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 //===-- llvm/Support/Timer.h - Interval Timing Support ----------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_SUPPORT_TIMER_H
 #define LLVM_SUPPORT_TIMER_H

 #include "llvm/ADT/StringRef.h"
 #include "llvm/Support/DataTypes.h"
 #include <cassert>
 #include <string>
 #include <utility>
 #include <vector>

 namespace llvm {

 class Timer;
 class TimerGroup;
 class raw_ostream;

 class TimeRecord {
   double WallTime;       ///< Wall clock time elapsed in seconds.
   double UserTime;       ///< User time elapsed.
   double SystemTime;     ///< System time elapsed.
   ssize_t MemUsed;       ///< Memory allocated (in bytes).
 public:
   TimeRecord() : WallTime(0), UserTime(0), SystemTime(0), MemUsed(0) {}

   /// Get the current time and memory usage.  If Start is true we get the memory
   /// usage before the time, otherwise we get time before memory usage.  This
   /// matters if the time to get the memory usage is significant and shouldn't
   /// be counted as part of a duration.
   static TimeRecord getCurrentTime(bool Start = true);

   double getProcessTime() const { return UserTime + SystemTime; }
   double getUserTime() const { return UserTime; }
   double getSystemTime() const { return SystemTime; }
   double getWallTime() const { return WallTime; }
   ssize_t getMemUsed() const { return MemUsed; }

   bool operator<(const TimeRecord &T) const {
     // Sort by Wall Time elapsed, as it is the only thing really accurate
     return WallTime < T.WallTime;
   }

   void operator+=(const TimeRecord &RHS) {
     WallTime   += RHS.WallTime;
     UserTime   += RHS.UserTime;
     SystemTime += RHS.SystemTime;
     MemUsed    += RHS.MemUsed;
   }
   void operator-=(const TimeRecord &RHS) {
     WallTime   -= RHS.WallTime;
     UserTime   -= RHS.UserTime;
     SystemTime -= RHS.SystemTime;
     MemUsed    -= RHS.MemUsed;
   }

   /// Print the current time record to \p OS, with a breakdown showing
   /// contributions to the \p Total time record.
   void print(const TimeRecord &Total, raw_ostream &OS) const;
 };

 /// This class is used to track the amount of time spent between invocations of
 /// its startTimer()/stopTimer() methods.  Given appropriate OS support it can
 /// also keep track of the RSS of the program at various points.  By default,
 /// the Timer will print the amount of time it has captured to standard error
 /// when the last timer is destroyed, otherwise it is printed when its
 /// TimerGroup is destroyed.  Timers do not print their information if they are
 /// never started.
 class Timer {
   TimeRecord Time;          ///< The total time captured.
   TimeRecord StartTime;     ///< The time startTimer() was last called.
   std::string Name;         ///< The name of this time variable.
   std::string Description;  ///< Description of this time variable.
   bool Running;             ///< Is the timer currently running?
   bool Triggered;           ///< Has the timer ever been triggered?
   TimerGroup *TG = nullptr; ///< The TimerGroup this Timer is in.

   Timer **Prev;             ///< Pointer to \p Next of previous timer in group.
   Timer *Next;              ///< Next timer in the group.
 public:
   explicit Timer(StringRef Name, StringRef Description) {
     init(Name, Description);
   }
   Timer(StringRef Name, StringRef Description, TimerGroup &tg) {
     init(Name, Description, tg);
   }
   Timer(const Timer &RHS) {
     assert(!RHS.TG && "Can only copy uninitialized timers");
   }
   const Timer &operator=(const Timer &T) {
     assert(!TG && !T.TG && "Can only assign uninit timers");
     return *this;
   }
   ~Timer();

   /// Create an uninitialized timer, client must use 'init'.
   explicit Timer() {}
   void init(StringRef Name, StringRef Description);
   void init(StringRef Name, StringRef Description, TimerGroup &tg);

   const std::string &getName() const { return Name; }
   const std::string &getDescription() const { return Description; }
   bool isInitialized() const { return TG != nullptr; }

