instruction->GetType())) { |
| locations->SetOut(Location::RequiresFpuRegister()); |
| } else { |
| locations->SetOut(Location::RequiresRegister(), |
| (overlap ? Location::kOutputOverlap : Location::kNoOutputOverlap)); |
| } |
| if (volatile_for_double) { |
| // Arm encoding have some additional constraints for ldrexd/strexd: |
| // - registers need to be consecutive |
| // - the first register should be even but not R14. |
| // We don't test for Arm yet, and the assertion makes sure that we revisit this if we ever |
| // enable Arm encoding. |
| DCHECK_EQ(InstructionSet::kThumb2, codegen_->GetInstructionSet()); |
| locations->AddTemp(Location::RequiresRegister()); |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::HandleFieldGet(HInstruction* instruction, |
| const FieldInfo& field_info) { |
| DCHECK(instruction->IsInstanceFieldGet() || instruction->IsStaticFieldGet()); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Register base = locations->InAt(0).AsRegister<Register>(); |
| Location out = locations->Out(); |
| bool is_volatile = field_info.IsVolatile(); |
| bool atomic_ldrd_strd = codegen_->GetInstructionSetFeatures().HasAtomicLdrdAndStrd(); |
| Primitive::Type field_type = field_info.GetFieldType(); |
| uint32_t offset = field_info.GetFieldOffset().Uint32Value(); |
| |
| switch (field_type) { |
| case Primitive::kPrimBoolean: { |
| __ LoadFromOffset(kLoadUnsignedByte, out.AsRegister<Register>(), base, offset); |
| break; |
| } |
| |
| case Primitive::kPrimByte: { |
| __ LoadFromOffset(kLoadSignedByte, out.AsRegister<Register>(), base, offset); |
| break; |
| } |
| |
| case Primitive::kPrimShort: { |
| __ LoadFromOffset(kLoadSignedHalfword, out.AsRegister<Register>(), base, offset); |
| break; |
| } |
| |
| case Primitive::kPrimChar: { |
| __ LoadFromOffset(kLoadUnsignedHalfword, out.AsRegister<Register>(), base, offset); |
| break; |
| } |
| |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| __ LoadFromOffset(kLoadWord, out.AsRegister<Register>(), base, offset); |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| if (is_volatile && !atomic_ldrd_strd) { |
| GenerateWideAtomicLoad(base, offset, |
| out.AsRegisterPairLow<Register>(), |
| out.AsRegisterPairHigh<Register>()); |
| } else { |
| __ LoadFromOffset(kLoadWordPair, out.AsRegisterPairLow<Register>(), base, offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| __ LoadSFromOffset(out.AsFpuRegister<SRegister>(), base, offset); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| DRegister out_reg = FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()); |
| if (is_volatile && !atomic_ldrd_strd) { |
| Register lo = locations->GetTemp(0).AsRegister<Register>(); |
| Register hi = locations->GetTemp(1).AsRegister<Register>(); |
| GenerateWideAtomicLoad(base, offset, lo, hi); |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| __ vmovdrr(out_reg, lo, hi); |
| } else { |
| __ LoadDFromOffset(out_reg, base, offset); |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unreachable type " << field_type; |
| UNREACHABLE(); |
| } |
| |
| // Doubles are handled in the switch. |
| if (field_type != Primitive::kPrimDouble) { |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| } |
| |
| if (is_volatile) { |
| GenerateMemoryBarrier(MemBarrierKind::kLoadAny); |
| } |
| |
| if (field_type == Primitive::kPrimNot) { |
| __ MaybeUnpoisonHeapReference(out.AsRegister<Register>()); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitInstanceFieldSet(HInstanceFieldSet* instruction) { |
| HandleFieldSet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitInstanceFieldSet(HInstanceFieldSet* instruction) { |
| HandleFieldSet(instruction, instruction->GetFieldInfo(), instruction->GetValueCanBeNull()); |
| } |
| |
| void LocationsBuilderARM::VisitInstanceFieldGet(HInstanceFieldGet* instruction) { |
| HandleFieldGet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitInstanceFieldGet(HInstanceFieldGet* instruction) { |
| HandleFieldGet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void LocationsBuilderARM::VisitStaticFieldGet(HStaticFieldGet* instruction) { |
| HandleFieldGet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitStaticFieldGet(HStaticFieldGet* instruction) { |
| HandleFieldGet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void LocationsBuilderARM::VisitStaticFieldSet(HStaticFieldSet* instruction) { |
| HandleFieldSet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitStaticFieldSet(HStaticFieldSet* instruction) { |
| HandleFieldSet(instruction, instruction->GetFieldInfo(), instruction->GetValueCanBeNull()); |
| } |
| |
| void LocationsBuilderARM::VisitNullCheck(HNullCheck* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| if (instruction->HasUses()) { |
| locations->SetOut(Location::SameAsFirstInput()); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateImplicitNullCheck(HNullCheck* instruction) { |
| if (codegen_->CanMoveNullCheckToUser(instruction)) { |
| return; |
| } |
| Location obj = instruction->GetLocations()->InAt(0); |
| |
| __ LoadFromOffset(kLoadWord, IP, obj.AsRegister<Register>(), 0); |
| codegen_->RecordPcInfo(instruction, instruction->GetDexPc()); |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateExplicitNullCheck(HNullCheck* instruction) { |
| SlowPathCodeARM* slow_path = new (GetGraph()->GetArena()) NullCheckSlowPathARM(instruction); |
| codegen_->AddSlowPath(slow_path); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Location obj = locations->InAt(0); |
| |
