| /* |
| * Copyright (C) 2015 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_mips64.h" |
| |
| #include "art_method.h" |
| #include "code_generator_utils.h" |
| #include "compiled_method.h" |
| #include "entrypoints/quick/quick_entrypoints.h" |
| #include "entrypoints/quick/quick_entrypoints_enum.h" |
| #include "gc/accounting/card_table.h" |
| #include "intrinsics.h" |
| #include "intrinsics_mips64.h" |
| #include "mirror/array-inl.h" |
| #include "mirror/class-inl.h" |
| #include "offsets.h" |
| #include "thread.h" |
| #include "utils/assembler.h" |
| #include "utils/mips64/assembler_mips64.h" |
| #include "utils/stack_checks.h" |
| |
| namespace art { |
| namespace mips64 { |
| |
| static constexpr int kCurrentMethodStackOffset = 0; |
| static constexpr GpuRegister kMethodRegisterArgument = A0; |
| |
| Location Mips64ReturnLocation(Primitive::Type return_type) { |
| switch (return_type) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: |
| case Primitive::kPrimLong: |
| return Location::RegisterLocation(V0); |
| |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: |
| return Location::FpuRegisterLocation(F0); |
| |
| case Primitive::kPrimVoid: |
| return Location(); |
| } |
| UNREACHABLE(); |
| } |
| |
| Location InvokeDexCallingConventionVisitorMIPS64::GetReturnLocation(Primitive::Type type) const { |
| return Mips64ReturnLocation(type); |
| } |
| |
| Location InvokeDexCallingConventionVisitorMIPS64::GetMethodLocation() const { |
| return Location::RegisterLocation(kMethodRegisterArgument); |
| } |
| |
| Location InvokeDexCallingConventionVisitorMIPS64::GetNextLocation(Primitive::Type type) { |
| Location next_location; |
| if (type == Primitive::kPrimVoid) { |
| LOG(FATAL) << "Unexpected parameter type " << type; |
| } |
| |
| if (Primitive::IsFloatingPointType(type) && |
| (float_index_ < calling_convention.GetNumberOfFpuRegisters())) { |
| next_location = Location::FpuRegisterLocation( |
| calling_convention.GetFpuRegisterAt(float_index_++)); |
| gp_index_++; |
| } else if (!Primitive::IsFloatingPointType(type) && |
| (gp_index_ < calling_convention.GetNumberOfRegisters())) { |
| next_location = Location::RegisterLocation(calling_convention.GetRegisterAt(gp_index_++)); |
| float_index_++; |
| } else { |
| size_t stack_offset = calling_convention.GetStackOffsetOf(stack_index_); |
| next_location = Primitive::Is64BitType(type) ? Location::DoubleStackSlot(stack_offset) |
| : Location::StackSlot(stack_offset); |
| } |
| |
| // Space on the stack is reserved for all arguments. |
| stack_index_ += Primitive::Is64BitType(type) ? 2 : 1; |
| |
| return next_location; |
| } |
| |
| Location InvokeRuntimeCallingConvention::GetReturnLocation(Primitive::Type type) { |
| return Mips64ReturnLocation(type); |
| } |
| |
| // NOLINT on __ macro to suppress wrong warning/fix (misc-macro-parentheses) from clang-tidy. |
| #define __ down_cast<CodeGeneratorMIPS64*>(codegen)->GetAssembler()-> // NOLINT |
| #define QUICK_ENTRY_POINT(x) QUICK_ENTRYPOINT_OFFSET(kMips64PointerSize, x).Int32Value() |
| |
| class BoundsCheckSlowPathMIPS64 : public SlowPathCodeMIPS64 { |
| public: |
| explicit BoundsCheckSlowPathMIPS64(HBoundsCheck* instruction) : SlowPathCodeMIPS64(instruction) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| LocationSummary* locations = instruction_->GetLocations(); |
| CodeGeneratorMIPS64* mips64_codegen = down_cast<CodeGeneratorMIPS64*>(codegen); |
| __ Bind(GetEntryLabel()); |
| if (instruction_->CanThrowIntoCatchBlock()) { |
| // Live registers will be restored in the catch block if caught. |
| SaveLiveRegisters(codegen, instruction_->GetLocations()); |
| } |
| // We're moving two locations to locations that could overlap, so we need a parallel |
| // move resolver. |
| InvokeRuntimeCallingConvention calling_convention; |
| codegen->EmitParallelMoves(locations->InAt(0), |
| Location::RegisterLocation(calling_convention.GetRegisterAt(0)), |
| Primitive::kPrimInt, |
| locations->InAt(1), |
| Location::RegisterLocation(calling_convention.GetRegisterAt(1)), |
| Primitive::kPrimInt); |
| QuickEntrypointEnum entrypoint = instruction_->AsBoundsCheck()->IsStringCharAt() |
| ? kQuickThrowStringBounds |
| : kQuickThrowArrayBounds; |
| mips64_codegen->InvokeRuntime(entrypoint, instruction_, instruction_->GetDexPc(), this); |
| CheckEntrypointTypes<kQuickThrowStringBounds, void, int32_t, int32_t>(); |
| CheckEntrypointTypes<kQuickThrowArrayBounds, void, int32_t, int32_t>(); |
| } |
| |
| bool IsFatal() const OVERRIDE { return true; } |
| |
| const char* GetDescription() const OVERRIDE { return "BoundsCheckSlowPathMIPS64"; } |
| |
| private: |
| DISALLOW_COPY_AND_ASSIGN(BoundsCheckSlowPathMIPS64); |
| }; |
| |
| class DivZeroCheckSlowPathMIPS64 : public SlowPathCodeMIPS64 { |
| public: |
| explicit DivZeroCheckSlowPathMIPS64(HDivZeroCheck* instruction) : SlowPathCodeMIPS64(instruction) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| CodeGeneratorMIPS64* mips64_codegen = down_cast<CodeGeneratorMIPS64*>(codegen); |
| __ Bind(GetEntryLabel()); |
| mips64_codegen->InvokeRuntime(kQuickThrowDivZero, instruction_, instruction_->GetDexPc(), this); |
| CheckEntrypointTypes<kQuickThrowDivZero, void, void>(); |
| } |
| |
| bool IsFatal() const OVERRIDE { return true; } |
| |
| const char* GetDescription() const OVERRIDE { return "DivZeroCheckSlowPathMIPS64"; } |
| |
| private: |
| DISALLOW_COPY_AND_ASSIGN(DivZeroCheckSlowPathMIPS64); |
| }; |
| |
| class LoadClassSlowPathMIPS64 : public SlowPathCodeMIPS64 { |
| public: |
| LoadClassSlowPathMIPS64(HLoadClass* cls, |
| HInstruction* at, |
| uint32_t dex_pc, |
| bool do_clinit) |
| : SlowPathCodeMIPS64(at), cls_(cls), dex_pc_(dex_pc), do_clinit_(do_clinit) { |
| DCHECK(at->IsLoadClass() || at->IsClinitCheck()); |
| } |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| LocationSummary* locations = instruction_->GetLocations(); |
| CodeGeneratorMIPS64* mips64_codegen = down_cast<CodeGeneratorMIPS64*>(codegen); |
| |
| __ Bind(GetEntryLabel()); |
| SaveLiveRegisters(codegen, locations); |
| |
| InvokeRuntimeCallingConvention calling_convention; |
| dex::TypeIndex type_index = cls_->GetTypeIndex(); |
| __ LoadConst32(calling_convention.GetRegisterAt(0), type_index.index_); |
| QuickEntrypointEnum entrypoint = do_clinit_ ? kQuickInitializeStaticStorage |
| : kQuickInitializeType; |
| mips64_codegen->InvokeRuntime(entrypoint, instruction_, dex_pc_, this); |
| if (do_clinit_) { |
| CheckEntrypointTypes<kQuickInitializeStaticStorage, void*, uint32_t>(); |
| } else { |
| CheckEntrypointTypes<kQuickInitializeType, void*, uint32_t>(); |
| } |
| |
| // Move the class to the desired location. |
| Location out = locations->Out(); |
| if (out.IsValid()) { |
| DCHECK(out.IsRegister() && !locations->GetLiveRegisters()->ContainsCoreRegister(out.reg())); |
| Primitive::Type type = instruction_->GetType(); |
| mips64_codegen->MoveLocation(out, calling_convention.GetReturnLocation(type), type); |
| } |
| |
| RestoreLiveRegisters(codegen, locations); |
| // For HLoadClass/kBssEntry, store the resolved Class to the BSS entry. |
| DCHECK_EQ(instruction_->IsLoadClass(), cls_ == instruction_); |
| if (cls_ == instruction_ && cls_->GetLoadKind() == HLoadClass::LoadKind::kBssEntry) { |
| DCHECK(out.IsValid()); |
| // TODO: Change art_quick_initialize_type/art_quick_initialize_static_storage to |
| // kSaveEverything and use a temporary for the .bss entry address in the fast path, |
| // so that we can avoid another calculation here. |
| DCHECK_NE(out.AsRegister<GpuRegister>(), AT); |
| CodeGeneratorMIPS64::PcRelativePatchInfo* info = |
| mips64_codegen->NewTypeBssEntryPatch(cls_->GetDexFile(), type_index); |
| mips64_codegen->EmitPcRelativeAddressPlaceholderHigh(info, AT); |
| __ Sw(out.AsRegister<GpuRegister>(), AT, /* placeholder */ 0x5678); |
| } |
| __ Bc(GetExitLabel()); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "LoadClassSlowPathMIPS64"; } |
| |
| private: |
| // The class this slow path will load. |
| HLoadClass* const cls_; |
| |
| // The dex PC of `at_`. |
| const uint32_t dex_pc_; |
| |
| // Whether to initialize the class. |
| const bool do_clinit_; |
| |
| DISALLOW_COPY_AND_ASSIGN(LoadClassSlowPathMIPS64); |
| }; |
| |
| class LoadStringSlowPathMIPS64 : public SlowPathCodeMIPS64 { |
| public: |
| explicit LoadStringSlowPathMIPS64(HLoadString* instruction) : SlowPathCodeMIPS64(instruction) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| LocationSummary* locations = instruction_->GetLocations(); |
| DCHECK(!locations->GetLiveRegisters()->ContainsCoreRegister(locations->Out().reg())); |
| CodeGeneratorMIPS64* mips64_codegen = down_cast<CodeGeneratorMIPS64*>(codegen); |
| |
| __ Bind(GetEntryLabel()); |
| SaveLiveRegisters(codegen, locations); |
| |
| InvokeRuntimeCallingConvention calling_convention; |
| HLoadString* load = instruction_->AsLoadString(); |
| const dex::StringIndex string_index = instruction_->AsLoadString()->GetStringIndex(); |
| __ LoadConst32(calling_convention.GetRegisterAt(0), string_index.index_); |
| mips64_codegen->InvokeRuntime(kQuickResolveString, |
| instruction_, |
| instruction_->GetDexPc(), |
| this); |
| CheckEntrypointTypes<kQuickResolveString, void*, uint32_t>(); |
| Primitive::Type type = instruction_->GetType(); |
| mips64_codegen->MoveLocation(locations->Out(), |
| calling_convention.GetReturnLocation(type), |
| type); |
| |
| RestoreLiveRegisters(codegen, locations); |
| |
| // Store the resolved String to the BSS entry. |
| // TODO: Change art_quick_resolve_string to kSaveEverything and use a temporary for the |
| // .bss entry address in the fast path, so that we can avoid another calculation here. |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| DCHECK_NE(out, AT); |
| CodeGeneratorMIPS64::PcRelativePatchInfo* info = |
| mips64_codegen->NewPcRelativeStringPatch(load->GetDexFile(), string_index); |
| mips64_codegen->EmitPcRelativeAddressPlaceholderHigh(info, AT); |
| __ Sw(out, AT, /* placeholder */ 0x5678); |
| |
| __ Bc(GetExitLabel()); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "LoadStringSlowPathMIPS64"; } |
| |
| private: |
| DISALLOW_COPY_AND_ASSIGN(LoadStringSlowPathMIPS64); |
| }; |
| |
| class NullCheckSlowPathMIPS64 : public SlowPathCodeMIPS64 { |
| public: |
| explicit NullCheckSlowPathMIPS64(HNullCheck* instr) : SlowPathCodeMIPS64(instr) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| CodeGeneratorMIPS64* mips64_codegen = down_cast<CodeGeneratorMIPS64*>(codegen); |
| __ Bind(GetEntryLabel()); |
| if (instruction_->CanThrowIntoCatchBlock()) { |
| // Live registers will be restored in the catch block if caught. |
| SaveLiveRegisters(codegen, instruction_->GetLocations()); |
| } |
| mips64_codegen->InvokeRuntime(kQuickThrowNullPointer, |
| instruction_, |
| instruction_->GetDexPc(), |
| this); |
| CheckEntrypointTypes<kQuickThrowNullPointer, void, void>(); |
| } |
| |
| bool IsFatal() const OVERRIDE { return true; } |
| |
| const char* GetDescription() const OVERRIDE { return "NullCheckSlowPathMIPS64"; } |
| |
| private: |
| DISALLOW_COPY_AND_ASSIGN(NullCheckSlowPathMIPS64); |
| }; |
| |
| class SuspendCheckSlowPathMIPS64 : public SlowPathCodeMIPS64 { |
| public: |
| SuspendCheckSlowPathMIPS64(HSuspendCheck* instruction, HBasicBlock* successor) |
| : SlowPathCodeMIPS64(instruction), successor_(successor) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| CodeGeneratorMIPS64* mips64_codegen = down_cast<CodeGeneratorMIPS64*>(codegen); |
| __ Bind(GetEntryLabel()); |
| mips64_codegen->InvokeRuntime(kQuickTestSuspend, instruction_, instruction_->GetDexPc(), this); |
| CheckEntrypointTypes<kQuickTestSuspend, void, void>(); |
| if (successor_ == nullptr) { |
| __ Bc(GetReturnLabel()); |
| } else { |
| __ Bc(mips64_codegen->GetLabelOf(successor_)); |
| } |
| } |
| |
| Mips64Label* GetReturnLabel() { |
| DCHECK(successor_ == nullptr); |
| return &return_label_; |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "SuspendCheckSlowPathMIPS64"; } |
| |
| private: |
| // 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. |
| Mips64Label return_label_; |
| |
| DISALLOW_COPY_AND_ASSIGN(SuspendCheckSlowPathMIPS64); |
| }; |
| |
| class TypeCheckSlowPathMIPS64 : public SlowPathCodeMIPS64 { |
| public: |
| explicit TypeCheckSlowPathMIPS64(HInstruction* instruction) : SlowPathCodeMIPS64(instruction) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| LocationSummary* locations = instruction_->GetLocations(); |
| |
| uint32_t dex_pc = instruction_->GetDexPc(); |
| DCHECK(instruction_->IsCheckCast() |
| || !locations->GetLiveRegisters()->ContainsCoreRegister(locations->Out().reg())); |
| CodeGeneratorMIPS64* mips64_codegen = down_cast<CodeGeneratorMIPS64*>(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(locations->InAt(0), |
| Location::RegisterLocation(calling_convention.GetRegisterAt(0)), |
| Primitive::kPrimNot, |
| locations->InAt(1), |
| Location::RegisterLocation(calling_convention.GetRegisterAt(1)), |
| Primitive::kPrimNot); |
| if (instruction_->IsInstanceOf()) { |
| mips64_codegen->InvokeRuntime(kQuickInstanceofNonTrivial, instruction_, dex_pc, this); |
| CheckEntrypointTypes<kQuickInstanceofNonTrivial, size_t, mirror::Object*, mirror::Class*>(); |
| Primitive::Type ret_type = instruction_->GetType(); |
| Location ret_loc = calling_convention.GetReturnLocation(ret_type); |
| mips64_codegen->MoveLocation(locations->Out(), ret_loc, ret_type); |
| } else { |
| DCHECK(instruction_->IsCheckCast()); |
| mips64_codegen->InvokeRuntime(kQuickCheckInstanceOf, instruction_, dex_pc, this); |
| CheckEntrypointTypes<kQuickCheckInstanceOf, void, mirror::Object*, mirror::Class*>(); |
| } |
| |
| RestoreLiveRegisters(codegen, locations); |
| __ Bc(GetExitLabel()); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "TypeCheckSlowPathMIPS64"; } |
| |
| private: |
| DISALLOW_COPY_AND_ASSIGN(TypeCheckSlowPathMIPS64); |
| }; |
| |
| class DeoptimizationSlowPathMIPS64 : public SlowPathCodeMIPS64 { |
| public: |
| explicit DeoptimizationSlowPathMIPS64(HDeoptimize* instruction) |
| : SlowPathCodeMIPS64(instruction) {} |
| |
| void EmitNativeCode(CodeGenerator* codegen) OVERRIDE { |
| CodeGeneratorMIPS64* mips64_codegen = down_cast<CodeGeneratorMIPS64*>(codegen); |
| __ Bind(GetEntryLabel()); |
| mips64_codegen->InvokeRuntime(kQuickDeoptimize, instruction_, instruction_->GetDexPc(), this); |
| CheckEntrypointTypes<kQuickDeoptimize, void, void>(); |
| } |
| |
| const char* GetDescription() const OVERRIDE { return "DeoptimizationSlowPathMIPS64"; } |
| |
| private: |
| DISALLOW_COPY_AND_ASSIGN(DeoptimizationSlowPathMIPS64); |
| }; |
| |
| CodeGeneratorMIPS64::CodeGeneratorMIPS64(HGraph* graph, |
| const Mips64InstructionSetFeatures& isa_features, |
| const CompilerOptions& compiler_options, |
| OptimizingCompilerStats* stats) |
| : CodeGenerator(graph, |
| kNumberOfGpuRegisters, |
| kNumberOfFpuRegisters, |
| /* number_of_register_pairs */ 0, |
| ComputeRegisterMask(reinterpret_cast<const int*>(kCoreCalleeSaves), |
| arraysize(kCoreCalleeSaves)), |
| ComputeRegisterMask(reinterpret_cast<const int*>(kFpuCalleeSaves), |
| arraysize(kFpuCalleeSaves)), |
| compiler_options, |
| stats), |
| block_labels_(nullptr), |
| location_builder_(graph, this), |
| instruction_visitor_(graph, this), |
| move_resolver_(graph->GetArena(), this), |
| assembler_(graph->GetArena()), |
| isa_features_(isa_features), |
| uint32_literals_(std::less<uint32_t>(), |
| graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| uint64_literals_(std::less<uint64_t>(), |
| graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| pc_relative_dex_cache_patches_(graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| boot_image_string_patches_(StringReferenceValueComparator(), |
| graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| pc_relative_string_patches_(graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| boot_image_type_patches_(TypeReferenceValueComparator(), |
| graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| pc_relative_type_patches_(graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| type_bss_entry_patches_(graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| boot_image_address_patches_(std::less<uint32_t>(), |
| graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| jit_string_patches_(StringReferenceValueComparator(), |
| graph->GetArena()->Adapter(kArenaAllocCodeGenerator)), |
| jit_class_patches_(TypeReferenceValueComparator(), |
| graph->GetArena()->Adapter(kArenaAllocCodeGenerator)) { |
| // Save RA (containing the return address) to mimic Quick. |
| AddAllocatedRegister(Location::RegisterLocation(RA)); |
| } |
| |
| #undef __ |
| // NOLINT on __ macro to suppress wrong warning/fix (misc-macro-parentheses) from clang-tidy. |
| #define __ down_cast<Mips64Assembler*>(GetAssembler())-> // NOLINT |
| #define QUICK_ENTRY_POINT(x) QUICK_ENTRYPOINT_OFFSET(kMips64PointerSize, x).Int32Value() |
| |
| void CodeGeneratorMIPS64::Finalize(CodeAllocator* allocator) { |
| // Ensure that we fix up branches. |
| __ 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_code_offset.Uint32Value(kMips64); |
| uint32_t new_position = __ GetAdjustedPosition(old_position); |
| DCHECK_GE(new_position, old_position); |
| stack_map_stream_.SetStackMapNativePcOffset(i, new_position); |
| } |
| |
| // 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); |
| } |
| |
| Mips64Assembler* ParallelMoveResolverMIPS64::GetAssembler() const { |
| return codegen_->GetAssembler(); |
| } |
| |
| void ParallelMoveResolverMIPS64::EmitMove(size_t index) { |
| MoveOperands* move = moves_[index]; |
| codegen_->MoveLocation(move->GetDestination(), move->GetSource(), move->GetType()); |
| } |
| |
| void ParallelMoveResolverMIPS64::EmitSwap(size_t index) { |
| MoveOperands* move = moves_[index]; |
| codegen_->SwapLocations(move->GetDestination(), move->GetSource(), move->GetType()); |
| } |
| |
| void ParallelMoveResolverMIPS64::RestoreScratch(int reg) { |
| // Pop reg |
| __ Ld(GpuRegister(reg), SP, 0); |
| __ DecreaseFrameSize(kMips64DoublewordSize); |
| } |
| |
| void ParallelMoveResolverMIPS64::SpillScratch(int reg) { |
| // Push reg |
| __ IncreaseFrameSize(kMips64DoublewordSize); |
| __ Sd(GpuRegister(reg), SP, 0); |
| } |
| |
| void ParallelMoveResolverMIPS64::Exchange(int index1, int index2, bool double_slot) { |
| LoadOperandType load_type = double_slot ? kLoadDoubleword : kLoadWord; |
| StoreOperandType store_type = double_slot ? kStoreDoubleword : kStoreWord; |
| // Allocate a scratch register other than TMP, if available. |
| // Else, spill V0 (arbitrary choice) and use it as a scratch register (it will be |
| // automatically unspilled when the scratch scope object is destroyed). |
| ScratchRegisterScope ensure_scratch(this, TMP, V0, codegen_->GetNumberOfCoreRegisters()); |
| // If V0 spills onto the stack, SP-relative offsets need to be adjusted. |
| int stack_offset = ensure_scratch.IsSpilled() ? kMips64DoublewordSize : 0; |
| __ LoadFromOffset(load_type, |
| GpuRegister(ensure_scratch.GetRegister()), |
| SP, |
| index1 + stack_offset); |
| __ LoadFromOffset(load_type, |
| TMP, |
| SP, |
| index2 + stack_offset); |
| __ StoreToOffset(store_type, |
| GpuRegister(ensure_scratch.GetRegister()), |
| SP, |
| index2 + stack_offset); |
| __ StoreToOffset(store_type, TMP, SP, index1 + stack_offset); |
| } |
| |
| static dwarf::Reg DWARFReg(GpuRegister reg) { |
| return dwarf::Reg::Mips64Core(static_cast<int>(reg)); |
| } |
| |
| static dwarf::Reg DWARFReg(FpuRegister reg) { |
| return dwarf::Reg::Mips64Fp(static_cast<int>(reg)); |
| } |
| |
| void CodeGeneratorMIPS64::GenerateFrameEntry() { |
