/// <summary>
/// image maximum error. User buffer is internally allocated and freed.
/// </summary>
/// <param name="src2">2nd source image</param>
/// <param name="pError">Pointer to the computed error.</param>
public void MaxError(NPPImage_16scC1 src2, CudaDeviceVariable <double> pError)
{
int bufferSize = MaxErrorGetBufferHostSize();
CudaDeviceVariable <byte> buffer = new CudaDeviceVariable <byte>(bufferSize);
status = NPPNativeMethods.NPPi.MaximumError.nppiMaximumError_16sc_C1R(_devPtrRoi, _pitch, src2.DevicePointerRoi, src2.Pitch, _sizeRoi, pError.DevicePointer, buffer.DevicePointer);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiMaximumError_16sc_C1R", status));
buffer.Dispose();
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// image average relative error. User buffer is internally allocated and freed.
/// </summary>
/// <param name="src2">2nd source image</param>
/// <param name="pError">Pointer to the computed error.</param>
/// <param name="nppStreamCtx">NPP stream context.</param>
public void AverageRelativeError(NPPImage_16scC1 src2, CudaDeviceVariable <double> pError, NppStreamContext nppStreamCtx)
{
int bufferSize = AverageRelativeErrorGetBufferHostSize(nppStreamCtx);
CudaDeviceVariable <byte> buffer = new CudaDeviceVariable <byte>(bufferSize);
status = NPPNativeMethods_Ctx.NPPi.AverageRelativeError.nppiAverageRelativeError_16sc_C1R_Ctx(_devPtrRoi, _pitch, src2.DevicePointerRoi, src2.Pitch, _sizeRoi, pError.DevicePointer, buffer.DevicePointer, nppStreamCtx);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiAverageRelativeError_16sc_C1R_Ctx", status));
buffer.Dispose();
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// image maximum relative error.
/// </summary>
/// <param name="src2">2nd source image</param>
/// <param name="pError">Pointer to the computed error.</param>
/// <param name="buffer">Pointer to the user-allocated scratch buffer required for the MaximumRelativeError operation.</param>
/// <param name="nppStreamCtx">NPP stream context.</param>
public void MaximumRelativeError(NPPImage_16scC1 src2, CudaDeviceVariable <double> pError, CudaDeviceVariable <byte> buffer, NppStreamContext nppStreamCtx)
{
int bufferSize = MaximumRelativeErrorGetBufferHostSize(nppStreamCtx);
if (bufferSize > buffer.Size)
{
throw new NPPException("Provided buffer is too small.");
}
status = NPPNativeMethods_Ctx.NPPi.MaximumRelativeError.nppiMaximumRelativeError_16sc_C1R_Ctx(_devPtrRoi, _pitch, src2.DevicePointerRoi, src2.Pitch, _sizeRoi, pError.DevicePointer, buffer.DevicePointer, nppStreamCtx);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiMaximumRelativeError_16sc_C1R_Ctx", status));
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// image average relative error.
/// </summary>
/// <param name="src2">2nd source image</param>
/// <param name="pError">Pointer to the computed error.</param>
/// <param name="buffer">Pointer to the user-allocated scratch buffer required for the AverageRelativeError operation.</param>
public void AverageRelativeError(NPPImage_16scC1 src2, CudaDeviceVariable<double> pError, CudaDeviceVariable<byte> buffer)
{
int bufferSize = AverageRelativeErrorGetBufferHostSize();
if (bufferSize > buffer.Size) throw new NPPException("Provided buffer is too small.");
status = NPPNativeMethods.NPPi.AverageRelativeError.nppiAverageRelativeError_16sc_C1R(_devPtrRoi, _pitch, src2.DevicePointerRoi, src2.Pitch, _sizeRoi, pError.DevicePointer, buffer.DevicePointer);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiAverageRelativeError_16sc_C1R", status));
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// image maximum relative error. User buffer is internally allocated and freed.