| __ CompareAndBranchIfZero(obj.AsRegister<Register>(), slow_path->GetEntryLabel()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitNullCheck(HNullCheck* instruction) { |
| if (codegen_->GetCompilerOptions().GetImplicitNullChecks()) { |
| GenerateImplicitNullCheck(instruction); |
| } else { |
| GenerateExplicitNullCheck(instruction); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitArrayGet(HArrayGet* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(instruction->InputAt(1))); |
| if (Primitive::IsFloatingPointType(instruction->GetType())) { |
| locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); |
| } else { |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitArrayGet(HArrayGet* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| Register obj = locations->InAt(0).AsRegister<Register>(); |
| Location index = locations->InAt(1); |
| Primitive::Type type = instruction->GetType(); |
| |
| switch (type) { |
| case Primitive::kPrimBoolean: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(uint8_t)).Uint32Value(); |
| Register out = locations->Out().AsRegister<Register>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_1) + data_offset; |
| __ LoadFromOffset(kLoadUnsignedByte, out, obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>())); |
| __ LoadFromOffset(kLoadUnsignedByte, out, IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimByte: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(int8_t)).Uint32Value(); |
| Register out = locations->Out().AsRegister<Register>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_1) + data_offset; |
| __ LoadFromOffset(kLoadSignedByte, out, obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>())); |
| __ LoadFromOffset(kLoadSignedByte, out, IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimShort: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(int16_t)).Uint32Value(); |
| Register out = locations->Out().AsRegister<Register>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_2) + data_offset; |
| __ LoadFromOffset(kLoadSignedHalfword, out, obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_2)); |
| __ LoadFromOffset(kLoadSignedHalfword, out, IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimChar: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(uint16_t)).Uint32Value(); |
| Register out = locations->Out().AsRegister<Register>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_2) + data_offset; |
| __ LoadFromOffset(kLoadUnsignedHalfword, out, obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_2)); |
| __ LoadFromOffset(kLoadUnsignedHalfword, out, IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| static_assert(sizeof(mirror::HeapReference<mirror::Object>) == sizeof(int32_t), |
| "art::mirror::HeapReference<mirror::Object> and int32_t have different sizes."); |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(int32_t)).Uint32Value(); |
| Register out = locations->Out().AsRegister<Register>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_4) + data_offset; |
| __ LoadFromOffset(kLoadWord, out, obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_4)); |
| __ LoadFromOffset(kLoadWord, out, IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(int64_t)).Uint32Value(); |
| Location out = locations->Out(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_8) + data_offset; |
| __ LoadFromOffset(kLoadWordPair, out.AsRegisterPairLow<Register>(), obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_8)); |
| __ LoadFromOffset(kLoadWordPair, out.AsRegisterPairLow<Register>(), IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(float)).Uint32Value(); |
| Location out = locations->Out(); |
| DCHECK(out.IsFpuRegister()); |
| if (index.IsConstant()) { |
| size_t offset = (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_4) + data_offset; |
| __ LoadSFromOffset(out.AsFpuRegister<SRegister>(), obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_4)); |
| __ LoadSFromOffset(out.AsFpuRegister<SRegister>(), IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(double)).Uint32Value(); |
| Location out = locations->Out(); |
| DCHECK(out.IsFpuRegisterPair()); |
| if (index.IsConstant()) { |
| size_t offset = (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_8) + data_offset; |
| __ LoadDFromOffset(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()), obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_8)); |
| __ LoadDFromOffset(FromLowSToD(out.AsFpuRegisterPairLow<SRegister>()), IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unreachable type " << type; |
| UNREACHABLE(); |
| } |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| |
| if (type == Primitive::kPrimNot) { |
| Register out = locations->Out().AsRegister<Register>(); |
| __ MaybeUnpoisonHeapReference(out); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitArraySet(HArraySet* instruction) { |
| Primitive::Type value_type = instruction->GetComponentType(); |
| |
| bool needs_write_barrier = |
| CodeGenerator::StoreNeedsWriteBarrier(value_type, instruction->GetValue()); |
| bool needs_runtime_call = instruction->NeedsTypeCheck(); |
| |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary( |
| instruction, needs_runtime_call ? LocationSummary::kCall : LocationSummary::kNoCall); |
| if (needs_runtime_call) { |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| locations->SetInAt(1, Location::RegisterLocation(calling_convention.GetRegisterAt(1))); |
