forked from OSchip/llvm-project
294 lines
9.4 KiB
C++
294 lines
9.4 KiB
C++
//===- PassTimingInfo.cpp - LLVM Pass Timing Implementation ---------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the LLVM Pass Timing infrastructure for both
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// new and legacy pass managers.
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//
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// PassTimingInfo Class - This class is used to calculate information about the
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// amount of time each pass takes to execute. This only happens when
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// -time-passes is enabled on the command line.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/IR/PassTimingInfo.h"
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#include "llvm/ADT/Statistic.h"
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#include "llvm/IR/PassInstrumentation.h"
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#include "llvm/Pass.h"
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#include "llvm/Support/CommandLine.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/FormatVariadic.h"
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#include "llvm/Support/ManagedStatic.h"
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#include "llvm/Support/Mutex.h"
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#include "llvm/Support/TypeName.h"
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#include "llvm/Support/raw_ostream.h"
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#include <string>
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using namespace llvm;
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#define DEBUG_TYPE "time-passes"
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namespace llvm {
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bool TimePassesIsEnabled = false;
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bool TimePassesPerRun = false;
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static cl::opt<bool, true> EnableTiming(
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"time-passes", cl::location(TimePassesIsEnabled), cl::Hidden,
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cl::desc("Time each pass, printing elapsed time for each on exit"));
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static cl::opt<bool, true> EnableTimingPerRun(
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"time-passes-per-run", cl::location(TimePassesPerRun), cl::Hidden,
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cl::desc("Time each pass run, printing elapsed time for each run on exit"),
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cl::callback([](const bool &) { TimePassesIsEnabled = true; }));
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namespace {
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namespace legacy {
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//===----------------------------------------------------------------------===//
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// Legacy pass manager's PassTimingInfo implementation
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/// Provides an interface for collecting pass timing information.
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///
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/// It was intended to be generic but now we decided to split
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/// interfaces completely. This is now exclusively for legacy-pass-manager use.
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class PassTimingInfo {
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public:
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using PassInstanceID = void *;
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private:
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StringMap<unsigned> PassIDCountMap; ///< Map that counts instances of passes
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DenseMap<PassInstanceID, std::unique_ptr<Timer>> TimingData; ///< timers for pass instances
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TimerGroup TG;
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public:
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/// Default constructor for yet-inactive timeinfo.
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/// Use \p init() to activate it.
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PassTimingInfo();
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/// Print out timing information and release timers.
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~PassTimingInfo();
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/// Initializes the static \p TheTimeInfo member to a non-null value when
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/// -time-passes is enabled. Leaves it null otherwise.
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///
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/// This method may be called multiple times.
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static void init();
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/// Prints out timing information and then resets the timers.
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/// By default it uses the stream created by CreateInfoOutputFile().
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void print(raw_ostream *OutStream = nullptr);
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/// Returns the timer for the specified pass if it exists.
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Timer *getPassTimer(Pass *, PassInstanceID);
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static PassTimingInfo *TheTimeInfo;
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private:
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Timer *newPassTimer(StringRef PassID, StringRef PassDesc);
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};
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static ManagedStatic<sys::SmartMutex<true>> TimingInfoMutex;
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PassTimingInfo::PassTimingInfo()
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: TG("pass", "... Pass execution timing report ...") {}
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PassTimingInfo::~PassTimingInfo() {
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// Deleting the timers accumulates their info into the TG member.
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// Then TG member is (implicitly) deleted, actually printing the report.
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TimingData.clear();
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}
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void PassTimingInfo::init() {
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if (!TimePassesIsEnabled || TheTimeInfo)
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return;
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// Constructed the first time this is called, iff -time-passes is enabled.
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// This guarantees that the object will be constructed after static globals,
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// thus it will be destroyed before them.
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static ManagedStatic<PassTimingInfo> TTI;
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TheTimeInfo = &*TTI;
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}
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/// Prints out timing information and then resets the timers.
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void PassTimingInfo::print(raw_ostream *OutStream) {
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TG.print(OutStream ? *OutStream : *CreateInfoOutputFile(), true);
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}
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Timer *PassTimingInfo::newPassTimer(StringRef PassID, StringRef PassDesc) {
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unsigned &num = PassIDCountMap[PassID];
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num++;
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// Appending description with a pass-instance number for all but the first one
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std::string PassDescNumbered =
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num <= 1 ? PassDesc.str() : formatv("{0} #{1}", PassDesc, num).str();
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return new Timer(PassID, PassDescNumbered, TG);
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}
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Timer *PassTimingInfo::getPassTimer(Pass *P, PassInstanceID Pass) {
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if (P->getAsPMDataManager())
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return nullptr;
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init();
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sys::SmartScopedLock<true> Lock(*TimingInfoMutex);
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std::unique_ptr<Timer> &T = TimingData[Pass];
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if (!T) {
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StringRef PassName = P->getPassName();
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StringRef PassArgument;
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if (const PassInfo *PI = Pass::lookupPassInfo(P->getPassID()))
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PassArgument = PI->getPassArgument();
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T.reset(newPassTimer(PassArgument.empty() ? PassName : PassArgument, PassName));
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}
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return T.get();
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}
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PassTimingInfo *PassTimingInfo::TheTimeInfo;
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} // namespace legacy
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} // namespace
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Timer *getPassTimer(Pass *P) {
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legacy::PassTimingInfo::init();
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if (legacy::PassTimingInfo::TheTimeInfo)
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return legacy::PassTimingInfo::TheTimeInfo->getPassTimer(P, P);
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return nullptr;
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}
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/// If timing is enabled, report the times collected up to now and then reset
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/// them.