| __ Bind(&frame_entry_label_); |
| |
| bool do_overflow_check = FrameNeedsStackCheck(GetFrameSize(), kMips64) || !IsLeafMethod(); |
| |
| if (do_overflow_check) { |
| __ LoadFromOffset(kLoadWord, |
| ZERO, |
| SP, |
| -static_cast<int32_t>(GetStackOverflowReservedBytes(kMips64))); |
| RecordPcInfo(nullptr, 0); |
| } |
| |
| if (HasEmptyFrame()) { |
| return; |
| } |
| |
| // Make sure the frame size isn't unreasonably large. Per the various APIs |
| // it looks like it should always be less than 2GB in size, which allows |
| // us using 32-bit signed offsets from the stack pointer. |
| if (GetFrameSize() > 0x7FFFFFFF) |
| LOG(FATAL) << "Stack frame larger than 2GB"; |
| |
| // Spill callee-saved registers. |
| // Note that their cumulative size is small and they can be indexed using |
| // 16-bit offsets. |
| |
| // TODO: increment/decrement SP in one step instead of two or remove this comment. |
| |
| uint32_t ofs = FrameEntrySpillSize(); |
| __ IncreaseFrameSize(ofs); |
| |
| for (int i = arraysize(kCoreCalleeSaves) - 1; i >= 0; --i) { |
| GpuRegister reg = kCoreCalleeSaves[i]; |
| if (allocated_registers_.ContainsCoreRegister(reg)) { |
| ofs -= kMips64DoublewordSize; |
| __ Sd(reg, SP, ofs); |
| __ cfi().RelOffset(DWARFReg(reg), ofs); |
| } |
| } |
| |
| for (int i = arraysize(kFpuCalleeSaves) - 1; i >= 0; --i) { |
| FpuRegister reg = kFpuCalleeSaves[i]; |
| if (allocated_registers_.ContainsFloatingPointRegister(reg)) { |
| ofs -= kMips64DoublewordSize; |
| __ Sdc1(reg, SP, ofs); |
| __ cfi().RelOffset(DWARFReg(reg), ofs); |
| } |
| } |
| |
| // Allocate the rest of the frame and store the current method pointer |
| // at its end. |
| |
| __ IncreaseFrameSize(GetFrameSize() - FrameEntrySpillSize()); |
| |
| // Save the current method if we need it. Note that we do not |
| // do this in HCurrentMethod, as the instruction might have been removed |
| // in the SSA graph. |
| if (RequiresCurrentMethod()) { |
| static_assert(IsInt<16>(kCurrentMethodStackOffset), |
| "kCurrentMethodStackOffset must fit into int16_t"); |
| __ Sd(kMethodRegisterArgument, SP, kCurrentMethodStackOffset); |
| } |
| |
| if (GetGraph()->HasShouldDeoptimizeFlag()) { |
| // Initialize should_deoptimize flag to 0. |
| __ StoreToOffset(kStoreWord, ZERO, SP, GetStackOffsetOfShouldDeoptimizeFlag()); |
| } |
| } |
| |
| void CodeGeneratorMIPS64::GenerateFrameExit() { |
| __ cfi().RememberState(); |
| |
| if (!HasEmptyFrame()) { |
| // Deallocate the rest of the frame. |
| |
| __ DecreaseFrameSize(GetFrameSize() - FrameEntrySpillSize()); |
| |
| // Restore callee-saved registers. |
| // Note that their cumulative size is small and they can be indexed using |
| // 16-bit offsets. |
| |
| // TODO: increment/decrement SP in one step instead of two or remove this comment. |
| |
| uint32_t ofs = 0; |
| |
| for (size_t i = 0; i < arraysize(kFpuCalleeSaves); ++i) { |
| FpuRegister reg = kFpuCalleeSaves[i]; |
| if (allocated_registers_.ContainsFloatingPointRegister(reg)) { |
| __ Ldc1(reg, SP, ofs); |
| ofs += kMips64DoublewordSize; |
| __ cfi().Restore(DWARFReg(reg)); |
| } |
| } |
| |
| for (size_t i = 0; i < arraysize(kCoreCalleeSaves); ++i) { |
| GpuRegister reg = kCoreCalleeSaves[i]; |
| if (allocated_registers_.ContainsCoreRegister(reg)) { |
| __ Ld(reg, SP, ofs); |
| ofs += kMips64DoublewordSize; |
| __ cfi().Restore(DWARFReg(reg)); |
| } |
| } |
| |
| DCHECK_EQ(ofs, FrameEntrySpillSize()); |
| __ DecreaseFrameSize(ofs); |
| } |
| |
| __ Jr(RA); |
| __ Nop(); |
| |
| __ cfi().RestoreState(); |
| __ cfi().DefCFAOffset(GetFrameSize()); |
| } |
| |
| void CodeGeneratorMIPS64::Bind(HBasicBlock* block) { |
| __ Bind(GetLabelOf(block)); |
| } |
| |
| void CodeGeneratorMIPS64::MoveLocation(Location destination, |
| Location source, |
| Primitive::Type dst_type) { |
| if (source.Equals(destination)) { |
| return; |
| } |
| |
| // A valid move can always be inferred from the destination and source |
| // locations. When moving from and to a register, the argument type can be |
| // used to generate 32bit instead of 64bit moves. |
| bool unspecified_type = (dst_type == Primitive::kPrimVoid); |
| DCHECK_EQ(unspecified_type, false); |
| |
| if (destination.IsRegister() || destination.IsFpuRegister()) { |
| if (unspecified_type) { |
| HConstant* src_cst = source.IsConstant() ? source.GetConstant() : nullptr; |
| if (source.IsStackSlot() || |
| (src_cst != nullptr && (src_cst->IsIntConstant() |
| || src_cst->IsFloatConstant() |
| || src_cst->IsNullConstant()))) { |
| // For stack slots and 32bit constants, a 64bit type is appropriate. |
| dst_type = destination.IsRegister() ? Primitive::kPrimInt : Primitive::kPrimFloat; |
| } else { |
| // If the source is a double stack slot or a 64bit constant, a 64bit |
| // type is appropriate. Else the source is a register, and since the |
| // type has not been specified, we chose a 64bit type to force a 64bit |
| // move. |
| dst_type = destination.IsRegister() ? Primitive::kPrimLong : Primitive::kPrimDouble; |
| } |
| } |
| DCHECK((destination.IsFpuRegister() && Primitive::IsFloatingPointType(dst_type)) || |
| (destination.IsRegister() && !Primitive::IsFloatingPointType(dst_type))); |
| if (source.IsStackSlot() || source.IsDoubleStackSlot()) { |
| // Move to GPR/FPR from stack |
| LoadOperandType load_type = source.IsStackSlot() ? kLoadWord : kLoadDoubleword; |
| if (Primitive::IsFloatingPointType(dst_type)) { |
| __ LoadFpuFromOffset(load_type, |
| destination.AsFpuRegister<FpuRegister>(), |
| SP, |
| source.GetStackIndex()); |
| } else { |
| // TODO: use load_type = kLoadUnsignedWord when type == Primitive::kPrimNot. |
| __ LoadFromOffset(load_type, |
| destination.AsRegister<GpuRegister>(), |
| SP, |
| source.GetStackIndex()); |
| } |
| } else if (source.IsConstant()) { |
| // Move to GPR/FPR from constant |
| GpuRegister gpr = AT; |
| if (!Primitive::IsFloatingPointType(dst_type)) { |
| gpr = destination.AsRegister<GpuRegister>(); |
| } |
| if (dst_type == Primitive::kPrimInt || dst_type == Primitive::kPrimFloat) { |
| int32_t value = GetInt32ValueOf(source.GetConstant()->AsConstant()); |
| if (Primitive::IsFloatingPointType(dst_type) && value == 0) { |
| gpr = ZERO; |
| } else { |
| __ LoadConst32(gpr, value); |
| } |
| } else { |
| int64_t value = GetInt64ValueOf(source.GetConstant()->AsConstant()); |
| if (Primitive::IsFloatingPointType(dst_type) && value == 0) { |
| gpr = ZERO; |
| } else { |
| __ LoadConst64(gpr, value); |
| } |
| } |
| if (dst_type == Primitive::kPrimFloat) { |
| __ Mtc1(gpr, destination.AsFpuRegister<FpuRegister>()); |
| } else if (dst_type == Primitive::kPrimDouble) { |
| __ Dmtc1(gpr, destination.AsFpuRegister<FpuRegister>()); |
| } |
| } else if (source.IsRegister()) { |
| if (destination.IsRegister()) { |
| // Move to GPR from GPR |
| __ Move(destination.AsRegister<GpuRegister>(), source.AsRegister<GpuRegister>()); |
| } else { |
| DCHECK(destination.IsFpuRegister()); |
| if (Primitive::Is64BitType(dst_type)) { |
| __ Dmtc1(source.AsRegister<GpuRegister>(), destination.AsFpuRegister<FpuRegister>()); |
| } else { |
| __ Mtc1(source.AsRegister<GpuRegister>(), destination.AsFpuRegister<FpuRegister>()); |
| } |
| } |
| } else if (source.IsFpuRegister()) { |
| if (destination.IsFpuRegister()) { |
| // Move to FPR from FPR |
| if (dst_type == Primitive::kPrimFloat) { |
| __ MovS(destination.AsFpuRegister<FpuRegister>(), source.AsFpuRegister<FpuRegister>()); |
| } else { |
| DCHECK_EQ(dst_type, Primitive::kPrimDouble); |
| __ MovD(destination.AsFpuRegister<FpuRegister>(), source.AsFpuRegister<FpuRegister>()); |
| } |
| } else { |
| DCHECK(destination.IsRegister()); |
| if (Primitive::Is64BitType(dst_type)) { |
| __ Dmfc1(destination.AsRegister<GpuRegister>(), source.AsFpuRegister<FpuRegister>()); |
| } else { |
| __ Mfc1(destination.AsRegister<GpuRegister>(), source.AsFpuRegister<FpuRegister>()); |
| } |
| } |
| } |
| } else { // The destination is not a register. It must be a stack slot. |
| DCHECK(destination.IsStackSlot() || destination.IsDoubleStackSlot()); |
| if (source.IsRegister() || source.IsFpuRegister()) { |
| if (unspecified_type) { |
| if (source.IsRegister()) { |
| dst_type = destination.IsStackSlot() ? Primitive::kPrimInt : Primitive::kPrimLong; |
| } else { |
| dst_type = destination.IsStackSlot() ? Primitive::kPrimFloat : Primitive::kPrimDouble; |
| } |
| } |
| DCHECK((destination.IsDoubleStackSlot() == Primitive::Is64BitType(dst_type)) && |
| (source.IsFpuRegister() == Primitive::IsFloatingPointType(dst_type))); |
| // Move to stack from GPR/FPR |
| StoreOperandType store_type = destination.IsStackSlot() ? kStoreWord : kStoreDoubleword; |
| if (source.IsRegister()) { |
| __ StoreToOffset(store_type, |
| source.AsRegister<GpuRegister>(), |
| SP, |
| destination.GetStackIndex()); |
| } else { |
| __ StoreFpuToOffset(store_type, |
| source.AsFpuRegister<FpuRegister>(), |
| SP, |
| destination.GetStackIndex()); |
| } |
| } else if (source.IsConstant()) { |
| // Move to stack from constant |
| HConstant* src_cst = source.GetConstant(); |
| StoreOperandType store_type = destination.IsStackSlot() ? kStoreWord : kStoreDoubleword; |
| GpuRegister gpr = ZERO; |
| if (destination.IsStackSlot()) { |
| int32_t value = GetInt32ValueOf(src_cst->AsConstant()); |
| if (value != 0) { |
| gpr = TMP; |
| __ LoadConst32(gpr, value); |
| } |
| } else { |
| DCHECK(destination.IsDoubleStackSlot()); |
| int64_t value = GetInt64ValueOf(src_cst->AsConstant()); |
| if (value != 0) { |
| gpr = TMP; |
| __ LoadConst64(gpr, value); |
| } |
| } |
| __ StoreToOffset(store_type, gpr, SP, destination.GetStackIndex()); |
| } else { |
| DCHECK(source.IsStackSlot() || source.IsDoubleStackSlot()); |
| DCHECK_EQ(source.IsDoubleStackSlot(), destination.IsDoubleStackSlot()); |
| // Move to stack from stack |
| if (destination.IsStackSlot()) { |
| __ LoadFromOffset(kLoadWord, TMP, SP, source.GetStackIndex()); |
| __ StoreToOffset(kStoreWord, TMP, SP, destination.GetStackIndex()); |
| } else { |
| __ LoadFromOffset(kLoadDoubleword, TMP, SP, source.GetStackIndex()); |
| __ StoreToOffset(kStoreDoubleword, TMP, SP, destination.GetStackIndex()); |
| } |
| } |
| } |
| } |
| |
| void CodeGeneratorMIPS64::SwapLocations(Location loc1, Location loc2, Primitive::Type type) { |
| DCHECK(!loc1.IsConstant()); |
| DCHECK(!loc2.IsConstant()); |
| |
| if (loc1.Equals(loc2)) { |
| return; |
| } |
| |
| bool is_slot1 = loc1.IsStackSlot() || loc1.IsDoubleStackSlot(); |
| bool is_slot2 = loc2.IsStackSlot() || loc2.IsDoubleStackSlot(); |
| bool is_fp_reg1 = loc1.IsFpuRegister(); |
| bool is_fp_reg2 = loc2.IsFpuRegister(); |
| |
| if (loc2.IsRegister() && loc1.IsRegister()) { |
| // Swap 2 GPRs |
| GpuRegister r1 = loc1.AsRegister<GpuRegister>(); |
| GpuRegister r2 = loc2.AsRegister<GpuRegister>(); |
| __ Move(TMP, r2); |
| __ Move(r2, r1); |
| __ Move(r1, TMP); |
| } else if (is_fp_reg2 && is_fp_reg1) { |
| // Swap 2 FPRs |
| FpuRegister r1 = loc1.AsFpuRegister<FpuRegister>(); |
| FpuRegister r2 = loc2.AsFpuRegister<FpuRegister>(); |
| if (type == Primitive::kPrimFloat) { |
| __ MovS(FTMP, r1); |
| __ MovS(r1, r2); |
| __ MovS(r2, FTMP); |
| } else { |
| DCHECK_EQ(type, Primitive::kPrimDouble); |
| __ MovD(FTMP, r1); |
| __ MovD(r1, r2); |
| __ MovD(r2, FTMP); |
| } |
| } else if (is_slot1 != is_slot2) { |
| // Swap GPR/FPR and stack slot |
| Location reg_loc = is_slot1 ? loc2 : loc1; |
| Location mem_loc = is_slot1 ? loc1 : loc2; |
| LoadOperandType load_type = mem_loc.IsStackSlot() ? kLoadWord : kLoadDoubleword; |
| StoreOperandType store_type = mem_loc.IsStackSlot() ? kStoreWord : kStoreDoubleword; |
| // TODO: use load_type = kLoadUnsignedWord when type == Primitive::kPrimNot. |
| __ LoadFromOffset(load_type, TMP, SP, mem_loc.GetStackIndex()); |
| if (reg_loc.IsFpuRegister()) { |
| __ StoreFpuToOffset(store_type, |
| reg_loc.AsFpuRegister<FpuRegister>(), |
| SP, |
| mem_loc.GetStackIndex()); |
| if (mem_loc.IsStackSlot()) { |
| __ Mtc1(TMP, reg_loc.AsFpuRegister<FpuRegister>()); |
| } else { |
| DCHECK(mem_loc.IsDoubleStackSlot()); |
| __ Dmtc1(TMP, reg_loc.AsFpuRegister<FpuRegister>()); |
| } |
| } else { |
| __ StoreToOffset(store_type, reg_loc.AsRegister<GpuRegister>(), SP, mem_loc.GetStackIndex()); |
| __ Move(reg_loc.AsRegister<GpuRegister>(), TMP); |
| } |
| } else if (is_slot1 && is_slot2) { |
| move_resolver_.Exchange(loc1.GetStackIndex(), |
| loc2.GetStackIndex(), |
| loc1.IsDoubleStackSlot()); |
| } else { |
| LOG(FATAL) << "Unimplemented swap between locations " << loc1 << " and " << loc2; |
| } |
| } |
| |
| void CodeGeneratorMIPS64::MoveConstant(Location location, int32_t value) { |
| DCHECK(location.IsRegister()); |
| __ LoadConst32(location.AsRegister<GpuRegister>(), value); |
| } |
| |
| void CodeGeneratorMIPS64::AddLocationAsTemp(Location location, LocationSummary* locations) { |
| if (location.IsRegister()) { |
| locations->AddTemp(location); |
| } else { |
| UNIMPLEMENTED(FATAL) << "AddLocationAsTemp not implemented for location " << location; |
| } |
| } |
| |
| void CodeGeneratorMIPS64::MarkGCCard(GpuRegister object, |
| GpuRegister value, |
| bool value_can_be_null) { |
| Mips64Label done; |
| GpuRegister card = AT; |
| GpuRegister temp = TMP; |
| if (value_can_be_null) { |
| __ Beqzc(value, &done); |
| } |
| __ LoadFromOffset(kLoadDoubleword, |
| card, |
| TR, |
| Thread::CardTableOffset<kMips64PointerSize>().Int32Value()); |
| __ Dsrl(temp, object, gc::accounting::CardTable::kCardShift); |
| __ Daddu(temp, card, temp); |
| __ Sb(card, temp, 0); |
| if (value_can_be_null) { |
| __ Bind(&done); |
| } |
| } |
| |
| template <LinkerPatch (*Factory)(size_t, const DexFile*, uint32_t, uint32_t)> |
| inline void CodeGeneratorMIPS64::EmitPcRelativeLinkerPatches( |
| const ArenaDeque<PcRelativePatchInfo>& infos, |
| ArenaVector<LinkerPatch>* linker_patches) { |
| for (const PcRelativePatchInfo& info : infos) { |
| const DexFile& dex_file = info.target_dex_file; |
| size_t offset_or_index = info.offset_or_index; |
| DCHECK(info.pc_rel_label.IsBound()); |
| uint32_t pc_rel_offset = __ GetLabelLocation(&info.pc_rel_label); |
| linker_patches->push_back(Factory(pc_rel_offset, &dex_file, pc_rel_offset, offset_or_index)); |
| } |
| } |
| |
| void CodeGeneratorMIPS64::EmitLinkerPatches(ArenaVector<LinkerPatch>* linker_patches) { |
| DCHECK(linker_patches->empty()); |
| size_t size = |
| pc_relative_dex_cache_patches_.size() + |
| pc_relative_string_patches_.size() + |
| pc_relative_type_patches_.size() + |
| type_bss_entry_patches_.size() + |
| boot_image_string_patches_.size() + |
| boot_image_type_patches_.size() + |
| boot_image_address_patches_.size(); |
| linker_patches->reserve(size); |
| EmitPcRelativeLinkerPatches<LinkerPatch::DexCacheArrayPatch>(pc_relative_dex_cache_patches_, |
| linker_patches); |
| if (!GetCompilerOptions().IsBootImage()) { |
| DCHECK(pc_relative_type_patches_.empty()); |
| EmitPcRelativeLinkerPatches<LinkerPatch::StringBssEntryPatch>(pc_relative_string_patches_, |
| linker_patches); |
| } else { |
| EmitPcRelativeLinkerPatches<LinkerPatch::RelativeTypePatch>(pc_relative_type_patches_, |
| linker_patches); |
| EmitPcRelativeLinkerPatches<LinkerPatch::RelativeStringPatch>(pc_relative_string_patches_, |
| linker_patches); |
| } |
| EmitPcRelativeLinkerPatches<LinkerPatch::TypeBssEntryPatch>(type_bss_entry_patches_, |
| linker_patches); |
| for (const auto& entry : boot_image_string_patches_) { |
| const StringReference& target_string = entry.first; |
| Literal* literal = entry.second; |
| DCHECK(literal->GetLabel()->IsBound()); |
| uint32_t literal_offset = __ GetLabelLocation(literal->GetLabel()); |
| linker_patches->push_back(LinkerPatch::StringPatch(literal_offset, |
| target_string.dex_file, |
| target_string.string_index.index_)); |
| } |
| for (const auto& entry : boot_image_type_patches_) { |
| const TypeReference& target_type = entry.first; |
| Literal* literal = entry.second; |
| DCHECK(literal->GetLabel()->IsBound()); |
| uint32_t literal_offset = __ GetLabelLocation(literal->GetLabel()); |
| linker_patches->push_back(LinkerPatch::TypePatch(literal_offset, |
| target_type.dex_file, |
| target_type.type_index.index_)); |
| } |
| for (const auto& entry : boot_image_address_patches_) { |
| DCHECK(GetCompilerOptions().GetIncludePatchInformation()); |
| Literal* literal = entry.second; |
| DCHECK(literal->GetLabel()->IsBound()); |
| uint32_t literal_offset = __ GetLabelLocation(literal->GetLabel()); |
| linker_patches->push_back(LinkerPatch::RecordPosition(literal_offset)); |
| } |
| DCHECK_EQ(size, linker_patches->size()); |
| } |
| |
| CodeGeneratorMIPS64::PcRelativePatchInfo* CodeGeneratorMIPS64::NewPcRelativeStringPatch( |
| const DexFile& dex_file, dex::StringIndex string_index) { |
| return NewPcRelativePatch(dex_file, string_index.index_, &pc_relative_string_patches_); |
| } |
| |
| CodeGeneratorMIPS64::PcRelativePatchInfo* CodeGeneratorMIPS64::NewPcRelativeTypePatch( |
| const DexFile& dex_file, dex::TypeIndex type_index) { |
| return NewPcRelativePatch(dex_file, type_index.index_, &pc_relative_type_patches_); |
| } |
| |
| CodeGeneratorMIPS64::PcRelativePatchInfo* CodeGeneratorMIPS64::NewTypeBssEntryPatch( |
| const DexFile& dex_file, dex::TypeIndex type_index) { |
| return NewPcRelativePatch(dex_file, type_index.index_, &type_bss_entry_patches_); |
| } |
| |
| CodeGeneratorMIPS64::PcRelativePatchInfo* CodeGeneratorMIPS64::NewPcRelativeDexCacheArrayPatch( |
| const DexFile& dex_file, uint32_t element_offset) { |
| return NewPcRelativePatch(dex_file, element_offset, &pc_relative_dex_cache_patches_); |
| } |
| |
| CodeGeneratorMIPS64::PcRelativePatchInfo* CodeGeneratorMIPS64::NewPcRelativePatch( |
| const DexFile& dex_file, uint32_t offset_or_index, ArenaDeque<PcRelativePatchInfo>* patches) { |
| patches->emplace_back(dex_file, offset_or_index); |
| return &patches->back(); |
| } |
| |
| Literal* CodeGeneratorMIPS64::DeduplicateUint32Literal(uint32_t value, Uint32ToLiteralMap* map) { |
| return map->GetOrCreate( |
| value, |
| [this, value]() { return __ NewLiteral<uint32_t>(value); }); |
| } |
| |
| Literal* CodeGeneratorMIPS64::DeduplicateUint64Literal(uint64_t value) { |
| return uint64_literals_.GetOrCreate( |
| value, |
| [this, value]() { return __ NewLiteral<uint64_t>(value); }); |
| } |
| |
| Literal* CodeGeneratorMIPS64::DeduplicateMethodLiteral(MethodReference target_method, |
| MethodToLiteralMap* map) { |
| return map->GetOrCreate( |
| target_method, |
| [this]() { return __ NewLiteral<uint32_t>(/* placeholder */ 0u); }); |
| } |
| |
| Literal* CodeGeneratorMIPS64::DeduplicateBootImageStringLiteral(const DexFile& dex_file, |
| dex::StringIndex string_index) { |
| return boot_image_string_patches_.GetOrCreate( |
| StringReference(&dex_file, string_index), |
| [this]() { return __ NewLiteral<uint32_t>(/* placeholder */ 0u); }); |
| } |
| |
| Literal* CodeGeneratorMIPS64::DeduplicateBootImageTypeLiteral(const DexFile& dex_file, |
| dex::TypeIndex type_index) { |
| return boot_image_type_patches_.GetOrCreate( |
| TypeReference(&dex_file, type_index), |
| [this]() { return __ NewLiteral<uint32_t>(/* placeholder */ 0u); }); |
| } |
| |
| Literal* CodeGeneratorMIPS64::DeduplicateBootImageAddressLiteral(uint64_t address) { |
| bool needs_patch = GetCompilerOptions().GetIncludePatchInformation(); |
| Uint32ToLiteralMap* map = needs_patch ? &boot_image_address_patches_ : &uint32_literals_; |
| return DeduplicateUint32Literal(dchecked_integral_cast<uint32_t>(address), map); |
| } |
| |
| void CodeGeneratorMIPS64::EmitPcRelativeAddressPlaceholderHigh(PcRelativePatchInfo* info, |
| GpuRegister out) { |
| __ Bind(&info->pc_rel_label); |
| // Add the high half of a 32-bit offset to PC. |
