compiler/optimizing/register_allocator.h - platform/art - Git at Google

 /*
  * 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_H_
 #define ART_COMPILER_OPTIMIZING_REGISTER_ALLOCATOR_H_

 #include "base/macros.h"
 #include "utils/growable_array.h"

 namespace art {

 class CodeGenerator;
 class HBasicBlock;
 class HGraph;
 class HInstruction;
 class HParallelMove;
 class LiveInterval;
 class Location;
 class SsaLivenessAnalysis;

 /**
  * An implementation of a linear scan register allocator on an `HGraph` with SSA form.
  */
 class RegisterAllocator {
  public:
   RegisterAllocator(ArenaAllocator* allocator,
                     CodeGenerator* codegen,
                     const SsaLivenessAnalysis& analysis);

   // Main entry point for the register allocator. Given the liveness analysis,
   // allocates registers to live intervals.
   void AllocateRegisters();

   // Validate that the register allocator did not allocate the same register to
   // intervals that intersect each other. Returns false if it did not.
   bool Validate(bool log_fatal_on_failure) {
     processing_core_registers_ = true;
     if (!ValidateInternal(log_fatal_on_failure)) {
       return false;
     }
     processing_core_registers_ = false;
     return ValidateInternal(log_fatal_on_failure);
   }

   // Helper method for validation. Used by unit testing.
   static bool ValidateIntervals(const GrowableArray<LiveInterval*>& intervals,
                                 size_t number_of_spill_slots,
                                 const CodeGenerator& codegen,
                                 ArenaAllocator* allocator,
                                 bool processing_core_registers,
                                 bool log_fatal_on_failure);

   static bool CanAllocateRegistersFor(const HGraph& graph, InstructionSet instruction_set);
   static bool Supports(InstructionSet instruction_set) {
     return instruction_set == kX86 || instruction_set == kArm || instruction_set == kX86_64;
   }

   size_t GetNumberOfSpillSlots() const {
     return spill_slots_.Size();
   }

  private:
   // Main methods of the allocator.
   void LinearScan();
   bool TryAllocateFreeReg(LiveInterval* interval);
   bool AllocateBlockedReg(LiveInterval* interval);
   void Resolve();

   // Add `interval` in the sorted list of unhandled intervals.
   void AddToUnhandled(LiveInterval* interval);

   // Split `interval` at the position `at`. The new interval starts at `at`.
   LiveInterval* Split(LiveInterval* interval, size_t at);

   // 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, Primitive::Type type);

   // Allocate a spill slot for the given interval.
   void AllocateSpillSlotFor(LiveInterval* interval);
   void AllocateOneSpillSlot(LiveInterval* interval, size_t end);
   void AllocateTwoSpillSlots(LiveInterval* interval, size_t end);

   // Connect adjacent siblings within blocks.
   void ConnectSiblings(LiveInterval* interval);

   // Connect siblings between block entries and exits.
   void ConnectSplitSiblings(LiveInterval* interval, HBasicBlock* from, HBasicBlock* to) const;

   // Helper methods to insert parallel moves in the graph.
   void InsertParallelMoveAtExitOf(HBasicBlock* block, Location source, Location destination) const;
   void InsertParallelMoveAtEntryOf(HBasicBlock* block, Location source, Location destination) const;
   void InsertMoveAfter(HInstruction* instruction, Location source, Location destination) const;
   void AddInputMoveFor(HInstruction* instruction, Location source, Location destination) const;
   void InsertParallelMoveAt(size_t position, Location source, Location destination) const;

   // Helper methods.
   void AllocateRegistersInternal();
   bool ValidateInternal(bool log_fatal_on_failure) const;
   void DumpInterval(std::ostream& stream, LiveInterval* interval) const;

   ArenaAllocator* const allocator_;
   CodeGenerator* const codegen_;
   const SsaLivenessAnalysis& liveness_;

   // List of intervals that must be processed, ordered by start position. Last entry
   // is the interval that has the lowest start position.
   GrowableArray<LiveInterval*> unhandled_;

   // List of intervals that have been processed.
   GrowableArray<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.
   GrowableArray<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.
   GrowableArray<LiveInterval*> inactive_;

   // Fixed intervals for physical registers. Such an interval covers the positions
   // where an instruction requires a specific register.
   GrowableArray<LiveInterval*> physical_register_intervals_;

   // The spill slots allocated for live intervals.
   GrowableArray<size_t> spill_slots_;

   // 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_registers_;

   DISALLOW_COPY_AND_ASSIGN(RegisterAllocator);
 };

