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I have been working with an interface which read measurement data from a sensor and use a library written in C++ to analyse that data.

The function is just about the following:

  1. Set measurement parameters on the C++ library
  2. Get data from the sensor (1200 measurements alltogether)
  3. Write data to C++ library
  4. Process all 1200 measurements in C++ library
  5. Read results from C++ library

Calling this C++ library from C#-code is previously dealt with this question: Calling unmanaged C++ library (dll) from C# creates an access violation error (0xc0000005).

Now it seems, that the C++ library either

  • doesn't get data correctly
  • is not able to hold data
  • is not able to properly return results to my C#-code.

Bad thing is, that I'm not able to debug this C++ library.

What is wrong with my code?

1) Setting the measurement parameters

namespace PdWaveApi
{
[StructLayout(LayoutKind.Sequential)]
public struct PDDataInfo

{                   
   public int   nPings;              
   public int   nDataRate;          
   public int   nSamples;            
   public float fFrequency;          
   public float fBeamAngle;          
   public int   nInstrument;         
   public int   nCoordSystem;        
   [MarshalAs(UnmanagedType.ByValArray, SizeConst = 9)]
   public short[] hBeamToXYZ;       
   public short hWaveT1;

    // Constructor
   public static PDDataInfo Create()
   {
       PDDataInfo DataStruct = new PDDataInfo();
       DataStruct.hBeamToXYZ = new short[9];
       return DataStruct;
   }
   }
}

public class PdWaveBaseLWrapper
{
   [DllImport("PdWaveBase.dll", EntryPoint = "PDSetInstrumentConfig")]
   public static extern int PDSetInstrumentConfig(ref PDDataInfo pDataInfo);
}

public void SetInstrumentConfiguration()
{
    PdWaveApi.PDDataInfo InstrumentConfiguration = new PdWaveApi.PDDataInfo();
    .................
    Initializing the InstrumentConfiguration structure
    ...............
    PdWaveBaseLWrapper.PDSetInstrumentConfig(ref InstrumentConfiguration);
}

3) Reading data from sensor and writing data to C++ library

namespace PdWaveApi
{
    [StructLayout(LayoutKind.Sequential)]
    public struct PDWaveSample
    {   
        [MarshalAs(UnmanagedType.I1)]
        public bool Valid;
        public float fPressure;
        public float fDistance;
        [MarshalAs(UnmanagedType.ByValArray, SizeConst = Constants.PD_MAX_WAVEBEAMS)]
        public float[] fVel;
        [MarshalAs(UnmanagedType.ByValArray, SizeConst = Constants.PD_MAX_WAVEBEAMS)]
        public ushort[] nAmp;

        // Constructor

        public static PDWaveSample Create()
        {
            PDWaveSample DataStruct = new PDWaveSample();
            DataStruct.fVel = new float[Constants.PD_MAX_WAVEBEAMS];
            DataStruct.nAmp = new ushort[Constants.PD_MAX_WAVEBEAMS];
            return DataStruct;
        }
    }
}

public class PdWaveBaseLWrapper
{
    [DllImport("PdWaveBase.dll", EntryPoint = "PDSetWaveSample")]
    public static extern int PDSetWaveSample(ref PDWaveSample pWaveSample);
}

namespace SensorInterface
{
    public partial class frmSensorInterface : Form
    {
        public PdWaveApi.PDWaveSample WaveSampleData = PdWaveApi.PDWaveSample.Create();

        private void OnNewData(object sender, OnNewDataEvent e)
        {
            ReadWaveSample(ref WaveSampleData);
            SetWaveSample(ref WaveSampleData);
        }

        public void ReadWaveSample(ref PdWaveApi.PDWaveSample WaveSampleData)
        {
            DateTime MeasurementTimeStamp;
            float[] dVel = new float[4];
            float dTemperature = new float();
            float dPitch = new float();
            float dRoll = new float();
            float dHeading = new float();
            float dPressure = new float();
            short[] sAmp = new short[4];

            //  Read some of the latest data from the control
            GetVelocity(ref dVel[0], ref dVel[1], ref dVel[2], ref dVel[3]);
            GetAmplitude(ref sAmp[0], ref sAmp[1], ref sAmp[2], ref sAmp[2]);

            ..............
            // Set other data to the structure

        }

        public void SetWaveSample(ref PdWaveApi.PDWaveSample WaveSampleData)
        {
            PdWaveBaseLWrapper.PDSetWaveSample(ref WaveSampleData);
        }
    }
}