| __ Auipc(out, /* placeholder */ 0x1234); |
| // The immediately following instruction will add the sign-extended low half of the 32-bit |
| // offset to `out` (e.g. ld, jialc, daddiu). |
| } |
| |
| Literal* CodeGeneratorMIPS64::DeduplicateJitStringLiteral(const DexFile& dex_file, |
| dex::StringIndex string_index, |
| Handle<mirror::String> handle) { |
| jit_string_roots_.Overwrite(StringReference(&dex_file, string_index), |
| reinterpret_cast64<uint64_t>(handle.GetReference())); |
| return jit_string_patches_.GetOrCreate( |
| StringReference(&dex_file, string_index), |
| [this]() { return __ NewLiteral<uint32_t>(/* placeholder */ 0u); }); |
| } |
| |
| Literal* CodeGeneratorMIPS64::DeduplicateJitClassLiteral(const DexFile& dex_file, |
| dex::TypeIndex type_index, |
| Handle<mirror::Class> handle) { |
| jit_class_roots_.Overwrite(TypeReference(&dex_file, type_index), |
| reinterpret_cast64<uint64_t>(handle.GetReference())); |
| return jit_class_patches_.GetOrCreate( |
| TypeReference(&dex_file, type_index), |
| [this]() { return __ NewLiteral<uint32_t>(/* placeholder */ 0u); }); |
| } |
| |
| void CodeGeneratorMIPS64::PatchJitRootUse(uint8_t* code, |
| const uint8_t* roots_data, |
| const Literal* literal, |
| uint64_t index_in_table) const { |
| uint32_t literal_offset = GetAssembler().GetLabelLocation(literal->GetLabel()); |
| uintptr_t address = |
| reinterpret_cast<uintptr_t>(roots_data) + index_in_table * sizeof(GcRoot<mirror::Object>); |
| reinterpret_cast<uint32_t*>(code + literal_offset)[0] = dchecked_integral_cast<uint32_t>(address); |
| } |
| |
| void CodeGeneratorMIPS64::EmitJitRootPatches(uint8_t* code, const uint8_t* roots_data) { |
| for (const auto& entry : jit_string_patches_) { |
| const auto& it = jit_string_roots_.find(entry.first); |
| DCHECK(it != jit_string_roots_.end()); |
| PatchJitRootUse(code, roots_data, entry.second, it->second); |
| } |
| for (const auto& entry : jit_class_patches_) { |
| const auto& it = jit_class_roots_.find(entry.first); |
| DCHECK(it != jit_class_roots_.end()); |
| PatchJitRootUse(code, roots_data, entry.second, it->second); |
| } |
| } |
| |
| void CodeGeneratorMIPS64::SetupBlockedRegisters() const { |
| // ZERO, K0, K1, GP, SP, RA are always reserved and can't be allocated. |
| blocked_core_registers_[ZERO] = true; |
| blocked_core_registers_[K0] = true; |
| blocked_core_registers_[K1] = true; |
| blocked_core_registers_[GP] = true; |
| blocked_core_registers_[SP] = true; |
| blocked_core_registers_[RA] = true; |
| |
| // AT, TMP(T8) and TMP2(T3) are used as temporary/scratch |
| // registers (similar to how AT is used by MIPS assemblers). |
| blocked_core_registers_[AT] = true; |
| blocked_core_registers_[TMP] = true; |
| blocked_core_registers_[TMP2] = true; |
| blocked_fpu_registers_[FTMP] = true; |
| |
| // Reserve suspend and thread registers. |
| blocked_core_registers_[S0] = true; |
| blocked_core_registers_[TR] = true; |
| |
| // Reserve T9 for function calls |
| blocked_core_registers_[T9] = true; |
| |
| if (GetGraph()->IsDebuggable()) { |
| // Stubs do not save callee-save floating point registers. If the graph |
| // is debuggable, we need to deal with these registers differently. For |
| // now, just block them. |
| for (size_t i = 0; i < arraysize(kFpuCalleeSaves); ++i) { |
| blocked_fpu_registers_[kFpuCalleeSaves[i]] = true; |
| } |
| } |
| } |
| |
| size_t CodeGeneratorMIPS64::SaveCoreRegister(size_t stack_index, uint32_t reg_id) { |
| __ StoreToOffset(kStoreDoubleword, GpuRegister(reg_id), SP, stack_index); |
| return kMips64DoublewordSize; |
| } |
| |
| size_t CodeGeneratorMIPS64::RestoreCoreRegister(size_t stack_index, uint32_t reg_id) { |
| __ LoadFromOffset(kLoadDoubleword, GpuRegister(reg_id), SP, stack_index); |
| return kMips64DoublewordSize; |
| } |
| |
| size_t CodeGeneratorMIPS64::SaveFloatingPointRegister(size_t stack_index, uint32_t reg_id) { |
| __ StoreFpuToOffset(kStoreDoubleword, FpuRegister(reg_id), SP, stack_index); |
| return kMips64DoublewordSize; |
| } |
| |
| size_t CodeGeneratorMIPS64::RestoreFloatingPointRegister(size_t stack_index, uint32_t reg_id) { |
| __ LoadFpuFromOffset(kLoadDoubleword, FpuRegister(reg_id), SP, stack_index); |
| return kMips64DoublewordSize; |
| } |
| |
| void CodeGeneratorMIPS64::DumpCoreRegister(std::ostream& stream, int reg) const { |
| stream << GpuRegister(reg); |
| } |
| |
| void CodeGeneratorMIPS64::DumpFloatingPointRegister(std::ostream& stream, int reg) const { |
| stream << FpuRegister(reg); |
| } |
| |
| void CodeGeneratorMIPS64::InvokeRuntime(QuickEntrypointEnum entrypoint, |
| HInstruction* instruction, |
| uint32_t dex_pc, |
| SlowPathCode* slow_path) { |
| ValidateInvokeRuntime(entrypoint, instruction, slow_path); |
| __ LoadFromOffset(kLoadDoubleword, |
| T9, |
| TR, |
| GetThreadOffset<kMips64PointerSize>(entrypoint).Int32Value()); |
| __ Jalr(T9); |
| __ Nop(); |
| if (EntrypointRequiresStackMap(entrypoint)) { |
| RecordPcInfo(instruction, dex_pc, slow_path); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateClassInitializationCheck(SlowPathCodeMIPS64* slow_path, |
| GpuRegister class_reg) { |
| __ LoadFromOffset(kLoadWord, TMP, class_reg, mirror::Class::StatusOffset().Int32Value()); |
| __ LoadConst32(AT, mirror::Class::kStatusInitialized); |
| __ Bltc(TMP, AT, slow_path->GetEntryLabel()); |
| // TODO: barrier needed? |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateMemoryBarrier(MemBarrierKind kind ATTRIBUTE_UNUSED) { |
| __ Sync(0); // only stype 0 is supported |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateSuspendCheck(HSuspendCheck* instruction, |
| HBasicBlock* successor) { |
| SuspendCheckSlowPathMIPS64* slow_path = |
| new (GetGraph()->GetArena()) SuspendCheckSlowPathMIPS64(instruction, successor); |
| codegen_->AddSlowPath(slow_path); |
| |
| __ LoadFromOffset(kLoadUnsignedHalfword, |
| TMP, |
| TR, |
| Thread::ThreadFlagsOffset<kMips64PointerSize>().Int32Value()); |
| if (successor == nullptr) { |
| __ Bnezc(TMP, slow_path->GetEntryLabel()); |
| __ Bind(slow_path->GetReturnLabel()); |
| } else { |
| __ Beqzc(TMP, codegen_->GetLabelOf(successor)); |
| __ Bc(slow_path->GetEntryLabel()); |
| // slow_path will return to GetLabelOf(successor). |
| } |
| } |
| |
| InstructionCodeGeneratorMIPS64::InstructionCodeGeneratorMIPS64(HGraph* graph, |
| CodeGeneratorMIPS64* codegen) |
| : InstructionCodeGenerator(graph, codegen), |
| assembler_(codegen->GetAssembler()), |
| codegen_(codegen) {} |
| |
| void LocationsBuilderMIPS64::HandleBinaryOp(HBinaryOperation* instruction) { |
| DCHECK_EQ(instruction->InputCount(), 2U); |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instruction); |
| Primitive::Type type = instruction->GetResultType(); |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| HInstruction* right = instruction->InputAt(1); |
| bool can_use_imm = false; |
| if (right->IsConstant()) { |
| int64_t imm = CodeGenerator::GetInt64ValueOf(right->AsConstant()); |
| if (instruction->IsAnd() || instruction->IsOr() || instruction->IsXor()) { |
| can_use_imm = IsUint<16>(imm); |
| } else if (instruction->IsAdd()) { |
| can_use_imm = IsInt<16>(imm); |
| } else { |
| DCHECK(instruction->IsSub()); |
| can_use_imm = IsInt<16>(-imm); |
| } |
| } |
| if (can_use_imm) |
| locations->SetInAt(1, Location::ConstantLocation(right->AsConstant())); |
| else |
| 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 " << instruction->DebugName() << " type " << type; |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::HandleBinaryOp(HBinaryOperation* instruction) { |
| Primitive::Type type = instruction->GetType(); |
| LocationSummary* locations = instruction->GetLocations(); |
| |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: { |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister lhs = locations->InAt(0).AsRegister<GpuRegister>(); |
| Location rhs_location = locations->InAt(1); |
| |
| GpuRegister rhs_reg = ZERO; |
| int64_t rhs_imm = 0; |
| bool use_imm = rhs_location.IsConstant(); |
| if (use_imm) { |
| rhs_imm = CodeGenerator::GetInt64ValueOf(rhs_location.GetConstant()); |
| } else { |
| rhs_reg = rhs_location.AsRegister<GpuRegister>(); |
| } |
| |
| if (instruction->IsAnd()) { |
| if (use_imm) |
| __ Andi(dst, lhs, rhs_imm); |
| else |
| __ And(dst, lhs, rhs_reg); |
| } else if (instruction->IsOr()) { |
| if (use_imm) |
| __ Ori(dst, lhs, rhs_imm); |
| else |
| __ Or(dst, lhs, rhs_reg); |
| } else if (instruction->IsXor()) { |
| if (use_imm) |
| __ Xori(dst, lhs, rhs_imm); |
| else |
| __ Xor(dst, lhs, rhs_reg); |
| } else if (instruction->IsAdd()) { |
| if (type == Primitive::kPrimInt) { |
| if (use_imm) |
| __ Addiu(dst, lhs, rhs_imm); |
| else |
| __ Addu(dst, lhs, rhs_reg); |
| } else { |
| if (use_imm) |
| __ Daddiu(dst, lhs, rhs_imm); |
| else |
| __ Daddu(dst, lhs, rhs_reg); |
| } |
| } else { |
| DCHECK(instruction->IsSub()); |
| if (type == Primitive::kPrimInt) { |
| if (use_imm) |
| __ Addiu(dst, lhs, -rhs_imm); |
| else |
| __ Subu(dst, lhs, rhs_reg); |
| } else { |
| if (use_imm) |
| __ Daddiu(dst, lhs, -rhs_imm); |
| else |
| __ Dsubu(dst, lhs, rhs_reg); |
| } |
| } |
| break; |
| } |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| FpuRegister dst = locations->Out().AsFpuRegister<FpuRegister>(); |
| FpuRegister lhs = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| FpuRegister rhs = locations->InAt(1).AsFpuRegister<FpuRegister>(); |
| if (instruction->IsAdd()) { |
| if (type == Primitive::kPrimFloat) |
| __ AddS(dst, lhs, rhs); |
| else |
| __ AddD(dst, lhs, rhs); |
| } else if (instruction->IsSub()) { |
| if (type == Primitive::kPrimFloat) |
| __ SubS(dst, lhs, rhs); |
| else |
| __ SubD(dst, lhs, rhs); |
| } else { |
| LOG(FATAL) << "Unexpected floating-point binary operation"; |
| } |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected binary operation type " << type; |
| } |
| } |
| |
| void LocationsBuilderMIPS64::HandleShift(HBinaryOperation* instr) { |
| DCHECK(instr->IsShl() || instr->IsShr() || instr->IsUShr() || instr->IsRor()); |
| |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instr); |
| Primitive::Type type = instr->GetResultType(); |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(instr->InputAt(1))); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected shift type " << type; |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::HandleShift(HBinaryOperation* instr) { |
| DCHECK(instr->IsShl() || instr->IsShr() || instr->IsUShr() || instr->IsRor()); |
| LocationSummary* locations = instr->GetLocations(); |
| Primitive::Type type = instr->GetType(); |
| |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: { |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister lhs = locations->InAt(0).AsRegister<GpuRegister>(); |
| Location rhs_location = locations->InAt(1); |
| |
| GpuRegister rhs_reg = ZERO; |
| int64_t rhs_imm = 0; |
| bool use_imm = rhs_location.IsConstant(); |
| if (use_imm) { |
| rhs_imm = CodeGenerator::GetInt64ValueOf(rhs_location.GetConstant()); |
| } else { |
| rhs_reg = rhs_location.AsRegister<GpuRegister>(); |
| } |
| |
| if (use_imm) { |
| uint32_t shift_value = rhs_imm & |
| (type == Primitive::kPrimInt ? kMaxIntShiftDistance : kMaxLongShiftDistance); |
| |
| if (shift_value == 0) { |
| if (dst != lhs) { |
| __ Move(dst, lhs); |
| } |
| } else if (type == Primitive::kPrimInt) { |
| if (instr->IsShl()) { |
| __ Sll(dst, lhs, shift_value); |
| } else if (instr->IsShr()) { |
| __ Sra(dst, lhs, shift_value); |
| } else if (instr->IsUShr()) { |
| __ Srl(dst, lhs, shift_value); |
| } else { |
| __ Rotr(dst, lhs, shift_value); |
| } |
| } else { |
| if (shift_value < 32) { |
| if (instr->IsShl()) { |
| __ Dsll(dst, lhs, shift_value); |
| } else if (instr->IsShr()) { |
| __ Dsra(dst, lhs, shift_value); |
| } else if (instr->IsUShr()) { |
| __ Dsrl(dst, lhs, shift_value); |
| } else { |
| __ Drotr(dst, lhs, shift_value); |
| } |
| } else { |
| shift_value -= 32; |
| if (instr->IsShl()) { |
| __ Dsll32(dst, lhs, shift_value); |
| } else if (instr->IsShr()) { |
| __ Dsra32(dst, lhs, shift_value); |
| } else if (instr->IsUShr()) { |
| __ Dsrl32(dst, lhs, shift_value); |
| } else { |
| __ Drotr32(dst, lhs, shift_value); |
| } |
| } |
| } |
| } else { |
| if (type == Primitive::kPrimInt) { |
| if (instr->IsShl()) { |
| __ Sllv(dst, lhs, rhs_reg); |
| } else if (instr->IsShr()) { |
| __ Srav(dst, lhs, rhs_reg); |
| } else if (instr->IsUShr()) { |
| __ Srlv(dst, lhs, rhs_reg); |
| } else { |
| __ Rotrv(dst, lhs, rhs_reg); |
| } |
| } else { |
| if (instr->IsShl()) { |
| __ Dsllv(dst, lhs, rhs_reg); |
| } else if (instr->IsShr()) { |
| __ Dsrav(dst, lhs, rhs_reg); |
| } else if (instr->IsUShr()) { |
| __ Dsrlv(dst, lhs, rhs_reg); |
| } else { |
| __ Drotrv(dst, lhs, rhs_reg); |
| } |
| } |
| } |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected shift operation type " << type; |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitAdd(HAdd* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitAdd(HAdd* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void LocationsBuilderMIPS64::VisitAnd(HAnd* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitAnd(HAnd* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void LocationsBuilderMIPS64::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 InstructionCodeGeneratorMIPS64::VisitArrayGet(HArrayGet* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| GpuRegister obj = locations->InAt(0).AsRegister<GpuRegister>(); |
| Location index = locations->InAt(1); |
| uint32_t data_offset = CodeGenerator::GetArrayDataOffset(instruction); |
| |
| Primitive::Type type = instruction->GetType(); |
| const bool maybe_compressed_char_at = mirror::kUseStringCompression && |
| instruction->IsStringCharAt(); |
| switch (type) { |
| case Primitive::kPrimBoolean: { |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_1) + data_offset; |
| __ LoadFromOffset(kLoadUnsignedByte, out, obj, offset); |
| } else { |
| __ Daddu(TMP, obj, index.AsRegister<GpuRegister>()); |
| __ LoadFromOffset(kLoadUnsignedByte, out, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimByte: { |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_1) + data_offset; |
| __ LoadFromOffset(kLoadSignedByte, out, obj, offset); |
| } else { |
| __ Daddu(TMP, obj, index.AsRegister<GpuRegister>()); |
| __ LoadFromOffset(kLoadSignedByte, out, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimShort: { |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_2) + data_offset; |
| __ LoadFromOffset(kLoadSignedHalfword, out, obj, offset); |
| } else { |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_2); |
| __ Daddu(TMP, obj, TMP); |
| __ LoadFromOffset(kLoadSignedHalfword, out, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimChar: { |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| if (maybe_compressed_char_at) { |
| uint32_t count_offset = mirror::String::CountOffset().Uint32Value(); |
| __ LoadFromOffset(kLoadWord, TMP, obj, count_offset); |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| __ Dext(TMP, TMP, 0, 1); |
| static_assert(static_cast<uint32_t>(mirror::StringCompressionFlag::kCompressed) == 0u, |
| "Expecting 0=compressed, 1=uncompressed"); |
| } |
| if (index.IsConstant()) { |
| int32_t const_index = index.GetConstant()->AsIntConstant()->GetValue(); |
| if (maybe_compressed_char_at) { |
| Mips64Label uncompressed_load, done; |
| __ Bnezc(TMP, &uncompressed_load); |
| __ LoadFromOffset(kLoadUnsignedByte, |
| out, |
| obj, |
| data_offset + (const_index << TIMES_1)); |
| __ Bc(&done); |
| __ Bind(&uncompressed_load); |
| __ LoadFromOffset(kLoadUnsignedHalfword, |
| out, |
| obj, |
| data_offset + (const_index << TIMES_2)); |
| __ Bind(&done); |
| } else { |
| __ LoadFromOffset(kLoadUnsignedHalfword, |
| out, |
| obj, |
| data_offset + (const_index << TIMES_2)); |
| } |
| } else { |
| GpuRegister index_reg = index.AsRegister<GpuRegister>(); |
| if (maybe_compressed_char_at) { |
| Mips64Label uncompressed_load, done; |
| __ Bnezc(TMP, &uncompressed_load); |
| __ Daddu(TMP, obj, index_reg); |
| __ LoadFromOffset(kLoadUnsignedByte, out, TMP, data_offset); |
| __ Bc(&done); |
| __ Bind(&uncompressed_load); |
| __ Dsll(TMP, index_reg, TIMES_2); |
| __ Daddu(TMP, obj, TMP); |
| __ LoadFromOffset(kLoadUnsignedHalfword, out, TMP, data_offset); |
| __ Bind(&done); |
| } else { |
| __ Dsll(TMP, index_reg, TIMES_2); |
| __ Daddu(TMP, obj, TMP); |
| __ LoadFromOffset(kLoadUnsignedHalfword, out, TMP, data_offset); |
| } |
| } |
| break; |
| } |
| |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| DCHECK_EQ(sizeof(mirror::HeapReference<mirror::Object>), sizeof(int32_t)); |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| LoadOperandType load_type = (type == Primitive::kPrimNot) ? kLoadUnsignedWord : kLoadWord; |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_4) + data_offset; |
| __ LoadFromOffset(load_type, out, obj, offset); |
| } else { |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_4); |
| __ Daddu(TMP, obj, TMP); |
| __ LoadFromOffset(load_type, out, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_8) + data_offset; |
| __ LoadFromOffset(kLoadDoubleword, out, obj, offset); |
| } else { |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_8); |
| __ Daddu(TMP, obj, TMP); |
| __ LoadFromOffset(kLoadDoubleword, out, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| FpuRegister out = locations->Out().AsFpuRegister<FpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_4) + data_offset; |
| __ LoadFpuFromOffset(kLoadWord, out, obj, offset); |
| } else { |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_4); |
| __ Daddu(TMP, obj, TMP); |
| __ LoadFpuFromOffset(kLoadWord, out, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| FpuRegister out = locations->Out().AsFpuRegister<FpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_8) + data_offset; |
| __ LoadFpuFromOffset(kLoadDoubleword, out, obj, offset); |
| } else { |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_8); |
| __ Daddu(TMP, obj, TMP); |
| __ LoadFpuFromOffset(kLoadDoubleword, out, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unreachable type " << instruction->GetType(); |
| UNREACHABLE(); |
| } |
| if (!maybe_compressed_char_at) { |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitArrayLength(HArrayLength* instruction) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instruction); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitArrayLength(HArrayLength* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| uint32_t offset = CodeGenerator::GetArrayLengthOffset(instruction); |
| GpuRegister obj = locations->InAt(0).AsRegister<GpuRegister>(); |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| __ LoadFromOffset(kLoadWord, out, obj, offset); |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| // Mask out compression flag from String's array length. |
| if (mirror::kUseStringCompression && instruction->IsStringLength()) { |
| __ Srl(out, out, 1u); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitArraySet(HArraySet* instruction) { |
| bool needs_runtime_call = instruction->NeedsTypeCheck(); |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary( |
| instruction, |
| needs_runtime_call ? LocationSummary::kCallOnMainOnly : 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(instruction->InputAt(2)->GetType())) { |
| locations->SetInAt(2, Location::RequiresFpuRegister()); |
| } else { |
| locations->SetInAt(2, Location::RequiresRegister()); |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitArraySet(HArraySet* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| GpuRegister obj = locations->InAt(0).AsRegister<GpuRegister>(); |
