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// Copyright 2019-2020 CERN and copyright holders of ALICE O2.
// See https://alice-o2.web.cern.ch/copyright for details of the copyright holders.
// All rights not expressly granted are reserved.
//
// This software is distributed under the terms of the GNU General Public
// License v3 (GPL Version 3), copied verbatim in the file "COPYING".
//
// In applying this license CERN does not waive the privileges and immunities
// granted to it by virtue of its status as an Intergovernmental Organization
// or submit itself to any jurisdiction.
/// \file EventManagerFrame.cxx
/// \brief GUI (bottom buttons) for visualisation
/// \author julian.myrcha@cern.ch
/// \author p.nowakowski@cern.ch
#include <TGButton.h>
#include <TGButtonGroup.h>
#include <TGNumberEntry.h>
#include <TGLabel.h>
#include <TTimer.h>
#include <TGDoubleSlider.h>
#include <EventVisualisationBase/DataSourceOnline.h>
#include <EventVisualisationBase/ConfigurationManager.h>
#include <EventVisualisationBase/DirectoryLoader.h>
#include <EventVisualisationView/EventManagerFrame.h>
#include <EventVisualisationView/MultiView.h>
#include <EventVisualisationView/Screenshot.h>
#include <EventVisualisationView/Options.h>
#include <Rtypes.h>
#include <mutex>
#include <chrono>
#include <thread>
#include <filesystem>
#include <cassert>
#include <FairLogger.h>
std::mutex mtx; // mutex for critical section
ClassImp(o2::event_visualisation::EventManagerFrame);
namespace o2
{
namespace event_visualisation
{
EventManagerFrame* EventManagerFrame::mInstance = nullptr;
EventManagerFrame& EventManagerFrame::getInstance()
{
assert(mInstance != nullptr);
return *mInstance;
}
EventManagerFrame::~EventManagerFrame()
{
this->StopTimer();
}
EventManagerFrame::EventManagerFrame(o2::event_visualisation::EventManager& eventManager)
: TGMainFrame(gClient->GetRoot(), 400, 100, kVerticalFrame)
{
mInstance = this;
mEventManager = &eventManager;
this->mTimer = new TTimer(); // Auto-load time in seconds
this->mTime = 2;
this->mTimer->Connect("Timeout()", "o2::event_visualisation::EventManagerFrame", this, "DoTimeTick()");
const TString cls("o2::event_visualisation::EventManagerFrame");
TGTextButton* b = nullptr;
TGRadioButton* r = nullptr;
TGHorizontalFrame* f = nullptr;
auto const options = Options::Instance();
this->mRunMode = decipherRunMode(options->dataFolder());
f = new TGHorizontalFrame(this);
{
Int_t width = 50;
this->AddFrame(f, new TGLayoutHints(kLHintsExpandX, 0, 0, 2, 2));
b = EventManagerFrame::makeButton(f, "First", width, "Go to the first event");
b->Connect("Clicked()", cls, this, "DoFirstEvent()");
b = EventManagerFrame::makeButton(f, "Prev", width, "Go to the previous event");
b->Connect("Clicked()", cls, this, "DoPrevEvent()");
mEventId = new TGNumberEntry(f, 0, 5, -1, TGNumberFormat::kNESInteger, TGNumberFormat::kNEANonNegative,
TGNumberFormat::kNELLimitMinMax, 0, 10000);
f->AddFrame(mEventId, new TGLayoutHints(kLHintsNormal, 10, 5, 0, 0));
mEventId->Connect("ValueSet(Long_t)", cls, this, "DoSetEvent()");
b = EventManagerFrame::makeButton(f, "Next", width, "Go to the next event");
b->Connect("Clicked()", cls, this, "DoNextEvent()");
b = EventManagerFrame::makeButton(f, "Last", width, "Go to the last event");
b->Connect("Clicked()", cls, this, "DoLastEvent()");
b = EventManagerFrame::makeButton(f, "Screenshot", 2 * width, "Make a screenshot of current event");
b->Connect("Clicked()", cls, this, "DoScreenshot()");
b = EventManagerFrame::makeButton(f, "Save", 2 * width, "Save current event");
b->Connect("Clicked()", cls, this, "DoSave()");
TGHButtonGroup* g = new TGHButtonGroup(f);