| locations->SetInAt(2, Location::RegisterLocation(calling_convention.GetRegisterAt(2))); |
| } else { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(instruction->InputAt(1))); |
| if (Primitive::IsFloatingPointType(value_type)) { |
| locations->SetInAt(2, Location::RequiresFpuRegister()); |
| } else { |
| locations->SetInAt(2, Location::RequiresRegister()); |
| } |
| |
| if (needs_write_barrier) { |
| // Temporary registers for the write barrier. |
| locations->AddTemp(Location::RequiresRegister()); // Possibly used for ref. poisoning too. |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitArraySet(HArraySet* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| Register obj = locations->InAt(0).AsRegister<Register>(); |
| Location index = locations->InAt(1); |
| Primitive::Type value_type = instruction->GetComponentType(); |
| bool needs_runtime_call = locations->WillCall(); |
| bool needs_write_barrier = |
| CodeGenerator::StoreNeedsWriteBarrier(value_type, instruction->GetValue()); |
| |
| switch (value_type) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(uint8_t)).Uint32Value(); |
| Register value = locations->InAt(2).AsRegister<Register>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_1) + data_offset; |
| __ StoreToOffset(kStoreByte, value, obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>())); |
| __ StoreToOffset(kStoreByte, value, IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimShort: |
| case Primitive::kPrimChar: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(uint16_t)).Uint32Value(); |
| Register value = locations->InAt(2).AsRegister<Register>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_2) + data_offset; |
| __ StoreToOffset(kStoreHalfword, value, obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_2)); |
| __ StoreToOffset(kStoreHalfword, value, IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| if (!needs_runtime_call) { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(int32_t)).Uint32Value(); |
| Register value = locations->InAt(2).AsRegister<Register>(); |
| Register source = value; |
| if (kPoisonHeapReferences && needs_write_barrier) { |
| // Note that in the case where `value` is a null reference, |
| // we do not enter this block, as a null reference does not |
| // need poisoning. |
| DCHECK_EQ(value_type, Primitive::kPrimNot); |
| Register temp = locations->GetTemp(0).AsRegister<Register>(); |
| __ Mov(temp, value); |
| __ PoisonHeapReference(temp); |
| source = temp; |
| } |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_4) + data_offset; |
| __ StoreToOffset(kStoreWord, source, obj, offset); |
| } else { |
| DCHECK(index.IsRegister()) << index; |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_4)); |
| __ StoreToOffset(kStoreWord, source, IP, data_offset); |
| } |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| if (needs_write_barrier) { |
| DCHECK_EQ(value_type, Primitive::kPrimNot); |
| Register temp = locations->GetTemp(0).AsRegister<Register>(); |
| Register card = locations->GetTemp(1).AsRegister<Register>(); |
| codegen_->MarkGCCard(temp, card, obj, value, instruction->GetValueCanBeNull()); |
| } |
| } else { |
| DCHECK_EQ(value_type, Primitive::kPrimNot); |
| // Note: if heap poisoning is enabled, pAputObject takes cares |
| // of poisoning the reference. |
| codegen_->InvokeRuntime(QUICK_ENTRY_POINT(pAputObject), |
| instruction, |
| instruction->GetDexPc(), |
| nullptr); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(int64_t)).Uint32Value(); |
| Location value = locations->InAt(2); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_8) + data_offset; |
| __ StoreToOffset(kStoreWordPair, value.AsRegisterPairLow<Register>(), obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_8)); |
| __ StoreToOffset(kStoreWordPair, value.AsRegisterPairLow<Register>(), IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(float)).Uint32Value(); |
| Location value = locations->InAt(2); |
| DCHECK(value.IsFpuRegister()); |
| if (index.IsConstant()) { |
| size_t offset = (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_4) + data_offset; |
| __ StoreSToOffset(value.AsFpuRegister<SRegister>(), obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_4)); |
| __ StoreSToOffset(value.AsFpuRegister<SRegister>(), IP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(double)).Uint32Value(); |
| Location value = locations->InAt(2); |
| DCHECK(value.IsFpuRegisterPair()); |
| if (index.IsConstant()) { |
| size_t offset = (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_8) + data_offset; |
| __ StoreDToOffset(FromLowSToD(value.AsFpuRegisterPairLow<SRegister>()), obj, offset); |
| } else { |
| __ add(IP, obj, ShifterOperand(index.AsRegister<Register>(), LSL, TIMES_8)); |
| __ StoreDToOffset(FromLowSToD(value.AsFpuRegisterPairLow<SRegister>()), IP, data_offset); |
| } |
| |
| break; |
| } |
| |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unreachable type " << value_type; |
| UNREACHABLE(); |
| } |
| |
| // Ints and objects are handled in the switch. |
| if (value_type != Primitive::kPrimInt && value_type != Primitive::kPrimNot) { |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitArrayLength(HArrayLength* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitArrayLength(HArrayLength* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| uint32_t offset = mirror::Array::LengthOffset().Uint32Value(); |
| Register obj = locations->InAt(0).AsRegister<Register>(); |
| Register out = locations->Out().AsRegister<Register>(); |
