//-----------------------------------------------------------------------------
/// Return GPU-time in text format, to be parsed by the Client and displayed as its own timeline.
/// \return A line-delimited, ASCII-encoded, version of the GPU Trace data.
//-----------------------------------------------------------------------------
std::string VktTraceAnalyzerLayer::GetGPUTraceTXT()
{
    gtASCIIString appendString = "";

    VktFrameProfilerLayer* pProfilerLayer = VktFrameProfilerLayer::Instance();

    WaitAndFetchResults(pProfilerLayer);

    // Query the CPU clock frequency so we can accurately convert to wall clock time.
    GPS_TIMESTAMP cpuClockFrequency;
    QueryPerformanceFrequency(&cpuClockFrequency);

    // During QueueSubmit we stored ProfilerResults in mEntriesWithProfilingResults. Form a response using it here.
    ProfilerResultsMap& profiledCmdBufResultsMap = pProfilerLayer->GetCmdBufProfilerResultsMap();

    // During QueueSubmit we stored ProfilerResults in mEntriesWithProfilingResults. Form a response using it here.
    if (!profiledCmdBufResultsMap.empty())
    {
        // Keep a count of the number of lines that we'll write in the response string.
        UINT numResponseLines = 0;

        gtASCIIString profiledCommandsLinesStr;

        ProfilerResultsMap::iterator profIt;

        for (profIt = profiledCmdBufResultsMap.begin(); profIt != profiledCmdBufResultsMap.end(); ++profIt)
        {
            QueueWrapperToProfilingResultsMap::iterator queuesWithProfilingResults;

            QueueWrapperToProfilingResultsMap& resultsPerThread = profIt->second;

            for (queuesWithProfilingResults = resultsPerThread.begin(); queuesWithProfilingResults != resultsPerThread.end(); ++queuesWithProfilingResults)
            {
                VktWrappedQueue* pWrappedQueue = queuesWithProfilingResults->first;

                const double timestampFrequency = pWrappedQueue->GetTimestampFrequency();

                // This structure holds all of the profiler results that were collected at QueueSubmit. The form is LinkId->ProfilerResult.
                const SampleIdToProfilerResultMap* pQueueResults = queuesWithProfilingResults->second;

                SampleIdToProfilerResultMap::const_iterator queueResultsIterInner;

                for (queueResultsIterInner = pQueueResults->begin(); queueResultsIterInner != pQueueResults->end(); ++queueResultsIterInner)
                {
                    UINT64 sampleId = queueResultsIterInner->first;
                    const ProfilerResult* pResult = queueResultsIterInner->second;

                    // Convert timestamps to milliseconds by using the clock frequency.
#ifndef CODEXL_GRAPHICS
                    double preStartTimestamp = (pResult->timestampResult.rawClocks.preStart / timestampFrequency) * 1000.0;
#endif
                    double startTimestamp = (pResult->timestampResult.rawClocks.start / timestampFrequency) * 1000.0;
                    double endTimestamp = (pResult->timestampResult.rawClocks.end / timestampFrequency) * 1000.0;

                    FuncId funcId = (FuncId)pResult->measurementInfo.idInfo.funcId;

                    gtASCIIString funcName = GetFunctionNameFromId(funcId);
                    gtASCIIString retVal = "void";
                    gtASCIIString params = "";

                    if (pResult->measurementInfo.idInfo.funcId != FuncId_WholeCmdBuf)
                    {
                        VktAPIEntry* pResultEntry = pProfilerLayer->FindInvocationBySampleId(sampleId);

                        if (pResultEntry != nullptr)
                        {
                            // Convert the functionID and return values from integers into full strings that we can use in the response.
                            funcName = GetFunctionNameFromId(pResultEntry->mFunctionId);
                            retVal = (pResultEntry->m_returnValue != -1) ? VktUtil::WriteResultCodeEnumAsString(pResultEntry->m_returnValue) : "void";
                            params = pResultEntry->mParameters.asCharArray();
                        }
                    }

                    UINT queueIndex = pWrappedQueue->GetQueueIndex();

#ifndef CODEXL_GRAPHICS
                    std::string queueInfo = "";
#else
                    std::string queueInfo = "0";
#endif

