#include "llvm/Support/DebugCounter.h" #include "DebugOptions.h" #include "llvm/Support/CommandLine.h" #include "llvm/Support/Format.h" using namespace llvm; namespace llvm { void DebugCounter::Chunk::print(llvm::raw_ostream &OS) { if (Begin == End) OS << Begin; else OS << Begin << "-" << End; } void DebugCounter::printChunks(raw_ostream &OS, ArrayRef Chunks) { if (Chunks.empty()) { OS << "empty"; } else { bool IsFirst = true; for (auto E : Chunks) { if (!IsFirst) OS << ':'; else IsFirst = false; E.print(OS); } } } bool DebugCounter::parseChunks(StringRef Str, SmallVector &Chunks) { StringRef Remaining = Str; auto ConsumeInt = [&]() -> int64_t { StringRef Number = Remaining.take_until([](char c) { return c < '0' || c > '9'; }); int64_t Res; if (Number.getAsInteger(10, Res)) { errs() << "Failed to parse int at : " << Remaining << "\n"; return -1; } Remaining = Remaining.drop_front(Number.size()); return Res; }; while (1) { int64_t Num = ConsumeInt(); if (Num == -1) return true; if (!Chunks.empty() && Num <= Chunks[Chunks.size() - 1].End) { errs() << "Expected Chunks to be in increasing order " << Num << " <= " << Chunks[Chunks.size() - 1].End << "\n"; return true; } if (Remaining.starts_with("-")) { Remaining = Remaining.drop_front(); int64_t Num2 = ConsumeInt(); if (Num2 == -1) return true; if (Num >= Num2) { errs() << "Expected " << Num << " < " << Num2 << " in " << Num << "-" << Num2 << "\n"; return true; } Chunks.push_back({Num, Num2}); } else { Chunks.push_back({Num, Num}); } if (Remaining.starts_with(":")) { Remaining = Remaining.drop_front(); continue; } if (Remaining.empty()) break; errs() << "Failed to parse at : " << Remaining; return true; } return false; } } // namespace llvm namespace { // This class overrides the default list implementation of printing so we // can pretty print the list of debug counter options. This type of // dynamic option is pretty rare (basically this and pass lists). class DebugCounterList : public cl::list { private: using Base = cl::list; public: template explicit DebugCounterList(Mods &&... Ms) : Base(std::forward(Ms)...) {} private: void printOptionInfo(size_t GlobalWidth) const override { // This is a variant of from generic_parser_base::printOptionInfo. Sadly, // it's not easy to make it more usable. We could get it to print these as // options if we were a cl::opt and registered them, but lists don't have // options, nor does the parser for std::string. The other mechanisms for // options are global and would pollute the global namespace with our // counters. Rather than go that route, we have just overridden the // printing, which only a few things call anyway. outs() << " -" << ArgStr; // All of the other options in CommandLine.cpp use ArgStr.size() + 6 for // width, so we do the same. Option::printHelpStr(HelpStr, GlobalWidth, ArgStr.size() + 6); const auto &CounterInstance = DebugCounter::instance(); for (const auto &Name : CounterInstance) { const auto Info = CounterInstance.getCounterInfo(CounterInstance.getCounterId(Name)); size_t NumSpaces = GlobalWidth - Info.first.size() - 8; outs() << " =" << Info.first; outs().indent(NumSpaces) << " - " << Info.second << '\n'; } } }; // All global objects associated to the DebugCounter, including the DebugCounter // itself, are owned by a single global instance of the DebugCounterOwner // struct. This makes it easier to control the order in which constructors and // destructors are run. struct DebugCounterOwner : DebugCounter { DebugCounterList DebugCounterOption{ "debug-counter", cl::Hidden, cl::desc("Comma separated list of debug counter skip and count"), cl::CommaSeparated, cl::location(*this)}; cl::opt PrintDebugCounter{ "print-debug-counter", cl::Hidden, cl::Optional, cl::location(this->ShouldPrintCounter), cl::init(false), cl::desc("Print out debug counter info after all counters accumulated")}; cl::opt BreakOnLastCount{ "debug-counter-break-on-last", cl::Hidden, cl::Optional, cl::location(this->BreakOnLast), cl::init(false), cl::desc("Insert a break point on the last enabled count of a " "chunks list")}; DebugCounterOwner() { // Our destructor uses the debug stream. By referencing it here, we // ensure that its destructor runs after our destructor. (void)dbgs(); } // Print information when destroyed, iff command line option is specified. ~DebugCounterOwner() { if (ShouldPrintCounter) print(dbgs()); } }; } // anonymous namespace void llvm::initDebugCounterOptions() { (void)DebugCounter::instance(); } DebugCounter &DebugCounter::instance() { static DebugCounterOwner O; return O; } // This is called by the command line parser when it sees a value for the // debug-counter option defined above. void DebugCounter::push_back(const std::string &Val) { if (Val.empty()) return; // The strings should come in as counter=chunk_list auto CounterPair = StringRef(Val).split('='); if (CounterPair.second.empty()) { errs() << "DebugCounter Error: " << Val << " does not have an = in it\n"; return; } StringRef CounterName = CounterPair.first; SmallVector Chunks; if (parseChunks(CounterPair.second, Chunks)) { return; } unsigned CounterID = getCounterId(std::string(CounterName)); if (!CounterID) { errs() << "DebugCounter Error: " << CounterName << " is not a registered counter\n"; return; } enableAllCounters(); CounterInfo &Counter = Counters[CounterID]; Counter.IsSet = true; Counter.Chunks = std::move(Chunks); } void DebugCounter::print(raw_ostream &OS) const { SmallVector CounterNames(RegisteredCounters.begin(), RegisteredCounters.end()); sort(CounterNames); auto &Us = instance(); OS << "Counters and values:\n"; for (auto &CounterName : CounterNames) { unsigned CounterID = getCounterId(std::string(CounterName)); OS << left_justify(RegisteredCounters[CounterID], 32) << ": {" << Us.Counters[CounterID].Count << ","; printChunks(OS, Us.Counters[CounterID].Chunks); OS << "}\n"; } } bool DebugCounter::shouldExecuteImpl(unsigned CounterName) { auto &Us = instance(); auto Result = Us.Counters.find(CounterName); if (Result != Us.Counters.end()) { auto &CounterInfo = Result->second; int64_t CurrCount = CounterInfo.Count++; uint64_t CurrIdx = CounterInfo.CurrChunkIdx; if (CounterInfo.Chunks.empty()) return true; if (CurrIdx >= CounterInfo.Chunks.size()) return false; bool Res = CounterInfo.Chunks[CurrIdx].contains(CurrCount); if (Us.BreakOnLast && CurrIdx == (CounterInfo.Chunks.size() - 1) && CurrCount == CounterInfo.Chunks[CurrIdx].End) { LLVM_BUILTIN_DEBUGTRAP; } if (CurrCount > CounterInfo.Chunks[CurrIdx].End) { CounterInfo.CurrChunkIdx++; /// Handle consecutive blocks. if (CounterInfo.CurrChunkIdx < CounterInfo.Chunks.size() && CurrCount == CounterInfo.Chunks[CounterInfo.CurrChunkIdx].Begin) return true; } return Res; } // Didn't find the counter, should we warn? return true; } LLVM_DUMP_METHOD void DebugCounter::dump() const { print(dbgs()); }