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//===--------------------- Scheduler.h ------------------------*- C++ -*-===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
/// \file
///
/// A scheduler for Processor Resource Units and Processor Resource Groups.
///
//===----------------------------------------------------------------------===//

#ifndef LLVM_MCA_SCHEDULER_H
#define LLVM_MCA_SCHEDULER_H

#include "llvm/ADT/SmallVector.h"
#include "llvm/MC/MCSchedule.h"
#include "llvm/MCA/HardwareUnits/HardwareUnit.h"
#include "llvm/MCA/HardwareUnits/LSUnit.h"
#include "llvm/MCA/HardwareUnits/ResourceManager.h"
#include "llvm/MCA/Support.h"

namespace llvm {
namespace mca {

class SchedulerStrategy {
public:
  SchedulerStrategy() = default;
  virtual ~SchedulerStrategy();

  /// Returns true if Lhs should take priority over Rhs.
  ///
  /// This method is used by class Scheduler to select the "best" ready
  /// instruction to issue to the underlying pipelines.
  virtual bool compare(const InstRef &Lhs, const InstRef &Rhs) const = 0;
};

/// Default instruction selection strategy used by class Scheduler.
class DefaultSchedulerStrategy : public SchedulerStrategy {
  /// This method ranks instructions based on their age, and the number of known
  /// users. The lower the rank value, the better.
  int computeRank(const InstRef &Lhs) const {
    return Lhs.getSourceIndex() - Lhs.getInstruction()->getNumUsers();
  }

public:
  DefaultSchedulerStrategy() = default;
  virtual ~DefaultSchedulerStrategy();

  bool compare(const InstRef &Lhs, const InstRef &Rhs) const override {
    int LhsRank = computeRank(Lhs);
    int RhsRank = computeRank(Rhs);

    /// Prioritize older instructions over younger instructions to minimize the
    /// pressure on the reorder buffer.
    if (LhsRank == RhsRank)
      return Lhs.getSourceIndex() < Rhs.getSourceIndex();
    return LhsRank < RhsRank;
  }
};

/// Class Scheduler is responsible for issuing instructions to pipeline
/// resources.
///
/// Internally, it delegates to a ResourceManager the management of processor
/// resources. This class is also responsible for tracking the progress of
/// instructions from the dispatch stage, until the write-back stage.
///
/// An instruction dispatched to the Scheduler is initially placed into either
/// the 'WaitSet' or the 'ReadySet' depending on the availability of the input
/// operands.
///
/// An instruction is moved from the WaitSet to the ReadySet when register
/// operands become available, and all memory dependencies are met.
/// Instructions that are moved from the WaitSet to the ReadySet transition
/// in state from 'IS_AVAILABLE' to 'IS_READY'.
///
/// On every cycle, the Scheduler checks if it can promote instructions from the
/// WaitSet to the ReadySet.
///
/// An Instruction is moved from the ReadySet the `IssuedSet` when it is issued
/// to a (one or more) pipeline(s). This event also causes an instruction state
/// transition (i.e. from state IS_READY, to state IS_EXECUTING). An Instruction
/// leaves the IssuedSet when it reaches the write-back stage.
class Scheduler : public HardwareUnit {
  LSUnit &LSU;

  // Instruction selection strategy for this Scheduler.
  std::unique_ptr<SchedulerStrategy> Strategy;

  // Hardware resources that are managed by this scheduler.
  std::unique_ptr<ResourceManager> Resources;

  std::vector<InstRef> WaitSet;
  std::vector<InstRef> ReadySet;
  std::vector<InstRef> IssuedSet;

  /// Verify the given selection strategy and set the Strategy member
  /// accordingly.  If no strategy is provided, the DefaultSchedulerStrategy is
  /// used.
  void initializeStrategy(std::unique_ptr<SchedulerStrategy> S);

  /// Issue an instruction without updating the ready queue.
  void issueInstructionImpl(
      InstRef &IR,
      SmallVectorImpl<std::pair<ResourceRef, ResourceCycles>> &Pipes);

  // Identify instructions that have finished executing, and remove them from
  // the IssuedSet. References to executed instructions are added to input
  // vector 'Executed'.
  void updateIssuedSet(SmallVectorImpl<InstRef> &Executed);

