/*
* Copyright (C) 2014 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef ART_COMPILER_OPTIMIZING_REGISTER_ALLOCATOR_LINEAR_SCAN_H_
#define ART_COMPILER_OPTIMIZING_REGISTER_ALLOCATOR_LINEAR_SCAN_H_
#include "arch/instruction_set.h"
#include "base/arena_containers.h"
#include "base/macros.h"
#include "primitive.h"
#include "register_allocator.h"
namespace art {
class CodeGenerator;
class HBasicBlock;
class HGraph;
class HInstruction;
class HParallelMove;
class HPhi;
class LiveInterval;
class Location;
class SsaLivenessAnalysis;
/**
* An implementation of a linear scan register allocator on an `HGraph` with SSA form.
*/
class RegisterAllocatorLinearScan : public RegisterAllocator {
public:
RegisterAllocatorLinearScan(ArenaAllocator* allocator,
CodeGenerator* codegen,
const SsaLivenessAnalysis& analysis);
~RegisterAllocatorLinearScan() OVERRIDE {}
void AllocateRegisters() OVERRIDE;
bool Validate(bool log_fatal_on_failure) OVERRIDE {
processing_core_registers_ = true;
if (!ValidateInternal(log_fatal_on_failure)) {
return false;
}
processing_core_registers_ = false;
return ValidateInternal(log_fatal_on_failure);
}
size_t GetNumberOfSpillSlots() const {
return int_spill_slots_.size()
+ long_spill_slots_.size()
+ float_spill_slots_.size()
+ double_spill_slots_.size()
+ catch_phi_spill_slots_;
}
private:
// Main methods of the allocator.
void LinearScan();
bool TryAllocateFreeReg(LiveInterval* interval);
bool AllocateBlockedReg(LiveInterval* interval);
// Add `interval` in the given sorted list.
static void AddSorted(ArenaVector<LiveInterval*>* array, LiveInterval* interval);
// Returns whether `reg` is blocked by the code generator.
bool IsBlocked(int reg) const;
// Update the interval for the register in `location` to cover [start, end).
void BlockRegister(Location location, size_t start, size_t end);
void BlockRegisters(size_t start, size_t end, bool caller_save_only = false);
// Allocate a spill slot for the given interval. Should be called in linear
// order of interval starting positions.
void AllocateSpillSlotFor(LiveInterval* interval);
// Allocate a spill slot for the given catch phi. Will allocate the same slot
// for phis which share the same vreg. Must be called in reverse linear order
// of lifetime positions and ascending vreg numbers for correctness.
void AllocateSpillSlotForCatchPhi(HPhi* phi);
// Helper methods.
void AllocateRegistersInternal();
void ProcessInstruction(HInstruction* instruction);
bool ValidateInternal(bool log_fatal_on_failure) const;
void DumpInterval(std::ostream& stream, LiveInterval* interval) const;
void DumpAllIntervals(std::ostream& stream) const;
int FindAvailableRegisterPair(size_t* next_use, size_t starting_at) const;
int FindAvailableRegister(size_t* next_use, LiveInterval* current) const;
bool IsCallerSaveRegister(int reg) const;
// Try splitting an active non-pair or unaligned pair interval at the given `position`.
// Returns whether it was successful at finding such an interval.
bool TrySplitNonPairOrUnalignedPairIntervalAt(size_t position,
size_t first_register_use,
size_t* next_use);
// List of intervals for core registers that must be processed, ordered by start
// position. Last entry is the interval that has the lowest start position.
// This list is initially populated before doing the linear scan.
ArenaVector<LiveInterval*> unhandled_core_intervals_;
// List of intervals for floating-point registers. Same comments as above.
ArenaVector<LiveInterval*> unhandled_fp_intervals_;
// Currently processed list of unhandled intervals. Either `unhandled_core_intervals_`
// or `unhandled_fp_intervals_`.
ArenaVector<LiveInterval*>* unhandled_;
// List of intervals that have been processed.
ArenaVector<LiveInterval*> handled_;
// List of intervals that are currently active when processing a new live interval.
// That is, they have a live range that spans the start of the new interval.
ArenaVector<LiveInterval*> active_;
// List of intervals that are currently inactive when processing a new live interval.
// That is, they have a lifetime hole that spans the start of the new interval.
ArenaVector<LiveInterval*> inactive_;
// Fixed intervals for physical registers. Such intervals cover the positions
// where an instruction requires a specific register.
ArenaVector<LiveInterval*> physical_core_register_intervals_;
ArenaVector<LiveInterval*> physical_fp_register_intervals_;
// Intervals for temporaries. Such intervals cover the positions
// where an instruction requires a temporary.
ArenaVector<LiveInterval*> temp_intervals_;
// The spill slots allocated for live intervals. We ensure spill slots
// are typed to avoid (1) doing moves and swaps between two different kinds
// of registers, and (2) swapping between a single stack slot and a double
// stack slot. This simplifies the parallel move resolver.
ArenaVector<size_t> int_spill_slots_;
ArenaVector<size_t> long_spill_slots_;
ArenaVector<size_t> float_spill_slots_;
ArenaVector<size_t> double_spill_slots_;
// Spill slots allocated to catch phis. This category is special-cased because
// (1) slots are allocated prior to linear scan and in reverse linear order,
// (2) equivalent phis need to share slots despite having different types.
size_t catch_phi_spill_slots_;
// Instructions that need a safepoint.
ArenaVector<HInstruction*> safepoints_;
// True if processing core registers. False if processing floating
// point registers.
bool processing_core_registers_;
// Number of registers for the current register kind (core or floating point).
size_t number_of_registers_;
// Temporary array, allocated ahead of time for simplicity.
size_t* registers_array_;
// Blocked registers, as decided by the code generator.
bool* const blocked_core_registers_;
bool* const blocked_fp_registers_;
// Slots reserved for out arguments.
size_t reserved_out_slots_;
ART_FRIEND_TEST(RegisterAllocatorTest, FreeUntil);
ART_FRIEND_TEST(RegisterAllocatorTest, SpillInactive);
DISALLOW_COPY_AND_ASSIGN(RegisterAllocatorLinearScan);
};
} // namespace art
#endif // ART_COMPILER_OPTIMIZING_REGISTER_ALLOCATOR_LINEAR_SCAN_H_