third_party/llvm-16.0/llvm/include/llvm/Support/TimeProfiler.h - SwiftShader - Git at Google

 //===- llvm/Support/TimeProfiler.h - Hierarchical Time Profiler -*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // This provides lightweight and dependency-free machinery to trace execution
 // time around arbitrary code. Two API flavors are available.
 //
 // The primary API uses a RAII object to trigger tracing:
 //
 // \code
 //   {
 //     TimeTraceScope scope("my_event_name");
 //     ...my code...
 //   }
 // \endcode
 //
 // If the code to be profiled does not have a natural lexical scope then
 // it is also possible to start and end events with respect to an implicit
 // per-thread stack of profiling entries:
 //
 // \code
 //   timeTraceProfilerBegin("my_event_name");
 //   ...my code...
 //   timeTraceProfilerEnd();  // must be called on all control flow paths
 // \endcode
 //
 // Time profiling entries can be given an arbitrary name and, optionally,
 // an arbitrary 'detail' string. The resulting trace will include 'Total'
 // entries summing the time spent for each name. Thus, it's best to choose
 // names to be fairly generic, and rely on the detail field to capture
 // everything else of interest.
 //
 // To avoid lifetime issues name and detail strings are copied into the event
 // entries at their time of creation. Care should be taken to make string
 // construction cheap to prevent 'Heisenperf' effects. In particular, the
 // 'detail' argument may be a string-returning closure:
 //
 // \code
 //   int n;
 //   {
 //     TimeTraceScope scope("my_event_name",
 //                          [n]() { return (Twine("x=") + Twine(n)).str(); });
 //     ...my code...
 //   }
 // \endcode
 // The closure will not be called if tracing is disabled. Otherwise, the
 // resulting string will be directly moved into the entry.
 //
 // The main process should begin with a timeTraceProfilerInitialize, and
 // finish with timeTraceProfileWrite and timeTraceProfilerCleanup calls.
 // Each new thread should begin with a timeTraceProfilerInitialize, and
 // finish with a timeTraceProfilerFinishThread call.
 //
 // Timestamps come from std::chrono::stable_clock. Note that threads need
 // not see the same time from that clock, and the resolution may not be
 // the best available.
 //
 // Currently, there are a number of compatible viewers:
 //  - chrome://tracing is the original chromium trace viewer.
 //  - http://ui.perfetto.dev is the replacement for the above, under active
 //    development by Google as part of the 'Perfetto' project.
 //  - https://www.speedscope.app/ has also been reported as an option.
 //
 // Future work:
 //  - Support akin to LLVM_DEBUG for runtime enable/disable of named tracing
 //    families for non-debug builds which wish to support optional tracing.
 //  - Evaluate the detail closures at profile write time to avoid
 //    stringification costs interfering with tracing.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_SUPPORT_TIMEPROFILER_H
 #define LLVM_SUPPORT_TIMEPROFILER_H

 #include "llvm/ADT/STLFunctionalExtras.h"
 #include "llvm/Support/Error.h"

 namespace llvm {

 class raw_pwrite_stream;

 struct TimeTraceProfiler;
 TimeTraceProfiler *getTimeTraceProfilerInstance();

 /// Initialize the time trace profiler.
 /// This sets up the global \p TimeTraceProfilerInstance
 /// variable to be the profiler instance.
 void timeTraceProfilerInitialize(unsigned TimeTraceGranularity,
                                  StringRef ProcName);

 /// Cleanup the time trace profiler, if it was initialized.
 void timeTraceProfilerCleanup();

 /// Finish a time trace profiler running on a worker thread.
 void timeTraceProfilerFinishThread();

 /// Is the time trace profiler enabled, i.e. initialized?
 inline bool timeTraceProfilerEnabled() {
   return getTimeTraceProfilerInstance() != nullptr;
 }

 /// Write profiling data to output stream.
 /// Data produced is JSON, in Chrome "Trace Event" format, see
 /// https://docs.google.com/document/d/1CvAClvFfyA5R-PhYUmn5OOQtYMH4h6I0nSsKchNAySU/preview
 void timeTraceProfilerWrite(raw_pwrite_stream &OS);