| __ LoadFromOffset(kLoadWord, out, obj, offset); |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| } |
| |
| void LocationsBuilderARM::VisitBoundsCheck(HBoundsCheck* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| if (instruction->HasUses()) { |
| locations->SetOut(Location::SameAsFirstInput()); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitBoundsCheck(HBoundsCheck* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| SlowPathCodeARM* slow_path = new (GetGraph()->GetArena()) BoundsCheckSlowPathARM( |
| instruction, locations->InAt(0), locations->InAt(1)); |
| codegen_->AddSlowPath(slow_path); |
| |
| Register index = locations->InAt(0).AsRegister<Register>(); |
| Register length = locations->InAt(1).AsRegister<Register>(); |
| |
| __ cmp(index, ShifterOperand(length)); |
| __ b(slow_path->GetEntryLabel(), CS); |
| } |
| |
| void CodeGeneratorARM::MarkGCCard(Register temp, |
| Register card, |
| Register object, |
| Register value, |
| bool can_be_null) { |
| Label is_null; |
| if (can_be_null) { |
| __ CompareAndBranchIfZero(value, &is_null); |
| } |
| __ LoadFromOffset(kLoadWord, card, TR, Thread::CardTableOffset<kArmWordSize>().Int32Value()); |
| __ Lsr(temp, object, gc::accounting::CardTable::kCardShift); |
| __ strb(card, Address(card, temp)); |
| if (can_be_null) { |
| __ Bind(&is_null); |
| } |
| } |
| |
| void LocationsBuilderARM::VisitTemporary(HTemporary* temp) { |
| temp->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitTemporary(HTemporary* temp) { |
| // Nothing to do, this is driven by the code generator. |
| UNUSED(temp); |
| } |
| |
| void LocationsBuilderARM::VisitParallelMove(HParallelMove* instruction) { |
| UNUSED(instruction); |
| LOG(FATAL) << "Unreachable"; |
| } |
| |
| void InstructionCodeGeneratorARM::VisitParallelMove(HParallelMove* instruction) { |
| codegen_->GetMoveResolver()->EmitNativeCode(instruction); |
| } |
| |
| void LocationsBuilderARM::VisitSuspendCheck(HSuspendCheck* instruction) { |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCallOnSlowPath); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitSuspendCheck(HSuspendCheck* instruction) { |
| HBasicBlock* block = instruction->GetBlock(); |
| if (block->GetLoopInformation() != nullptr) { |
| DCHECK(block->GetLoopInformation()->GetSuspendCheck() == instruction); |
| // The back edge will generate the suspend check. |
| return; |
| } |
| if (block->IsEntryBlock() && instruction->GetNext()->IsGoto()) { |
| // The goto will generate the suspend check. |
| return; |
| } |
| GenerateSuspendCheck(instruction, nullptr); |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateSuspendCheck(HSuspendCheck* instruction, |
| HBasicBlock* successor) { |
| SuspendCheckSlowPathARM* slow_path = |
| down_cast<SuspendCheckSlowPathARM*>(instruction->GetSlowPath()); |
| if (slow_path == nullptr) { |
| slow_path = new (GetGraph()->GetArena()) SuspendCheckSlowPathARM(instruction, successor); |
| instruction->SetSlowPath(slow_path); |
| codegen_->AddSlowPath(slow_path); |
| if (successor != nullptr) { |
| DCHECK(successor->IsLoopHeader()); |
| codegen_->ClearSpillSlotsFromLoopPhisInStackMap(instruction); |
| } |
| } else { |
| DCHECK_EQ(slow_path->GetSuccessor(), successor); |
| } |
| |
| __ LoadFromOffset( |
| kLoadUnsignedHalfword, IP, TR, Thread::ThreadFlagsOffset<kArmWordSize>().Int32Value()); |
| if (successor == nullptr) { |
| __ CompareAndBranchIfNonZero(IP, slow_path->GetEntryLabel()); |
| __ Bind(slow_path->GetReturnLabel()); |
| } else { |
| __ CompareAndBranchIfZero(IP, codegen_->GetLabelOf(successor)); |
| __ b(slow_path->GetEntryLabel()); |
| } |
| } |
| |
| ArmAssembler* ParallelMoveResolverARM::GetAssembler() const { |
| return codegen_->GetAssembler(); |
| } |
| |
| void ParallelMoveResolverARM::EmitMove(size_t index) { |
| MoveOperands* move = moves_.Get(index); |
| Location source = move->GetSource(); |
| Location destination = move->GetDestination(); |
| |
| if (source.IsRegister()) { |
| if (destination.IsRegister()) { |
| __ Mov(destination.AsRegister<Register>(), source.AsRegister<Register>()); |
| } else { |
| DCHECK(destination.IsStackSlot()); |
| __ StoreToOffset(kStoreWord, source.AsRegister<Register>(), |
| SP, destination.GetStackIndex()); |
| } |
| } else if (source.IsStackSlot()) { |
| if (destination.IsRegister()) { |
| __ LoadFromOffset(kLoadWord, destination.AsRegister<Register>(), |
| SP, source.GetStackIndex()); |
| } else if (destination.IsFpuRegister()) { |
| __ LoadSFromOffset(destination.AsFpuRegister<SRegister>(), SP, source.GetStackIndex()); |
| } else { |
| DCHECK(destination.IsStackSlot()); |
| __ LoadFromOffset(kLoadWord, IP, SP, source.GetStackIndex()); |
| __ StoreToOffset(kStoreWord, IP, SP, destination.GetStackIndex()); |
| } |
| } else if (source.IsFpuRegister()) { |
| if (destination.IsFpuRegister()) { |
| __ vmovs(destination.AsFpuRegister<SRegister>(), source.AsFpuRegister<SRegister>()); |
| } else { |
| DCHECK(destination.IsStackSlot()); |
| __ StoreSToOffset(source.AsFpuRegister<SRegister>(), SP, destination.GetStackIndex()); |
| } |
| } else if (source.IsDoubleStackSlot()) { |
| if (destination.IsDoubleStackSlot()) { |
| __ LoadDFromOffset(DTMP, SP, source.GetStackIndex()); |
| __ StoreDToOffset(DTMP, SP, destination.GetStackIndex()); |
| } else if (destination.IsRegisterPair()) { |
| DCHECK(ExpectedPairLayout(destination)); |
| __ LoadFromOffset( |
| kLoadWordPair, destination.AsRegisterPairLow<Register>(), SP, source.GetStackIndex()); |