this->mOnlineModeBtn = b = EventManagerFrame::makeRadioButton(g, "Online", 2 * width, "Change data source to online events", Options::Instance()->online());
b->Connect("Clicked()", cls, this, "DoOnlineMode()");
this->mSavedModeBtn = b = EventManagerFrame::makeRadioButton(g, "Saved", 2 * width, "Change data source to saved events", !Options::Instance()->online());
b->Connect("Clicked()", cls, this, "DoSavedMode()");
this->mSequentialModeBtn = b = EventManagerFrame::makeRadioButton(g, "Sequential", 2 * width, "Sequentially display saved events", !Options::Instance()->online());
b->Connect("Clicked()", cls, this, "DoSequentialMode()");
f->AddFrame(g, new TGLayoutHints(kLHintsNormal, 0, 0, 0, 0));
}
f = new TGHorizontalFrame(this);
{
Int_t width = 50;
this->AddFrame(f, new TGLayoutHints(kLHintsExpandX, 0, 0, 2, 2));
TGLabel* infoLabel = new TGLabel(f);
f->AddFrame(infoLabel, new TGLayoutHints(kLHintsNormal, 5, 10, 4, 0));
f->AddFrame(infoLabel, new TGLayoutHints(kLHintsNormal, 5, 10, 4, 0));
this->mTimeFrameSlider = EventManagerFrame::makeSlider(f, "Time", 8 * width);
makeSliderRangeEntries(f, 30, this->mTimeFrameSliderMin, "Display the minimum value of the time",
this->mTimeFrameSliderMax, "Display the maximum value of the time");
this->mTimeFrameSlider->Connect("PositionChanged()", cls, this, "DoTimeFrameSliderChanged()");
TGHButtonGroup* g = new TGHButtonGroup(f);
mSyntheticRunBtn = r = EventManagerFrame::makeRadioButton(g, "Synthetic", 2 * width, "Change source directory to synthetic run", Options::Instance()->online());
r->Connect("Clicked()", cls, this, "DoSyntheticData()");
mCosmicsRunBtn = r = EventManagerFrame::makeRadioButton(g, "Cosmics", 2 * width, "Change source directory to cosmics run", !Options::Instance()->online());
r->Connect("Clicked()", cls, this, "DoCosmicsData()");
mPhysicsRunBtn = r = EventManagerFrame::makeRadioButton(g, "Physics", 2 * width, "Change source directory to physics run", !Options::Instance()->online());
r->Connect("Clicked()", cls, this, "DoPhysicsData()");
f->AddFrame(g, new TGLayoutHints(kLHintsNormal, 0, 0, 0, 0));
}
this->setRunMode(mRunMode, kFALSE);
this->mOnlineModeBtn->SetState(kButtonDown);
SetCleanup(kDeepCleanup);
Layout();
MapSubwindows();
MapWindow();
}
TGTextButton* EventManagerFrame::makeButton(TGCompositeFrame* p, const char* txt,
Int_t width, const char* txttooltip, Int_t lo, Int_t ro, Int_t to, Int_t bo)
{
TGTextButton* b = new TGTextButton(p, txt);
if (width > 0) {
b->SetWidth(width);
b->ChangeOptions(b->GetOptions() | kFixedWidth);
}
if (txttooltip != nullptr) {
b->SetToolTipText(txttooltip);
}
p->AddFrame(b, new TGLayoutHints(kLHintsNormal, lo, ro, to, bo));
return b;
}
TGRadioButton* EventManagerFrame::makeRadioButton(TGButtonGroup* g, const char* txt,
Int_t width, const char* txttooltip, bool checked, Int_t lo, Int_t ro, Int_t to, Int_t bo)
{
TGRadioButton* b = new TGRadioButton(g, txt);
if (width > 0) {
b->SetWidth(width);
b->ChangeOptions(b->GetOptions() | kFixedWidth);
}
if (txttooltip != nullptr) {
b->SetToolTipText(txttooltip);
}
b->SetOn(checked);
return b;
}
TGDoubleHSlider* EventManagerFrame::makeSlider(TGCompositeFrame* p, const char* txt, Int_t width,
Int_t lo, Int_t ro, Int_t to, Int_t bo)
{
TGCompositeFrame* sliderFrame = new TGCompositeFrame(p, width, 20, kHorizontalFrame);
TGLabel* sliderLabel = new TGLabel(sliderFrame, txt);
sliderFrame->AddFrame(sliderLabel,
new TGLayoutHints(kLHintsCenterY | kLHintsLeft, 2, 2, 2, 2));
TGDoubleHSlider* slider = new TGDoubleHSlider(sliderFrame, width - 80, kDoubleScaleBoth);
slider->SetRange(0, MaxRange);
slider->SetPosition(0, MaxRange);
sliderFrame->AddFrame(slider, new TGLayoutHints(kLHintsLeft));
p->AddFrame(sliderFrame, new TGLayoutHints(kLHintsTop, lo, ro, to, bo));
return slider;
}
