1 #include "llvm/Support/DebugCounter.h"
2
3 #include "DebugOptions.h"
4
5 #include "llvm/Support/CommandLine.h"
6 #include "llvm/Support/Format.h"
7
8 using namespace llvm;
9
10 namespace llvm {
11
print(llvm::raw_ostream & OS)12 void DebugCounter::Chunk::print(llvm::raw_ostream &OS) {
13 if (Begin == End)
14 OS << Begin;
15 else
16 OS << Begin << "-" << End;
17 }
18
printChunks(raw_ostream & OS,ArrayRef<Chunk> Chunks)19 void DebugCounter::printChunks(raw_ostream &OS, ArrayRef<Chunk> Chunks) {
20 if (Chunks.empty()) {
21 OS << "empty";
22 } else {
23 bool IsFirst = true;
24 for (auto E : Chunks) {
25 if (!IsFirst)
26 OS << ':';
27 else
28 IsFirst = false;
29 E.print(OS);
30 }
31 }
32 }
33
parseChunks(StringRef Str,SmallVector<Chunk> & Chunks)34 bool DebugCounter::parseChunks(StringRef Str, SmallVector<Chunk> &Chunks) {
35 StringRef Remaining = Str;
36
37 auto ConsumeInt = [&]() -> int64_t {
38 StringRef Number =
39 Remaining.take_until([](char c) { return c < '0' || c > '9'; });
40 int64_t Res;
41 if (Number.getAsInteger(10, Res)) {
42 errs() << "Failed to parse int at : " << Remaining << "\n";
43 return -1;
44 }
45 Remaining = Remaining.drop_front(Number.size());
46 return Res;
47 };
48
49 while (1) {
50 int64_t Num = ConsumeInt();
51 if (Num == -1)
52 return true;
53 if (!Chunks.empty() && Num <= Chunks[Chunks.size() - 1].End) {
54 errs() << "Expected Chunks to be in increasing order " << Num
55 << " <= " << Chunks[Chunks.size() - 1].End << "\n";
56 return true;
57 }
58 if (Remaining.starts_with("-")) {
59 Remaining = Remaining.drop_front();
60 int64_t Num2 = ConsumeInt();
61 if (Num2 == -1)
62 return true;
63 if (Num >= Num2) {
64 errs() << "Expected " << Num << " < " << Num2 << " in " << Num << "-"
65 << Num2 << "\n";
66 return true;
67 }
68
69 Chunks.push_back({Num, Num2});
70 } else {
71 Chunks.push_back({Num, Num});
72 }
73 if (Remaining.starts_with(":")) {
74 Remaining = Remaining.drop_front();
75 continue;
76 }
77 if (Remaining.empty())
78 break;
79 errs() << "Failed to parse at : " << Remaining;
80 return true;
81 }
82 return false;
83 }
84
85 } // namespace llvm
86
87 namespace {
88 // This class overrides the default list implementation of printing so we
89 // can pretty print the list of debug counter options. This type of
90 // dynamic option is pretty rare (basically this and pass lists).
91 class DebugCounterList : public cl::list<std::string, DebugCounter> {
92 private:
93 using Base = cl::list<std::string, DebugCounter>;
94
95 public:
96 template <class... Mods>
DebugCounterList(Mods &&...Ms)97 explicit DebugCounterList(Mods &&... Ms) : Base(std::forward<Mods>(Ms)...) {}
98
99 private:
printOptionInfo(size_t GlobalWidth) const100 void printOptionInfo(size_t GlobalWidth) const override {
101 // This is a variant of from generic_parser_base::printOptionInfo. Sadly,
102 // it's not easy to make it more usable. We could get it to print these as
103 // options if we were a cl::opt and registered them, but lists don't have
104 // options, nor does the parser for std::string. The other mechanisms for
105 // options are global and would pollute the global namespace with our
106 // counters. Rather than go that route, we have just overridden the
107 // printing, which only a few things call anyway.
108 outs() << " -" << ArgStr;
109 // All of the other options in CommandLine.cpp use ArgStr.size() + 6 for
110 // width, so we do the same.
111 Option::printHelpStr(HelpStr, GlobalWidth, ArgStr.size() + 6);
112 const auto &CounterInstance = DebugCounter::instance();
113 for (const auto &Name : CounterInstance) {
114 const auto Info =
115 CounterInstance.getCounterInfo(CounterInstance.getCounterId(Name));
116 size_t NumSpaces = GlobalWidth - Info.first.size() - 8;
117 outs() << " =" << Info.first;
118 outs().indent(NumSpaces) << " - " << Info.second << '\n';
119 }
120 }
121 };
122
123 // All global objects associated to the DebugCounter, including the DebugCounter
124 // itself, are owned by a single global instance of the DebugCounterOwner
125 // struct. This makes it easier to control the order in which constructors and
126 // destructors are run.