 }  // namespace art

 #endif  // ART_COMPILER_OPTIMIZING_REGISTER_ALLOCATOR_H_
	/*
	* 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_H_
	#define ART_COMPILER_OPTIMIZING_REGISTER_ALLOCATOR_H_

	#include "base/macros.h"
	#include "utils/growable_array.h"

	namespace art {

	class CodeGenerator;
	class HBasicBlock;
	class HGraph;
	class HInstruction;
	class HParallelMove;
	class LiveInterval;
	class Location;
	class SsaLivenessAnalysis;

	/**
	* An implementation of a linear scan register allocator on an `HGraph` with SSA form.
	*/
	class RegisterAllocator {
	public:
	RegisterAllocator(ArenaAllocator* allocator,
	CodeGenerator* codegen,
	const SsaLivenessAnalysis& analysis);

	// Main entry point for the register allocator. Given the liveness analysis,
	// allocates registers to live intervals.
	void AllocateRegisters();

	// Validate that the register allocator did not allocate the same register to
	// intervals that intersect each other. Returns false if it did not.
	bool Validate(bool log_fatal_on_failure) {
	processing_core_registers_ = true;
	if (!ValidateInternal(log_fatal_on_failure)) {
	return false;
	}
	processing_core_registers_ = false;
	return ValidateInternal(log_fatal_on_failure);
	}

	// Helper method for validation. Used by unit testing.
	static bool ValidateIntervals(const GrowableArray<LiveInterval*>& intervals,
	size_t number_of_spill_slots,
	const CodeGenerator& codegen,
	ArenaAllocator* allocator,
	bool processing_core_registers,
	bool log_fatal_on_failure);

	static bool CanAllocateRegistersFor(const HGraph& graph, InstructionSet instruction_set);
	static bool Supports(InstructionSet instruction_set) {
	return instruction_set == kX86 \|\| instruction_set == kArm \|\| instruction_set == kX86_64;
	}

	size_t GetNumberOfSpillSlots() const {
	return spill_slots_.Size();
	}

	private:
	// Main methods of the allocator.
	void LinearScan();
	bool TryAllocateFreeReg(LiveInterval* interval);
	bool AllocateBlockedReg(LiveInterval* interval);
	void Resolve();

	// Add `interval` in the sorted list of unhandled intervals.
	void AddToUnhandled(LiveInterval* interval);

	// Split `interval` at the position `at`. The new interval starts at `at`.
	LiveInterval* Split(LiveInterval* interval, size_t at);

	// 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, Primitive::Type type);

	// Allocate a spill slot for the given interval.
	void AllocateSpillSlotFor(LiveInterval* interval);
	void AllocateOneSpillSlot(LiveInterval* interval, size_t end);
	void AllocateTwoSpillSlots(LiveInterval* interval, size_t end);

	// Connect adjacent siblings within blocks.
	void ConnectSiblings(LiveInterval* interval);

	// Connect siblings between block entries and exits.
	void ConnectSplitSiblings(LiveInterval* interval, HBasicBlock* from, HBasicBlock* to) const;

	// Helper methods to insert parallel moves in the graph.
	void InsertParallelMoveAtExitOf(HBasicBlock* block, Location source, Location destination) const;
	void InsertParallelMoveAtEntryOf(HBasicBlock* block, Location source, Location destination) const;
	void InsertMoveAfter(HInstruction* instruction, Location source, Location destination) const;
	void AddInputMoveFor(HInstruction* instruction, Location source, Location destination) const;
	void InsertParallelMoveAt(size_t position, Location source, Location destination) const;

	// Helper methods.
	void AllocateRegistersInternal();
	bool ValidateInternal(bool log_fatal_on_failure) const;
	void DumpInterval(std::ostream& stream, LiveInterval* interval) const;

	ArenaAllocator* const allocator_;
	CodeGenerator* const codegen_;
	const SsaLivenessAnalysis& liveness_;

	// List of intervals that must be processed, ordered by start position. Last entry
	// is the interval that has the lowest start position.
	GrowableArray<LiveInterval*> unhandled_;

	// List of intervals that have been processed.
	GrowableArray<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.
	GrowableArray<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.
	GrowableArray<LiveInterval*> inactive_;

	// Fixed intervals for physical registers. Such an interval covers the positions
	// where an instruction requires a specific register.
	GrowableArray<LiveInterval*> physical_register_intervals_;

	// The spill slots allocated for live intervals.
	GrowableArray<size_t> spill_slots_;

	// 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_registers_;

	DISALLOW_COPY_AND_ASSIGN(RegisterAllocator);
	};

	} // namespace art

	#endif // ART_COMPILER_OPTIMIZING_REGISTER_ALLOCATOR_H_