| 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(); |
| GpuRegister value = locations->InAt(2).AsRegister<GpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_1) + data_offset; |
| __ StoreToOffset(kStoreByte, value, obj, offset); |
| } else { |
| __ Daddu(TMP, obj, index.AsRegister<GpuRegister>()); |
| __ StoreToOffset(kStoreByte, value, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimShort: |
| case Primitive::kPrimChar: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(uint16_t)).Uint32Value(); |
| GpuRegister value = locations->InAt(2).AsRegister<GpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_2) + data_offset; |
| __ StoreToOffset(kStoreHalfword, value, obj, offset); |
| } else { |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_2); |
| __ Daddu(TMP, obj, TMP); |
| __ StoreToOffset(kStoreHalfword, value, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimInt: |
| case Primitive::kPrimNot: { |
| if (!needs_runtime_call) { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(int32_t)).Uint32Value(); |
| GpuRegister value = locations->InAt(2).AsRegister<GpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_4) + data_offset; |
| __ StoreToOffset(kStoreWord, value, obj, offset); |
| } else { |
| DCHECK(index.IsRegister()) << index; |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_4); |
| __ Daddu(TMP, obj, TMP); |
| __ StoreToOffset(kStoreWord, value, TMP, data_offset); |
| } |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| if (needs_write_barrier) { |
| DCHECK_EQ(value_type, Primitive::kPrimNot); |
| codegen_->MarkGCCard(obj, value, instruction->GetValueCanBeNull()); |
| } |
| } else { |
| DCHECK_EQ(value_type, Primitive::kPrimNot); |
| codegen_->InvokeRuntime(kQuickAputObject, instruction, instruction->GetDexPc()); |
| CheckEntrypointTypes<kQuickAputObject, void, mirror::Array*, int32_t, mirror::Object*>(); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimLong: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(int64_t)).Uint32Value(); |
| GpuRegister value = locations->InAt(2).AsRegister<GpuRegister>(); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_8) + data_offset; |
| __ StoreToOffset(kStoreDoubleword, value, obj, offset); |
| } else { |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_8); |
| __ Daddu(TMP, obj, TMP); |
| __ StoreToOffset(kStoreDoubleword, value, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(float)).Uint32Value(); |
| FpuRegister value = locations->InAt(2).AsFpuRegister<FpuRegister>(); |
| DCHECK(locations->InAt(2).IsFpuRegister()); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_4) + data_offset; |
| __ StoreFpuToOffset(kStoreWord, value, obj, offset); |
| } else { |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_4); |
| __ Daddu(TMP, obj, TMP); |
| __ StoreFpuToOffset(kStoreWord, value, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| uint32_t data_offset = mirror::Array::DataOffset(sizeof(double)).Uint32Value(); |
| FpuRegister value = locations->InAt(2).AsFpuRegister<FpuRegister>(); |
| DCHECK(locations->InAt(2).IsFpuRegister()); |
| if (index.IsConstant()) { |
| size_t offset = |
| (index.GetConstant()->AsIntConstant()->GetValue() << TIMES_8) + data_offset; |
| __ StoreFpuToOffset(kStoreDoubleword, value, obj, offset); |
| } else { |
| __ Dsll(TMP, index.AsRegister<GpuRegister>(), TIMES_8); |
| __ Daddu(TMP, obj, TMP); |
| __ StoreFpuToOffset(kStoreDoubleword, value, TMP, data_offset); |
| } |
| break; |
| } |
| |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unreachable type " << instruction->GetType(); |
| UNREACHABLE(); |
| } |
| |
| // Ints and objects are handled in the switch. |
| if (value_type != Primitive::kPrimInt && value_type != Primitive::kPrimNot) { |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitBoundsCheck(HBoundsCheck* instruction) { |
| RegisterSet caller_saves = RegisterSet::Empty(); |
| InvokeRuntimeCallingConvention calling_convention; |
| caller_saves.Add(Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| caller_saves.Add(Location::RegisterLocation(calling_convention.GetRegisterAt(1))); |
| LocationSummary* locations = codegen_->CreateThrowingSlowPathLocations(instruction, caller_saves); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitBoundsCheck(HBoundsCheck* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| BoundsCheckSlowPathMIPS64* slow_path = |
| new (GetGraph()->GetArena()) BoundsCheckSlowPathMIPS64(instruction); |
| codegen_->AddSlowPath(slow_path); |
| |
| GpuRegister index = locations->InAt(0).AsRegister<GpuRegister>(); |
| GpuRegister length = locations->InAt(1).AsRegister<GpuRegister>(); |
| |
| // length is limited by the maximum positive signed 32-bit integer. |
| // Unsigned comparison of length and index checks for index < 0 |
| // and for length <= index simultaneously. |
| __ Bgeuc(index, length, slow_path->GetEntryLabel()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitCheckCast(HCheckCast* instruction) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary( |
| instruction, |
| LocationSummary::kCallOnSlowPath); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| // Note that TypeCheckSlowPathMIPS64 uses this register too. |
| locations->AddTemp(Location::RequiresRegister()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitCheckCast(HCheckCast* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| GpuRegister obj = locations->InAt(0).AsRegister<GpuRegister>(); |
| GpuRegister cls = locations->InAt(1).AsRegister<GpuRegister>(); |
| GpuRegister obj_cls = locations->GetTemp(0).AsRegister<GpuRegister>(); |
| |
| SlowPathCodeMIPS64* slow_path = |
| new (GetGraph()->GetArena()) TypeCheckSlowPathMIPS64(instruction); |
| codegen_->AddSlowPath(slow_path); |
| |
| // TODO: avoid this check if we know obj is not null. |
| __ Beqzc(obj, slow_path->GetExitLabel()); |
| // Compare the class of `obj` with `cls`. |
| __ LoadFromOffset(kLoadUnsignedWord, obj_cls, obj, mirror::Object::ClassOffset().Int32Value()); |
| __ Bnec(obj_cls, cls, slow_path->GetEntryLabel()); |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| void LocationsBuilderMIPS64::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 InstructionCodeGeneratorMIPS64::VisitClinitCheck(HClinitCheck* check) { |
| // We assume the class is not null. |
| SlowPathCodeMIPS64* slow_path = new (GetGraph()->GetArena()) LoadClassSlowPathMIPS64( |
| check->GetLoadClass(), |
| check, |
| check->GetDexPc(), |
| true); |
| codegen_->AddSlowPath(slow_path); |
| GenerateClassInitializationCheck(slow_path, |
| check->GetLocations()->InAt(0).AsRegister<GpuRegister>()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitCompare(HCompare* compare) { |
| Primitive::Type in_type = compare->InputAt(0)->GetType(); |
| |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(compare); |
| |
| switch (in_type) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(compare->InputAt(1))); |
| 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::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type for compare operation " << in_type; |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitCompare(HCompare* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| GpuRegister res = locations->Out().AsRegister<GpuRegister>(); |
| Primitive::Type in_type = instruction->InputAt(0)->GetType(); |
| |
| // 0 if: left == right |
| // 1 if: left > right |
| // -1 if: left < right |
| switch (in_type) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| case Primitive::kPrimShort: |
| case Primitive::kPrimChar: |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: { |
| GpuRegister lhs = locations->InAt(0).AsRegister<GpuRegister>(); |
| Location rhs_location = locations->InAt(1); |
| bool use_imm = rhs_location.IsConstant(); |
| GpuRegister rhs = ZERO; |
| if (use_imm) { |
| if (in_type == Primitive::kPrimLong) { |
| int64_t value = CodeGenerator::GetInt64ValueOf(rhs_location.GetConstant()->AsConstant()); |
| if (value != 0) { |
| rhs = AT; |
| __ LoadConst64(rhs, value); |
| } |
| } else { |
| int32_t value = CodeGenerator::GetInt32ValueOf(rhs_location.GetConstant()->AsConstant()); |
| if (value != 0) { |
| rhs = AT; |
| __ LoadConst32(rhs, value); |
| } |
| } |
| } else { |
| rhs = rhs_location.AsRegister<GpuRegister>(); |
| } |
| __ Slt(TMP, lhs, rhs); |
| __ Slt(res, rhs, lhs); |
| __ Subu(res, res, TMP); |
| break; |
| } |
| |
| case Primitive::kPrimFloat: { |
| FpuRegister lhs = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| FpuRegister rhs = locations->InAt(1).AsFpuRegister<FpuRegister>(); |
| Mips64Label done; |
| __ CmpEqS(FTMP, lhs, rhs); |
| __ LoadConst32(res, 0); |
| __ Bc1nez(FTMP, &done); |
| if (instruction->IsGtBias()) { |
| __ CmpLtS(FTMP, lhs, rhs); |
| __ LoadConst32(res, -1); |
| __ Bc1nez(FTMP, &done); |
| __ LoadConst32(res, 1); |
| } else { |
| __ CmpLtS(FTMP, rhs, lhs); |
| __ LoadConst32(res, 1); |
| __ Bc1nez(FTMP, &done); |
| __ LoadConst32(res, -1); |
| } |
| __ Bind(&done); |
| break; |
| } |
| |
| case Primitive::kPrimDouble: { |
| FpuRegister lhs = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| FpuRegister rhs = locations->InAt(1).AsFpuRegister<FpuRegister>(); |
| Mips64Label done; |
| __ CmpEqD(FTMP, lhs, rhs); |
| __ LoadConst32(res, 0); |
| __ Bc1nez(FTMP, &done); |
| if (instruction->IsGtBias()) { |
| __ CmpLtD(FTMP, lhs, rhs); |
| __ LoadConst32(res, -1); |
| __ Bc1nez(FTMP, &done); |
| __ LoadConst32(res, 1); |
| } else { |
| __ CmpLtD(FTMP, rhs, lhs); |
| __ LoadConst32(res, 1); |
| __ Bc1nez(FTMP, &done); |
| __ LoadConst32(res, -1); |
| } |
| __ Bind(&done); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unimplemented compare type " << in_type; |
| } |
| } |
| |
| void LocationsBuilderMIPS64::HandleCondition(HCondition* instruction) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instruction); |
| switch (instruction->InputAt(0)->GetType()) { |
| default: |
| case Primitive::kPrimLong: |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(instruction->InputAt(1))); |
| break; |
| |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| break; |
| } |
| if (!instruction->IsEmittedAtUseSite()) { |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::HandleCondition(HCondition* instruction) { |
| if (instruction->IsEmittedAtUseSite()) { |
| return; |
| } |
| |
| Primitive::Type type = instruction->InputAt(0)->GetType(); |
| LocationSummary* locations = instruction->GetLocations(); |
| switch (type) { |
| default: |
| // Integer case. |
| GenerateIntLongCompare(instruction->GetCondition(), /* is64bit */ false, locations); |
| return; |
| case Primitive::kPrimLong: |
| GenerateIntLongCompare(instruction->GetCondition(), /* is64bit */ true, locations); |
| return; |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: |
| GenerateFpCompare(instruction->GetCondition(), instruction->IsGtBias(), type, locations); |
| return; |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::DivRemOneOrMinusOne(HBinaryOperation* instruction) { |
| DCHECK(instruction->IsDiv() || instruction->IsRem()); |
| Primitive::Type type = instruction->GetResultType(); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Location second = locations->InAt(1); |
| DCHECK(second.IsConstant()); |
| |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister dividend = locations->InAt(0).AsRegister<GpuRegister>(); |
| int64_t imm = Int64FromConstant(second.GetConstant()); |
| DCHECK(imm == 1 || imm == -1); |
| |
| if (instruction->IsRem()) { |
| __ Move(out, ZERO); |
| } else { |
| if (imm == -1) { |
| if (type == Primitive::kPrimInt) { |
| __ Subu(out, ZERO, dividend); |
| } else { |
| DCHECK_EQ(type, Primitive::kPrimLong); |
| __ Dsubu(out, ZERO, dividend); |
| } |
| } else if (out != dividend) { |
| __ Move(out, dividend); |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::DivRemByPowerOfTwo(HBinaryOperation* instruction) { |
| DCHECK(instruction->IsDiv() || instruction->IsRem()); |
| Primitive::Type type = instruction->GetResultType(); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Location second = locations->InAt(1); |
| DCHECK(second.IsConstant()); |
| |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister dividend = locations->InAt(0).AsRegister<GpuRegister>(); |
| int64_t imm = Int64FromConstant(second.GetConstant()); |
| uint64_t abs_imm = static_cast<uint64_t>(AbsOrMin(imm)); |
| int ctz_imm = CTZ(abs_imm); |
| |
| if (instruction->IsDiv()) { |
| if (type == Primitive::kPrimInt) { |
| if (ctz_imm == 1) { |
| // Fast path for division by +/-2, which is very common. |
| __ Srl(TMP, dividend, 31); |
| } else { |
| __ Sra(TMP, dividend, 31); |
| __ Srl(TMP, TMP, 32 - ctz_imm); |
| } |
| __ Addu(out, dividend, TMP); |
| __ Sra(out, out, ctz_imm); |
| if (imm < 0) { |
| __ Subu(out, ZERO, out); |
| } |
| } else { |
| DCHECK_EQ(type, Primitive::kPrimLong); |
| if (ctz_imm == 1) { |
| // Fast path for division by +/-2, which is very common. |
| __ Dsrl32(TMP, dividend, 31); |
| } else { |
| __ Dsra32(TMP, dividend, 31); |
| if (ctz_imm > 32) { |
| __ Dsrl(TMP, TMP, 64 - ctz_imm); |
| } else { |
| __ Dsrl32(TMP, TMP, 32 - ctz_imm); |
| } |
| } |
| __ Daddu(out, dividend, TMP); |
| if (ctz_imm < 32) { |
| __ Dsra(out, out, ctz_imm); |
| } else { |
| __ Dsra32(out, out, ctz_imm - 32); |
| } |
| if (imm < 0) { |
| __ Dsubu(out, ZERO, out); |
| } |
| } |
| } else { |
| if (type == Primitive::kPrimInt) { |
| if (ctz_imm == 1) { |
| // Fast path for modulo +/-2, which is very common. |
| __ Sra(TMP, dividend, 31); |
| __ Subu(out, dividend, TMP); |
| __ Andi(out, out, 1); |
| __ Addu(out, out, TMP); |
| } else { |
| __ Sra(TMP, dividend, 31); |
| __ Srl(TMP, TMP, 32 - ctz_imm); |
| __ Addu(out, dividend, TMP); |
| if (IsUint<16>(abs_imm - 1)) { |
| __ Andi(out, out, abs_imm - 1); |
| } else { |
| __ Sll(out, out, 32 - ctz_imm); |
| __ Srl(out, out, 32 - ctz_imm); |
| } |
| __ Subu(out, out, TMP); |
| } |
| } else { |
| DCHECK_EQ(type, Primitive::kPrimLong); |
| if (ctz_imm == 1) { |
| // Fast path for modulo +/-2, which is very common. |
| __ Dsra32(TMP, dividend, 31); |
| __ Dsubu(out, dividend, TMP); |
| __ Andi(out, out, 1); |
| __ Daddu(out, out, TMP); |
| } else { |
| __ Dsra32(TMP, dividend, 31); |
| if (ctz_imm > 32) { |
| __ Dsrl(TMP, TMP, 64 - ctz_imm); |
| } else { |
| __ Dsrl32(TMP, TMP, 32 - ctz_imm); |
| } |
| __ Daddu(out, dividend, TMP); |
| if (IsUint<16>(abs_imm - 1)) { |
| __ Andi(out, out, abs_imm - 1); |
| } else { |
| if (ctz_imm > 32) { |
| __ Dsll(out, out, 64 - ctz_imm); |
| __ Dsrl(out, out, 64 - ctz_imm); |
| } else { |
| __ Dsll32(out, out, 32 - ctz_imm); |
| __ Dsrl32(out, out, 32 - ctz_imm); |
| } |
| } |
| __ Dsubu(out, out, TMP); |
| } |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateDivRemWithAnyConstant(HBinaryOperation* instruction) { |
| DCHECK(instruction->IsDiv() || instruction->IsRem()); |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| Location second = locations->InAt(1); |
| DCHECK(second.IsConstant()); |
| |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister dividend = locations->InAt(0).AsRegister<GpuRegister>(); |
| int64_t imm = Int64FromConstant(second.GetConstant()); |
| |
| Primitive::Type type = instruction->GetResultType(); |
| DCHECK(type == Primitive::kPrimInt || type == Primitive::kPrimLong) << type; |
| |
| int64_t magic; |
| int shift; |
| CalculateMagicAndShiftForDivRem(imm, |
| (type == Primitive::kPrimLong), |
| &magic, |
| &shift); |
| |
| if (type == Primitive::kPrimInt) { |
| __ LoadConst32(TMP, magic); |
| __ MuhR6(TMP, dividend, TMP); |
| |
| if (imm > 0 && magic < 0) { |
| __ Addu(TMP, TMP, dividend); |
| } else if (imm < 0 && magic > 0) { |
| __ Subu(TMP, TMP, dividend); |
| } |
| |
| if (shift != 0) { |
| __ Sra(TMP, TMP, shift); |
| } |
| |
| if (instruction->IsDiv()) { |
| __ Sra(out, TMP, 31); |
| __ Subu(out, TMP, out); |
| } else { |
| __ Sra(AT, TMP, 31); |
| __ Subu(AT, TMP, AT); |
| __ LoadConst32(TMP, imm); |
| __ MulR6(TMP, AT, TMP); |
| __ Subu(out, dividend, TMP); |
| } |
| } else { |
| __ LoadConst64(TMP, magic); |
| __ Dmuh(TMP, dividend, TMP); |
| |
| if (imm > 0 && magic < 0) { |
| __ Daddu(TMP, TMP, dividend); |
| } else if (imm < 0 && magic > 0) { |
| __ Dsubu(TMP, TMP, dividend); |
| } |
| |
| if (shift >= 32) { |
| __ Dsra32(TMP, TMP, shift - 32); |
| } else if (shift > 0) { |
| __ Dsra(TMP, TMP, shift); |
| } |
| |
| if (instruction->IsDiv()) { |
| __ Dsra32(out, TMP, 31); |
| __ Dsubu(out, TMP, out); |
| } else { |
| __ Dsra32(AT, TMP, 31); |
| __ Dsubu(AT, TMP, AT); |
| __ LoadConst64(TMP, imm); |
| __ Dmul(TMP, AT, TMP); |
| __ Dsubu(out, dividend, TMP); |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateDivRemIntegral(HBinaryOperation* instruction) { |
| DCHECK(instruction->IsDiv() || instruction->IsRem()); |
| Primitive::Type type = instruction->GetResultType(); |
| DCHECK(type == Primitive::kPrimInt || type == Primitive::kPrimLong) << type; |
| |
| LocationSummary* locations = instruction->GetLocations(); |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| Location second = locations->InAt(1); |
| |
| if (second.IsConstant()) { |
| int64_t imm = Int64FromConstant(second.GetConstant()); |
| 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(AbsOrMin(imm))) { |
| DivRemByPowerOfTwo(instruction); |
| } else { |
| DCHECK(imm <= -2 || imm >= 2); |
| GenerateDivRemWithAnyConstant(instruction); |
| } |
| } else { |
| GpuRegister dividend = locations->InAt(0).AsRegister<GpuRegister>(); |
| GpuRegister divisor = second.AsRegister<GpuRegister>(); |
| if (instruction->IsDiv()) { |
| if (type == Primitive::kPrimInt) |
| __ DivR6(out, dividend, divisor); |
| else |
| __ Ddiv(out, dividend, divisor); |
| } else { |
| if (type == Primitive::kPrimInt) |
| __ ModR6(out, dividend, divisor); |
| else |
| __ Dmod(out, dividend, divisor); |
| } |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitDiv(HDiv* div) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(div, LocationSummary::kNoCall); |
| switch (div->GetResultType()) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(div->InputAt(1))); |
| 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 div type " << div->GetResultType(); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitDiv(HDiv* instruction) { |
| Primitive::Type type = instruction->GetType(); |
| LocationSummary* locations = instruction->GetLocations(); |
| |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: |
| GenerateDivRemIntegral(instruction); |
| break; |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| FpuRegister dst = locations->Out().AsFpuRegister<FpuRegister>(); |
| FpuRegister lhs = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| FpuRegister rhs = locations->InAt(1).AsFpuRegister<FpuRegister>(); |
| if (type == Primitive::kPrimFloat) |
| __ DivS(dst, lhs, rhs); |
| else |
| __ DivD(dst, lhs, rhs); |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected div type " << type; |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitDivZeroCheck(HDivZeroCheck* instruction) { |
| LocationSummary* locations = codegen_->CreateThrowingSlowPathLocations(instruction); |
| locations->SetInAt(0, Location::RegisterOrConstant(instruction->InputAt(0))); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitDivZeroCheck(HDivZeroCheck* instruction) { |
| SlowPathCodeMIPS64* slow_path = |
| new (GetGraph()->GetArena()) DivZeroCheckSlowPathMIPS64(instruction); |
| codegen_->AddSlowPath(slow_path); |
| Location value = instruction->GetLocations()->InAt(0); |
| |
| Primitive::Type type = instruction->GetType(); |
| |