void EventManagerFrame::makeSliderRangeEntries(TGCompositeFrame* parent, int height,
TGNumberEntryField*& minEntry, const TString& minToolTip,
TGNumberEntryField*& maxEntry, const TString& maxToolTip)
{
TGCompositeFrame* frame = new TGCompositeFrame(parent, 80, height, kHorizontalFrame);
minEntry = new TGNumberEntryField(frame, -1, 0., TGNumberFormat::kNESRealThree,
TGNumberFormat::kNEAAnyNumber);
minEntry->SetToolTipText(minToolTip.Data());
minEntry->Resize(100, height);
minEntry->SetState(false);
frame->AddFrame(minEntry, new TGLayoutHints(kLHintsLeft, 0, 0, 0, 0));
maxEntry = new TGNumberEntryField(frame, -1, 0., TGNumberFormat::kNESRealThree,
TGNumberFormat::kNEAAnyNumber);
maxEntry->SetToolTipText(maxToolTip.Data());
maxEntry->Resize(100, height);
maxEntry->SetState(false);
frame->AddFrame(maxEntry, new TGLayoutHints(kLHintsLeft, 0, 0, 0, 0));
parent->AddFrame(frame, new TGLayoutHints(kLHintsTop, 5, 0, 0, 0));
}
void EventManagerFrame::updateGUI()
{
std::error_code ec{};
bool saveFolderExists = std::filesystem::is_directory(Options::Instance()->savedDataFolder(), ec);
this->mSavedModeBtn->SetEnabled(saveFolderExists);
this->mSequentialModeBtn->SetEnabled(saveFolderExists);
this->mEventId->SetIntNumber(mEventManager->getDataSource()->getCurrentEvent());
this->mTimeFrameSliderMin->SetNumber(mEventManager->getDataSource()->getTimeFrameMinTrackTime());
this->mTimeFrameSliderMax->SetNumber(mEventManager->getDataSource()->getTimeFrameMaxTrackTime());
switch (this->mDisplayMode) {
case OnlineMode:
this->mOnlineModeBtn->SetState(kButtonDown);
break;
case SavedMode:
this->mSavedModeBtn->SetState(kButtonDown);
break;
case SequentialMode:
this->mSequentialModeBtn->SetState(kButtonDown);
break;
}
}
void EventManagerFrame::DoTimeFrameSliderChanged()
{
if (not setInTick()) {
return;
}
this->mEventManager->CurrentEvent();
this->updateGUI();
clearInTick();
}
void EventManagerFrame::DoFirstEvent()
{
if (not setInTick()) {
return;
}
mEventManager->GotoEvent(0);
this->updateGUI();
clearInTick();
}
void EventManagerFrame::DoPrevEvent()
{
if (not setInTick()) {
return;
}
mEventManager->PrevEvent();
this->updateGUI();
clearInTick();
}
void EventManagerFrame::DoNextEvent()
{
if (not setInTick()) {
return;
}
mEventManager->NextEvent();
this->updateGUI();
clearInTick();
}
void EventManagerFrame::DoLastEvent()
{
if (not setInTick()) {
return;
}
mEventManager->GotoEvent(-1); /// -1 means last available
this->updateGUI();
clearInTick();
}
void EventManagerFrame::DoSetEvent()
{
}
void EventManagerFrame::DoScreenshot()
{
if (not setInTick()) {
return;
}
std::time_t time = std::time(nullptr);
char time_str[100];
std::strftime(time_str, sizeof(time_str), "%Y_%m_%d_%H_%M_%S", std::localtime(&time));
TEnv settings;
ConfigurationManager::getInstance().getConfig(settings);
std::string outDirectory = settings.GetValue("screenshot.path", "Screenshots");
std::ostringstream filepath;
filepath << outDirectory << "/Screenshot_" << time_str << "_" << getRunTypeString(mRunMode) << ".png";
if (!std::filesystem::is_directory(outDirectory)) {
std::filesystem::create_directory(outDirectory);
}
Screenshot::perform(filepath.str(), this->mEventManager->getDataSource()->getDetectorsMask(),
this->mEventManager->getDataSource()->getRunNumber(),
this->mEventManager->getDataSource()->getFirstTForbit(),
this->mEventManager->getDataSource()->getCollisionTime());
clearInTick();
}
void EventManagerFrame::checkMemory()
{
const long memoryLimit = Options::Instance()->memoryLimit();
if (memoryLimit != -1) {
const char* statmPath = "/proc/self/statm";
long size = -1;
FILE* f = fopen(statmPath, "r");
if (f != nullptr) { // could not read file => no check
int success = fscanf(f, "%ld", &size);
fclose(f);