| } else { |
| DCHECK(destination.IsFpuRegisterPair()) << destination; |
| __ LoadDFromOffset(FromLowSToD(destination.AsFpuRegisterPairLow<SRegister>()), |
| SP, |
| source.GetStackIndex()); |
| } |
| } else if (source.IsRegisterPair()) { |
| if (destination.IsRegisterPair()) { |
| __ Mov(destination.AsRegisterPairLow<Register>(), source.AsRegisterPairLow<Register>()); |
| __ Mov(destination.AsRegisterPairHigh<Register>(), source.AsRegisterPairHigh<Register>()); |
| } else { |
| DCHECK(destination.IsDoubleStackSlot()) << destination; |
| DCHECK(ExpectedPairLayout(source)); |
| __ StoreToOffset( |
| kStoreWordPair, source.AsRegisterPairLow<Register>(), SP, destination.GetStackIndex()); |
| } |
| } else if (source.IsFpuRegisterPair()) { |
| if (destination.IsFpuRegisterPair()) { |
| __ vmovd(FromLowSToD(destination.AsFpuRegisterPairLow<SRegister>()), |
| FromLowSToD(source.AsFpuRegisterPairLow<SRegister>())); |
| } else { |
| DCHECK(destination.IsDoubleStackSlot()) << destination; |
| __ StoreDToOffset(FromLowSToD(source.AsFpuRegisterPairLow<SRegister>()), |
| SP, |
| destination.GetStackIndex()); |
| } |
| } else { |
| DCHECK(source.IsConstant()) << source; |
| HConstant* constant = source.GetConstant(); |
| if (constant->IsIntConstant() || constant->IsNullConstant()) { |
| int32_t value = CodeGenerator::GetInt32ValueOf(constant); |
| if (destination.IsRegister()) { |
| __ LoadImmediate(destination.AsRegister<Register>(), value); |
| } else { |
| DCHECK(destination.IsStackSlot()); |
| __ LoadImmediate(IP, value); |
| __ StoreToOffset(kStoreWord, IP, SP, destination.GetStackIndex()); |
| } |
| } else if (constant->IsLongConstant()) { |
| int64_t value = constant->AsLongConstant()->GetValue(); |
| if (destination.IsRegisterPair()) { |
| __ LoadImmediate(destination.AsRegisterPairLow<Register>(), Low32Bits(value)); |
| __ LoadImmediate(destination.AsRegisterPairHigh<Register>(), High32Bits(value)); |
| } else { |
| DCHECK(destination.IsDoubleStackSlot()) << destination; |
| __ LoadImmediate(IP, Low32Bits(value)); |
| __ StoreToOffset(kStoreWord, IP, SP, destination.GetStackIndex()); |
| __ LoadImmediate(IP, High32Bits(value)); |
| __ StoreToOffset(kStoreWord, IP, SP, destination.GetHighStackIndex(kArmWordSize)); |
| } |
| } else if (constant->IsDoubleConstant()) { |
| double value = constant->AsDoubleConstant()->GetValue(); |
| if (destination.IsFpuRegisterPair()) { |
| __ LoadDImmediate(FromLowSToD(destination.AsFpuRegisterPairLow<SRegister>()), value); |
| } else { |
| DCHECK(destination.IsDoubleStackSlot()) << destination; |
| uint64_t int_value = bit_cast<uint64_t, double>(value); |
| __ LoadImmediate(IP, Low32Bits(int_value)); |
| __ StoreToOffset(kStoreWord, IP, SP, destination.GetStackIndex()); |
| __ LoadImmediate(IP, High32Bits(int_value)); |
| __ StoreToOffset(kStoreWord, IP, SP, destination.GetHighStackIndex(kArmWordSize)); |
| } |
| } else { |
| DCHECK(constant->IsFloatConstant()) << constant->DebugName(); |
| float value = constant->AsFloatConstant()->GetValue(); |
| if (destination.IsFpuRegister()) { |
| __ LoadSImmediate(destination.AsFpuRegister<SRegister>(), value); |
| } else { |
| DCHECK(destination.IsStackSlot()); |
| __ LoadImmediate(IP, bit_cast<int32_t, float>(value)); |
| __ StoreToOffset(kStoreWord, IP, SP, destination.GetStackIndex()); |
| } |
| } |
| } |
| } |
| |
| void ParallelMoveResolverARM::Exchange(Register reg, int mem) { |
| __ Mov(IP, reg); |
| __ LoadFromOffset(kLoadWord, reg, SP, mem); |
| __ StoreToOffset(kStoreWord, IP, SP, mem); |
| } |
| |
| void ParallelMoveResolverARM::Exchange(int mem1, int mem2) { |
| ScratchRegisterScope ensure_scratch(this, IP, R0, codegen_->GetNumberOfCoreRegisters()); |
| int stack_offset = ensure_scratch.IsSpilled() ? kArmWordSize : 0; |
| __ LoadFromOffset(kLoadWord, static_cast<Register>(ensure_scratch.GetRegister()), |
| SP, mem1 + stack_offset); |
| __ LoadFromOffset(kLoadWord, IP, SP, mem2 + stack_offset); |
| __ StoreToOffset(kStoreWord, static_cast<Register>(ensure_scratch.GetRegister()), |
| SP, mem2 + stack_offset); |
| __ StoreToOffset(kStoreWord, IP, SP, mem1 + stack_offset); |
| } |
| |
| void ParallelMoveResolverARM::EmitSwap(size_t index) { |
| MoveOperands* move = moves_.Get(index); |
| Location source = move->GetSource(); |
| Location destination = move->GetDestination(); |
| |
| if (source.IsRegister() && destination.IsRegister()) { |
| DCHECK_NE(source.AsRegister<Register>(), IP); |
| DCHECK_NE(destination.AsRegister<Register>(), IP); |
| __ Mov(IP, source.AsRegister<Register>()); |
| __ Mov(source.AsRegister<Register>(), destination.AsRegister<Register>()); |
| __ Mov(destination.AsRegister<Register>(), IP); |
| } else if (source.IsRegister() && destination.IsStackSlot()) { |
| Exchange(source.AsRegister<Register>(), destination.GetStackIndex()); |
| } else if (source.IsStackSlot() && destination.IsRegister()) { |
| Exchange(destination.AsRegister<Register>(), source.GetStackIndex()); |
| } else if (source.IsStackSlot() && destination.IsStackSlot()) { |
| Exchange(source.GetStackIndex(), destination.GetStackIndex()); |
| } else if (source.IsFpuRegister() && destination.IsFpuRegister()) { |
| __ vmovrs(IP, source.AsFpuRegister<SRegister>()); |
| __ vmovs(source.AsFpuRegister<SRegister>(), destination.AsFpuRegister<SRegister>()); |
| __ vmovsr(destination.AsFpuRegister<SRegister>(), IP); |
| } else if (source.IsRegisterPair() && destination.IsRegisterPair()) { |
| __ vmovdrr(DTMP, source.AsRegisterPairLow<Register>(), source.AsRegisterPairHigh<Register>()); |