                    // Vulkan Response line format:
                    // CommandQueuePtr CommandBufferType CommandBufferPtr APIType FuncId Vulkan_FuncName(Args) = ReturnValue StartTime EndTime SampleId

                    profiledCommandsLinesStr += "0x";
                    profiledCommandsLinesStr += IntToString(queueIndex);
                    profiledCommandsLinesStr += " ";

                    profiledCommandsLinesStr += queueInfo.c_str();
                    profiledCommandsLinesStr += " ";

                    profiledCommandsLinesStr += "0x";
                    profiledCommandsLinesStr += UINT64ToHexString((UINT64)pResult->measurementInfo.idInfo.pWrappedCmdBuf->AppHandle());
                    profiledCommandsLinesStr += " ";

                    profiledCommandsLinesStr += IntToString(VktTraceAnalyzerLayer::Instance()->GetAPIGroupFromAPI(funcId));
                    profiledCommandsLinesStr += " ";

                    profiledCommandsLinesStr += IntToString(funcId);
                    profiledCommandsLinesStr += " ";

                    profiledCommandsLinesStr += "Vulkan_";
                    profiledCommandsLinesStr += funcName;

                    profiledCommandsLinesStr += "(";
                    profiledCommandsLinesStr += params;
                    profiledCommandsLinesStr += ") = ";

                    profiledCommandsLinesStr += retVal;

#ifndef CODEXL_GRAPHICS
                    profiledCommandsLinesStr += " ";
                    profiledCommandsLinesStr += DoubleToString(preStartTimestamp);
#endif

                    profiledCommandsLinesStr += " ";
                    profiledCommandsLinesStr += DoubleToString(startTimestamp);

                    profiledCommandsLinesStr += " ";
                    profiledCommandsLinesStr += DoubleToString(endTimestamp);

                    profiledCommandsLinesStr += " ";
                    profiledCommandsLinesStr += UINT64ToString(pResult->measurementInfo.idInfo.sampleId);

                    profiledCommandsLinesStr += "\n";

                    // We just added another line to our response buffer. Increment the count that the client will read.
                    numResponseLines++;
                }
            }
        }

        // We'll need to insert the GPU Trace section header before the response data, even if there aren't any results.
        appendString += "//==GPU Trace==";
        appendString += "\n";

        appendString += "//CommandBufEventCount=";
        appendString += DWORDToString(numResponseLines);
        appendString += "\n";

        // Include the response lines after the section header.
        if (numResponseLines > 0)
        {
            appendString += profiledCommandsLinesStr;
        }
    }
    else
    {
        appendString += "NODATA";
    }

    return appendString.asCharArray();
}
Ejemplo n.º 2
0
//-----------------------------------------------------------------------------
/// Convert profiler result data to string form.
/// \param pResult The profilerResult to convert.
/// \param profiledCommandsLinesStr The output string.
//-----------------------------------------------------------------------------
void VktTraceAnalyzerLayer::ProfilerResultToStr(
    ProfilerResult* pResult,
    gtASCIIString&  profiledCommandsLinesStr)
{
    // Convert timestamps to milliseconds by using the clock frequency.
#ifndef CODEXL_GRAPHICS
    const double timestampFrequency = pResult->measurementInfo.idInfo.pWrappedQueue->GetTimestampFrequency();

    double preStartTimestamp = (pResult->timestampResult.rawClocks.preStart / timestampFrequency) * 1000.0;
    double startTimestamp = (pResult->timestampResult.rawClocks.start / timestampFrequency) * 1000.0;
    double endTimestamp = (pResult->timestampResult.rawClocks.end / timestampFrequency) * 1000.0;
#else
    double startTimestamp = pResult->timestampResult.alignedMillisecondTimestamps.start;
    double endTimestamp = pResult->timestampResult.alignedMillisecondTimestamps.end;
#endif
    FuncId funcId = (FuncId)pResult->measurementInfo.idInfo.funcId;

    gtASCIIString funcName = GetFunctionNameFromId(funcId);
    gtASCIIString retVal = "void";
    gtASCIIString params = "";

    if (pResult->measurementInfo.idInfo.funcId != FuncId_WholeCmdBuf)
    {
        VktAPIEntry* pResultEntry = VktFrameProfilerLayer::Instance()->FindInvocationBySampleId(pResult->measurementInfo.idInfo.sampleId);

        if (pResultEntry != nullptr)
        {
            // Convert the functionID and return values from integers into full strings that we can use in the response.
            funcName = GetFunctionNameFromId(pResultEntry->mFunctionId);
            retVal = (pResultEntry->m_returnValue != -1) ? VktUtil::WriteResultCodeEnumAsString(pResultEntry->m_returnValue) : "void";
            params = pResultEntry->mParameters.asCharArray();
        }
    }