| if (!Primitive::IsIntegralType(type)) { |
| LOG(FATAL) << "Unexpected type " << type << " for DivZeroCheck."; |
| return; |
| } |
| |
| if (value.IsConstant()) { |
| int64_t divisor = codegen_->GetInt64ValueOf(value.GetConstant()->AsConstant()); |
| if (divisor == 0) { |
| __ Bc(slow_path->GetEntryLabel()); |
| } else { |
| // A division by a non-null constant is valid. We don't need to perform |
| // any check, so simply fall through. |
| } |
| } else { |
| __ Beqzc(value.AsRegister<GpuRegister>(), slow_path->GetEntryLabel()); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitDoubleConstant(HDoubleConstant* constant) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(constant, LocationSummary::kNoCall); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitDoubleConstant(HDoubleConstant* cst ATTRIBUTE_UNUSED) { |
| // Will be generated at use site. |
| } |
| |
| void LocationsBuilderMIPS64::VisitExit(HExit* exit) { |
| exit->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitExit(HExit* exit ATTRIBUTE_UNUSED) { |
| } |
| |
| void LocationsBuilderMIPS64::VisitFloatConstant(HFloatConstant* constant) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(constant, LocationSummary::kNoCall); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitFloatConstant(HFloatConstant* constant ATTRIBUTE_UNUSED) { |
| // Will be generated at use site. |
| } |
| |
| void InstructionCodeGeneratorMIPS64::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(block, successor)) { |
| __ Bc(codegen_->GetLabelOf(successor)); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitGoto(HGoto* got) { |
| got->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitGoto(HGoto* got) { |
| HandleGoto(got, got->GetSuccessor()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitTryBoundary(HTryBoundary* try_boundary) { |
| try_boundary->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitTryBoundary(HTryBoundary* try_boundary) { |
| HBasicBlock* successor = try_boundary->GetNormalFlowSuccessor(); |
| if (!successor->IsExitBlock()) { |
| HandleGoto(try_boundary, successor); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateIntLongCompare(IfCondition cond, |
| bool is64bit, |
| LocationSummary* locations) { |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister lhs = locations->InAt(0).AsRegister<GpuRegister>(); |
| Location rhs_location = locations->InAt(1); |
| GpuRegister rhs_reg = ZERO; |
| int64_t rhs_imm = 0; |
| bool use_imm = rhs_location.IsConstant(); |
| if (use_imm) { |
| if (is64bit) { |
| rhs_imm = CodeGenerator::GetInt64ValueOf(rhs_location.GetConstant()); |
| } else { |
| rhs_imm = CodeGenerator::GetInt32ValueOf(rhs_location.GetConstant()); |
| } |
| } else { |
| rhs_reg = rhs_location.AsRegister<GpuRegister>(); |
| } |
| int64_t rhs_imm_plus_one = rhs_imm + UINT64_C(1); |
| |
| switch (cond) { |
| case kCondEQ: |
| case kCondNE: |
| if (use_imm && IsInt<16>(-rhs_imm)) { |
| if (rhs_imm == 0) { |
| if (cond == kCondEQ) { |
| __ Sltiu(dst, lhs, 1); |
| } else { |
| __ Sltu(dst, ZERO, lhs); |
| } |
| } else { |
| if (is64bit) { |
| __ Daddiu(dst, lhs, -rhs_imm); |
| } else { |
| __ Addiu(dst, lhs, -rhs_imm); |
| } |
| if (cond == kCondEQ) { |
| __ Sltiu(dst, dst, 1); |
| } else { |
| __ Sltu(dst, ZERO, dst); |
| } |
| } |
| } else { |
| if (use_imm && IsUint<16>(rhs_imm)) { |
| __ Xori(dst, lhs, rhs_imm); |
| } else { |
| if (use_imm) { |
| rhs_reg = TMP; |
| __ LoadConst64(rhs_reg, rhs_imm); |
| } |
| __ Xor(dst, lhs, rhs_reg); |
| } |
| if (cond == kCondEQ) { |
| __ Sltiu(dst, dst, 1); |
| } else { |
| __ Sltu(dst, ZERO, dst); |
| } |
| } |
| break; |
| |
| case kCondLT: |
| case kCondGE: |
| if (use_imm && IsInt<16>(rhs_imm)) { |
| __ Slti(dst, lhs, rhs_imm); |
| } else { |
| if (use_imm) { |
| rhs_reg = TMP; |
| __ LoadConst64(rhs_reg, rhs_imm); |
| } |
| __ Slt(dst, lhs, rhs_reg); |
| } |
| if (cond == kCondGE) { |
| // Simulate lhs >= rhs via !(lhs < rhs) since there's |
| // only the slt instruction but no sge. |
| __ Xori(dst, dst, 1); |
| } |
| break; |
| |
| case kCondLE: |
| case kCondGT: |
| if (use_imm && IsInt<16>(rhs_imm_plus_one)) { |
| // Simulate lhs <= rhs via lhs < rhs + 1. |
| __ Slti(dst, lhs, rhs_imm_plus_one); |
| if (cond == kCondGT) { |
| // Simulate lhs > rhs via !(lhs <= rhs) since there's |
| // only the slti instruction but no sgti. |
| __ Xori(dst, dst, 1); |
| } |
| } else { |
| if (use_imm) { |
| rhs_reg = TMP; |
| __ LoadConst64(rhs_reg, rhs_imm); |
| } |
| __ Slt(dst, rhs_reg, lhs); |
| if (cond == kCondLE) { |
| // Simulate lhs <= rhs via !(rhs < lhs) since there's |
| // only the slt instruction but no sle. |
| __ Xori(dst, dst, 1); |
| } |
| } |
| break; |
| |
| case kCondB: |
| case kCondAE: |
| if (use_imm && IsInt<16>(rhs_imm)) { |
| // Sltiu sign-extends its 16-bit immediate operand before |
| // the comparison and thus lets us compare directly with |
| // unsigned values in the ranges [0, 0x7fff] and |
| // [0x[ffffffff]ffff8000, 0x[ffffffff]ffffffff]. |
| __ Sltiu(dst, lhs, rhs_imm); |
| } else { |
| if (use_imm) { |
| rhs_reg = TMP; |
| __ LoadConst64(rhs_reg, rhs_imm); |
| } |
| __ Sltu(dst, lhs, rhs_reg); |
| } |
| if (cond == kCondAE) { |
| // Simulate lhs >= rhs via !(lhs < rhs) since there's |
| // only the sltu instruction but no sgeu. |
| __ Xori(dst, dst, 1); |
| } |
| break; |
| |
| case kCondBE: |
| case kCondA: |
| if (use_imm && (rhs_imm_plus_one != 0) && IsInt<16>(rhs_imm_plus_one)) { |
| // Simulate lhs <= rhs via lhs < rhs + 1. |
| // Note that this only works if rhs + 1 does not overflow |
| // to 0, hence the check above. |
| // Sltiu sign-extends its 16-bit immediate operand before |
| // the comparison and thus lets us compare directly with |
| // unsigned values in the ranges [0, 0x7fff] and |
| // [0x[ffffffff]ffff8000, 0x[ffffffff]ffffffff]. |
| __ Sltiu(dst, lhs, rhs_imm_plus_one); |
| if (cond == kCondA) { |
| // Simulate lhs > rhs via !(lhs <= rhs) since there's |
| // only the sltiu instruction but no sgtiu. |
| __ Xori(dst, dst, 1); |
| } |
| } else { |
| if (use_imm) { |
| rhs_reg = TMP; |
| __ LoadConst64(rhs_reg, rhs_imm); |
| } |
| __ Sltu(dst, rhs_reg, lhs); |
| if (cond == kCondBE) { |
| // Simulate lhs <= rhs via !(rhs < lhs) since there's |
| // only the sltu instruction but no sleu. |
| __ Xori(dst, dst, 1); |
| } |
| } |
| break; |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateIntLongCompareAndBranch(IfCondition cond, |
| bool is64bit, |
| LocationSummary* locations, |
| Mips64Label* label) { |
| GpuRegister lhs = locations->InAt(0).AsRegister<GpuRegister>(); |
| Location rhs_location = locations->InAt(1); |
| GpuRegister rhs_reg = ZERO; |
| int64_t rhs_imm = 0; |
| bool use_imm = rhs_location.IsConstant(); |
| if (use_imm) { |
| if (is64bit) { |
| rhs_imm = CodeGenerator::GetInt64ValueOf(rhs_location.GetConstant()); |
| } else { |
| rhs_imm = CodeGenerator::GetInt32ValueOf(rhs_location.GetConstant()); |
| } |
| } else { |
| rhs_reg = rhs_location.AsRegister<GpuRegister>(); |
| } |
| |
| if (use_imm && rhs_imm == 0) { |
| switch (cond) { |
| case kCondEQ: |
| case kCondBE: // <= 0 if zero |
| __ Beqzc(lhs, label); |
| break; |
| case kCondNE: |
| case kCondA: // > 0 if non-zero |
| __ Bnezc(lhs, label); |
| break; |
| case kCondLT: |
| __ Bltzc(lhs, label); |
| break; |
| case kCondGE: |
| __ Bgezc(lhs, label); |
| break; |
| case kCondLE: |
| __ Blezc(lhs, label); |
| break; |
| case kCondGT: |
| __ Bgtzc(lhs, label); |
| break; |
| case kCondB: // always false |
| break; |
| case kCondAE: // always true |
| __ Bc(label); |
| break; |
| } |
| } else { |
| if (use_imm) { |
| rhs_reg = TMP; |
| __ LoadConst64(rhs_reg, rhs_imm); |
| } |
| switch (cond) { |
| case kCondEQ: |
| __ Beqc(lhs, rhs_reg, label); |
| break; |
| case kCondNE: |
| __ Bnec(lhs, rhs_reg, label); |
| break; |
| case kCondLT: |
| __ Bltc(lhs, rhs_reg, label); |
| break; |
| case kCondGE: |
| __ Bgec(lhs, rhs_reg, label); |
| break; |
| case kCondLE: |
| __ Bgec(rhs_reg, lhs, label); |
| break; |
| case kCondGT: |
| __ Bltc(rhs_reg, lhs, label); |
| break; |
| case kCondB: |
| __ Bltuc(lhs, rhs_reg, label); |
| break; |
| case kCondAE: |
| __ Bgeuc(lhs, rhs_reg, label); |
| break; |
| case kCondBE: |
| __ Bgeuc(rhs_reg, lhs, label); |
| break; |
| case kCondA: |
| __ Bltuc(rhs_reg, lhs, label); |
| break; |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateFpCompare(IfCondition cond, |
| bool gt_bias, |
| Primitive::Type type, |
| LocationSummary* locations) { |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| FpuRegister lhs = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| FpuRegister rhs = locations->InAt(1).AsFpuRegister<FpuRegister>(); |
| if (type == Primitive::kPrimFloat) { |
| switch (cond) { |
| case kCondEQ: |
| __ CmpEqS(FTMP, lhs, rhs); |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| case kCondNE: |
| __ CmpEqS(FTMP, lhs, rhs); |
| __ Mfc1(dst, FTMP); |
| __ Addiu(dst, dst, 1); |
| break; |
| case kCondLT: |
| if (gt_bias) { |
| __ CmpLtS(FTMP, lhs, rhs); |
| } else { |
| __ CmpUltS(FTMP, lhs, rhs); |
| } |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| case kCondLE: |
| if (gt_bias) { |
| __ CmpLeS(FTMP, lhs, rhs); |
| } else { |
| __ CmpUleS(FTMP, lhs, rhs); |
| } |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| case kCondGT: |
| if (gt_bias) { |
| __ CmpUltS(FTMP, rhs, lhs); |
| } else { |
| __ CmpLtS(FTMP, rhs, lhs); |
| } |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| case kCondGE: |
| if (gt_bias) { |
| __ CmpUleS(FTMP, rhs, lhs); |
| } else { |
| __ CmpLeS(FTMP, rhs, lhs); |
| } |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| default: |
| LOG(FATAL) << "Unexpected non-floating-point condition " << cond; |
| UNREACHABLE(); |
| } |
| } else { |
| DCHECK_EQ(type, Primitive::kPrimDouble); |
| switch (cond) { |
| case kCondEQ: |
| __ CmpEqD(FTMP, lhs, rhs); |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| case kCondNE: |
| __ CmpEqD(FTMP, lhs, rhs); |
| __ Mfc1(dst, FTMP); |
| __ Addiu(dst, dst, 1); |
| break; |
| case kCondLT: |
| if (gt_bias) { |
| __ CmpLtD(FTMP, lhs, rhs); |
| } else { |
| __ CmpUltD(FTMP, lhs, rhs); |
| } |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| case kCondLE: |
| if (gt_bias) { |
| __ CmpLeD(FTMP, lhs, rhs); |
| } else { |
| __ CmpUleD(FTMP, lhs, rhs); |
| } |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| case kCondGT: |
| if (gt_bias) { |
| __ CmpUltD(FTMP, rhs, lhs); |
| } else { |
| __ CmpLtD(FTMP, rhs, lhs); |
| } |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| case kCondGE: |
| if (gt_bias) { |
| __ CmpUleD(FTMP, rhs, lhs); |
| } else { |
| __ CmpLeD(FTMP, rhs, lhs); |
| } |
| __ Mfc1(dst, FTMP); |
| __ Andi(dst, dst, 1); |
| break; |
| default: |
| LOG(FATAL) << "Unexpected non-floating-point condition " << cond; |
| UNREACHABLE(); |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateFpCompareAndBranch(IfCondition cond, |
| bool gt_bias, |
| Primitive::Type type, |
| LocationSummary* locations, |
| Mips64Label* label) { |
| FpuRegister lhs = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| FpuRegister rhs = locations->InAt(1).AsFpuRegister<FpuRegister>(); |
| if (type == Primitive::kPrimFloat) { |
| switch (cond) { |
| case kCondEQ: |
| __ CmpEqS(FTMP, lhs, rhs); |
| __ Bc1nez(FTMP, label); |
| break; |
| case kCondNE: |
| __ CmpEqS(FTMP, lhs, rhs); |
| __ Bc1eqz(FTMP, label); |
| break; |
| case kCondLT: |
| if (gt_bias) { |
| __ CmpLtS(FTMP, lhs, rhs); |
| } else { |
| __ CmpUltS(FTMP, lhs, rhs); |
| } |
| __ Bc1nez(FTMP, label); |
| break; |
| case kCondLE: |
| if (gt_bias) { |
| __ CmpLeS(FTMP, lhs, rhs); |
| } else { |
| __ CmpUleS(FTMP, lhs, rhs); |
| } |
| __ Bc1nez(FTMP, label); |
| break; |
| case kCondGT: |
| if (gt_bias) { |
| __ CmpUltS(FTMP, rhs, lhs); |
| } else { |
| __ CmpLtS(FTMP, rhs, lhs); |
| } |
| __ Bc1nez(FTMP, label); |
| break; |
| case kCondGE: |
| if (gt_bias) { |
| __ CmpUleS(FTMP, rhs, lhs); |
| } else { |
| __ CmpLeS(FTMP, rhs, lhs); |
| } |
| __ Bc1nez(FTMP, label); |
| break; |
| default: |
| LOG(FATAL) << "Unexpected non-floating-point condition"; |
| } |
| } else { |
| DCHECK_EQ(type, Primitive::kPrimDouble); |
| switch (cond) { |
| case kCondEQ: |
| __ CmpEqD(FTMP, lhs, rhs); |
| __ Bc1nez(FTMP, label); |
| break; |
| case kCondNE: |
| __ CmpEqD(FTMP, lhs, rhs); |
| __ Bc1eqz(FTMP, label); |
| break; |
| case kCondLT: |
| if (gt_bias) { |
| __ CmpLtD(FTMP, lhs, rhs); |
| } else { |
| __ CmpUltD(FTMP, lhs, rhs); |
| } |
| __ Bc1nez(FTMP, label); |
| break; |
| case kCondLE: |
| if (gt_bias) { |
| __ CmpLeD(FTMP, lhs, rhs); |
| } else { |
| __ CmpUleD(FTMP, lhs, rhs); |
| } |
| __ Bc1nez(FTMP, label); |
| break; |
| case kCondGT: |
| if (gt_bias) { |
| __ CmpUltD(FTMP, rhs, lhs); |
| } else { |
| __ CmpLtD(FTMP, rhs, lhs); |
| } |
| __ Bc1nez(FTMP, label); |
| break; |
| case kCondGE: |
| if (gt_bias) { |
| __ CmpUleD(FTMP, rhs, lhs); |
| } else { |
| __ CmpLeD(FTMP, rhs, lhs); |
| } |
| __ Bc1nez(FTMP, label); |
| break; |
| default: |
| LOG(FATAL) << "Unexpected non-floating-point condition"; |
| } |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateTestAndBranch(HInstruction* instruction, |
| size_t condition_input_index, |
| Mips64Label* true_target, |
| Mips64Label* false_target) { |
| HInstruction* cond = instruction->InputAt(condition_input_index); |
| |
| if (true_target == nullptr && false_target == nullptr) { |
| // Nothing to do. The code always falls through. |
| return; |
| } else if (cond->IsIntConstant()) { |
| // Constant condition, statically compared against "true" (integer value 1). |
| if (cond->AsIntConstant()->IsTrue()) { |
| if (true_target != nullptr) { |
| __ Bc(true_target); |
| } |
| } else { |
| DCHECK(cond->AsIntConstant()->IsFalse()) << cond->AsIntConstant()->GetValue(); |
| if (false_target != nullptr) { |
| __ Bc(false_target); |
| } |
| } |
| return; |
| } |
| |
| // The following code generates these patterns: |
| // (1) true_target == nullptr && false_target != nullptr |
| // - opposite condition true => branch to false_target |
| // (2) true_target != nullptr && false_target == nullptr |
| // - condition true => branch to true_target |
| // (3) true_target != nullptr && false_target != nullptr |
| // - condition true => branch to true_target |
| // - branch to false_target |
| if (IsBooleanValueOrMaterializedCondition(cond)) { |
| // The condition instruction has been materialized, compare the output to 0. |
| Location cond_val = instruction->GetLocations()->InAt(condition_input_index); |
| DCHECK(cond_val.IsRegister()); |
| if (true_target == nullptr) { |
| __ Beqzc(cond_val.AsRegister<GpuRegister>(), false_target); |
| } else { |
| __ Bnezc(cond_val.AsRegister<GpuRegister>(), true_target); |
| } |
| } else { |
| // The condition instruction has not been materialized, use its inputs as |
| // the comparison and its condition as the branch condition. |
| HCondition* condition = cond->AsCondition(); |
| Primitive::Type type = condition->InputAt(0)->GetType(); |
| LocationSummary* locations = cond->GetLocations(); |
| IfCondition if_cond = condition->GetCondition(); |
| Mips64Label* branch_target = true_target; |
| |
| if (true_target == nullptr) { |
| if_cond = condition->GetOppositeCondition(); |
| branch_target = false_target; |
| } |
| |
| switch (type) { |
| default: |
| GenerateIntLongCompareAndBranch(if_cond, /* is64bit */ false, locations, branch_target); |
| break; |
| case Primitive::kPrimLong: |
| GenerateIntLongCompareAndBranch(if_cond, /* is64bit */ true, locations, branch_target); |
| break; |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: |
| GenerateFpCompareAndBranch(if_cond, condition->IsGtBias(), type, locations, branch_target); |
| break; |
| } |
| } |
| |
| // If neither branch falls through (case 3), the conditional branch to `true_target` |
| // was already emitted (case 2) and we need to emit a jump to `false_target`. |
| if (true_target != nullptr && false_target != nullptr) { |
| __ Bc(false_target); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitIf(HIf* if_instr) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(if_instr); |
| if (IsBooleanValueOrMaterializedCondition(if_instr->InputAt(0))) { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitIf(HIf* if_instr) { |
| HBasicBlock* true_successor = if_instr->IfTrueSuccessor(); |
| HBasicBlock* false_successor = if_instr->IfFalseSuccessor(); |
| Mips64Label* true_target = codegen_->GoesToNextBlock(if_instr->GetBlock(), true_successor) ? |
| nullptr : codegen_->GetLabelOf(true_successor); |
| Mips64Label* false_target = codegen_->GoesToNextBlock(if_instr->GetBlock(), false_successor) ? |
| nullptr : codegen_->GetLabelOf(false_successor); |
| GenerateTestAndBranch(if_instr, /* condition_input_index */ 0, true_target, false_target); |
| } |
| |
| void LocationsBuilderMIPS64::VisitDeoptimize(HDeoptimize* deoptimize) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) |
| LocationSummary(deoptimize, LocationSummary::kCallOnSlowPath); |
| locations->SetCustomSlowPathCallerSaves(RegisterSet::Empty()); // No caller-save registers. |
| if (IsBooleanValueOrMaterializedCondition(deoptimize->InputAt(0))) { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitDeoptimize(HDeoptimize* deoptimize) { |
| SlowPathCodeMIPS64* slow_path = |
| deopt_slow_paths_.NewSlowPath<DeoptimizationSlowPathMIPS64>(deoptimize); |
| GenerateTestAndBranch(deoptimize, |
| /* condition_input_index */ 0, |
| slow_path->GetEntryLabel(), |
| /* false_target */ nullptr); |
| } |
| |
| void LocationsBuilderMIPS64::VisitShouldDeoptimizeFlag(HShouldDeoptimizeFlag* flag) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) |
| LocationSummary(flag, LocationSummary::kNoCall); |
| locations->SetOut(Location::RequiresRegister()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitShouldDeoptimizeFlag(HShouldDeoptimizeFlag* flag) { |
| __ LoadFromOffset(kLoadWord, |
| flag->GetLocations()->Out().AsRegister<GpuRegister>(), |
| SP, |
| codegen_->GetStackOffsetOfShouldDeoptimizeFlag()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitSelect(HSelect* select) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(select); |
| if (Primitive::IsFloatingPointType(select->GetType())) { |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| } else { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| } |
| if (IsBooleanValueOrMaterializedCondition(select->GetCondition())) { |
| locations->SetInAt(2, Location::RequiresRegister()); |
| } |
| locations->SetOut(Location::SameAsFirstInput()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitSelect(HSelect* select) { |
| LocationSummary* locations = select->GetLocations(); |
| Mips64Label false_target; |
| GenerateTestAndBranch(select, |
| /* condition_input_index */ 2, |
| /* true_target */ nullptr, |
| &false_target); |
| codegen_->MoveLocation(locations->Out(), locations->InAt(1), select->GetType()); |
| __ Bind(&false_target); |
| } |
| |
| void LocationsBuilderMIPS64::VisitNativeDebugInfo(HNativeDebugInfo* info) { |
| new (GetGraph()->GetArena()) LocationSummary(info); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitNativeDebugInfo(HNativeDebugInfo*) { |
| // MaybeRecordNativeDebugInfo is already called implicitly in CodeGenerator::Compile. |
| } |
| |
| void CodeGeneratorMIPS64::GenerateNop() { |
| __ Nop(); |
| } |
| |
| void LocationsBuilderMIPS64::HandleFieldGet(HInstruction* instruction, |
| const FieldInfo& field_info ATTRIBUTE_UNUSED) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| if (Primitive::IsFloatingPointType(instruction->GetType())) { |
| locations->SetOut(Location::RequiresFpuRegister()); |