| __ Mov(source.AsRegisterPairLow<Register>(), destination.AsRegisterPairLow<Register>()); |
| __ Mov(source.AsRegisterPairHigh<Register>(), destination.AsRegisterPairHigh<Register>()); |
| __ vmovrrd(destination.AsRegisterPairLow<Register>(), |
| destination.AsRegisterPairHigh<Register>(), |
| DTMP); |
| } else if (source.IsRegisterPair() || destination.IsRegisterPair()) { |
| Register low_reg = source.IsRegisterPair() |
| ? source.AsRegisterPairLow<Register>() |
| : destination.AsRegisterPairLow<Register>(); |
| int mem = source.IsRegisterPair() |
| ? destination.GetStackIndex() |
| : source.GetStackIndex(); |
| DCHECK(ExpectedPairLayout(source.IsRegisterPair() ? source : destination)); |
| __ vmovdrr(DTMP, low_reg, static_cast<Register>(low_reg + 1)); |
| __ LoadFromOffset(kLoadWordPair, low_reg, SP, mem); |
| __ StoreDToOffset(DTMP, SP, mem); |
| } else if (source.IsFpuRegisterPair() && destination.IsFpuRegisterPair()) { |
| DRegister first = FromLowSToD(source.AsFpuRegisterPairLow<SRegister>()); |
| DRegister second = FromLowSToD(destination.AsFpuRegisterPairLow<SRegister>()); |
| __ vmovd(DTMP, first); |
| __ vmovd(first, second); |
| __ vmovd(second, DTMP); |
| } else if (source.IsFpuRegisterPair() || destination.IsFpuRegisterPair()) { |
| DRegister reg = source.IsFpuRegisterPair() |
| ? FromLowSToD(source.AsFpuRegisterPairLow<SRegister>()) |
| : FromLowSToD(destination.AsFpuRegisterPairLow<SRegister>()); |
| int mem = source.IsFpuRegisterPair() |
| ? destination.GetStackIndex() |
| : source.GetStackIndex(); |
| __ vmovd(DTMP, reg); |
| __ LoadDFromOffset(reg, SP, mem); |
| __ StoreDToOffset(DTMP, SP, mem); |
| } else if (source.IsFpuRegister() || destination.IsFpuRegister()) { |
| SRegister reg = source.IsFpuRegister() ? source.AsFpuRegister<SRegister>() |
| : destination.AsFpuRegister<SRegister>(); |
| int mem = source.IsFpuRegister() |
| ? destination.GetStackIndex() |
| : source.GetStackIndex(); |
| |
| __ vmovrs(IP, reg); |
| __ LoadSFromOffset(reg, SP, mem); |
| __ StoreToOffset(kStoreWord, IP, SP, mem); |
| } else if (source.IsDoubleStackSlot() && destination.IsDoubleStackSlot()) { |
| Exchange(source.GetStackIndex(), destination.GetStackIndex()); |
| Exchange(source.GetHighStackIndex(kArmWordSize), destination.GetHighStackIndex(kArmWordSize)); |
| } else { |
| LOG(FATAL) << "Unimplemented" << source << " <-> " << destination; |
| } |
| } |
| |
| void ParallelMoveResolverARM::SpillScratch(int reg) { |
| __ Push(static_cast<Register>(reg)); |
| } |
| |
| void ParallelMoveResolverARM::RestoreScratch(int reg) { |
| __ Pop(static_cast<Register>(reg)); |
| } |
| |
| void LocationsBuilderARM::VisitLoadClass(HLoadClass* cls) { |
| LocationSummary::CallKind call_kind = cls->CanCallRuntime() |
| ? LocationSummary::kCallOnSlowPath |
| : LocationSummary::kNoCall; |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(cls, call_kind); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitLoadClass(HLoadClass* cls) { |
| LocationSummary* locations = cls->GetLocations(); |
| Register out = locations->Out().AsRegister<Register>(); |
| Register current_method = locations->InAt(0).AsRegister<Register>(); |
| if (cls->IsReferrersClass()) { |
| DCHECK(!cls->CanCallRuntime()); |
| DCHECK(!cls->MustGenerateClinitCheck()); |
| __ LoadFromOffset( |
| kLoadWord, out, current_method, ArtMethod::DeclaringClassOffset().Int32Value()); |
| } else { |
| DCHECK(cls->CanCallRuntime()); |
| __ LoadFromOffset(kLoadWord, |
| out, |
| current_method, |
| ArtMethod::DexCacheResolvedTypesOffset().Int32Value()); |
| __ LoadFromOffset(kLoadWord, out, out, CodeGenerator::GetCacheOffset(cls->GetTypeIndex())); |
| __ MaybeUnpoisonHeapReference(out); |
| |
| SlowPathCodeARM* slow_path = new (GetGraph()->GetArena()) LoadClassSlowPathARM( |
| cls, cls, cls->GetDexPc(), cls->MustGenerateClinitCheck()); |
| codegen_->AddSlowPath(slow_path); |
| __ CompareAndBranchIfZero(out, slow_path->GetEntryLabel()); |
| if (cls->MustGenerateClinitCheck()) { |
| GenerateClassInitializationCheck(slow_path, out); |
| } else { |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| } |
| } |
| |
| void LocationsBuilderARM::VisitClinitCheck(HClinitCheck* check) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(check, LocationSummary::kCallOnSlowPath); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| if (check->HasUses()) { |
| locations->SetOut(Location::SameAsFirstInput()); |
| } |
| } |
| |
| void InstructionCodeGeneratorARM::VisitClinitCheck(HClinitCheck* check) { |
| // We assume the class is not null. |
| SlowPathCodeARM* slow_path = new (GetGraph()->GetArena()) LoadClassSlowPathARM( |
| check->GetLoadClass(), check, check->GetDexPc(), true); |
| codegen_->AddSlowPath(slow_path); |
| GenerateClassInitializationCheck(slow_path, |
| check->GetLocations()->InAt(0).AsRegister<Register>()); |
| } |
| |
| void InstructionCodeGeneratorARM::GenerateClassInitializationCheck( |
| SlowPathCodeARM* slow_path, Register class_reg) { |
| __ LoadFromOffset(kLoadWord, IP, class_reg, mirror::Class::StatusOffset().Int32Value()); |
| __ cmp(IP, ShifterOperand(mirror::Class::kStatusInitialized)); |
| __ b(slow_path->GetEntryLabel(), LT); |
| // Even if the initialized flag is set, we may be in a situation where caches are not synced |
| // properly. Therefore, we do a memory fence. |
