203 lines
8.6 KiB
C++
203 lines
8.6 KiB
C++
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/*
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* Copyright (C) 2019 The Android Open Source Project
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include "art_method-inl.h"
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#include "dex/code_item_accessors.h"
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#include "entrypoints/quick/callee_save_frame.h"
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#include "interpreter/mterp/nterp.h"
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#include "nterp_helpers.h"
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#include "oat_quick_method_header.h"
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#include "quick/quick_method_frame_info.h"
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namespace art {
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/**
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* An nterp frame follows the optimizing compiler's ABI conventions, with
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* int/long/reference parameters being passed in core registers / stack and
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* float/double parameters being passed in floating point registers / stack.
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*
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* There are no ManagedStack transitions between compiler and nterp frames.
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*
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* On entry, nterp will copy its parameters to a dex register array allocated on
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* the stack. There is a fast path when calling from nterp to nterp to not
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* follow the ABI but just copy the parameters from the caller's dex registers
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* to the callee's dex registers.
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*
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* The stack layout of an nterp frame is:
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* ----------------
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* | | All callee save registers of the platform
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* | callee-save | (core and floating point).
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* | registers | On x86 and x64 this includes the return address,
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* | | already spilled on entry.
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* ----------------
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* | alignment | Stack aligment of kStackAlignment.
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* ----------------
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* | | Contains `registers_size` entries (of size 4) from
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* | dex | the code item information of the method.
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* | registers |
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* | |
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* ----------------
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* | | A copy of the dex registers above, but only
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* | reference | containing references, used for GC.
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* | registers |
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* | |
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* ----------------
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* | caller fp | Frame pointer of caller. Stored below the reference
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* ---------------- registers array for easy access from nterp when returning.
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* | dex_pc_ptr | Pointer to the dex instruction being executed.
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* ---------------- Stored whenever nterp goes into the runtime.
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* | alignment | Pointer aligment for dex_pc_ptr and caller_fp.
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* ----------------
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* | | In case nterp calls compiled code, we reserve space
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* | out | for out registers. This space will be used for
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* | registers | arguments passed on stack.
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* | |
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* ----------------
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* | ArtMethod* | The method being currently executed.
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* ----------------
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*
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* Exception handling:
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* Nterp follows the same convention than the compiler,
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* with the addition of:
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* - All catch handlers have the same landing pad.
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* - Before doing the longjmp for exception delivery, the register containing the
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* dex PC pointer must be updated.
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*
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* Stack walking:
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* An nterp frame is walked like a compiled code frame. We add an
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* OatQuickMethodHeader prefix to the nterp entry point, which contains:
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* - vmap_table_offset=0 (nterp doesn't need one).
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* - code_size=NterpEnd-NterpStart
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*/
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static constexpr size_t kPointerSize = static_cast<size_t>(kRuntimePointerSize);
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static constexpr size_t NterpGetFrameEntrySize(InstructionSet isa) {
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uint32_t core_spills = 0;
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uint32_t fp_spills = 0;
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// Note: the return address is considered part of the callee saves.
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switch (isa) {
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case InstructionSet::kX86:
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core_spills = x86::X86CalleeSaveFrame::GetCoreSpills(CalleeSaveType::kSaveAllCalleeSaves);
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fp_spills = x86::X86CalleeSaveFrame::GetFpSpills(CalleeSaveType::kSaveAllCalleeSaves);
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break;
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case InstructionSet::kX86_64:
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core_spills =
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x86_64::X86_64CalleeSaveFrame::GetCoreSpills(CalleeSaveType::kSaveAllCalleeSaves);
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fp_spills = x86_64::X86_64CalleeSaveFrame::GetFpSpills(CalleeSaveType::kSaveAllCalleeSaves);
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break;
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case InstructionSet::kArm:
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case InstructionSet::kThumb2:
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core_spills = arm::ArmCalleeSaveFrame::GetCoreSpills(CalleeSaveType::kSaveAllCalleeSaves);
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fp_spills = arm::ArmCalleeSaveFrame::GetFpSpills(CalleeSaveType::kSaveAllCalleeSaves);
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break;
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case InstructionSet::kArm64:
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core_spills = arm64::Arm64CalleeSaveFrame::GetCoreSpills(CalleeSaveType::kSaveAllCalleeSaves);
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fp_spills = arm64::Arm64CalleeSaveFrame::GetFpSpills(CalleeSaveType::kSaveAllCalleeSaves);
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break;
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default:
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InstructionSetAbort(isa);
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}
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// Note: the return address is considered part of the callee saves.