   /// Check if the timer is currently running.
   bool isRunning() const { return Running; }

   /// Check if startTimer() has ever been called on this timer.
   bool hasTriggered() const { return Triggered; }

   /// Start the timer running.  Time between calls to startTimer/stopTimer is
   /// counted by the Timer class.  Note that these calls must be correctly
   /// paired.
   void startTimer();

   /// Stop the timer.
   void stopTimer();

   /// Clear the timer state.
   void clear();

   /// Return the duration for which this timer has been running.
   TimeRecord getTotalTime() const { return Time; }

 private:
   friend class TimerGroup;
 };

 /// The TimeRegion class is used as a helper class to call the startTimer() and
 /// stopTimer() methods of the Timer class.  When the object is constructed, it
 /// starts the timer specified as its argument.  When it is destroyed, it stops
 /// the relevant timer.  This makes it easy to time a region of code.
 class TimeRegion {
   Timer *T;
   TimeRegion(const TimeRegion &) = delete;

 public:
   explicit TimeRegion(Timer &t) : T(&t) {
     T->startTimer();
   }
   explicit TimeRegion(Timer *t) : T(t) {
     if (T) T->startTimer();
   }
   ~TimeRegion() {
     if (T) T->stopTimer();
   }
 };

 /// This class is basically a combination of TimeRegion and Timer.  It allows
 /// you to declare a new timer, AND specify the region to time, all in one
 /// statement.  All timers with the same name are merged.  This is primarily
 /// used for debugging and for hunting performance problems.
 struct NamedRegionTimer : public TimeRegion {
   explicit NamedRegionTimer(StringRef Name, StringRef Description,
                             StringRef GroupName,
                             StringRef GroupDescription, bool Enabled = true);
 };

 /// The TimerGroup class is used to group together related timers into a single
 /// report that is printed when the TimerGroup is destroyed.  It is illegal to
 /// destroy a TimerGroup object before all of the Timers in it are gone.  A
 /// TimerGroup can be specified for a newly created timer in its constructor.
 class TimerGroup {
   struct PrintRecord {
     TimeRecord Time;
     std::string Name;
     std::string Description;

     PrintRecord(const PrintRecord &Other) = default;
     PrintRecord(const TimeRecord &Time, const std::string &Name,
                 const std::string &Description)
       : Time(Time), Name(Name), Description(Description) {}

     bool operator <(const PrintRecord &Other) const {
       return Time < Other.Time;
     }
   };
   std::string Name;
   std::string Description;
   Timer *FirstTimer = nullptr; ///< First timer in the group.
   std::vector<PrintRecord> TimersToPrint;

   TimerGroup **Prev; ///< Pointer to Next field of previous timergroup in list.
   TimerGroup *Next;  ///< Pointer to next timergroup in list.
   TimerGroup(const TimerGroup &TG) = delete;
   void operator=(const TimerGroup &TG) = delete;

 public:
   explicit TimerGroup(StringRef Name, StringRef Description);
   ~TimerGroup();

   void setName(StringRef NewName, StringRef NewDescription) {
     Name.assign(NewName.begin(), NewName.end());
     Description.assign(NewDescription.begin(), NewDescription.end());
   }

   /// Print any started timers in this group and zero them.
   void print(raw_ostream &OS);

   /// This static method prints all timers and clears them all out.
   static void printAll(raw_ostream &OS);

   /// Ensure global timer group lists are initialized. This function is mostly
   /// used by the Statistic code to influence the construction and destruction
   /// order of the global timer lists.
   static void ConstructTimerLists();
 private:
   friend class Timer;
   friend void PrintStatisticsJSON(raw_ostream &OS);
   void addTimer(Timer &T);
   void removeTimer(Timer &T);
   void prepareToPrintList();
   void PrintQueuedTimers(raw_ostream &OS);
   void printJSONValue(raw_ostream &OS, const PrintRecord &R,
                       const char *suffix, double Value);
   const char *printJSONValues(raw_ostream &OS, const char *delim);
   static const char *printAllJSONValues(raw_ostream &OS, const char *delim);
 };