| __ dmb(ISH); |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| void LocationsBuilderARM::VisitLoadString(HLoadString* load) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(load, LocationSummary::kCallOnSlowPath); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitLoadString(HLoadString* load) { |
| SlowPathCodeARM* slow_path = new (GetGraph()->GetArena()) LoadStringSlowPathARM(load); |
| codegen_->AddSlowPath(slow_path); |
| |
| LocationSummary* locations = load->GetLocations(); |
| Register out = locations->Out().AsRegister<Register>(); |
| Register current_method = locations->InAt(0).AsRegister<Register>(); |
| __ LoadFromOffset( |
| kLoadWord, out, current_method, ArtMethod::DeclaringClassOffset().Int32Value()); |
| __ LoadFromOffset(kLoadWord, out, out, mirror::Class::DexCacheStringsOffset().Int32Value()); |
| __ MaybeUnpoisonHeapReference(out); |
| __ LoadFromOffset(kLoadWord, out, out, CodeGenerator::GetCacheOffset(load->GetStringIndex())); |
| __ MaybeUnpoisonHeapReference(out); |
| __ CompareAndBranchIfZero(out, slow_path->GetEntryLabel()); |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| void LocationsBuilderARM::VisitLoadException(HLoadException* load) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(load, LocationSummary::kNoCall); |
| locations->SetOut(Location::RequiresRegister()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitLoadException(HLoadException* load) { |
| Register out = load->GetLocations()->Out().AsRegister<Register>(); |
| int32_t offset = Thread::ExceptionOffset<kArmWordSize>().Int32Value(); |
| __ LoadFromOffset(kLoadWord, out, TR, offset); |
| __ LoadImmediate(IP, 0); |
| __ StoreToOffset(kStoreWord, IP, TR, offset); |
| } |
| |
| void LocationsBuilderARM::VisitThrow(HThrow* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCall); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitThrow(HThrow* instruction) { |
| codegen_->InvokeRuntime( |
| QUICK_ENTRY_POINT(pDeliverException), instruction, instruction->GetDexPc(), nullptr); |
| } |
| |
| void LocationsBuilderARM::VisitInstanceOf(HInstanceOf* instruction) { |
| LocationSummary::CallKind call_kind = instruction->IsClassFinal() |
| ? LocationSummary::kNoCall |
| : LocationSummary::kCallOnSlowPath; |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instruction, call_kind); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| // The out register is used as a temporary, so it overlaps with the inputs. |
| locations->SetOut(Location::RequiresRegister(), Location::kOutputOverlap); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitInstanceOf(HInstanceOf* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| Register obj = locations->InAt(0).AsRegister<Register>(); |
| Register cls = locations->InAt(1).AsRegister<Register>(); |
| Register out = locations->Out().AsRegister<Register>(); |
| uint32_t class_offset = mirror::Object::ClassOffset().Int32Value(); |
| Label done, zero; |
| SlowPathCodeARM* slow_path = nullptr; |
| |
| // Return 0 if `obj` is null. |
| // avoid null check if we know obj is not null. |
| if (instruction->MustDoNullCheck()) { |
| __ CompareAndBranchIfZero(obj, &zero); |
| } |
| // Compare the class of `obj` with `cls`. |
| __ LoadFromOffset(kLoadWord, out, obj, class_offset); |
| __ MaybeUnpoisonHeapReference(out); |
| __ cmp(out, ShifterOperand(cls)); |
| if (instruction->IsClassFinal()) { |
| // Classes must be equal for the instanceof to succeed. |
| __ b(&zero, NE); |
| __ LoadImmediate(out, 1); |
| __ b(&done); |
| } else { |
| // If the classes are not equal, we go into a slow path. |
| DCHECK(locations->OnlyCallsOnSlowPath()); |
| slow_path = new (GetGraph()->GetArena()) TypeCheckSlowPathARM( |
| instruction, locations->InAt(1), locations->Out(), instruction->GetDexPc()); |
| codegen_->AddSlowPath(slow_path); |
| __ b(slow_path->GetEntryLabel(), NE); |
| __ LoadImmediate(out, 1); |
| __ b(&done); |
| } |
| |
| if (instruction->MustDoNullCheck() || instruction->IsClassFinal()) { |
| __ Bind(&zero); |
| __ LoadImmediate(out, 0); |
| } |
| |
| if (slow_path != nullptr) { |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| __ Bind(&done); |
| } |
| |
| void LocationsBuilderARM::VisitCheckCast(HCheckCast* instruction) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary( |
| instruction, LocationSummary::kCallOnSlowPath); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitCheckCast(HCheckCast* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| Register obj = locations->InAt(0).AsRegister<Register>(); |
| Register cls = locations->InAt(1).AsRegister<Register>(); |
| Register temp = locations->GetTemp(0).AsRegister<Register>(); |
| uint32_t class_offset = mirror::Object::ClassOffset().Int32Value(); |
| |
| SlowPathCodeARM* slow_path = new (GetGraph()->GetArena()) TypeCheckSlowPathARM( |
| instruction, locations->InAt(1), locations->GetTemp(0), instruction->GetDexPc()); |
| codegen_->AddSlowPath(slow_path); |
| |
| // avoid null check if we know obj is not null. |
| if (instruction->MustDoNullCheck()) { |
| __ CompareAndBranchIfZero(obj, slow_path->GetExitLabel()); |
| } |
| // Compare the class of `obj` with `cls`. |
| __ LoadFromOffset(kLoadWord, temp, obj, class_offset); |
| __ MaybeUnpoisonHeapReference(temp); |
| __ cmp(temp, ShifterOperand(cls)); |
| // The checkcast succeeds if the classes are equal (fast path). |
| // Otherwise, we need to go into the slow path to check the types. |
| __ b(slow_path->GetEntryLabel(), NE); |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| void LocationsBuilderARM::VisitMonitorOperation(HMonitorOperation* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCall); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitMonitorOperation(HMonitorOperation* instruction) { |
