video-shader-toys/apps/LoopThroughWithOpenGLCompositing/runtime/telemetry/HealthTelemetry.cpp

#include "stdafx.h"
#include "HealthTelemetry.h"

void HealthTelemetry::ReportSignalStatus(bool hasSignal, unsigned width, unsigned height, const std::string& modeName)
{
	std::lock_guard<std::mutex> lock(mMutex);
	mSignalStatus.hasSignal = hasSignal;
	mSignalStatus.width = width;
	mSignalStatus.height = height;
	mSignalStatus.modeName = modeName;
}

bool HealthTelemetry::TryReportSignalStatus(bool hasSignal, unsigned width, unsigned height, const std::string& modeName)
{
	std::unique_lock<std::mutex> lock(mMutex, std::try_to_lock);
	if (!lock.owns_lock())
		return false;

	mSignalStatus.hasSignal = hasSignal;
	mSignalStatus.width = width;
	mSignalStatus.height = height;
	mSignalStatus.modeName = modeName;
	return true;
}

void HealthTelemetry::ReportVideoIOStatus(const std::string& backendName, const std::string& modelName,
	bool supportsInternalKeying, bool supportsExternalKeying, bool keyerInterfaceAvailable,
	bool externalKeyingRequested, bool externalKeyingActive, const std::string& statusMessage)
{
	std::lock_guard<std::mutex> lock(mMutex);
	mVideoIOStatus.backendName = backendName;
	mVideoIOStatus.modelName = modelName;
	mVideoIOStatus.supportsInternalKeying = supportsInternalKeying;
	mVideoIOStatus.supportsExternalKeying = supportsExternalKeying;
	mVideoIOStatus.keyerInterfaceAvailable = keyerInterfaceAvailable;
	mVideoIOStatus.externalKeyingRequested = externalKeyingRequested;
	mVideoIOStatus.externalKeyingActive = externalKeyingActive;
	mVideoIOStatus.statusMessage = statusMessage;
}

bool HealthTelemetry::TryReportVideoIOStatus(const std::string& backendName, const std::string& modelName,
	bool supportsInternalKeying, bool supportsExternalKeying, bool keyerInterfaceAvailable,
	bool externalKeyingRequested, bool externalKeyingActive, const std::string& statusMessage)
{
	std::unique_lock<std::mutex> lock(mMutex, std::try_to_lock);
	if (!lock.owns_lock())
		return false;

	mVideoIOStatus.backendName = backendName;
	mVideoIOStatus.modelName = modelName;
	mVideoIOStatus.supportsInternalKeying = supportsInternalKeying;
	mVideoIOStatus.supportsExternalKeying = supportsExternalKeying;
	mVideoIOStatus.keyerInterfaceAvailable = keyerInterfaceAvailable;
	mVideoIOStatus.externalKeyingRequested = externalKeyingRequested;
	mVideoIOStatus.externalKeyingActive = externalKeyingActive;
	mVideoIOStatus.statusMessage = statusMessage;
	return true;
}

void HealthTelemetry::RecordPerformanceStats(double frameBudgetMilliseconds, double renderMilliseconds)
{
	std::lock_guard<std::mutex> lock(mMutex);
	mPerformance.frameBudgetMilliseconds = std::max(frameBudgetMilliseconds, 0.0);
	mPerformance.renderMilliseconds = std::max(renderMilliseconds, 0.0);
	if (mPerformance.smoothedRenderMilliseconds <= 0.0)
		mPerformance.smoothedRenderMilliseconds = mPerformance.renderMilliseconds;
	else
		mPerformance.smoothedRenderMilliseconds = mPerformance.smoothedRenderMilliseconds * 0.9 + mPerformance.renderMilliseconds * 0.1;
}

bool HealthTelemetry::TryRecordPerformanceStats(double frameBudgetMilliseconds, double renderMilliseconds)
{
	std::unique_lock<std::mutex> lock(mMutex, std::try_to_lock);
	if (!lock.owns_lock())
		return false;

	mPerformance.frameBudgetMilliseconds = std::max(frameBudgetMilliseconds, 0.0);
	mPerformance.renderMilliseconds = std::max(renderMilliseconds, 0.0);
	if (mPerformance.smoothedRenderMilliseconds <= 0.0)
		mPerformance.smoothedRenderMilliseconds = mPerformance.renderMilliseconds;
	else
		mPerformance.smoothedRenderMilliseconds = mPerformance.smoothedRenderMilliseconds * 0.9 + mPerformance.renderMilliseconds * 0.1;
	return true;
}

void HealthTelemetry::RecordFramePacingStats(double completionIntervalMilliseconds, double smoothedCompletionIntervalMilliseconds,
	double maxCompletionIntervalMilliseconds, uint64_t lateFrameCount, uint64_t droppedFrameCount, uint64_t flushedFrameCount)
{
	std::lock_guard<std::mutex> lock(mMutex);
	mPerformance.completionIntervalMilliseconds = std::max(completionIntervalMilliseconds, 0.0);
	mPerformance.smoothedCompletionIntervalMilliseconds = std::max(smoothedCompletionIntervalMilliseconds, 0.0);
	mPerformance.maxCompletionIntervalMilliseconds = std::max(maxCompletionIntervalMilliseconds, 0.0);
	mPerformance.lateFrameCount = lateFrameCount;
	mPerformance.droppedFrameCount = droppedFrameCount;
	mPerformance.flushedFrameCount = flushedFrameCount;
}

bool HealthTelemetry::TryRecordFramePacingStats(double completionIntervalMilliseconds, double smoothedCompletionIntervalMilliseconds,
	double maxCompletionIntervalMilliseconds, uint64_t lateFrameCount, uint64_t droppedFrameCount, uint64_t flushedFrameCount)
{
	std::unique_lock<std::mutex> lock(mMutex, std::try_to_lock);
	if (!lock.owns_lock())
		return false;

	mPerformance.completionIntervalMilliseconds = std::max(completionIntervalMilliseconds, 0.0);
	mPerformance.smoothedCompletionIntervalMilliseconds = std::max(smoothedCompletionIntervalMilliseconds, 0.0);
	mPerformance.maxCompletionIntervalMilliseconds = std::max(maxCompletionIntervalMilliseconds, 0.0);
	mPerformance.lateFrameCount = lateFrameCount;
	mPerformance.droppedFrameCount = droppedFrameCount;
	mPerformance.flushedFrameCount = flushedFrameCount;
	return true;
}

HealthTelemetry::SignalStatusSnapshot HealthTelemetry::GetSignalStatusSnapshot() const
{
	std::lock_guard<std::mutex> lock(mMutex);
	return mSignalStatus;
}

HealthTelemetry::VideoIOStatusSnapshot HealthTelemetry::GetVideoIOStatusSnapshot() const
{
	std::lock_guard<std::mutex> lock(mMutex);
	return mVideoIOStatus;
}

HealthTelemetry::PerformanceSnapshot HealthTelemetry::GetPerformanceSnapshot() const
{
	std::lock_guard<std::mutex> lock(mMutex);
	return mPerformance;
}

HealthTelemetry::Snapshot HealthTelemetry::GetSnapshot() const
{
	std::lock_guard<std::mutex> lock(mMutex);

	Snapshot snapshot;
	snapshot.signal = mSignalStatus;
	snapshot.videoIO = mVideoIOStatus;
	snapshot.performance = mPerformance;
	return snapshot;
}