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llvm-mirror/lib/Support/TimeProfiler.cpp
Sam McCall def984827a [Support] Add JSON streaming output API, faster where the heavy value types aren't needed. 
Summary:
There's still a little bit of constant factor that could be trimmed (e.g.
more overloads to avoid round-tripping primitives through json::Value).
But this solves the memory scaling problem, and greatly improves the performance
constant factor, and the API should leave room for optimization if needed.

Adapt TimeProfiler to use it, eliminating almost all the performance regression
from r358476.

Performance test on my machine:
perf stat -r 5 ~/llvmbuild-opt/bin/clang++ -w -S -ftime-trace -mllvm -time-trace-granularity=0 spirit.cpp

Handcrafted JSON (HEAD=r358532 with r358476 reverted): 2480ms
json::Value (HEAD): 2757ms (+11%)
After this patch: 2520 ms (+1.6%)

Reviewers: anton-afanasyev, lebedev.ri

Subscribers: kristina, llvm-commits

Tags: #llvm

Differential Revision: https://reviews.llvm.org/D60804

llvm-svn: 359186
2019-04-25 12:51:42 +00:00

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//===-- TimeProfiler.cpp - Hierarchical Time Profiler ---------------------===//
//
// 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 file implements hierarchical time profiler.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/TimeProfiler.h"
#include "llvm/ADT/StringMap.h"
#include "llvm/Support/CommandLine.h"
#include "llvm/Support/FileSystem.h"
#include "llvm/Support/JSON.h"
#include <cassert>
#include <chrono>
#include <string>
#include <vector>
using namespace std::chrono;
namespace llvm {
static cl::opt<unsigned> TimeTraceGranularity(
"time-trace-granularity",
cl::desc(
"Minimum time granularity (in microseconds) traced by time profiler"),
cl::init(500));
TimeTraceProfiler *TimeTraceProfilerInstance = nullptr;
typedef duration<steady_clock::rep, steady_clock::period> DurationType;
typedef std::pair<size_t, DurationType> CountAndDurationType;
typedef std::pair<std::string, CountAndDurationType>
NameAndCountAndDurationType;
struct Entry {
time_point<steady_clock> Start;
DurationType Duration;
std::string Name;
std::string Detail;
Entry(time_point<steady_clock> &&S, DurationType &&D, std::string &&N,
std::string &&Dt)
: Start(std::move(S)), Duration(std::move(D)), Name(std::move(N)),
Detail(std::move(Dt)){};
};
struct TimeTraceProfiler {
TimeTraceProfiler() {
StartTime = steady_clock::now();
}
void begin(std::string Name, llvm::function_ref<std::string()> Detail) {
Stack.emplace_back(steady_clock::now(), DurationType{}, std::move(Name),
Detail());
}
void end() {
assert(!Stack.empty() && "Must call begin() first");
auto &E = Stack.back();
E.Duration = steady_clock::now() - E.Start;
// Only include sections longer than TimeTraceGranularity msec.
if (duration_cast<microseconds>(E.Duration).count() > TimeTraceGranularity)
Entries.emplace_back(E);
// Track total time taken by each "name", but only the topmost levels of
// them; e.g. if there's a template instantiation that instantiates other
// templates from within, we only want to add the topmost one. "topmost"
// happens to be the ones that don't have any currently open entries above
// itself.
if (std::find_if(++Stack.rbegin(), Stack.rend(), [&](const Entry &Val) {
return Val.Name == E.Name;
}) == Stack.rend()) {
auto &CountAndTotal = CountAndTotalPerName[E.Name];
CountAndTotal.first++;
CountAndTotal.second += E.Duration;
}
Stack.pop_back();
}
void Write(raw_pwrite_stream &OS) {
assert(Stack.empty() &&
"All profiler sections should be ended when calling Write");
json::OStream J(OS);
J.objectBegin();
J.attributeBegin("traceEvents");
J.arrayBegin();
// Emit all events for the main flame graph.
for (const auto &E : Entries) {
auto StartUs = duration_cast<microseconds>(E.Start - StartTime).count();
auto DurUs = duration_cast<microseconds>(E.Duration).count();
J.object([&]{
J.attribute("pid", 1);
J.attribute("tid", 0);
J.attribute("ph", "X");
J.attribute("ts", StartUs);
J.attribute("dur", DurUs);
J.attribute("name", E.Name);
J.attributeObject("args", [&] { J.attribute("detail", E.Detail); });
});
}
// Emit totals by section name as additional "thread" events, sorted from
// longest one.
int Tid = 1;
std::vector<NameAndCountAndDurationType> SortedTotals;
SortedTotals.reserve(CountAndTotalPerName.size());
for (const auto &E : CountAndTotalPerName)
SortedTotals.emplace_back(E.getKey(), E.getValue());
llvm::sort(SortedTotals.begin(), SortedTotals.end(),
[](const NameAndCountAndDurationType &A,
const NameAndCountAndDurationType &B) {
return A.second.second > B.second.second;
});
for (const auto &E : SortedTotals) {
auto DurUs = duration_cast<microseconds>(E.second.second).count();
auto Count = CountAndTotalPerName[E.first].first;
J.object([&]{
J.attribute("pid", 1);
J.attribute("tid", Tid);
J.attribute("ph", "X");
J.attribute("ts", 0);
J.attribute("dur", DurUs);
J.attribute("name", "Total " + E.first);
J.attributeObject("args", [&] {
J.attribute("count", int64_t(Count));
J.attribute("avg ms", int64_t(DurUs / Count / 1000));
});
});
++Tid;
}
// Emit metadata event with process name.
J.object([&] {
J.attribute("cat", "");
J.attribute("pid", 1);
J.attribute("tid", 0);
J.attribute("ts", 0);
J.attribute("ph", "M");
J.attribute("name", "process_name");
J.attributeObject("args", [&] { J.attribute("name", "clang"); });
});
J.arrayEnd();
J.attributeEnd();
J.objectEnd();
}
SmallVector<Entry, 16> Stack;
SmallVector<Entry, 128> Entries;
StringMap<CountAndDurationType> CountAndTotalPerName;
time_point<steady_clock> StartTime;
};
void timeTraceProfilerInitialize() {
assert(TimeTraceProfilerInstance == nullptr &&
"Profiler should not be initialized");
TimeTraceProfilerInstance = new TimeTraceProfiler();
}
void timeTraceProfilerCleanup() {
delete TimeTraceProfilerInstance;
TimeTraceProfilerInstance = nullptr;
}
void timeTraceProfilerWrite(raw_pwrite_stream &OS) {
assert(TimeTraceProfilerInstance != nullptr &&
"Profiler object can't be null");
TimeTraceProfilerInstance->Write(OS);
}
void timeTraceProfilerBegin(StringRef Name, StringRef Detail) {
if (TimeTraceProfilerInstance != nullptr)
TimeTraceProfilerInstance->begin(Name, [&]() { return Detail; });
}
void timeTraceProfilerBegin(StringRef Name,
llvm::function_ref<std::string()> Detail) {
if (TimeTraceProfilerInstance != nullptr)
TimeTraceProfilerInstance->begin(Name, Detail);
}
void timeTraceProfilerEnd() {
if (TimeTraceProfilerInstance != nullptr)
TimeTraceProfilerInstance->end();
}
} // namespace llvm
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