if (success == 1) { // properly readed
size = 4 * size / 1024; // in MB
this->memoryUsedInfo = size;
LOG(info) << "Memory used: " << size << " memory allowed: " << memoryLimit;
if (size > memoryLimit) {
LOG(error) << "Memory used: " << size << " exceeds memory allowed: "
<< memoryLimit;
exit(-1);
}
}
}
}
}
void EventManagerFrame::createOutreachScreenshot()
{
if (!Options::Instance()->imageFolder().empty()) {
string fileName = mEventManager->getInstance().getDataSource()->getEventName();
if (fileName.size() < 5) {
return;
}
string imageFolder = Options::Instance()->imageFolder();
if (!std::filesystem::is_directory(imageFolder)) {
std::filesystem::create_directory(imageFolder);
}
fileName = imageFolder + "/" + fileName.substr(0, fileName.find_last_of('.')) + ".png";
if (!std::filesystem::is_regular_file(fileName)) {
std::vector<std::string> ext = {".png"};
DirectoryLoader::removeOldestFiles(imageFolder, ext, 10);
LOG(info) << "Outreach screenshot: " << fileName;
Screenshot::perform(fileName, this->mEventManager->getDataSource()->getDetectorsMask(),
this->mEventManager->getDataSource()->getRunNumber(),
this->mEventManager->getDataSource()->getFirstTForbit(),
this->mEventManager->getDataSource()->getCollisionTime());
}
// LOG(info) << mEventManager->getInstance().getDataSource()->getEventName();
}
}
void EventManagerFrame::DoTimeTick()
{
if (not setInTick()) {
return;
}
checkMemory(); // exits if memory usage too high = prevents freezing long-running machine
this->createOutreachScreenshot();
bool refreshNeeded = mEventManager->getDataSource()->refresh();
if (this->mDisplayMode == SequentialMode) {
mEventManager->getDataSource()->rollToNext();
refreshNeeded = true;
}
if (refreshNeeded) {
mEventManager->displayCurrentEvent();
}
mEventId->SetIntNumber(mEventManager->getDataSource()->getCurrentEvent());
clearInTick();
}
void EventManagerFrame::StopTimer()
{
this->mTimerRunning = kFALSE;
if (this->mTimer != nullptr) {
this->mTimer->TurnOff();
}
}
void EventManagerFrame::StartTimer()
{
if (this->mTimer != nullptr) {
this->mTimer->SetTime((Long_t)(1000 * this->mTime));
this->mTimer->Reset();
this->mTimer->TurnOn();
}
this->mTimerRunning = kTRUE;
}
void EventManagerFrame::DoSave()
{
if (!Options::Instance()->savedDataFolder().empty()) {
if (not setInTick()) {
return;
}
this->mEventManager->getDataSource()->saveCurrentEvent(Options::Instance()->savedDataFolder());
clearInTick();
}
}
void EventManagerFrame::DoOnlineMode()
{
if (not setInTick()) {
return;
}
this->mEventManager->getDataSource()->changeDataFolder(getSourceDirectory(this->mRunMode).Data());
this->mDisplayMode = OnlineMode;
this->mEventManager->setShowDate(true);
clearInTick();
mEventManager->GotoEvent(-1);
mEventId->SetIntNumber(mEventManager->getDataSource()->getCurrentEvent());
}
void EventManagerFrame::DoSavedMode()
{
if (!Options::Instance()->savedDataFolder().empty()) {
if (not setInTick()) {
return;
}
this->mEventManager->getDataSource()->changeDataFolder(getSourceDirectory(this->mRunMode).Data());
this->mDisplayMode = SavedMode;
this->mEventManager->setShowDate(true);
if (mEventManager->getDataSource()->refresh()) {
mEventManager->displayCurrentEvent();
}
clearInTick();
mEventManager->GotoEvent(-1);
mEventId->SetIntNumber(mEventManager->getDataSource()->getCurrentEvent());
}
}
void EventManagerFrame::DoSequentialMode()
{
if (!Options::Instance()->savedDataFolder().empty()) {
if (not setInTick()) {
return;
}
this->mEventManager->getDataSource()->changeDataFolder(getSourceDirectory(this->mRunMode).Data());
this->mDisplayMode = SequentialMode;
this->mEventManager->setShowDate(false);
if (mEventManager->getDataSource()->refresh()) {
mEventManager->displayCurrentEvent();
}
clearInTick();