 } // end namespace llvm

 #endif
	//===-- llvm/Support/Timer.h - Interval Timing Support ----------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_SUPPORT_TIMER_H
	#define LLVM_SUPPORT_TIMER_H

	#include "llvm/ADT/StringRef.h"
	#include "llvm/Support/DataTypes.h"
	#include <cassert>
	#include <string>
	#include <utility>
	#include <vector>

	namespace llvm {

	class Timer;
	class TimerGroup;
	class raw_ostream;

	class TimeRecord {
	double WallTime; ///< Wall clock time elapsed in seconds.
	double UserTime; ///< User time elapsed.
	double SystemTime; ///< System time elapsed.
	ssize_t MemUsed; ///< Memory allocated (in bytes).
	public:
	TimeRecord() : WallTime(0), UserTime(0), SystemTime(0), MemUsed(0) {}

	/// Get the current time and memory usage. If Start is true we get the memory
	/// usage before the time, otherwise we get time before memory usage. This
	/// matters if the time to get the memory usage is significant and shouldn't
	/// be counted as part of a duration.
	static TimeRecord getCurrentTime(bool Start = true);

	double getProcessTime() const { return UserTime + SystemTime; }
	double getUserTime() const { return UserTime; }
	double getSystemTime() const { return SystemTime; }
	double getWallTime() const { return WallTime; }
	ssize_t getMemUsed() const { return MemUsed; }

	bool operator<(const TimeRecord &T) const {
	// Sort by Wall Time elapsed, as it is the only thing really accurate
	return WallTime < T.WallTime;
	}

	void operator+=(const TimeRecord &RHS) {
	WallTime += RHS.WallTime;
	UserTime += RHS.UserTime;
	SystemTime += RHS.SystemTime;
	MemUsed += RHS.MemUsed;
	}
	void operator-=(const TimeRecord &RHS) {
	WallTime -= RHS.WallTime;
	UserTime -= RHS.UserTime;
	SystemTime -= RHS.SystemTime;
	MemUsed -= RHS.MemUsed;
	}

	/// Print the current time record to \p OS, with a breakdown showing
	/// contributions to the \p Total time record.
	void print(const TimeRecord &Total, raw_ostream &OS) const;
	};

	/// This class is used to track the amount of time spent between invocations of
	/// its startTimer()/stopTimer() methods. Given appropriate OS support it can
	/// also keep track of the RSS of the program at various points. By default,
	/// the Timer will print the amount of time it has captured to standard error
	/// when the last timer is destroyed, otherwise it is printed when its
	/// TimerGroup is destroyed. Timers do not print their information if they are
	/// never started.
	class Timer {
	TimeRecord Time; ///< The total time captured.
	TimeRecord StartTime; ///< The time startTimer() was last called.
	std::string Name; ///< The name of this time variable.
	std::string Description; ///< Description of this time variable.
	bool Running; ///< Is the timer currently running?
	bool Triggered; ///< Has the timer ever been triggered?
	TimerGroup *TG = nullptr; ///< The TimerGroup this Timer is in.

	Timer **Prev; ///< Pointer to \p Next of previous timer in group.
	Timer *Next; ///< Next timer in the group.
	public:
	explicit Timer(StringRef Name, StringRef Description) {
	init(Name, Description);
	}
	Timer(StringRef Name, StringRef Description, TimerGroup &tg) {
	init(Name, Description, tg);
	}
	Timer(const Timer &RHS) {
	assert(!RHS.TG && "Can only copy uninitialized timers");
	}
	const Timer &operator=(const Timer &T) {
	assert(!TG && !T.TG && "Can only assign uninit timers");
	return *this;
	}
	~Timer();

	/// Create an uninitialized timer, client must use 'init'.
	explicit Timer() {}
	void init(StringRef Name, StringRef Description);
	void init(StringRef Name, StringRef Description, TimerGroup &tg);

	const std::string &getName() const { return Name; }
	const std::string &getDescription() const { return Description; }
	bool isInitialized() const { return TG != nullptr; }