 /// Write profiling data to a file.
 /// The function will write to \p PreferredFileName if provided, if not
 /// then will write to \p FallbackFileName appending .time-trace.
 /// Returns a StringError indicating a failure if the function is
 /// unable to open the file for writing.
 Error timeTraceProfilerWrite(StringRef PreferredFileName,
                              StringRef FallbackFileName);

 /// Manually begin a time section, with the given \p Name and \p Detail.
 /// Profiler copies the string data, so the pointers can be given into
 /// temporaries. Time sections can be hierarchical; every Begin must have a
 /// matching End pair but they can nest.
 void timeTraceProfilerBegin(StringRef Name, StringRef Detail);
 void timeTraceProfilerBegin(StringRef Name,
                             llvm::function_ref<std::string()> Detail);

 /// Manually end the last time section.
 void timeTraceProfilerEnd();

 /// The TimeTraceScope is a helper class to call the begin and end functions
 /// of the time trace profiler.  When the object is constructed, it begins
 /// the section; and when it is destroyed, it stops it. If the time profiler
 /// is not initialized, the overhead is a single branch.
 struct TimeTraceScope {

   TimeTraceScope() = delete;
   TimeTraceScope(const TimeTraceScope &) = delete;
   TimeTraceScope &operator=(const TimeTraceScope &) = delete;
   TimeTraceScope(TimeTraceScope &&) = delete;
   TimeTraceScope &operator=(TimeTraceScope &&) = delete;

   TimeTraceScope(StringRef Name) {
     if (getTimeTraceProfilerInstance() != nullptr)
       timeTraceProfilerBegin(Name, StringRef(""));
   }
   TimeTraceScope(StringRef Name, StringRef Detail) {
     if (getTimeTraceProfilerInstance() != nullptr)
       timeTraceProfilerBegin(Name, Detail);
   }
   TimeTraceScope(StringRef Name, llvm::function_ref<std::string()> Detail) {
     if (getTimeTraceProfilerInstance() != nullptr)
       timeTraceProfilerBegin(Name, Detail);
   }
   ~TimeTraceScope() {
     if (getTimeTraceProfilerInstance() != nullptr)
       timeTraceProfilerEnd();
   }
 };

 } // end namespace llvm

 #endif
	//===- llvm/Support/TimeProfiler.h - Hierarchical Time Profiler -- C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// This provides lightweight and dependency-free machinery to trace execution
	// time around arbitrary code. Two API flavors are available.
	//
	// The primary API uses a RAII object to trigger tracing:
	//
	// \code
	// {
	// TimeTraceScope scope("my_event_name");
	// ...my code...
	// }
	// \endcode
	//
	// If the code to be profiled does not have a natural lexical scope then
	// it is also possible to start and end events with respect to an implicit
	// per-thread stack of profiling entries:
	//
	// \code
	// timeTraceProfilerBegin("my_event_name");
	// ...my code...
	// timeTraceProfilerEnd(); // must be called on all control flow paths
	// \endcode
	//
	// Time profiling entries can be given an arbitrary name and, optionally,
	// an arbitrary 'detail' string. The resulting trace will include 'Total'
	// entries summing the time spent for each name. Thus, it's best to choose
	// names to be fairly generic, and rely on the detail field to capture
	// everything else of interest.
	//
	// To avoid lifetime issues name and detail strings are copied into the event
	// entries at their time of creation. Care should be taken to make string
	// construction cheap to prevent 'Heisenperf' effects. In particular, the
	// 'detail' argument may be a string-returning closure:
	//
	// \code
	// int n;
	// {
	// TimeTraceScope scope("my_event_name",
	// [n]() { return (Twine("x=") + Twine(n)).str(); });
	// ...my code...
	// }
	// \endcode
	// The closure will not be called if tracing is disabled. Otherwise, the
	// resulting string will be directly moved into the entry.
	//
	// The main process should begin with a timeTraceProfilerInitialize, and
	// finish with timeTraceProfileWrite and timeTraceProfilerCleanup calls.
	// Each new thread should begin with a timeTraceProfilerInitialize, and
	// finish with a timeTraceProfilerFinishThread call.
	//
	// Timestamps come from std::chrono::stable_clock. Note that threads need
	// not see the same time from that clock, and the resolution may not be
	// the best available.
	//
	// Currently, there are a number of compatible viewers:
	// - chrome://tracing is the original chromium trace viewer.
	// - http://ui.perfetto.dev is the replacement for the above, under active
	// development by Google as part of the 'Perfetto' project.
	// - https://www.speedscope.app/ has also been reported as an option.
	//
	// Future work:
	// - Support akin to LLVM_DEBUG for runtime enable/disable of named tracing
	// families for non-debug builds which wish to support optional tracing.
	// - Evaluate the detail closures at profile write time to avoid
	// stringification costs interfering with tracing.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_SUPPORT_TIMEPROFILER_H
	#define LLVM_SUPPORT_TIMEPROFILER_H