| codegen_->InvokeRuntime(instruction->IsEnter() |
| ? QUICK_ENTRY_POINT(pLockObject) : QUICK_ENTRY_POINT(pUnlockObject), |
| instruction, |
| instruction->GetDexPc(), |
| nullptr); |
| } |
| |
| void LocationsBuilderARM::VisitAnd(HAnd* instruction) { HandleBitwiseOperation(instruction); } |
| void LocationsBuilderARM::VisitOr(HOr* instruction) { HandleBitwiseOperation(instruction); } |
| void LocationsBuilderARM::VisitXor(HXor* instruction) { HandleBitwiseOperation(instruction); } |
| |
| void LocationsBuilderARM::HandleBitwiseOperation(HBinaryOperation* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| DCHECK(instruction->GetResultType() == Primitive::kPrimInt |
| || instruction->GetResultType() == Primitive::kPrimLong); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitAnd(HAnd* instruction) { |
| HandleBitwiseOperation(instruction); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitOr(HOr* instruction) { |
| HandleBitwiseOperation(instruction); |
| } |
| |
| void InstructionCodeGeneratorARM::VisitXor(HXor* instruction) { |
| HandleBitwiseOperation(instruction); |
| } |
| |
| void InstructionCodeGeneratorARM::HandleBitwiseOperation(HBinaryOperation* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| |
| if (instruction->GetResultType() == Primitive::kPrimInt) { |
| Register first = locations->InAt(0).AsRegister<Register>(); |
| Register second = locations->InAt(1).AsRegister<Register>(); |
| Register out = locations->Out().AsRegister<Register>(); |
| if (instruction->IsAnd()) { |
| __ and_(out, first, ShifterOperand(second)); |
| } else if (instruction->IsOr()) { |
| __ orr(out, first, ShifterOperand(second)); |
| } else { |
| DCHECK(instruction->IsXor()); |
| __ eor(out, first, ShifterOperand(second)); |
| } |
| } else { |
| DCHECK_EQ(instruction->GetResultType(), Primitive::kPrimLong); |
| Location first = locations->InAt(0); |
| Location second = locations->InAt(1); |
| Location out = locations->Out(); |
| if (instruction->IsAnd()) { |
| __ and_(out.AsRegisterPairLow<Register>(), |
| first.AsRegisterPairLow<Register>(), |
| ShifterOperand(second.AsRegisterPairLow<Register>())); |
| __ and_(out.AsRegisterPairHigh<Register>(), |
| first.AsRegisterPairHigh<Register>(), |
| ShifterOperand(second.AsRegisterPairHigh<Register>())); |
| } else if (instruction->IsOr()) { |
| __ orr(out.AsRegisterPairLow<Register>(), |
| first.AsRegisterPairLow<Register>(), |
| ShifterOperand(second.AsRegisterPairLow<Register>())); |
| __ orr(out.AsRegisterPairHigh<Register>(), |
| first.AsRegisterPairHigh<Register>(), |
| ShifterOperand(second.AsRegisterPairHigh<Register>())); |
| } else { |
| DCHECK(instruction->IsXor()); |
| __ eor(out.AsRegisterPairLow<Register>(), |
| first.AsRegisterPairLow<Register>(), |
| ShifterOperand(second.AsRegisterPairLow<Register>())); |
| __ eor(out.AsRegisterPairHigh<Register>(), |
| first.AsRegisterPairHigh<Register>(), |
| ShifterOperand(second.AsRegisterPairHigh<Register>())); |
| } |
| } |
| } |
| |
| void CodeGeneratorARM::GenerateStaticOrDirectCall(HInvokeStaticOrDirect* invoke, Location temp) { |
| // TODO: Implement all kinds of calls: |
| // 1) boot -> boot |
| // 2) app -> boot |
| // 3) app -> app |
| // |
| // Currently we implement the app -> app logic, which looks up in the resolve cache. |
| |
| if (invoke->IsStringInit()) { |
| Register reg = temp.AsRegister<Register>(); |
| // temp = thread->string_init_entrypoint |
| __ LoadFromOffset(kLoadWord, reg, TR, invoke->GetStringInitOffset()); |
| // LR = temp[offset_of_quick_compiled_code] |
| __ LoadFromOffset(kLoadWord, LR, reg, |
| ArtMethod::EntryPointFromQuickCompiledCodeOffset( |
| kArmWordSize).Int32Value()); |
| // LR() |
| __ blx(LR); |
| } else if (invoke->IsRecursive()) { |
| __ bl(GetFrameEntryLabel()); |
| } else { |
| Location current_method = invoke->GetLocations()->InAt(invoke->GetCurrentMethodInputIndex()); |
| Register method_reg; |
| Register reg = temp.AsRegister<Register>(); |
| if (current_method.IsRegister()) { |
| method_reg = current_method.AsRegister<Register>(); |
| } else { |
| DCHECK(invoke->GetLocations()->Intrinsified()); |
| DCHECK(!current_method.IsValid()); |
| method_reg = reg; |
| __ LoadFromOffset(kLoadWord, reg, SP, kCurrentMethodStackOffset); |
| } |
| // reg = current_method->dex_cache_resolved_methods_; |
| __ LoadFromOffset( |
| kLoadWord, reg, method_reg, ArtMethod::DexCacheResolvedMethodsOffset().Int32Value()); |
| // reg = reg[index_in_cache] |
| __ LoadFromOffset( |
| kLoadWord, reg, reg, CodeGenerator::GetCacheOffset(invoke->GetDexMethodIndex())); |
| // LR = reg[offset_of_quick_compiled_code] |
| __ LoadFromOffset(kLoadWord, LR, reg, ArtMethod::EntryPointFromQuickCompiledCodeOffset( |
| kArmWordSize).Int32Value()); |
| // LR() |
| __ blx(LR); |
| } |
| |
| DCHECK(!IsLeafMethod()); |
| } |
| |
| void LocationsBuilderARM::VisitBoundType(HBoundType* instruction) { |
| // Nothing to do, this should be removed during prepare for register allocator. |
| UNUSED(instruction); |
| LOG(FATAL) << "Unreachable"; |
| } |
| |
| void InstructionCodeGeneratorARM::VisitBoundType(HBoundType* instruction) { |
| // Nothing to do, this should be removed during prepare for register allocator. |
| UNUSED(instruction); |
| LOG(FATAL) << "Unreachable"; |
| } |
| |
| #undef __ |
| #undef QUICK_ENTRY_POINT |
| |
| } // namespace arm |
| } // namespace art |