127 struct DebugCounterOwner : DebugCounter {
128 DebugCounterList DebugCounterOption{
129 "debug-counter", cl::Hidden,
130 cl::desc("Comma separated list of debug counter skip and count"),
131 cl::CommaSeparated, cl::location<DebugCounter>(*this)};
132 cl::opt<bool, true> PrintDebugCounter{
133 "print-debug-counter",
134 cl::Hidden,
135 cl::Optional,
136 cl::location(this->ShouldPrintCounter),
137 cl::init(false),
138 cl::desc("Print out debug counter info after all counters accumulated")};
139 cl::opt<bool, true> BreakOnLastCount{
140 "debug-counter-break-on-last",
141 cl::Hidden,
142 cl::Optional,
143 cl::location(this->BreakOnLast),
144 cl::init(false),
145 cl::desc("Insert a break point on the last enabled count of a "
146 "chunks list")};
147
DebugCounterOwner__anone1317e030311::DebugCounterOwner148 DebugCounterOwner() {
149 // Our destructor uses the debug stream. By referencing it here, we
150 // ensure that its destructor runs after our destructor.
151 (void)dbgs();
152 }
153
154 // Print information when destroyed, iff command line option is specified.
~DebugCounterOwner__anone1317e030311::DebugCounterOwner155 ~DebugCounterOwner() {
156 if (ShouldPrintCounter)
157 print(dbgs());
158 }
159 };
160
161 } // anonymous namespace
162
initDebugCounterOptions()163 void llvm::initDebugCounterOptions() { (void)DebugCounter::instance(); }
164
instance()165 DebugCounter &DebugCounter::instance() {
166 static DebugCounterOwner O;
167 return O;
168 }
169
170 // This is called by the command line parser when it sees a value for the
171 // debug-counter option defined above.
push_back(const std::string & Val)172 void DebugCounter::push_back(const std::string &Val) {
173 if (Val.empty())
174 return;
175
176 // The strings should come in as counter=chunk_list
177 auto CounterPair = StringRef(Val).split('=');
178 if (CounterPair.second.empty()) {
179 errs() << "DebugCounter Error: " << Val << " does not have an = in it\n";
180 return;
181 }
182 StringRef CounterName = CounterPair.first;
183 SmallVector<Chunk> Chunks;
184
185 if (parseChunks(CounterPair.second, Chunks)) {
186 return;
187 }
188
189 unsigned CounterID = getCounterId(std::string(CounterName));
190 if (!CounterID) {
191 errs() << "DebugCounter Error: " << CounterName
192 << " is not a registered counter\n";
193 return;
194 }
195 enableAllCounters();
196
197 CounterInfo &Counter = Counters[CounterID];
198 Counter.IsSet = true;
199 Counter.Chunks = std::move(Chunks);
200 }
201
print(raw_ostream & OS) const202 void DebugCounter::print(raw_ostream &OS) const {
203 SmallVector<StringRef, 16> CounterNames(RegisteredCounters.begin(),
204 RegisteredCounters.end());
205 sort(CounterNames);
206
207 auto &Us = instance();
208 OS << "Counters and values:\n";
209 for (auto &CounterName : CounterNames) {
210 unsigned CounterID = getCounterId(std::string(CounterName));
211 OS << left_justify(RegisteredCounters[CounterID], 32) << ": {"
212 << Us.Counters[CounterID].Count << ",";
213 printChunks(OS, Us.Counters[CounterID].Chunks);
214 OS << "}\n";
215 }
216 }
217
shouldExecuteImpl(unsigned CounterName)218 bool DebugCounter::shouldExecuteImpl(unsigned CounterName) {
219 auto &Us = instance();
220 auto Result = Us.Counters.find(CounterName);
221 if (Result != Us.Counters.end()) {
222 auto &CounterInfo = Result->second;
223 int64_t CurrCount = CounterInfo.Count++;
224 uint64_t CurrIdx = CounterInfo.CurrChunkIdx;
225
226 if (CounterInfo.Chunks.empty())
227 return true;
228 if (CurrIdx >= CounterInfo.Chunks.size())
229 return false;
230
231 bool Res = CounterInfo.Chunks[CurrIdx].contains(CurrCount);
232 if (Us.BreakOnLast && CurrIdx == (CounterInfo.Chunks.size() - 1) &&
233 CurrCount == CounterInfo.Chunks[CurrIdx].End) {
234 LLVM_BUILTIN_DEBUGTRAP;
235 }
236 if (CurrCount > CounterInfo.Chunks[CurrIdx].End) {
237 CounterInfo.CurrChunkIdx++;
238
239 /// Handle consecutive blocks.
240 if (CounterInfo.CurrChunkIdx < CounterInfo.Chunks.size() &&
241 CurrCount == CounterInfo.Chunks[CounterInfo.CurrChunkIdx].Begin)
242 return true;
243 }
244 return Res;
245 }
246 // Didn't find the counter, should we warn?
247 return true;
248 }
249
dump() const250 LLVM_DUMP_METHOD void DebugCounter::dump() const {
251 print(dbgs());
252 }
253