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Profiler

This is a library for collecting timing information for display in the chrome builtin trace viewer from a C++ program. Results are collected in json files that can be loaded and visualized on chrome://tracing.

Integration

This library is best integrated into another CMake project as a subdirectory:

add_subdirectory(external/Profiler)

add_executable(myProgram main.cpp)
target_link_libraries(myProgram PRIVATE profilerLib)

By default, only the libraries, excluding the examples and the merge-tool for combining multiple json files is built. To enable building the executables enable the BUILD_EXECUTABLES CMake option:

cmake -DBUILD_EXECUTABLES=On ..

Or from a parent CMake config:

set(BUILD_EXECUTABLES ON CACHE BOOL "build executable" FORCE)
add_subdirectory(external/Profiler)

To get the library from GitHub directly, use:

include(FetchContent)
FetchContent_Declare(
        profiler
        GIT_REPOSITORY https://github.com/ottojo/Profiler
        GIT_TAG main
)
FetchContent_MakeAvailable(profiler)

Usage

Below is a quick overview over the essential functions. Examples are provided in the app directory. The first example showcases multiple methods of using the library. The second example uses the library to evaluate the parallel STL algorithms.

Profiler

Create a Profiler instance for every module that should create its own output file. A utility for combining multiple such files is provided.

Profiler p("Profiler Name", "traceOutput.json");

The profiler automatically saves the results on destruction.

The name of the process and each thread can be set in the profiler:

p.setProcessName("Worker Process");
p.setThreadName("Threadpool thread nr. " + std::to_string(i));

Those functions need to be called from the corresponding thread.

Events

There are multiple ways of submitting events to the Profiler.

DurationEvent

The DurationEvent allows timing of a single task after the DurationEvent is constructed:

DurationEvent event(p, "Duration Event Nr. 1");
...
event.start();
...
event.stop();

The start and stop functions immediately submit an event to the Profiler. After the event has stopped, calling start again is possible and creates a new event with the same name. A missing stop event leads to broken results.

ScopeEvent

The ScopeEvent is often a useful alternative to the DurationEvent. Timing automatically starts on construction and ends on destruction. This is similar to other "RAII" types such as std::lock_guard.

void myFunction() {
    ScopeEvent event(p, "My Function");
    ...
}

Instant event

Events with a time, but no duration, can be directly submitted to the Profiler:

p.submitInstantEvent("Event A occured", Scope::Process);

The Scope can be one of Global, Process, Thread which impacts visualization in the viewer, Global being the most visible option.

Counter

Counter events support tracking time series of numbers. One counter may contain multiple series of data. Counter events are directly submitted to the Profiler:

p.submitCounterEvent("My Counter", {{"a", a}, {"b", b}});

Flow Events

Flow events are displayed as arrows between points in the trace viewer. The start of a flow can be recorded using:

p.submitFlowStartEvent("FlowEventName", "FlowCategory", "flowID-1");

And the end of a flow:

p.submitFlowEndEvent("FlowEventName", "FlowCategory", "flowID-1");

Flow start and end need to have the same name, ID and category. The trace viewer has checkboxes to show/hide specific categories.

Merging

There may be multiple Profiler instances creating multiple json files during the execution of a single program. When building with -DBUILD_EXECUTABLES=On a merge tool is built to combine those:

mkdir build
cd build
cmake -DBUILD_EXECUTABLES=On ..
cmake --build .
 ./app/profilerMerge file1.json file2.json > combined.json

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Performance analysis using chrome://tracing for C++

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