  // Try to promote instructions from WaitSet to ReadySet.
  // Add promoted instructions to the 'Ready' vector in input.
  void promoteToReadySet(SmallVectorImpl<InstRef> &Ready);

public:
  Scheduler(const MCSchedModel &Model, LSUnit &Lsu)
      : Scheduler(Model, Lsu, nullptr) {}

  Scheduler(const MCSchedModel &Model, LSUnit &Lsu,
            std::unique_ptr<SchedulerStrategy> SelectStrategy)
      : Scheduler(make_unique<ResourceManager>(Model), Lsu,
                  std::move(SelectStrategy)) {}

  Scheduler(std::unique_ptr<ResourceManager> RM, LSUnit &Lsu,
            std::unique_ptr<SchedulerStrategy> SelectStrategy)
      : LSU(Lsu), Resources(std::move(RM)) {
    initializeStrategy(std::move(SelectStrategy));
  }

  // Stalls generated by the scheduler.
  enum Status {
    SC_AVAILABLE,
    SC_LOAD_QUEUE_FULL,
    SC_STORE_QUEUE_FULL,
    SC_BUFFERS_FULL,
    SC_DISPATCH_GROUP_STALL,
  };

  /// Check if the instruction in 'IR' can be dispatched and returns an answer
  /// in the form of a Status value.
  ///
  /// The DispatchStage is responsible for querying the Scheduler before
  /// dispatching new instructions. This routine is used for performing such
  /// a query.  If the instruction 'IR' can be dispatched, then true is
  /// returned, otherwise false is returned with Event set to the stall type.
  /// Internally, it also checks if the load/store unit is available.
  Status isAvailable(const InstRef &IR) const;

  /// Reserves buffer and LSUnit queue resources that are necessary to issue
  /// this instruction.
  ///
  /// Returns true if instruction IR is ready to be issued to the underlying
  /// pipelines. Note that this operation cannot fail; it assumes that a
  /// previous call to method `isAvailable(IR)` returned `SC_AVAILABLE`.
  void dispatch(const InstRef &IR);

  /// Returns true if IR is ready to be executed by the underlying pipelines.
  /// This method assumes that IR has been previously dispatched.
  bool isReady(const InstRef &IR) const;

  /// Issue an instruction and populates a vector of used pipeline resources,
  /// and a vector of instructions that transitioned to the ready state as a
  /// result of this event.
  void issueInstruction(
      InstRef &IR,
      SmallVectorImpl<std::pair<ResourceRef, ResourceCycles>> &Used,
      SmallVectorImpl<InstRef> &Ready);

  /// Returns true if IR has to be issued immediately, or if IR is a zero
  /// latency instruction.
  bool mustIssueImmediately(const InstRef &IR) const;

  /// This routine notifies the Scheduler that a new cycle just started.
  ///
  /// It notifies the underlying ResourceManager that a new cycle just started.
  /// Vector `Freed` is populated with resourceRef related to resources that
  /// have changed in state, and that are now available to new instructions.
  /// Instructions executed are added to vector Executed, while vector Ready is
  /// populated with instructions that have become ready in this new cycle.
  void cycleEvent(SmallVectorImpl<ResourceRef> &Freed,
                  SmallVectorImpl<InstRef> &Ready,
                  SmallVectorImpl<InstRef> &Executed);

  /// Convert a resource mask into a valid llvm processor resource identifier.
  unsigned getResourceID(uint64_t Mask) const {
    return Resources->resolveResourceMask(Mask);
  }

  /// Select the next instruction to issue from the ReadySet. Returns an invalid
  /// instruction reference if there are no ready instructions, or if processor
  /// resources are not available.
  InstRef select();

#ifndef NDEBUG
  // Update the ready queues.
  void dump() const;

  // This routine performs a sanity check.  This routine should only be called
  // when we know that 'IR' is not in the scheduler's instruction queues.
  void sanityCheck(const InstRef &IR) const {
    assert(find(WaitSet, IR) == WaitSet.end() && "Already in the wait set!");
    assert(find(ReadySet, IR) == ReadySet.end() && "Already in the ready set!");
    assert(find(IssuedSet, IR) == IssuedSet.end() && "Already executing!");
  }
#endif // !NDEBUG
};
} // namespace mca
} // namespace llvm

#endif // LLVM_MCA_SCHEDULER_H