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return (POPCOUNT(core_spills) + POPCOUNT(fp_spills)) *
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static_cast<size_t>(InstructionSetPointerSize(isa));
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}
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size_t NterpGetFrameSize(ArtMethod* method, InstructionSet isa) {
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CodeItemDataAccessor accessor(method->DexInstructionData());
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const uint16_t num_regs = accessor.RegistersSize();
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const uint16_t out_regs = accessor.OutsSize();
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size_t pointer_size = static_cast<size_t>(InstructionSetPointerSize(isa));
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// Note: There may be two pieces of alignment but there is no need to align
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// out args to `kPointerSize` separately before aligning to kStackAlignment.
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DCHECK(IsAlignedParam(kStackAlignment, pointer_size));
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DCHECK(IsAlignedParam(NterpGetFrameEntrySize(isa), pointer_size));
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DCHECK(IsAlignedParam(kVRegSize * 2, pointer_size));
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size_t frame_size =
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NterpGetFrameEntrySize(isa) +
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(num_regs * kVRegSize) * 2 + // dex registers and reference registers
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pointer_size + // previous frame
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pointer_size + // saved dex pc
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(out_regs * kVRegSize) + // out arguments
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pointer_size; // method
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return RoundUp(frame_size, kStackAlignment);
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}
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QuickMethodFrameInfo NterpFrameInfo(ArtMethod** frame) {
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uint32_t core_spills =
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RuntimeCalleeSaveFrame::GetCoreSpills(CalleeSaveType::kSaveAllCalleeSaves);
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uint32_t fp_spills =
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RuntimeCalleeSaveFrame::GetFpSpills(CalleeSaveType::kSaveAllCalleeSaves);
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return QuickMethodFrameInfo(NterpGetFrameSize(*frame), core_spills, fp_spills);
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}
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uintptr_t NterpGetRegistersArray(ArtMethod** frame) {
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CodeItemDataAccessor accessor((*frame)->DexInstructionData());
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const uint16_t num_regs = accessor.RegistersSize();
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// The registers array is just above the reference array.
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return NterpGetReferenceArray(frame) + (num_regs * kVRegSize);
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}
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uintptr_t NterpGetReferenceArray(ArtMethod** frame) {
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CodeItemDataAccessor accessor((*frame)->DexInstructionData());
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const uint16_t out_regs = accessor.OutsSize();
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// The references array is just above the saved frame pointer.
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return reinterpret_cast<uintptr_t>(frame) +
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kPointerSize + // method
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RoundUp(out_regs * kVRegSize, kPointerSize) + // out arguments and pointer alignment
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kPointerSize + // saved dex pc
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kPointerSize; // previous frame.
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}
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uint32_t NterpGetDexPC(ArtMethod** frame) {
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CodeItemDataAccessor accessor((*frame)->DexInstructionData());
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const uint16_t out_regs = accessor.OutsSize();
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uintptr_t dex_pc_ptr = reinterpret_cast<uintptr_t>(frame) +
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kPointerSize + // method
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RoundUp(out_regs * kVRegSize, kPointerSize); // out arguments and pointer alignment
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CodeItemInstructionAccessor instructions((*frame)->DexInstructions());
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return *reinterpret_cast<const uint16_t**>(dex_pc_ptr) - instructions.Insns();
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}
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uint32_t NterpGetVReg(ArtMethod** frame, uint16_t vreg) {
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return reinterpret_cast<uint32_t*>(NterpGetRegistersArray(frame))[vreg];
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}
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uint32_t NterpGetVRegReference(ArtMethod** frame, uint16_t vreg) {
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return reinterpret_cast<uint32_t*>(NterpGetReferenceArray(frame))[vreg];
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}
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uintptr_t NterpGetCatchHandler() {
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// Nterp uses the same landing pad for all exceptions. The dex_pc_ptr set before
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// longjmp will actually be used to jmp to the catch handler.
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return reinterpret_cast<uintptr_t>(artNterpAsmInstructionEnd);
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}
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bool CanMethodUseNterp(ArtMethod* method, InstructionSet isa) {
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return !method->IsNative() &&
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method->IsInvokable() &&
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// Nterp supports the same methods the compiler supports.
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method->IsCompilable() &&
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!method->MustCountLocks() &&
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// Proxy methods do not go through the JIT like other methods, so we don't
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// run them with nterp.
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!method->IsProxyMethod() &&
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NterpGetFrameSize(method, isa) <= interpreter::kNterpMaxFrame;
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}
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} // namespace art
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