    // Vulkan Response line format:
    // QueueFamilyIndex QueueIndex CommandBuffer APIType FuncId Vulkan_FuncName(Args) = ReturnValue PreStartTime StartTime EndTime SampleId

    profiledCommandsLinesStr += IntToString(pResult->measurementInfo.idInfo.pWrappedQueue->GetQueueFamilyIndex());
    profiledCommandsLinesStr += " ";

    profiledCommandsLinesStr += IntToString(pResult->measurementInfo.idInfo.pWrappedQueue->GetQueueIndex());
    profiledCommandsLinesStr += " ";

    profiledCommandsLinesStr += POINTER_SUFFIX;
    profiledCommandsLinesStr += UINT64ToHexString((UINT64)pResult->measurementInfo.idInfo.pWrappedCmdBuf->AppHandle());
    profiledCommandsLinesStr += " ";

    profiledCommandsLinesStr += IntToString(VktTraceAnalyzerLayer::Instance()->GetAPIGroupFromAPI(funcId));
    profiledCommandsLinesStr += " ";

    profiledCommandsLinesStr += IntToString(funcId);
    profiledCommandsLinesStr += " ";

    profiledCommandsLinesStr += "Vulkan_";
    profiledCommandsLinesStr += funcName;

    profiledCommandsLinesStr += "(";
    profiledCommandsLinesStr += params;
    profiledCommandsLinesStr += ") = ";

    profiledCommandsLinesStr += retVal;

#ifndef CODEXL_GRAPHICS
    profiledCommandsLinesStr += " ";
    profiledCommandsLinesStr += DoubleToString(preStartTimestamp);
#endif

    profiledCommandsLinesStr += " ";
    profiledCommandsLinesStr += DoubleToString(startTimestamp);

    profiledCommandsLinesStr += " ";
    profiledCommandsLinesStr += DoubleToString(endTimestamp);

    profiledCommandsLinesStr += " ";
    profiledCommandsLinesStr += UINT64ToString(pResult->measurementInfo.idInfo.sampleId);

    profiledCommandsLinesStr += "\n";
}
Ejemplo n.º 3
0
//-----------------------------------------------------------------------------
/// Write a DX12-specific APITrace response line into the incoming string stream.
/// \param out The stringstream instance that each trace response line is written to.
/// \param inStartTime The start time for the API call.
/// \param inEndTime The end time for the API call.
//-----------------------------------------------------------------------------
void DX12APIEntry::AppendAPITraceLine(gtASCIIString& out, double inStartTime, double inEndTime) const
{
    gtASCIIString returnValueString;
    PrintReturnValue(mReturnValue, mReturnValueFlags, returnValueString);

    // Use the database processor to get a pointer to the object database.
    DX12ObjectDatabaseProcessor* databaseProcessor = DX12ObjectDatabaseProcessor::Instance();
    DX12WrappedObjectDatabase* objectDatabase = static_cast<DX12WrappedObjectDatabase*>(databaseProcessor->GetObjectDatabase());

    // Use the object database to retrieve wrapper info for the given interface.
    IDX12InstanceBase* wrapperInfo = objectDatabase->GetMetadataObject(mWrapperInterface);

    // APIType APIFunctionId InterfacePtr D3D12Interface_FunctionName(Parameters) = ReturnValue StartMillisecond EndMillisecond SampleId
    void* handle = nullptr;
    const char* type = "\0";
    const char* parameters = GetParameterString();

    if (wrapperInfo)
    {
        handle = wrapperInfo->GetApplicationHandle();
        type = wrapperInfo->GetTypeAsString();
    }
    else
    {
        // if there's no wrapper, it's a Present call.
        // Assume type is a swap chain until the Present call is wrapped properly
        type = "IDXGISwapChain";
    }

    out += IntToString(DX12TraceAnalyzerLayer::Instance()->GetAPIGroupFromAPI(mFunctionId));
    out += " ";

    out += IntToString(mFunctionId);
    out += " ";

    out += "0x";
    out += UINT64ToHexString((UINT64)handle);
    out += " ";

    out += type;
    out += "_";

    out += GetAPIName();

    out += "(";
    out += parameters;
    out += ") = ";

    out += returnValueString.asCharArray();

    out += " ";
    out += DoubleToString(inStartTime);

    out += " ";
    out += DoubleToString(inEndTime);

    out += " ";
    out += UINT64ToString(mSampleId);

    out += "\n";
}