mEventManager->GotoEvent(-1);
mEventId->SetIntNumber(mEventManager->getDataSource()->getCurrentEvent());
}
}
void EventManagerFrame::changeRunMode(RunMode runMode)
{
TEnv settings;
ConfigurationManager::getInstance().getConfig(settings);
if (this->mRunMode != runMode) {
this->mRunMode = runMode;
this->mEventManager->getDataSource()->changeDataFolder(getSourceDirectory(this->mRunMode).Data());
mEventManager->getDataSource()->refresh();
mEventManager->displayCurrentEvent();
clearInTick();
mEventManager->GotoEvent(-1);
mEventId->SetIntNumber(mEventManager->getDataSource()->getCurrentEvent());
}
}
void EventManagerFrame::DoSyntheticData()
{
changeRunMode(EventManagerFrame::SyntheticRun);
}
void EventManagerFrame::DoCosmicsData()
{
changeRunMode(EventManagerFrame::CosmicsRun);
}
void EventManagerFrame::DoPhysicsData()
{
changeRunMode(EventManagerFrame::PhysicsRun);
}
bool EventManagerFrame::setInTick()
{
std::unique_lock<std::mutex> lck(mtx, std::defer_lock);
bool inTick;
lck.lock();
inTick = this->inTick;
this->inTick = true;
lck.unlock();
return not inTick; // it is me who set inTick
}
void EventManagerFrame::clearInTick()
{
std::unique_lock<std::mutex> lck(mtx, std::defer_lock);
lck.lock();
this->inTick = false;
lck.unlock();
}
void EventManagerFrame::DoTerminate()
{
StopTimer();
std::chrono::seconds duration(1); // wait 1 second to give a chance
std::this_thread::sleep_for(duration);
while (not setInTick()) { // make sure chance was taken
continue;
}
exit(0);
}
float EventManagerFrame::getMinTimeFrameSliderValue() const
{
return mTimeFrameSlider->GetMinPosition();
}
float EventManagerFrame::getMaxTimeFrameSliderValue() const
{
return mTimeFrameSlider->GetMaxPosition();
}
void EventManagerFrame::setRunMode(EventManagerFrame::RunMode runMode, Bool_t emit)
{
if (emit) {
this->mEventManager->getDataSource()->changeDataFolder(getSourceDirectory(this->mRunMode).Data());
} else {
mSyntheticRunBtn->SetState(EButtonState::kButtonUp, kFALSE);
mCosmicsRunBtn->SetState(EButtonState::kButtonUp, kFALSE);
mPhysicsRunBtn->SetState(EButtonState::kButtonUp, kFALSE);
}
switch (runMode) {
case EventManagerFrame::SyntheticRun:
this->mRunMode = CosmicsRun;
mSyntheticRunBtn->SetState(EButtonState::kButtonDown, emit);
break;
case EventManagerFrame::CosmicsRun:
this->mRunMode = PhysicsRun;
mCosmicsRunBtn->SetState(EButtonState::kButtonDown, emit);
break;
case EventManagerFrame::PhysicsRun:
this->mRunMode = SyntheticRun;
mPhysicsRunBtn->SetState(EButtonState::kButtonDown, emit);
break;
}
}
TString EventManagerFrame::getSourceDirectory(EventManagerFrame::RunMode runMode)
{
TEnv settings;
ConfigurationManager::getInstance().getConfig(settings);
switch (runMode) {
case EventManagerFrame::SyntheticRun:
return settings.GetValue("data.synthetic.run.dir", "jsons/synthetic");
case EventManagerFrame::CosmicsRun:
return settings.GetValue("data.cosmics.run.dir", "jsons/cosmics");
case EventManagerFrame::PhysicsRun:
return settings.GetValue("data.physics.run.dir", "jsons/physics");
default:
return settings.GetValue("data.synthetic.run.dir", "jsons/synthetic");
}
}
EventManagerFrame::RunMode EventManagerFrame::decipherRunMode(TString name, RunMode defaultRun)
{
if (name == "SYNTHETIC") {
return SyntheticRun;
} else if (name == "COSMICS") {
return CosmicsRun;
} else if (name == "PHYSICS") {
return PhysicsRun;
} else {
return defaultRun;
}
}
TString EventManagerFrame::getRunTypeString(EventManagerFrame::RunMode runMode)
{
switch (runMode) {
case EventManagerFrame::SyntheticRun:
return "synthetic";
case EventManagerFrame::CosmicsRun:
return "cosmics";
case EventManagerFrame::PhysicsRun:
return "physics";
default:
return "";
}
}
} // namespace event_visualisation
} // namespace o2