| } else { |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::HandleFieldGet(HInstruction* instruction, |
| const FieldInfo& field_info) { |
| Primitive::Type type = field_info.GetFieldType(); |
| LocationSummary* locations = instruction->GetLocations(); |
| GpuRegister obj = locations->InAt(0).AsRegister<GpuRegister>(); |
| LoadOperandType load_type = kLoadUnsignedByte; |
| switch (type) { |
| case Primitive::kPrimBoolean: |
| load_type = kLoadUnsignedByte; |
| break; |
| case Primitive::kPrimByte: |
| load_type = kLoadSignedByte; |
| break; |
| case Primitive::kPrimShort: |
| load_type = kLoadSignedHalfword; |
| break; |
| case Primitive::kPrimChar: |
| load_type = kLoadUnsignedHalfword; |
| break; |
| case Primitive::kPrimInt: |
| case Primitive::kPrimFloat: |
| load_type = kLoadWord; |
| break; |
| case Primitive::kPrimLong: |
| case Primitive::kPrimDouble: |
| load_type = kLoadDoubleword; |
| break; |
| case Primitive::kPrimNot: |
| load_type = kLoadUnsignedWord; |
| break; |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unreachable type " << type; |
| UNREACHABLE(); |
| } |
| if (!Primitive::IsFloatingPointType(type)) { |
| DCHECK(locations->Out().IsRegister()); |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| __ LoadFromOffset(load_type, dst, obj, field_info.GetFieldOffset().Uint32Value()); |
| } else { |
| DCHECK(locations->Out().IsFpuRegister()); |
| FpuRegister dst = locations->Out().AsFpuRegister<FpuRegister>(); |
| __ LoadFpuFromOffset(load_type, dst, obj, field_info.GetFieldOffset().Uint32Value()); |
| } |
| |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| // TODO: memory barrier? |
| } |
| |
| void LocationsBuilderMIPS64::HandleFieldSet(HInstruction* instruction, |
| const FieldInfo& field_info ATTRIBUTE_UNUSED) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| if (Primitive::IsFloatingPointType(instruction->InputAt(1)->GetType())) { |
| locations->SetInAt(1, Location::RequiresFpuRegister()); |
| } else { |
| locations->SetInAt(1, Location::RequiresRegister()); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::HandleFieldSet(HInstruction* instruction, |
| const FieldInfo& field_info, |
| bool value_can_be_null) { |
| Primitive::Type type = field_info.GetFieldType(); |
| LocationSummary* locations = instruction->GetLocations(); |
| GpuRegister obj = locations->InAt(0).AsRegister<GpuRegister>(); |
| StoreOperandType store_type = kStoreByte; |
| switch (type) { |
| case Primitive::kPrimBoolean: |
| case Primitive::kPrimByte: |
| store_type = kStoreByte; |
| break; |
| case Primitive::kPrimShort: |
| case Primitive::kPrimChar: |
| store_type = kStoreHalfword; |
| break; |
| case Primitive::kPrimInt: |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimNot: |
| store_type = kStoreWord; |
| break; |
| case Primitive::kPrimLong: |
| case Primitive::kPrimDouble: |
| store_type = kStoreDoubleword; |
| break; |
| case Primitive::kPrimVoid: |
| LOG(FATAL) << "Unreachable type " << type; |
| UNREACHABLE(); |
| } |
| if (!Primitive::IsFloatingPointType(type)) { |
| DCHECK(locations->InAt(1).IsRegister()); |
| GpuRegister src = locations->InAt(1).AsRegister<GpuRegister>(); |
| __ StoreToOffset(store_type, src, obj, field_info.GetFieldOffset().Uint32Value()); |
| } else { |
| DCHECK(locations->InAt(1).IsFpuRegister()); |
| FpuRegister src = locations->InAt(1).AsFpuRegister<FpuRegister>(); |
| __ StoreFpuToOffset(store_type, src, obj, field_info.GetFieldOffset().Uint32Value()); |
| } |
| |
| codegen_->MaybeRecordImplicitNullCheck(instruction); |
| // TODO: memory barriers? |
| if (CodeGenerator::StoreNeedsWriteBarrier(type, instruction->InputAt(1))) { |
| DCHECK(locations->InAt(1).IsRegister()); |
| GpuRegister src = locations->InAt(1).AsRegister<GpuRegister>(); |
| codegen_->MarkGCCard(obj, src, value_can_be_null); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitInstanceFieldGet(HInstanceFieldGet* instruction) { |
| HandleFieldGet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitInstanceFieldGet(HInstanceFieldGet* instruction) { |
| HandleFieldGet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitInstanceFieldSet(HInstanceFieldSet* instruction) { |
| HandleFieldSet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitInstanceFieldSet(HInstanceFieldSet* instruction) { |
| HandleFieldSet(instruction, instruction->GetFieldInfo(), instruction->GetValueCanBeNull()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenerateGcRootFieldLoad( |
| HInstruction* instruction ATTRIBUTE_UNUSED, |
| Location root, |
| GpuRegister obj, |
| uint32_t offset) { |
| GpuRegister root_reg = root.AsRegister<GpuRegister>(); |
| if (kEmitCompilerReadBarrier) { |
| UNIMPLEMENTED(FATAL) << "for read barrier"; |
| } else { |
| // Plain GC root load with no read barrier. |
| // /* GcRoot<mirror::Object> */ root = *(obj + offset) |
| __ LoadFromOffset(kLoadUnsignedWord, root_reg, obj, offset); |
| // Note that GC roots are not affected by heap poisoning, thus we |
| // do not have to unpoison `root_reg` here. |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitInstanceOf(HInstanceOf* instruction) { |
| LocationSummary::CallKind call_kind = |
| instruction->IsExactCheck() ? LocationSummary::kNoCall : LocationSummary::kCallOnSlowPath; |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instruction, call_kind); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RequiresRegister()); |
| // The output does overlap inputs. |
| // Note that TypeCheckSlowPathMIPS64 uses this register too. |
| locations->SetOut(Location::RequiresRegister(), Location::kOutputOverlap); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitInstanceOf(HInstanceOf* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| GpuRegister obj = locations->InAt(0).AsRegister<GpuRegister>(); |
| GpuRegister cls = locations->InAt(1).AsRegister<GpuRegister>(); |
| GpuRegister out = locations->Out().AsRegister<GpuRegister>(); |
| |
| Mips64Label done; |
| |
| // Return 0 if `obj` is null. |
| // TODO: Avoid this check if we know `obj` is not null. |
| __ Move(out, ZERO); |
| __ Beqzc(obj, &done); |
| |
| // Compare the class of `obj` with `cls`. |
| __ LoadFromOffset(kLoadUnsignedWord, out, obj, mirror::Object::ClassOffset().Int32Value()); |
| if (instruction->IsExactCheck()) { |
| // Classes must be equal for the instanceof to succeed. |
| __ Xor(out, out, cls); |
| __ Sltiu(out, out, 1); |
| } else { |
| // If the classes are not equal, we go into a slow path. |
| DCHECK(locations->OnlyCallsOnSlowPath()); |
| SlowPathCodeMIPS64* slow_path = |
| new (GetGraph()->GetArena()) TypeCheckSlowPathMIPS64(instruction); |
| codegen_->AddSlowPath(slow_path); |
| __ Bnec(out, cls, slow_path->GetEntryLabel()); |
| __ LoadConst32(out, 1); |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| |
| __ Bind(&done); |
| } |
| |
| void LocationsBuilderMIPS64::VisitIntConstant(HIntConstant* constant) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(constant); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitIntConstant(HIntConstant* constant ATTRIBUTE_UNUSED) { |
| // Will be generated at use site. |
| } |
| |
| void LocationsBuilderMIPS64::VisitNullConstant(HNullConstant* constant) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(constant); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitNullConstant(HNullConstant* constant ATTRIBUTE_UNUSED) { |
| // Will be generated at use site. |
| } |
| |
| void LocationsBuilderMIPS64::VisitInvokeUnresolved(HInvokeUnresolved* invoke) { |
| // The trampoline uses the same calling convention as dex calling conventions, |
| // except instead of loading arg0/r0 with the target Method*, arg0/r0 will contain |
| // the method_idx. |
| HandleInvoke(invoke); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitInvokeUnresolved(HInvokeUnresolved* invoke) { |
| codegen_->GenerateInvokeUnresolvedRuntimeCall(invoke); |
| } |
| |
| void LocationsBuilderMIPS64::HandleInvoke(HInvoke* invoke) { |
| InvokeDexCallingConventionVisitorMIPS64 calling_convention_visitor; |
| CodeGenerator::CreateCommonInvokeLocationSummary(invoke, &calling_convention_visitor); |
| } |
| |
| void LocationsBuilderMIPS64::VisitInvokeInterface(HInvokeInterface* invoke) { |
| HandleInvoke(invoke); |
| // The register T0 is required to be used for the hidden argument in |
| // art_quick_imt_conflict_trampoline, so add the hidden argument. |
| invoke->GetLocations()->AddTemp(Location::RegisterLocation(T0)); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitInvokeInterface(HInvokeInterface* invoke) { |
| // TODO: b/18116999, our IMTs can miss an IncompatibleClassChangeError. |
| GpuRegister temp = invoke->GetLocations()->GetTemp(0).AsRegister<GpuRegister>(); |
| Location receiver = invoke->GetLocations()->InAt(0); |
| uint32_t class_offset = mirror::Object::ClassOffset().Int32Value(); |
| Offset entry_point = ArtMethod::EntryPointFromQuickCompiledCodeOffset(kMips64PointerSize); |
| |
| // Set the hidden argument. |
| __ LoadConst32(invoke->GetLocations()->GetTemp(1).AsRegister<GpuRegister>(), |
| invoke->GetDexMethodIndex()); |
| |
| // temp = object->GetClass(); |
| if (receiver.IsStackSlot()) { |
| __ LoadFromOffset(kLoadUnsignedWord, temp, SP, receiver.GetStackIndex()); |
| __ LoadFromOffset(kLoadUnsignedWord, temp, temp, class_offset); |
| } else { |
| __ LoadFromOffset(kLoadUnsignedWord, temp, receiver.AsRegister<GpuRegister>(), class_offset); |
| } |
| codegen_->MaybeRecordImplicitNullCheck(invoke); |
| __ LoadFromOffset(kLoadDoubleword, temp, temp, |
| mirror::Class::ImtPtrOffset(kMips64PointerSize).Uint32Value()); |
| uint32_t method_offset = static_cast<uint32_t>(ImTable::OffsetOfElement( |
| invoke->GetImtIndex(), kMips64PointerSize)); |
| // temp = temp->GetImtEntryAt(method_offset); |
| __ LoadFromOffset(kLoadDoubleword, temp, temp, method_offset); |
| // T9 = temp->GetEntryPoint(); |
| __ LoadFromOffset(kLoadDoubleword, T9, temp, entry_point.Int32Value()); |
| // T9(); |
| __ Jalr(T9); |
| __ Nop(); |
| DCHECK(!codegen_->IsLeafMethod()); |
| codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitInvokeVirtual(HInvokeVirtual* invoke) { |
| IntrinsicLocationsBuilderMIPS64 intrinsic(codegen_); |
| if (intrinsic.TryDispatch(invoke)) { |
| return; |
| } |
| |
| HandleInvoke(invoke); |
| } |
| |
| void LocationsBuilderMIPS64::VisitInvokeStaticOrDirect(HInvokeStaticOrDirect* invoke) { |
| // Explicit clinit checks triggered by static invokes must have been pruned by |
| // art::PrepareForRegisterAllocation. |
| DCHECK(!invoke->IsStaticWithExplicitClinitCheck()); |
| |
| IntrinsicLocationsBuilderMIPS64 intrinsic(codegen_); |
| if (intrinsic.TryDispatch(invoke)) { |
| return; |
| } |
| |
| HandleInvoke(invoke); |
| } |
| |
| void LocationsBuilderMIPS64::VisitInvokePolymorphic(HInvokePolymorphic* invoke) { |
| HandleInvoke(invoke); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitInvokePolymorphic(HInvokePolymorphic* invoke) { |
| codegen_->GenerateInvokePolymorphicCall(invoke); |
| } |
| |
| static bool TryGenerateIntrinsicCode(HInvoke* invoke, CodeGeneratorMIPS64* codegen) { |
| if (invoke->GetLocations()->Intrinsified()) { |
| IntrinsicCodeGeneratorMIPS64 intrinsic(codegen); |
| intrinsic.Dispatch(invoke); |
| return true; |
| } |
| return false; |
| } |
| |
| HLoadString::LoadKind CodeGeneratorMIPS64::GetSupportedLoadStringKind( |
| HLoadString::LoadKind desired_string_load_kind) { |
| if (kEmitCompilerReadBarrier) { |
| UNIMPLEMENTED(FATAL) << "for read barrier"; |
| } |
| bool fallback_load = false; |
| switch (desired_string_load_kind) { |
| case HLoadString::LoadKind::kBootImageLinkTimeAddress: |
| DCHECK(!GetCompilerOptions().GetCompilePic()); |
| break; |
| case HLoadString::LoadKind::kBootImageLinkTimePcRelative: |
| DCHECK(GetCompilerOptions().GetCompilePic()); |
| break; |
| case HLoadString::LoadKind::kBootImageAddress: |
| break; |
| case HLoadString::LoadKind::kBssEntry: |
| DCHECK(!Runtime::Current()->UseJitCompilation()); |
| break; |
| case HLoadString::LoadKind::kDexCacheViaMethod: |
| break; |
| case HLoadString::LoadKind::kJitTableAddress: |
| DCHECK(Runtime::Current()->UseJitCompilation()); |
| break; |
| } |
| if (fallback_load) { |
| desired_string_load_kind = HLoadString::LoadKind::kDexCacheViaMethod; |
| } |
| return desired_string_load_kind; |
| } |
| |
| HLoadClass::LoadKind CodeGeneratorMIPS64::GetSupportedLoadClassKind( |
| HLoadClass::LoadKind desired_class_load_kind) { |
| if (kEmitCompilerReadBarrier) { |
| UNIMPLEMENTED(FATAL) << "for read barrier"; |
| } |
| bool fallback_load = false; |
| switch (desired_class_load_kind) { |
| case HLoadClass::LoadKind::kInvalid: |
| LOG(FATAL) << "UNREACHABLE"; |
| UNREACHABLE(); |
| case HLoadClass::LoadKind::kReferrersClass: |
| break; |
| case HLoadClass::LoadKind::kBootImageLinkTimeAddress: |
| DCHECK(!GetCompilerOptions().GetCompilePic()); |
| break; |
| case HLoadClass::LoadKind::kBootImageLinkTimePcRelative: |
| DCHECK(GetCompilerOptions().GetCompilePic()); |
| break; |
| case HLoadClass::LoadKind::kBootImageAddress: |
| break; |
| case HLoadClass::LoadKind::kBssEntry: |
| DCHECK(!Runtime::Current()->UseJitCompilation()); |
| break; |
| case HLoadClass::LoadKind::kJitTableAddress: |
| DCHECK(Runtime::Current()->UseJitCompilation()); |
| break; |
| case HLoadClass::LoadKind::kDexCacheViaMethod: |
| break; |
| } |
| if (fallback_load) { |
| desired_class_load_kind = HLoadClass::LoadKind::kDexCacheViaMethod; |
| } |
| return desired_class_load_kind; |
| } |
| |
| HInvokeStaticOrDirect::DispatchInfo CodeGeneratorMIPS64::GetSupportedInvokeStaticOrDirectDispatch( |
| const HInvokeStaticOrDirect::DispatchInfo& desired_dispatch_info, |
| HInvokeStaticOrDirect* invoke ATTRIBUTE_UNUSED) { |
| // On MIPS64 we support all dispatch types. |
| return desired_dispatch_info; |
| } |
| |
| void CodeGeneratorMIPS64::GenerateStaticOrDirectCall(HInvokeStaticOrDirect* invoke, Location temp) { |
| // All registers are assumed to be correctly set up per the calling convention. |
| Location callee_method = temp; // For all kinds except kRecursive, callee will be in temp. |
| HInvokeStaticOrDirect::MethodLoadKind method_load_kind = invoke->GetMethodLoadKind(); |
| HInvokeStaticOrDirect::CodePtrLocation code_ptr_location = invoke->GetCodePtrLocation(); |
| |
| switch (method_load_kind) { |
| case HInvokeStaticOrDirect::MethodLoadKind::kStringInit: { |
| // temp = thread->string_init_entrypoint |
| uint32_t offset = |
| GetThreadOffset<kMips64PointerSize>(invoke->GetStringInitEntryPoint()).Int32Value(); |
| __ LoadFromOffset(kLoadDoubleword, |
| temp.AsRegister<GpuRegister>(), |
| TR, |
| offset); |
| break; |
| } |
| case HInvokeStaticOrDirect::MethodLoadKind::kRecursive: |
| callee_method = invoke->GetLocations()->InAt(invoke->GetSpecialInputIndex()); |
| break; |
| case HInvokeStaticOrDirect::MethodLoadKind::kDirectAddress: |
| __ LoadLiteral(temp.AsRegister<GpuRegister>(), |
| kLoadDoubleword, |
| DeduplicateUint64Literal(invoke->GetMethodAddress())); |
| break; |
| case HInvokeStaticOrDirect::MethodLoadKind::kDexCachePcRelative: { |
| uint32_t offset = invoke->GetDexCacheArrayOffset(); |
| CodeGeneratorMIPS64::PcRelativePatchInfo* info = |
| NewPcRelativeDexCacheArrayPatch(invoke->GetDexFileForPcRelativeDexCache(), offset); |
| EmitPcRelativeAddressPlaceholderHigh(info, AT); |
| __ Ld(temp.AsRegister<GpuRegister>(), AT, /* placeholder */ 0x5678); |
| break; |
| } |
| case HInvokeStaticOrDirect::MethodLoadKind::kDexCacheViaMethod: { |
| Location current_method = invoke->GetLocations()->InAt(invoke->GetSpecialInputIndex()); |
| GpuRegister reg = temp.AsRegister<GpuRegister>(); |
| GpuRegister method_reg; |
| if (current_method.IsRegister()) { |
| method_reg = current_method.AsRegister<GpuRegister>(); |
| } else { |
| // TODO: use the appropriate DCHECK() here if possible. |
| // DCHECK(invoke->GetLocations()->Intrinsified()); |
| DCHECK(!current_method.IsValid()); |
| method_reg = reg; |
| __ Ld(reg, SP, kCurrentMethodStackOffset); |
| } |
| |
| // temp = temp->dex_cache_resolved_methods_; |
| __ LoadFromOffset(kLoadDoubleword, |
| reg, |
| method_reg, |
| ArtMethod::DexCacheResolvedMethodsOffset(kMips64PointerSize).Int32Value()); |
| // temp = temp[index_in_cache]; |
| // Note: Don't use invoke->GetTargetMethod() as it may point to a different dex file. |
| uint32_t index_in_cache = invoke->GetDexMethodIndex(); |
| __ LoadFromOffset(kLoadDoubleword, |
| reg, |
| reg, |
| CodeGenerator::GetCachePointerOffset(index_in_cache)); |
| break; |
| } |
| } |
| |
| switch (code_ptr_location) { |
| case HInvokeStaticOrDirect::CodePtrLocation::kCallSelf: |
| __ Balc(&frame_entry_label_); |
| break; |
| case HInvokeStaticOrDirect::CodePtrLocation::kCallArtMethod: |
| // T9 = callee_method->entry_point_from_quick_compiled_code_; |
| __ LoadFromOffset(kLoadDoubleword, |
| T9, |
| callee_method.AsRegister<GpuRegister>(), |
| ArtMethod::EntryPointFromQuickCompiledCodeOffset( |
| kMips64PointerSize).Int32Value()); |
| // T9() |
| __ Jalr(T9); |
| __ Nop(); |
| break; |
| } |
| DCHECK(!IsLeafMethod()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitInvokeStaticOrDirect(HInvokeStaticOrDirect* invoke) { |
| // Explicit clinit checks triggered by static invokes must have been pruned by |
| // art::PrepareForRegisterAllocation. |
| DCHECK(!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 CodeGeneratorMIPS64::GenerateVirtualCall(HInvokeVirtual* invoke, Location temp_location) { |
| // Use the calling convention instead of the location of the receiver, as |
| // intrinsics may have put the receiver in a different register. In the intrinsics |
| // slow path, the arguments have been moved to the right place, so here we are |
| // guaranteed that the receiver is the first register of the calling convention. |
| InvokeDexCallingConvention calling_convention; |
| GpuRegister receiver = calling_convention.GetRegisterAt(0); |
| |
| GpuRegister temp = temp_location.AsRegister<GpuRegister>(); |
| size_t method_offset = mirror::Class::EmbeddedVTableEntryOffset( |
| invoke->GetVTableIndex(), kMips64PointerSize).SizeValue(); |
| uint32_t class_offset = mirror::Object::ClassOffset().Int32Value(); |
| Offset entry_point = ArtMethod::EntryPointFromQuickCompiledCodeOffset(kMips64PointerSize); |
| |
| // temp = object->GetClass(); |
| __ LoadFromOffset(kLoadUnsignedWord, temp, receiver, class_offset); |
| MaybeRecordImplicitNullCheck(invoke); |
| // temp = temp->GetMethodAt(method_offset); |
| __ LoadFromOffset(kLoadDoubleword, temp, temp, method_offset); |
| // T9 = temp->GetEntryPoint(); |
| __ LoadFromOffset(kLoadDoubleword, T9, temp, entry_point.Int32Value()); |
| // T9(); |
| __ Jalr(T9); |
| __ Nop(); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitInvokeVirtual(HInvokeVirtual* invoke) { |
| if (TryGenerateIntrinsicCode(invoke, codegen_)) { |
| return; |
| } |
| |
| codegen_->GenerateVirtualCall(invoke, invoke->GetLocations()->GetTemp(0)); |
| DCHECK(!codegen_->IsLeafMethod()); |
| codegen_->RecordPcInfo(invoke, invoke->GetDexPc()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitLoadClass(HLoadClass* cls) { |
| HLoadClass::LoadKind load_kind = cls->GetLoadKind(); |
| if (load_kind == HLoadClass::LoadKind::kDexCacheViaMethod) { |
| InvokeRuntimeCallingConvention calling_convention; |
| CodeGenerator::CreateLoadClassRuntimeCallLocationSummary( |
| cls, |
| Location::RegisterLocation(calling_convention.GetRegisterAt(0)), |
| calling_convention.GetReturnLocation(Primitive::kPrimNot)); |
| return; |
| } |
| DCHECK(!cls->NeedsAccessCheck()); |
| |
| LocationSummary::CallKind call_kind = (cls->NeedsEnvironment() || kEmitCompilerReadBarrier) |
| ? LocationSummary::kCallOnSlowPath |