	#include "llvm/ADT/STLFunctionalExtras.h"
	#include "llvm/Support/Error.h"

	namespace llvm {

	class raw_pwrite_stream;

	struct TimeTraceProfiler;
	TimeTraceProfiler *getTimeTraceProfilerInstance();

	/// Initialize the time trace profiler.
	/// This sets up the global \p TimeTraceProfilerInstance
	/// variable to be the profiler instance.
	void timeTraceProfilerInitialize(unsigned TimeTraceGranularity,
	StringRef ProcName);

	/// Cleanup the time trace profiler, if it was initialized.
	void timeTraceProfilerCleanup();

	/// Finish a time trace profiler running on a worker thread.
	void timeTraceProfilerFinishThread();

	/// Is the time trace profiler enabled, i.e. initialized?
	inline bool timeTraceProfilerEnabled() {
	return getTimeTraceProfilerInstance() != nullptr;
	}

	/// Write profiling data to output stream.
	/// Data produced is JSON, in Chrome "Trace Event" format, see
	/// https://docs.google.com/document/d/1CvAClvFfyA5R-PhYUmn5OOQtYMH4h6I0nSsKchNAySU/preview
	void timeTraceProfilerWrite(raw_pwrite_stream &OS);

	/// Write profiling data to a file.
	/// The function will write to \p PreferredFileName if provided, if not
	/// then will write to \p FallbackFileName appending .time-trace.
	/// Returns a StringError indicating a failure if the function is
	/// unable to open the file for writing.
	Error timeTraceProfilerWrite(StringRef PreferredFileName,
	StringRef FallbackFileName);

	/// Manually begin a time section, with the given \p Name and \p Detail.
	/// Profiler copies the string data, so the pointers can be given into
	/// temporaries. Time sections can be hierarchical; every Begin must have a
	/// matching End pair but they can nest.
	void timeTraceProfilerBegin(StringRef Name, StringRef Detail);
	void timeTraceProfilerBegin(StringRef Name,
	llvm::function_ref<std::string()> Detail);

	/// Manually end the last time section.
	void timeTraceProfilerEnd();

	/// The TimeTraceScope is a helper class to call the begin and end functions
	/// of the time trace profiler. When the object is constructed, it begins
	/// the section; and when it is destroyed, it stops it. If the time profiler
	/// is not initialized, the overhead is a single branch.
	struct TimeTraceScope {

	TimeTraceScope() = delete;
	TimeTraceScope(const TimeTraceScope &) = delete;
	TimeTraceScope &operator=(const TimeTraceScope &) = delete;
	TimeTraceScope(TimeTraceScope &&) = delete;
	TimeTraceScope &operator=(TimeTraceScope &&) = delete;

	TimeTraceScope(StringRef Name) {
	if (getTimeTraceProfilerInstance() != nullptr)
	timeTraceProfilerBegin(Name, StringRef(""));
	}
	TimeTraceScope(StringRef Name, StringRef Detail) {
	if (getTimeTraceProfilerInstance() != nullptr)
	timeTraceProfilerBegin(Name, Detail);
	}
	TimeTraceScope(StringRef Name, llvm::function_ref<std::string()> Detail) {
	if (getTimeTraceProfilerInstance() != nullptr)
	timeTraceProfilerBegin(Name, Detail);
	}
	~TimeTraceScope() {
	if (getTimeTraceProfilerInstance() != nullptr)
	timeTraceProfilerEnd();
	}
	};

	} // end namespace llvm

	#endif