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void reportAndResetTimings(raw_ostream *OutStream) {
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if (legacy::PassTimingInfo::TheTimeInfo)
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legacy::PassTimingInfo::TheTimeInfo->print(OutStream);
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}
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//===----------------------------------------------------------------------===//
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// Pass timing handling for the New Pass Manager
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//===----------------------------------------------------------------------===//
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/// Returns the timer for the specified pass invocation of \p PassID.
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/// Each time it creates a new timer.
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Timer &TimePassesHandler::getPassTimer(StringRef PassID) {
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if (!PerRun) {
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TimerVector &Timers = TimingData[PassID];
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if (Timers.size() == 0)
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Timers.emplace_back(new Timer(PassID, PassID, TG));
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return *Timers.front();
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}
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// Take a vector of Timers created for this \p PassID and append
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// one more timer to it.
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TimerVector &Timers = TimingData[PassID];
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unsigned Count = Timers.size() + 1;
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std::string FullDesc = formatv("{0} #{1}", PassID, Count).str();
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Timer *T = new Timer(PassID, FullDesc, TG);
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Timers.emplace_back(T);
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assert(Count == Timers.size() && "sanity check");
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return *T;
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}
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TimePassesHandler::TimePassesHandler(bool Enabled, bool PerRun)
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: TG("pass", "... Pass execution timing report ..."), Enabled(Enabled),
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PerRun(PerRun) {}
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TimePassesHandler::TimePassesHandler()
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: TimePassesHandler(TimePassesIsEnabled, TimePassesPerRun) {}
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void TimePassesHandler::setOutStream(raw_ostream &Out) {
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OutStream = &Out;
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}
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void TimePassesHandler::print() {
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if (!Enabled)
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return;
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TG.print(OutStream ? *OutStream : *CreateInfoOutputFile(), true);
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}
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LLVM_DUMP_METHOD void TimePassesHandler::dump() const {
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dbgs() << "Dumping timers for " << getTypeName<TimePassesHandler>()
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<< ":\n\tRunning:\n";
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for (auto &I : TimingData) {
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StringRef PassID = I.getKey();
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const TimerVector& MyTimers = I.getValue();
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for (unsigned idx = 0; idx < MyTimers.size(); idx++) {
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const Timer* MyTimer = MyTimers[idx].get();
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if (MyTimer && MyTimer->isRunning())
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dbgs() << "\tTimer " << MyTimer << " for pass " << PassID << "(" << idx << ")\n";
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}
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}
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dbgs() << "\tTriggered:\n";
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for (auto &I : TimingData) {
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StringRef PassID = I.getKey();
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const TimerVector& MyTimers = I.getValue();
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for (unsigned idx = 0; idx < MyTimers.size(); idx++) {
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const Timer* MyTimer = MyTimers[idx].get();
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if (MyTimer && MyTimer->hasTriggered() && !MyTimer->isRunning())
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dbgs() << "\tTimer " << MyTimer << " for pass " << PassID << "(" << idx << ")\n";
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}
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}
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}
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void TimePassesHandler::startTimer(StringRef PassID) {
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Timer &MyTimer = getPassTimer(PassID);
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TimerStack.push_back(&MyTimer);
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if (!MyTimer.isRunning())
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MyTimer.startTimer();
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}
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void TimePassesHandler::stopTimer(StringRef PassID) {
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assert(TimerStack.size() > 0 && "empty stack in popTimer");
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Timer *MyTimer = TimerStack.pop_back_val();
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assert(MyTimer && "timer should be present");
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if (MyTimer->isRunning())
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MyTimer->stopTimer();
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}
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void TimePassesHandler::runBeforePass(StringRef PassID) {
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if (isSpecialPass(PassID,
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{"PassManager", "PassAdaptor", "AnalysisManagerProxy"}))
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return;
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startTimer(PassID);
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LLVM_DEBUG(dbgs() << "after runBeforePass(" << PassID << ")\n");
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LLVM_DEBUG(dump());
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}
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void TimePassesHandler::runAfterPass(StringRef PassID) {
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if (isSpecialPass(PassID,
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{"PassManager", "PassAdaptor", "AnalysisManagerProxy"}))
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return;
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stopTimer(PassID);
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LLVM_DEBUG(dbgs() << "after runAfterPass(" << PassID << ")\n");
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LLVM_DEBUG(dump());
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}
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void TimePassesHandler::registerCallbacks(PassInstrumentationCallbacks &PIC) {
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if (!Enabled)
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return;
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PIC.registerBeforeNonSkippedPassCallback(
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[this](StringRef P, Any) { this->runBeforePass(P); });
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PIC.registerAfterPassCallback(
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[this](StringRef P, Any, const PreservedAnalyses &) {
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this->runAfterPass(P);
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});
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PIC.registerAfterPassInvalidatedCallback(
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[this](StringRef P, const PreservedAnalyses &) {
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this->runAfterPass(P);
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});
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PIC.registerBeforeAnalysisCallback(
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[this](StringRef P, Any) { this->runBeforePass(P); });
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PIC.registerAfterAnalysisCallback(
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[this](StringRef P, Any) { this->runAfterPass(P); });
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}
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} // namespace llvm
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