4) Process all 1200 measurements in C++ library

[StructLayout(LayoutKind.Sequential)]
public struct PDWaveBurst
{
    [MarshalAs(UnmanagedType.ByValArray , SizeConst = Constants.PD_MAX_WAVEMEAS_AST)]    
    public float[] fST; 
    public float fWinFloor;
    public float fWinCeil;
    [MarshalAs(UnmanagedType.I1)]
    public bool bUseWindow;
    [MarshalAs(UnmanagedType.I1)]
    public bool bSTOk;
    [MarshalAs(UnmanagedType.I1)]
    public bool bGetRawAST;
    [MarshalAs(UnmanagedType.I1)]
    public bool bValidBurst;

    public static PDWaveBurst Create()
    {
        PDWaveBurst DataStruct = new PDWaveBurst();
        DataStruct.fST = new float[Constants.PD_MAX_WAVEMEAS_AST];
        return DataStruct;
    }
}

[DllImport("PdWaveBase.dll", EntryPoint = "PDPreProcess")]
public static extern int PDPreProcess(int nSample, ref PDWaveBurst pWaveBurst);

[DllImport("PdWaveBase.dll", EntryPoint = "PDProcessReturnInt")]
public static extern int PDProcessReturnInt();

public void PreprocessBurstData(int nSamples)
{
    PdWaveApi.PDWaveBurst WaveBurstData = PdWaveApi.PDWaveBurst.Create();

    WaveBurstData.fST = new float[4096];
    WaveBurstData.fWinFloor = (float)1.25;
    WaveBurstData.fWinCeil = 2;
    WaveBurstData.bUseWindow = false;
    WaveBurstData.bSTOk = false;
    WaveBurstData.bGetRawAST = false;
    WaveBurstData.bValidBurst = false;

    PdWaveBaseLWrapper.PDPreProcess(nSamples, ref WaveBurstData);
}

public void ProcessData()
{
    int ProcessError = PdWaveBaseLWrapper.PDProcessReturnInt();
}

5) Read results from C++ library

[StructLayout(LayoutKind.Sequential)]
public struct PDWavePar {
   public float fTm02;  
   public float fTp;     
   public float fDirTp;  
   public float fSprTp;  
   public float fMainDir;
   public float fUI;     
   public float fHm0;   
   public float fH3;
   public float fT3;    
   public float fH10; 
   public float fT10;
   public float fHmax;
   public float fTmax;
   public float fTz;
   public float fMeanPres;
   public int   nNumNoDet;
   public int   nNumBadDet;
   public int   nErrCode;  
   public int   nSpectrum; 
   public float fMeanAST;
}


[DllImport("PdWaveBase.dll", EntryPoint = "PDGetWavePar")]
public static extern int PDGetWavePar(ref PDWavePar pwWavePar);

public void GetOutput()
{
    PdWaveApi.PDWavePar WaveParameters = new PdWaveApi.PDWavePar();
    PdWaveBaseLWrapper.PDGetWavePar(ref WaveParameters);
}

So, as conclusion:

What should I change in my code - to pass data correctly to unmanaged dll - to have dll hold and process the data in its' internal structures - to read results correctly from unmanaged code to my C# program?

(Sorry about the length of my question.)

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1  
What is wrong with the output? Is there an exception or an error code? Did your data processing work in a small sample written in c++? Just to verify the error is caused by the marshalling between c# and the native library I would test the library with a small data set in c++ and try the same in c#. –  Manuel Amstutz Aug 29 '12 at 10:21
    
Well. My program runs without exceptions. Though, after processing the dll returns error codes which indicate invalid input data. The values I can read from dll are like -9.671407E+24,-1.661535E+35,2.407412E-35,-1.136868E-13,-1.084202E-19,2.199023E+1‌​2,5.6295E+14 .... So, definitely not valid data. I haven't tested dll using c++. –  Swinging Moose Aug 29 '12 at 10:56
    
Um... perhaps this is not so to the point, but still, I have to ask: why do you use struct (instead of object or other type)? AFAIK, there is no benefit to using struct instead of object type. Also, the use of that static method that mimics a constructor is a little out of the way C# code is supposed to be. –  woohoo Nov 8 '12 at 17:23
    
Woohoo, probably you are right about static method used to create a constructor. –  Swinging Moose Nov 20 '12 at 6:29

1 Answer 1

The final solution to my problem was to change the alignment to 1 byte, like this:

C# struct definitions: From:

    [StructLayout(LayoutKind.Sequential)]

to

    [StructLayout(LayoutKind.Sequential, Pack=1)]

This has been discussed at least here: Calling C++ metro dll from c# metro app and returning filled structures

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