blob: 6916e422be39e378a2b935766517c6ebeffbb56d [file] [log] [blame]
//===--------------------- Pipeline.h ---------------------------*- C++ -*-===//
// The LLVM Compiler Infrastructure
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
/// \file
/// This file implements an ordered container of stages that simulate the
/// pipeline of a hardware backend.
#include "Scheduler.h"
#include "Stage.h"
#include "llvm/ADT/SmallVector.h"
namespace mca {
class HWEventListener;
class HWInstructionEvent;
class HWStallEvent;
/// A pipeline for a specific subtarget.
/// It emulates an out-of-order execution of instructions. Instructions are
/// fetched from a MCInst sequence managed by an initial 'Fetch' stage.
/// Instructions are firstly fetched, then dispatched to the schedulers, and
/// then executed.
/// This class tracks the lifetime of an instruction from the moment where
/// it gets dispatched to the schedulers, to the moment where it finishes
/// executing and register writes are architecturally committed.
/// In particular, it monitors changes in the state of every instruction
/// in flight.
/// Instructions are executed in a loop of iterations. The number of iterations
/// is defined by the SourceMgr object, which is managed by the initial stage
/// of the instruction pipeline.
/// The Pipeline entry point is method 'run()' which executes cycles in a loop
/// until there are new instructions to dispatch, and not every instruction
/// has been retired.
/// Internally, the Pipeline collects statistical information in the form of
/// histograms. For example, it tracks how the dispatch group size changes
/// over time.
class Pipeline {
Pipeline(const Pipeline &P) = delete;
Pipeline &operator=(const Pipeline &P) = delete;
/// An ordered list of stages that define this instruction pipeline.
llvm::SmallVector<std::unique_ptr<Stage>, 8> Stages;
std::set<HWEventListener *> Listeners;
unsigned Cycles;
void preExecuteStages();
bool executeStages(InstRef &IR);
void postExecuteStages();
void runCycle();
bool hasWorkToProcess();
void notifyCycleBegin();
void notifyCycleEnd();
Pipeline() : Cycles(0) {}
void appendStage(std::unique_ptr<Stage> S) { Stages.push_back(std::move(S)); }
void run();
void addEventListener(HWEventListener *Listener);
} // namespace mca