| : LocationSummary::kNoCall; |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(cls, call_kind); |
| if (load_kind == HLoadClass::LoadKind::kReferrersClass) { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| } |
| locations->SetOut(Location::RequiresRegister()); |
| } |
| |
| // NO_THREAD_SAFETY_ANALYSIS as we manipulate handles whose internal object we know does not |
| // move. |
| void InstructionCodeGeneratorMIPS64::VisitLoadClass(HLoadClass* cls) NO_THREAD_SAFETY_ANALYSIS { |
| HLoadClass::LoadKind load_kind = cls->GetLoadKind(); |
| if (load_kind == HLoadClass::LoadKind::kDexCacheViaMethod) { |
| codegen_->GenerateLoadClassRuntimeCall(cls); |
| return; |
| } |
| DCHECK(!cls->NeedsAccessCheck()); |
| |
| LocationSummary* locations = cls->GetLocations(); |
| Location out_loc = locations->Out(); |
| GpuRegister out = out_loc.AsRegister<GpuRegister>(); |
| GpuRegister current_method_reg = ZERO; |
| if (load_kind == HLoadClass::LoadKind::kReferrersClass || |
| load_kind == HLoadClass::LoadKind::kDexCacheViaMethod) { |
| current_method_reg = locations->InAt(0).AsRegister<GpuRegister>(); |
| } |
| |
| bool generate_null_check = false; |
| switch (load_kind) { |
| case HLoadClass::LoadKind::kReferrersClass: |
| DCHECK(!cls->CanCallRuntime()); |
| DCHECK(!cls->MustGenerateClinitCheck()); |
| // /* GcRoot<mirror::Class> */ out = current_method->declaring_class_ |
| GenerateGcRootFieldLoad(cls, |
| out_loc, |
| current_method_reg, |
| ArtMethod::DeclaringClassOffset().Int32Value()); |
| break; |
| case HLoadClass::LoadKind::kBootImageLinkTimeAddress: |
| DCHECK(codegen_->GetCompilerOptions().IsBootImage()); |
| __ LoadLiteral(out, |
| kLoadUnsignedWord, |
| codegen_->DeduplicateBootImageTypeLiteral(cls->GetDexFile(), |
| cls->GetTypeIndex())); |
| break; |
| case HLoadClass::LoadKind::kBootImageLinkTimePcRelative: { |
| DCHECK(codegen_->GetCompilerOptions().IsBootImage()); |
| CodeGeneratorMIPS64::PcRelativePatchInfo* info = |
| codegen_->NewPcRelativeTypePatch(cls->GetDexFile(), cls->GetTypeIndex()); |
| codegen_->EmitPcRelativeAddressPlaceholderHigh(info, AT); |
| __ Daddiu(out, AT, /* placeholder */ 0x5678); |
| break; |
| } |
| case HLoadClass::LoadKind::kBootImageAddress: { |
| DCHECK(!kEmitCompilerReadBarrier); |
| uint32_t address = dchecked_integral_cast<uint32_t>( |
| reinterpret_cast<uintptr_t>(cls->GetClass().Get())); |
| DCHECK_NE(address, 0u); |
| __ LoadLiteral(out, |
| kLoadUnsignedWord, |
| codegen_->DeduplicateBootImageAddressLiteral(address)); |
| break; |
| } |
| case HLoadClass::LoadKind::kBssEntry: { |
| CodeGeneratorMIPS64::PcRelativePatchInfo* info = |
| codegen_->NewTypeBssEntryPatch(cls->GetDexFile(), cls->GetTypeIndex()); |
| codegen_->EmitPcRelativeAddressPlaceholderHigh(info, AT); |
| __ Lwu(out, AT, /* placeholder */ 0x5678); |
| generate_null_check = true; |
| break; |
| } |
| case HLoadClass::LoadKind::kJitTableAddress: |
| __ LoadLiteral(out, |
| kLoadUnsignedWord, |
| codegen_->DeduplicateJitClassLiteral(cls->GetDexFile(), |
| cls->GetTypeIndex(), |
| cls->GetClass())); |
| GenerateGcRootFieldLoad(cls, out_loc, out, 0); |
| break; |
| case HLoadClass::LoadKind::kDexCacheViaMethod: |
| case HLoadClass::LoadKind::kInvalid: |
| LOG(FATAL) << "UNREACHABLE"; |
| UNREACHABLE(); |
| } |
| |
| if (generate_null_check || cls->MustGenerateClinitCheck()) { |
| DCHECK(cls->CanCallRuntime()); |
| SlowPathCodeMIPS64* slow_path = new (GetGraph()->GetArena()) LoadClassSlowPathMIPS64( |
| cls, cls, cls->GetDexPc(), cls->MustGenerateClinitCheck()); |
| codegen_->AddSlowPath(slow_path); |
| if (generate_null_check) { |
| __ Beqzc(out, slow_path->GetEntryLabel()); |
| } |
| if (cls->MustGenerateClinitCheck()) { |
| GenerateClassInitializationCheck(slow_path, out); |
| } else { |
| __ Bind(slow_path->GetExitLabel()); |
| } |
| } |
| } |
| |
| static int32_t GetExceptionTlsOffset() { |
| return Thread::ExceptionOffset<kMips64PointerSize>().Int32Value(); |
| } |
| |
| void LocationsBuilderMIPS64::VisitLoadException(HLoadException* load) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(load, LocationSummary::kNoCall); |
| locations->SetOut(Location::RequiresRegister()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitLoadException(HLoadException* load) { |
| GpuRegister out = load->GetLocations()->Out().AsRegister<GpuRegister>(); |
| __ LoadFromOffset(kLoadUnsignedWord, out, TR, GetExceptionTlsOffset()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitClearException(HClearException* clear) { |
| new (GetGraph()->GetArena()) LocationSummary(clear, LocationSummary::kNoCall); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitClearException(HClearException* clear ATTRIBUTE_UNUSED) { |
| __ StoreToOffset(kStoreWord, ZERO, TR, GetExceptionTlsOffset()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitLoadString(HLoadString* load) { |
| HLoadString::LoadKind load_kind = load->GetLoadKind(); |
| LocationSummary::CallKind call_kind = CodeGenerator::GetLoadStringCallKind(load); |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(load, call_kind); |
| if (load_kind == HLoadString::LoadKind::kDexCacheViaMethod) { |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetOut(calling_convention.GetReturnLocation(load->GetType())); |
| } else { |
| locations->SetOut(Location::RequiresRegister()); |
| } |
| } |
| |
| // NO_THREAD_SAFETY_ANALYSIS as we manipulate handles whose internal object we know does not |
| // move. |
| void InstructionCodeGeneratorMIPS64::VisitLoadString(HLoadString* load) NO_THREAD_SAFETY_ANALYSIS { |
| HLoadString::LoadKind load_kind = load->GetLoadKind(); |
| LocationSummary* locations = load->GetLocations(); |
| Location out_loc = locations->Out(); |
| GpuRegister out = out_loc.AsRegister<GpuRegister>(); |
| |
| switch (load_kind) { |
| case HLoadString::LoadKind::kBootImageLinkTimeAddress: |
| DCHECK(codegen_->GetCompilerOptions().IsBootImage()); |
| __ LoadLiteral(out, |
| kLoadUnsignedWord, |
| codegen_->DeduplicateBootImageStringLiteral(load->GetDexFile(), |
| load->GetStringIndex())); |
| return; // No dex cache slow path. |
| case HLoadString::LoadKind::kBootImageLinkTimePcRelative: { |
| DCHECK(codegen_->GetCompilerOptions().IsBootImage()); |
| CodeGeneratorMIPS64::PcRelativePatchInfo* info = |
| codegen_->NewPcRelativeStringPatch(load->GetDexFile(), load->GetStringIndex()); |
| codegen_->EmitPcRelativeAddressPlaceholderHigh(info, AT); |
| __ Daddiu(out, AT, /* placeholder */ 0x5678); |
| return; // No dex cache slow path. |
| } |
| case HLoadString::LoadKind::kBootImageAddress: { |
| uint32_t address = dchecked_integral_cast<uint32_t>( |
| reinterpret_cast<uintptr_t>(load->GetString().Get())); |
| DCHECK_NE(address, 0u); |
| __ LoadLiteral(out, |
| kLoadUnsignedWord, |
| codegen_->DeduplicateBootImageAddressLiteral(address)); |
| return; // No dex cache slow path. |
| } |
| case HLoadString::LoadKind::kBssEntry: { |
| DCHECK(!codegen_->GetCompilerOptions().IsBootImage()); |
| CodeGeneratorMIPS64::PcRelativePatchInfo* info = |
| codegen_->NewPcRelativeStringPatch(load->GetDexFile(), load->GetStringIndex()); |
| codegen_->EmitPcRelativeAddressPlaceholderHigh(info, AT); |
| __ Lwu(out, AT, /* placeholder */ 0x5678); |
| SlowPathCodeMIPS64* slow_path = new (GetGraph()->GetArena()) LoadStringSlowPathMIPS64(load); |
| codegen_->AddSlowPath(slow_path); |
| __ Beqzc(out, slow_path->GetEntryLabel()); |
| __ Bind(slow_path->GetExitLabel()); |
| return; |
| } |
| case HLoadString::LoadKind::kJitTableAddress: |
| __ LoadLiteral(out, |
| kLoadUnsignedWord, |
| codegen_->DeduplicateJitStringLiteral(load->GetDexFile(), |
| load->GetStringIndex(), |
| load->GetString())); |
| GenerateGcRootFieldLoad(load, out_loc, out, 0); |
| return; |
| default: |
| break; |
| } |
| |
| // TODO: Re-add the compiler code to do string dex cache lookup again. |
| DCHECK(load_kind == HLoadString::LoadKind::kDexCacheViaMethod); |
| InvokeRuntimeCallingConvention calling_convention; |
| __ LoadConst32(calling_convention.GetRegisterAt(0), load->GetStringIndex().index_); |
| codegen_->InvokeRuntime(kQuickResolveString, load, load->GetDexPc()); |
| CheckEntrypointTypes<kQuickResolveString, void*, uint32_t>(); |
| } |
| |
| void LocationsBuilderMIPS64::VisitLongConstant(HLongConstant* constant) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(constant); |
| locations->SetOut(Location::ConstantLocation(constant)); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitLongConstant(HLongConstant* constant ATTRIBUTE_UNUSED) { |
| // Will be generated at use site. |
| } |
| |
| void LocationsBuilderMIPS64::VisitMonitorOperation(HMonitorOperation* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCallOnMainOnly); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitMonitorOperation(HMonitorOperation* instruction) { |
| codegen_->InvokeRuntime(instruction->IsEnter() ? kQuickLockObject : kQuickUnlockObject, |
| instruction, |
| instruction->GetDexPc()); |
| if (instruction->IsEnter()) { |
| CheckEntrypointTypes<kQuickLockObject, void, mirror::Object*>(); |
| } else { |
| CheckEntrypointTypes<kQuickUnlockObject, void, mirror::Object*>(); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::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 InstructionCodeGeneratorMIPS64::VisitMul(HMul* instruction) { |
| Primitive::Type type = instruction->GetType(); |
| LocationSummary* locations = instruction->GetLocations(); |
| |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: { |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister lhs = locations->InAt(0).AsRegister<GpuRegister>(); |
| GpuRegister rhs = locations->InAt(1).AsRegister<GpuRegister>(); |
| if (type == Primitive::kPrimInt) |
| __ MulR6(dst, lhs, rhs); |
| else |
| __ Dmul(dst, lhs, rhs); |
| break; |
| } |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| FpuRegister dst = locations->Out().AsFpuRegister<FpuRegister>(); |
| FpuRegister lhs = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| FpuRegister rhs = locations->InAt(1).AsFpuRegister<FpuRegister>(); |
| if (type == Primitive::kPrimFloat) |
| __ MulS(dst, lhs, rhs); |
| else |
| __ MulD(dst, lhs, rhs); |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected mul type " << type; |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitNeg(HNeg* neg) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(neg, LocationSummary::kNoCall); |
| switch (neg->GetResultType()) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| 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 InstructionCodeGeneratorMIPS64::VisitNeg(HNeg* instruction) { |
| Primitive::Type type = instruction->GetType(); |
| LocationSummary* locations = instruction->GetLocations(); |
| |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: { |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister src = locations->InAt(0).AsRegister<GpuRegister>(); |
| if (type == Primitive::kPrimInt) |
| __ Subu(dst, ZERO, src); |
| else |
| __ Dsubu(dst, ZERO, src); |
| break; |
| } |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| FpuRegister dst = locations->Out().AsFpuRegister<FpuRegister>(); |
| FpuRegister src = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| if (type == Primitive::kPrimFloat) |
| __ NegS(dst, src); |
| else |
| __ NegD(dst, src); |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected neg type " << type; |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitNewArray(HNewArray* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCallOnMainOnly); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetOut(calling_convention.GetReturnLocation(Primitive::kPrimNot)); |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| locations->SetInAt(1, Location::RegisterLocation(calling_convention.GetRegisterAt(1))); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitNewArray(HNewArray* instruction) { |
| codegen_->InvokeRuntime(kQuickAllocArrayResolved, instruction, instruction->GetDexPc()); |
| CheckEntrypointTypes<kQuickAllocArrayResolved, void*, mirror::Class*, int32_t>(); |
| } |
| |
| void LocationsBuilderMIPS64::VisitNewInstance(HNewInstance* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCallOnMainOnly); |
| InvokeRuntimeCallingConvention calling_convention; |
| if (instruction->IsStringAlloc()) { |
| locations->AddTemp(Location::RegisterLocation(kMethodRegisterArgument)); |
| } else { |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| } |
| locations->SetOut(calling_convention.GetReturnLocation(Primitive::kPrimNot)); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitNewInstance(HNewInstance* instruction) { |
| if (instruction->IsStringAlloc()) { |
| // String is allocated through StringFactory. Call NewEmptyString entry point. |
| GpuRegister temp = instruction->GetLocations()->GetTemp(0).AsRegister<GpuRegister>(); |
| MemberOffset code_offset = |
| ArtMethod::EntryPointFromQuickCompiledCodeOffset(kMips64PointerSize); |
| __ LoadFromOffset(kLoadDoubleword, temp, TR, QUICK_ENTRY_POINT(pNewEmptyString)); |
| __ LoadFromOffset(kLoadDoubleword, T9, temp, code_offset.Int32Value()); |
| __ Jalr(T9); |
| __ Nop(); |
| codegen_->RecordPcInfo(instruction, instruction->GetDexPc()); |
| } else { |
| codegen_->InvokeRuntime(instruction->GetEntrypoint(), instruction, instruction->GetDexPc()); |
| CheckEntrypointTypes<kQuickAllocObjectWithChecks, void*, mirror::Class*>(); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitNot(HNot* instruction) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instruction); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitNot(HNot* instruction) { |
| Primitive::Type type = instruction->GetType(); |
| LocationSummary* locations = instruction->GetLocations(); |
| |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: { |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister src = locations->InAt(0).AsRegister<GpuRegister>(); |
| __ Nor(dst, src, ZERO); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected type for not operation " << instruction->GetResultType(); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitBooleanNot(HBooleanNot* instruction) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instruction); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitBooleanNot(HBooleanNot* instruction) { |
| LocationSummary* locations = instruction->GetLocations(); |
| __ Xori(locations->Out().AsRegister<GpuRegister>(), |
| locations->InAt(0).AsRegister<GpuRegister>(), |
| 1); |
| } |
| |
| void LocationsBuilderMIPS64::VisitNullCheck(HNullCheck* instruction) { |
| LocationSummary* locations = codegen_->CreateThrowingSlowPathLocations(instruction); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| } |
| |
| void CodeGeneratorMIPS64::GenerateImplicitNullCheck(HNullCheck* instruction) { |
| if (CanMoveNullCheckToUser(instruction)) { |
| return; |
| } |
| Location obj = instruction->GetLocations()->InAt(0); |
| |
| __ Lw(ZERO, obj.AsRegister<GpuRegister>(), 0); |
| RecordPcInfo(instruction, instruction->GetDexPc()); |
| } |
| |
| void CodeGeneratorMIPS64::GenerateExplicitNullCheck(HNullCheck* instruction) { |
| SlowPathCodeMIPS64* slow_path = new (GetGraph()->GetArena()) NullCheckSlowPathMIPS64(instruction); |
| AddSlowPath(slow_path); |
| |
| Location obj = instruction->GetLocations()->InAt(0); |
| |
| __ Beqzc(obj.AsRegister<GpuRegister>(), slow_path->GetEntryLabel()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitNullCheck(HNullCheck* instruction) { |
| codegen_->GenerateNullCheck(instruction); |
| } |
| |
| void LocationsBuilderMIPS64::VisitOr(HOr* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitOr(HOr* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void LocationsBuilderMIPS64::VisitParallelMove(HParallelMove* instruction ATTRIBUTE_UNUSED) { |
| LOG(FATAL) << "Unreachable"; |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitParallelMove(HParallelMove* instruction) { |
| codegen_->GetMoveResolver()->EmitNativeCode(instruction); |
| } |
| |
| void LocationsBuilderMIPS64::VisitParameterValue(HParameterValue* instruction) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instruction); |
| 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 InstructionCodeGeneratorMIPS64::VisitParameterValue(HParameterValue* instruction |
| ATTRIBUTE_UNUSED) { |
| // Nothing to do, the parameter is already at its location. |
| } |
| |
| void LocationsBuilderMIPS64::VisitCurrentMethod(HCurrentMethod* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kNoCall); |
| locations->SetOut(Location::RegisterLocation(kMethodRegisterArgument)); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitCurrentMethod(HCurrentMethod* instruction |
| ATTRIBUTE_UNUSED) { |
| // Nothing to do, the method is already at its location. |
| } |
| |
| void LocationsBuilderMIPS64::VisitPhi(HPhi* instruction) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(instruction); |
| for (size_t i = 0, e = locations->GetInputCount(); i < e; ++i) { |
| locations->SetInAt(i, Location::Any()); |
| } |
| locations->SetOut(Location::Any()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitPhi(HPhi* instruction ATTRIBUTE_UNUSED) { |
| LOG(FATAL) << "Unreachable"; |
| } |
| |
| void LocationsBuilderMIPS64::VisitRem(HRem* rem) { |
| Primitive::Type type = rem->GetResultType(); |
| LocationSummary::CallKind call_kind = |
| Primitive::IsFloatingPointType(type) ? LocationSummary::kCallOnMainOnly |
| : LocationSummary::kNoCall; |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(rem, call_kind); |
| |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: |
| locations->SetInAt(0, Location::RequiresRegister()); |
| locations->SetInAt(1, Location::RegisterOrConstant(rem->InputAt(1))); |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| break; |
| |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::FpuRegisterLocation(calling_convention.GetFpuRegisterAt(0))); |
| locations->SetInAt(1, Location::FpuRegisterLocation(calling_convention.GetFpuRegisterAt(1))); |
| locations->SetOut(calling_convention.GetReturnLocation(type)); |
| break; |
| } |
| |
| default: |
| LOG(FATAL) << "Unexpected rem type " << type; |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitRem(HRem* instruction) { |
| Primitive::Type type = instruction->GetType(); |
| |
| switch (type) { |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: |
| GenerateDivRemIntegral(instruction); |
| break; |
| |
| case Primitive::kPrimFloat: |
| case Primitive::kPrimDouble: { |
| QuickEntrypointEnum entrypoint = (type == Primitive::kPrimFloat) ? kQuickFmodf : kQuickFmod; |
| codegen_->InvokeRuntime(entrypoint, instruction, instruction->GetDexPc()); |
| if (type == Primitive::kPrimFloat) { |
| CheckEntrypointTypes<kQuickFmodf, float, float, float>(); |
| } else { |
| CheckEntrypointTypes<kQuickFmod, double, double, double>(); |
| } |
| break; |
| } |
| default: |
| LOG(FATAL) << "Unexpected rem type " << type; |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitMemoryBarrier(HMemoryBarrier* memory_barrier) { |
| memory_barrier->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitMemoryBarrier(HMemoryBarrier* memory_barrier) { |
| GenerateMemoryBarrier(memory_barrier->GetBarrierKind()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitReturn(HReturn* ret) { |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(ret); |
| Primitive::Type return_type = ret->InputAt(0)->GetType(); |
| locations->SetInAt(0, Mips64ReturnLocation(return_type)); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitReturn(HReturn* ret ATTRIBUTE_UNUSED) { |
| codegen_->GenerateFrameExit(); |
| } |
| |
| void LocationsBuilderMIPS64::VisitReturnVoid(HReturnVoid* ret) { |
