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//===--- PerfMonitor.h --- Monitor time spent in scops --------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#ifndef PERF_MONITOR_H
#define PERF_MONITOR_H
#include "polly/CodeGen/IRBuilder.h"
namespace llvm {
class Function;
class Module;
class Value;
class Instruction;
} // namespace llvm
namespace polly {
class PerfMonitor {
public:
/// Create a new performance monitor.
///
/// @param S The scop for which to generate fine-grained performance
/// monitoring information.
/// @param M The module for which to generate the performance monitor.
PerfMonitor(const Scop &S, llvm::Module *M);
/// Initialize the performance monitor.
///
/// Ensure that all global variables, functions, and callbacks needed to
/// manage the performance monitor are initialized and registered.
void initialize();
/// Mark the beginning of a timing region.
///
/// @param InsertBefore The instruction before which the timing region starts.
void insertRegionStart(llvm::Instruction *InsertBefore);
/// Mark the end of a timing region.
///
/// @param InsertBefore The instruction before which the timing region starts.
void insertRegionEnd(llvm::Instruction *InsertBefore);
private:
llvm::Module *M;
PollyIRBuilder Builder;
// The scop to profile against.
const Scop &S;
/// Indicates if performance profiling is supported on this architecture.
bool Supported;
/// The cycle counter at the beginning of the program execution.
llvm::Value *CyclesTotalStartPtr;
/// The total number of cycles spent in the current scop S.
llvm::Value *CyclesInCurrentScopPtr;
/// The total number of times the current scop S is executed.
llvm::Value *TripCountForCurrentScopPtr;
/// The total number of cycles spent within scops.
llvm::Value *CyclesInScopsPtr;
/// The value of the cycle counter at the beginning of the last scop.
llvm::Value *CyclesInScopStartPtr;
/// A memory location which serves as argument of the RDTSCP function.
///
/// The value written to this location is currently not used.
llvm::Value *RDTSCPWriteLocation;
/// A global variable, that keeps track if the performance monitor
/// initialization has already been run.
llvm::Value *AlreadyInitializedPtr;
llvm::Function *insertInitFunction(llvm::Function *FinalReporting);
/// Add Function @p to list of global constructors
///
/// If no global constructors are available in this current module, insert
/// a new list of global constructors containing @p Fn as only global
/// constructor. Otherwise, append @p Fn to the list of global constructors.
///
/// All functions listed as global constructors are executed before the
/// main() function is called.
///
/// @param Fn Function to add to global constructors
void addToGlobalConstructors(llvm::Function *Fn);
/// Add global variables to module.
///
/// Insert a set of global variables that are used to track performance,
/// into the module (or obtain references to them if they already exist).
void addGlobalVariables();
/// Add per-scop tracking to module.
///
/// Insert the global variable which is used to track the number of cycles
/// this scop runs.
void addScopCounter();
/// Get a reference to the intrinsic "i64 @llvm.x86.rdtscp(i8*)".
///
/// The rdtscp function returns the current value of the processor's
/// time-stamp counter as well as the current CPU identifier. On modern x86
/// systems, the returned value is independent of the dynamic clock frequency
/// and consistent across multiple cores. It can consequently be used to get
/// accurate and low-overhead timing information. Even though the counter is
/// wrapping, it can be reliably used even for measuring longer time
/// intervals, as on a 1 GHz processor the counter only wraps every 545 years.
///
/// The RDTSCP instruction is "pseudo" serializing:
///
/// "“The RDTSCP instruction waits until all previous instructions have been
/// executed before reading the counter. However, subsequent instructions may
/// begin execution before the read operation is performed.”
///
/// To ensure that no later instructions are scheduled before the RDTSCP
/// instruction it is often recommended to schedule a cpuid call after the
/// RDTSCP instruction. We do not do this yet, trading some imprecision in
/// our timing for a reduced overhead in our timing.
///
/// @returns A reference to the declaration of @llvm.x86.rdtscp.
llvm::Function *getRDTSCP();
/// Get a reference to "int atexit(void (*function)(void))" function.
///
/// This function allows to register function pointers that must be executed
/// when the program is terminated.
///
/// @returns A reference to @atexit().
llvm::Function *getAtExit();
/// Create function "__polly_perf_final_reporting".
///
/// This function finalizes the performance measurements and prints the
/// results to stdout. It is expected to be registered with 'atexit()'.
llvm::Function *insertFinalReporting();
/// Append Scop reporting data to "__polly_perf_final_reporting".
///
/// This function appends the current scop (S)'s information to the final
/// printing function.
void AppendScopReporting();
};
} // namespace polly
#endif