	/// Check if the timer is currently running.
	bool isRunning() const { return Running; }

	/// Check if startTimer() has ever been called on this timer.
	bool hasTriggered() const { return Triggered; }

	/// Start the timer running. Time between calls to startTimer/stopTimer is
	/// counted by the Timer class. Note that these calls must be correctly
	/// paired.
	void startTimer();

	/// Stop the timer.
	void stopTimer();

	/// Clear the timer state.
	void clear();

	/// Return the duration for which this timer has been running.
	TimeRecord getTotalTime() const { return Time; }

	private:
	friend class TimerGroup;
	};

	/// The TimeRegion class is used as a helper class to call the startTimer() and
	/// stopTimer() methods of the Timer class. When the object is constructed, it
	/// starts the timer specified as its argument. When it is destroyed, it stops
	/// the relevant timer. This makes it easy to time a region of code.
	class TimeRegion {
	Timer *T;
	TimeRegion(const TimeRegion &) = delete;

	public:
	explicit TimeRegion(Timer &t) : T(&t) {
	T->startTimer();
	}
	explicit TimeRegion(Timer *t) : T(t) {
	if (T) T->startTimer();
	}
	~TimeRegion() {
	if (T) T->stopTimer();
	}
	};

	/// This class is basically a combination of TimeRegion and Timer. It allows
	/// you to declare a new timer, AND specify the region to time, all in one
	/// statement. All timers with the same name are merged. This is primarily
	/// used for debugging and for hunting performance problems.
	struct NamedRegionTimer : public TimeRegion {
	explicit NamedRegionTimer(StringRef Name, StringRef Description,
	StringRef GroupName,
	StringRef GroupDescription, bool Enabled = true);
	};

	/// The TimerGroup class is used to group together related timers into a single
	/// report that is printed when the TimerGroup is destroyed. It is illegal to
	/// destroy a TimerGroup object before all of the Timers in it are gone. A
	/// TimerGroup can be specified for a newly created timer in its constructor.
	class TimerGroup {
	struct PrintRecord {
	TimeRecord Time;
	std::string Name;
	std::string Description;

	PrintRecord(const PrintRecord &Other) = default;
	PrintRecord(const TimeRecord &Time, const std::string &Name,
	const std::string &Description)
	: Time(Time), Name(Name), Description(Description) {}

	bool operator <(const PrintRecord &Other) const {
	return Time < Other.Time;
	}
	};
	std::string Name;
	std::string Description;
	Timer *FirstTimer = nullptr; ///< First timer in the group.
	std::vector<PrintRecord> TimersToPrint;

	TimerGroup **Prev; ///< Pointer to Next field of previous timergroup in list.
	TimerGroup *Next; ///< Pointer to next timergroup in list.
	TimerGroup(const TimerGroup &TG) = delete;
	void operator=(const TimerGroup &TG) = delete;

	public:
	explicit TimerGroup(StringRef Name, StringRef Description);
	~TimerGroup();

	void setName(StringRef NewName, StringRef NewDescription) {
	Name.assign(NewName.begin(), NewName.end());
	Description.assign(NewDescription.begin(), NewDescription.end());
	}

	/// Print any started timers in this group and zero them.
	void print(raw_ostream &OS);

	/// This static method prints all timers and clears them all out.
	static void printAll(raw_ostream &OS);

	/// Ensure global timer group lists are initialized. This function is mostly
	/// used by the Statistic code to influence the construction and destruction
	/// order of the global timer lists.
	static void ConstructTimerLists();
	private:
	friend class Timer;
	friend void PrintStatisticsJSON(raw_ostream &OS);
	void addTimer(Timer &T);
	void removeTimer(Timer &T);
	void prepareToPrintList();
	void PrintQueuedTimers(raw_ostream &OS);
	void printJSONValue(raw_ostream &OS, const PrintRecord &R,
	const char *suffix, double Value);
	const char printJSONValues(raw_ostream &OS, const char delim);
	static const char printAllJSONValues(raw_ostream &OS, const char delim);
	};

	} // end namespace llvm

	#endif