| ret->SetLocations(nullptr); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitReturnVoid(HReturnVoid* ret ATTRIBUTE_UNUSED) { |
| codegen_->GenerateFrameExit(); |
| } |
| |
| void LocationsBuilderMIPS64::VisitRor(HRor* ror) { |
| HandleShift(ror); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitRor(HRor* ror) { |
| HandleShift(ror); |
| } |
| |
| void LocationsBuilderMIPS64::VisitShl(HShl* shl) { |
| HandleShift(shl); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitShl(HShl* shl) { |
| HandleShift(shl); |
| } |
| |
| void LocationsBuilderMIPS64::VisitShr(HShr* shr) { |
| HandleShift(shr); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitShr(HShr* shr) { |
| HandleShift(shr); |
| } |
| |
| void LocationsBuilderMIPS64::VisitSub(HSub* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitSub(HSub* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void LocationsBuilderMIPS64::VisitStaticFieldGet(HStaticFieldGet* instruction) { |
| HandleFieldGet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitStaticFieldGet(HStaticFieldGet* instruction) { |
| HandleFieldGet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitStaticFieldSet(HStaticFieldSet* instruction) { |
| HandleFieldSet(instruction, instruction->GetFieldInfo()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitStaticFieldSet(HStaticFieldSet* instruction) { |
| HandleFieldSet(instruction, instruction->GetFieldInfo(), instruction->GetValueCanBeNull()); |
| } |
| |
| void LocationsBuilderMIPS64::VisitUnresolvedInstanceFieldGet( |
| HUnresolvedInstanceFieldGet* instruction) { |
| FieldAccessCallingConventionMIPS64 calling_convention; |
| codegen_->CreateUnresolvedFieldLocationSummary( |
| instruction, instruction->GetFieldType(), calling_convention); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitUnresolvedInstanceFieldGet( |
| HUnresolvedInstanceFieldGet* instruction) { |
| FieldAccessCallingConventionMIPS64 calling_convention; |
| codegen_->GenerateUnresolvedFieldAccess(instruction, |
| instruction->GetFieldType(), |
| instruction->GetFieldIndex(), |
| instruction->GetDexPc(), |
| calling_convention); |
| } |
| |
| void LocationsBuilderMIPS64::VisitUnresolvedInstanceFieldSet( |
| HUnresolvedInstanceFieldSet* instruction) { |
| FieldAccessCallingConventionMIPS64 calling_convention; |
| codegen_->CreateUnresolvedFieldLocationSummary( |
| instruction, instruction->GetFieldType(), calling_convention); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitUnresolvedInstanceFieldSet( |
| HUnresolvedInstanceFieldSet* instruction) { |
| FieldAccessCallingConventionMIPS64 calling_convention; |
| codegen_->GenerateUnresolvedFieldAccess(instruction, |
| instruction->GetFieldType(), |
| instruction->GetFieldIndex(), |
| instruction->GetDexPc(), |
| calling_convention); |
| } |
| |
| void LocationsBuilderMIPS64::VisitUnresolvedStaticFieldGet( |
| HUnresolvedStaticFieldGet* instruction) { |
| FieldAccessCallingConventionMIPS64 calling_convention; |
| codegen_->CreateUnresolvedFieldLocationSummary( |
| instruction, instruction->GetFieldType(), calling_convention); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitUnresolvedStaticFieldGet( |
| HUnresolvedStaticFieldGet* instruction) { |
| FieldAccessCallingConventionMIPS64 calling_convention; |
| codegen_->GenerateUnresolvedFieldAccess(instruction, |
| instruction->GetFieldType(), |
| instruction->GetFieldIndex(), |
| instruction->GetDexPc(), |
| calling_convention); |
| } |
| |
| void LocationsBuilderMIPS64::VisitUnresolvedStaticFieldSet( |
| HUnresolvedStaticFieldSet* instruction) { |
| FieldAccessCallingConventionMIPS64 calling_convention; |
| codegen_->CreateUnresolvedFieldLocationSummary( |
| instruction, instruction->GetFieldType(), calling_convention); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitUnresolvedStaticFieldSet( |
| HUnresolvedStaticFieldSet* instruction) { |
| FieldAccessCallingConventionMIPS64 calling_convention; |
| codegen_->GenerateUnresolvedFieldAccess(instruction, |
| instruction->GetFieldType(), |
| instruction->GetFieldIndex(), |
| instruction->GetDexPc(), |
| calling_convention); |
| } |
| |
| void LocationsBuilderMIPS64::VisitSuspendCheck(HSuspendCheck* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCallOnSlowPath); |
| locations->SetCustomSlowPathCallerSaves(RegisterSet::Empty()); // No caller-save registers. |
| } |
| |
| void InstructionCodeGeneratorMIPS64::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 LocationsBuilderMIPS64::VisitThrow(HThrow* instruction) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(instruction, LocationSummary::kCallOnMainOnly); |
| InvokeRuntimeCallingConvention calling_convention; |
| locations->SetInAt(0, Location::RegisterLocation(calling_convention.GetRegisterAt(0))); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitThrow(HThrow* instruction) { |
| codegen_->InvokeRuntime(kQuickDeliverException, instruction, instruction->GetDexPc()); |
| CheckEntrypointTypes<kQuickDeliverException, void, mirror::Object*>(); |
| } |
| |
| void LocationsBuilderMIPS64::VisitTypeConversion(HTypeConversion* conversion) { |
| Primitive::Type input_type = conversion->GetInputType(); |
| Primitive::Type result_type = conversion->GetResultType(); |
| DCHECK_NE(input_type, result_type); |
| |
| if ((input_type == Primitive::kPrimNot) || (input_type == Primitive::kPrimVoid) || |
| (result_type == Primitive::kPrimNot) || (result_type == Primitive::kPrimVoid)) { |
| LOG(FATAL) << "Unexpected type conversion from " << input_type << " to " << result_type; |
| } |
| |
| LocationSummary* locations = new (GetGraph()->GetArena()) LocationSummary(conversion); |
| |
| if (Primitive::IsFloatingPointType(input_type)) { |
| locations->SetInAt(0, Location::RequiresFpuRegister()); |
| } else { |
| locations->SetInAt(0, Location::RequiresRegister()); |
| } |
| |
| if (Primitive::IsFloatingPointType(result_type)) { |
| locations->SetOut(Location::RequiresFpuRegister(), Location::kNoOutputOverlap); |
| } else { |
| locations->SetOut(Location::RequiresRegister(), Location::kNoOutputOverlap); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitTypeConversion(HTypeConversion* conversion) { |
| LocationSummary* locations = conversion->GetLocations(); |
| Primitive::Type result_type = conversion->GetResultType(); |
| Primitive::Type input_type = conversion->GetInputType(); |
| |
| DCHECK_NE(input_type, result_type); |
| |
| if (Primitive::IsIntegralType(result_type) && Primitive::IsIntegralType(input_type)) { |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| GpuRegister src = locations->InAt(0).AsRegister<GpuRegister>(); |
| |
| switch (result_type) { |
| case Primitive::kPrimChar: |
| __ Andi(dst, src, 0xFFFF); |
| break; |
| case Primitive::kPrimByte: |
| if (input_type == Primitive::kPrimLong) { |
| // Type conversion from long to types narrower than int is a result of code |
| // transformations. To avoid unpredictable results for SEB and SEH, we first |
| // need to sign-extend the low 32-bit value into bits 32 through 63. |
| __ Sll(dst, src, 0); |
| __ Seb(dst, dst); |
| } else { |
| __ Seb(dst, src); |
| } |
| break; |
| case Primitive::kPrimShort: |
| if (input_type == Primitive::kPrimLong) { |
| // Type conversion from long to types narrower than int is a result of code |
| // transformations. To avoid unpredictable results for SEB and SEH, we first |
| // need to sign-extend the low 32-bit value into bits 32 through 63. |
| __ Sll(dst, src, 0); |
| __ Seh(dst, dst); |
| } else { |
| __ Seh(dst, src); |
| } |
| break; |
| case Primitive::kPrimInt: |
| case Primitive::kPrimLong: |
| // Sign-extend 32-bit int into bits 32 through 63 for int-to-long and long-to-int |
| // conversions, except when the input and output registers are the same and we are not |
| // converting longs to shorter types. In these cases, do nothing. |
| if ((input_type == Primitive::kPrimLong) || (dst != src)) { |
| __ Sll(dst, src, 0); |
| } |
| break; |
| |
| default: |
| LOG(FATAL) << "Unexpected type conversion from " << input_type |
| << " to " << result_type; |
| } |
| } else if (Primitive::IsFloatingPointType(result_type) && Primitive::IsIntegralType(input_type)) { |
| FpuRegister dst = locations->Out().AsFpuRegister<FpuRegister>(); |
| GpuRegister src = locations->InAt(0).AsRegister<GpuRegister>(); |
| if (input_type == Primitive::kPrimLong) { |
| __ Dmtc1(src, FTMP); |
| if (result_type == Primitive::kPrimFloat) { |
| __ Cvtsl(dst, FTMP); |
| } else { |
| __ Cvtdl(dst, FTMP); |
| } |
| } else { |
| __ Mtc1(src, FTMP); |
| if (result_type == Primitive::kPrimFloat) { |
| __ Cvtsw(dst, FTMP); |
| } else { |
| __ Cvtdw(dst, FTMP); |
| } |
| } |
| } else if (Primitive::IsIntegralType(result_type) && Primitive::IsFloatingPointType(input_type)) { |
| CHECK(result_type == Primitive::kPrimInt || result_type == Primitive::kPrimLong); |
| GpuRegister dst = locations->Out().AsRegister<GpuRegister>(); |
| FpuRegister src = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| Mips64Label truncate; |
| Mips64Label done; |
| |
| // When NAN2008=0 (R2 and before), the truncate instruction produces the maximum positive |
| // value when the input is either a NaN or is outside of the range of the output type |
| // after the truncation. IOW, the three special cases (NaN, too small, too big) produce |
| // the same result. |
| // |
| // When NAN2008=1 (R6), the truncate instruction caps the output at the minimum/maximum |
| // value of the output type if the input is outside of the range after the truncation or |
| // produces 0 when the input is a NaN. IOW, the three special cases produce three distinct |
| // results. This matches the desired float/double-to-int/long conversion exactly. |
| // |
| // So, NAN2008 affects handling of negative values and NaNs by the truncate instruction. |
| // |
| // The following code supports both NAN2008=0 and NAN2008=1 behaviors of the truncate |
| // instruction, the reason being that the emulator implements NAN2008=0 on MIPS64R6, |
| // even though it must be NAN2008=1 on R6. |
| // |
| // The code takes care of the different behaviors by first comparing the input to the |
| // minimum output value (-2**-63 for truncating to long, -2**-31 for truncating to int). |
| // If the input is greater than or equal to the minimum, it procedes to the truncate |
| // instruction, which will handle such an input the same way irrespective of NAN2008. |
| // Otherwise the input is compared to itself to determine whether it is a NaN or not |
| // in order to return either zero or the minimum value. |
| // |
| // TODO: simplify this when the emulator correctly implements NAN2008=1 behavior of the |
| // truncate instruction for MIPS64R6. |
| if (input_type == Primitive::kPrimFloat) { |
| uint32_t min_val = (result_type == Primitive::kPrimLong) |
| ? bit_cast<uint32_t, float>(std::numeric_limits<int64_t>::min()) |
| : bit_cast<uint32_t, float>(std::numeric_limits<int32_t>::min()); |
| __ LoadConst32(TMP, min_val); |
| __ Mtc1(TMP, FTMP); |
| __ CmpLeS(FTMP, FTMP, src); |
| } else { |
| uint64_t min_val = (result_type == Primitive::kPrimLong) |
| ? bit_cast<uint64_t, double>(std::numeric_limits<int64_t>::min()) |
| : bit_cast<uint64_t, double>(std::numeric_limits<int32_t>::min()); |
| __ LoadConst64(TMP, min_val); |
| __ Dmtc1(TMP, FTMP); |
| __ CmpLeD(FTMP, FTMP, src); |
| } |
| |
| __ Bc1nez(FTMP, &truncate); |
| |
| if (input_type == Primitive::kPrimFloat) { |
| __ CmpEqS(FTMP, src, src); |
| } else { |
| __ CmpEqD(FTMP, src, src); |
| } |
| if (result_type == Primitive::kPrimLong) { |
| __ LoadConst64(dst, std::numeric_limits<int64_t>::min()); |
| } else { |
| __ LoadConst32(dst, std::numeric_limits<int32_t>::min()); |
| } |
| __ Mfc1(TMP, FTMP); |
| __ And(dst, dst, TMP); |
| |
| __ Bc(&done); |
| |
| __ Bind(&truncate); |
| |
| if (result_type == Primitive::kPrimLong) { |
| if (input_type == Primitive::kPrimFloat) { |
| __ TruncLS(FTMP, src); |
| } else { |
| __ TruncLD(FTMP, src); |
| } |
| __ Dmfc1(dst, FTMP); |
| } else { |
| if (input_type == Primitive::kPrimFloat) { |
| __ TruncWS(FTMP, src); |
| } else { |
| __ TruncWD(FTMP, src); |
| } |
| __ Mfc1(dst, FTMP); |
| } |
| |
| __ Bind(&done); |
| } else if (Primitive::IsFloatingPointType(result_type) && |
| Primitive::IsFloatingPointType(input_type)) { |
| FpuRegister dst = locations->Out().AsFpuRegister<FpuRegister>(); |
| FpuRegister src = locations->InAt(0).AsFpuRegister<FpuRegister>(); |
| if (result_type == Primitive::kPrimFloat) { |
| __ Cvtsd(dst, src); |
| } else { |
| __ Cvtds(dst, src); |
| } |
| } else { |
| LOG(FATAL) << "Unexpected or unimplemented type conversion from " << input_type |
| << " to " << result_type; |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitUShr(HUShr* ushr) { |
| HandleShift(ushr); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitUShr(HUShr* ushr) { |
| HandleShift(ushr); |
| } |
| |
| void LocationsBuilderMIPS64::VisitXor(HXor* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitXor(HXor* instruction) { |
| HandleBinaryOp(instruction); |
| } |
| |
| void LocationsBuilderMIPS64::VisitBoundType(HBoundType* instruction ATTRIBUTE_UNUSED) { |
| // Nothing to do, this should be removed during prepare for register allocator. |
| LOG(FATAL) << "Unreachable"; |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitBoundType(HBoundType* instruction ATTRIBUTE_UNUSED) { |
| // Nothing to do, this should be removed during prepare for register allocator. |
| LOG(FATAL) << "Unreachable"; |
| } |
| |
| void LocationsBuilderMIPS64::VisitEqual(HEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitEqual(HEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void LocationsBuilderMIPS64::VisitNotEqual(HNotEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitNotEqual(HNotEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void LocationsBuilderMIPS64::VisitLessThan(HLessThan* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitLessThan(HLessThan* comp) { |
| HandleCondition(comp); |
| } |
| |
| void LocationsBuilderMIPS64::VisitLessThanOrEqual(HLessThanOrEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitLessThanOrEqual(HLessThanOrEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void LocationsBuilderMIPS64::VisitGreaterThan(HGreaterThan* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitGreaterThan(HGreaterThan* comp) { |
| HandleCondition(comp); |
| } |
| |
| void LocationsBuilderMIPS64::VisitGreaterThanOrEqual(HGreaterThanOrEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitGreaterThanOrEqual(HGreaterThanOrEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void LocationsBuilderMIPS64::VisitBelow(HBelow* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitBelow(HBelow* comp) { |
| HandleCondition(comp); |
| } |
| |
| void LocationsBuilderMIPS64::VisitBelowOrEqual(HBelowOrEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitBelowOrEqual(HBelowOrEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void LocationsBuilderMIPS64::VisitAbove(HAbove* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitAbove(HAbove* comp) { |
| HandleCondition(comp); |
| } |
| |
| void LocationsBuilderMIPS64::VisitAboveOrEqual(HAboveOrEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitAboveOrEqual(HAboveOrEqual* comp) { |
| HandleCondition(comp); |
| } |
| |
| // Simple implementation of packed switch - generate cascaded compare/jumps. |
| void LocationsBuilderMIPS64::VisitPackedSwitch(HPackedSwitch* switch_instr) { |
| LocationSummary* locations = |
| new (GetGraph()->GetArena()) LocationSummary(switch_instr, LocationSummary::kNoCall); |
| locations->SetInAt(0, Location::RequiresRegister()); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenPackedSwitchWithCompares(GpuRegister value_reg, |
| int32_t lower_bound, |
| uint32_t num_entries, |
| HBasicBlock* switch_block, |
| HBasicBlock* default_block) { |
| // Create a set of compare/jumps. |
| GpuRegister temp_reg = TMP; |
| __ Addiu32(temp_reg, value_reg, -lower_bound); |
| // Jump to default if index is negative |
| // Note: We don't check the case that index is positive while value < lower_bound, because in |
| // this case, index >= num_entries must be true. So that we can save one branch instruction. |
| __ Bltzc(temp_reg, codegen_->GetLabelOf(default_block)); |
| |
| const ArenaVector<HBasicBlock*>& successors = switch_block->GetSuccessors(); |
| // Jump to successors[0] if value == lower_bound. |
| __ Beqzc(temp_reg, codegen_->GetLabelOf(successors[0])); |
| int32_t last_index = 0; |
| for (; num_entries - last_index > 2; last_index += 2) { |
| __ Addiu(temp_reg, temp_reg, -2); |
| // Jump to successors[last_index + 1] if value < case_value[last_index + 2]. |
| __ Bltzc(temp_reg, codegen_->GetLabelOf(successors[last_index + 1])); |
| // Jump to successors[last_index + 2] if value == case_value[last_index + 2]. |
| __ Beqzc(temp_reg, codegen_->GetLabelOf(successors[last_index + 2])); |
| } |
| if (num_entries - last_index == 2) { |
| // The last missing case_value. |
| __ Addiu(temp_reg, temp_reg, -1); |
| __ Beqzc(temp_reg, codegen_->GetLabelOf(successors[last_index + 1])); |
| } |
| |
| // And the default for any other value. |
| if (!codegen_->GoesToNextBlock(switch_block, default_block)) { |
| __ Bc(codegen_->GetLabelOf(default_block)); |
| } |
| } |
| |
| void InstructionCodeGeneratorMIPS64::GenTableBasedPackedSwitch(GpuRegister value_reg, |
| int32_t lower_bound, |
| uint32_t num_entries, |
| HBasicBlock* switch_block, |
| HBasicBlock* default_block) { |
| // Create a jump table. |
| std::vector<Mips64Label*> labels(num_entries); |
| const ArenaVector<HBasicBlock*>& successors = switch_block->GetSuccessors(); |
| for (uint32_t i = 0; i < num_entries; i++) { |
| labels[i] = codegen_->GetLabelOf(successors[i]); |
| } |
| JumpTable* table = __ CreateJumpTable(std::move(labels)); |
| |
| // Is the value in range? |
| __ Addiu32(TMP, value_reg, -lower_bound); |
| __ LoadConst32(AT, num_entries); |
| __ Bgeuc(TMP, AT, codegen_->GetLabelOf(default_block)); |
| |
| // We are in the range of the table. |
| // Load the target address from the jump table, indexing by the value. |
| __ LoadLabelAddress(AT, table->GetLabel()); |
| __ Sll(TMP, TMP, 2); |
| __ Daddu(TMP, TMP, AT); |
| __ Lw(TMP, TMP, 0); |
| // Compute the absolute target address by adding the table start address |
| // (the table contains offsets to targets relative to its start). |
| __ Daddu(TMP, TMP, AT); |
| // And jump. |
| __ Jr(TMP); |
| __ Nop(); |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitPackedSwitch(HPackedSwitch* switch_instr) { |
| int32_t lower_bound = switch_instr->GetStartValue(); |
| uint32_t num_entries = switch_instr->GetNumEntries(); |
| LocationSummary* locations = switch_instr->GetLocations(); |
| GpuRegister value_reg = locations->InAt(0).AsRegister<GpuRegister>(); |
| HBasicBlock* switch_block = switch_instr->GetBlock(); |
| HBasicBlock* default_block = switch_instr->GetDefaultBlock(); |
| |
| if (num_entries > kPackedSwitchJumpTableThreshold) { |
| GenTableBasedPackedSwitch(value_reg, |
| lower_bound, |
| num_entries, |
| switch_block, |
| default_block); |
| } else { |
| GenPackedSwitchWithCompares(value_reg, |
| lower_bound, |
| num_entries, |
| switch_block, |
| default_block); |
| } |
| } |
| |
| void LocationsBuilderMIPS64::VisitClassTableGet(HClassTableGet*) { |
| UNIMPLEMENTED(FATAL) << "ClassTableGet is unimplemented on mips64"; |
| } |
| |
| void InstructionCodeGeneratorMIPS64::VisitClassTableGet(HClassTableGet*) { |
| UNIMPLEMENTED(FATAL) << "ClassTableGet is unimplemented on mips64"; |
| } |
| |
| } // namespace mips64 |
| } // namespace art |