/// </summary>
/// <param name="src2">2nd source image</param>
/// <param name="pError">Pointer to the computed error.</param>
public void MaximumRelativeError(NPPImage_16scC1 src2, CudaDeviceVariable<double> pError)
{
int bufferSize = MaximumRelativeErrorGetBufferHostSize();
CudaDeviceVariable<byte> buffer = new CudaDeviceVariable<byte>(bufferSize);
status = NPPNativeMethods.NPPi.MaximumRelativeError.nppiMaximumRelativeError_16sc_C1R(_devPtrRoi, _pitch, src2.DevicePointerRoi, src2.Pitch, _sizeRoi, pError.DevicePointer, buffer.DevicePointer);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiMaximumRelativeError_16sc_C1R", status));
buffer.Dispose();
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.
/// </summary>
/// <param name="nConstant">Value</param>
/// <param name="dest">Destination image</param>
/// <param name="nScaleFactor">scaling factor</param>
public void Div(Npp16sc nConstant, NPPImage_16scC1 dest, int nScaleFactor)
{
status = NPPNativeMethods.NPPi.DivConst.nppiDivC_16sc_C1RSfs(_devPtrRoi, _pitch, nConstant, dest.DevicePointerRoi, dest.Pitch, _sizeRoi, nScaleFactor);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiDivC_16sc_C1RSfs", status));
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value.
/// </summary>
/// <param name="src2">2nd source image</param>
/// <param name="nScaleFactor">scaling factor</param>
public void Div(NPPImage_16scC1 src2, int nScaleFactor)
{
status = NPPNativeMethods.NPPi.Div.nppiDiv_16sc_C1IRSfs(src2.DevicePointerRoi, src2.Pitch, _devPtrRoi, _pitch, _sizeRoi, nScaleFactor);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiDiv_16sc_C1IRSfs", status));
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// Image copy.
/// </summary>
/// <param name="dst">Destination image</param>
public void Copy(NPPImage_16scC1 dst)
{
status = NPPNativeMethods.NPPi.MemCopy.nppiCopy_16sc_C1R(_devPtrRoi, _pitch, dst.DevicePointerRoi, dst.Pitch, _sizeRoi);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiCopy_16sc_C1R", status));
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// In place image addition, scale by 2^(-nScaleFactor), then clamp to saturated value.
/// </summary>
/// <param name="src2">2nd source image</param>
/// <param name="nScaleFactor">scaling factor</param>
/// <param name="nppStreamCtx">NPP stream context.</param>
public void Add(NPPImage_16scC1 src2, int nScaleFactor, NppStreamContext nppStreamCtx)
{
status = NPPNativeMethods_Ctx.NPPi.Add.nppiAdd_16sc_C1IRSfs_Ctx(src2.DevicePointerRoi, src2.Pitch, _devPtrRoi, _pitch, _sizeRoi, nScaleFactor, nppStreamCtx);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiAdd_16sc_C1IRSfs_Ctx", status));
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// Image copy.
/// </summary>
/// <param name="dst">Destination image</param>
/// <param name="nppStreamCtx">NPP stream context.</param>
public void Copy(NPPImage_16scC1 dst, NppStreamContext nppStreamCtx)
{
status = NPPNativeMethods_Ctx.NPPi.MemCopy.nppiCopy_16sc_C1R_Ctx(_devPtrRoi, _pitch, dst.DevicePointerRoi, dst.Pitch, _sizeRoi, nppStreamCtx);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiCopy_16sc_C1R_Ctx", status));
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.
/// </summary>
/// <param name="nConstant">Value</param>
/// <param name="dest">Destination image</param>
/// <param name="nScaleFactor">scaling factor</param>
/// <param name="nppStreamCtx">NPP stream context.</param>
public void Div(Npp16sc nConstant, NPPImage_16scC1 dest, int nScaleFactor, NppStreamContext nppStreamCtx)
{
status = NPPNativeMethods_Ctx.NPPi.DivConst.nppiDivC_16sc_C1RSfs_Ctx(_devPtrRoi, _pitch, nConstant, dest.DevicePointerRoi, dest.Pitch, _sizeRoi, nScaleFactor, nppStreamCtx);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiDivC_16sc_C1RSfs_Ctx", status));
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value.
/// </summary>
/// <param name="src2">2nd source image</param>
/// <param name="nScaleFactor">scaling factor</param>
public void Div(NPPImage_16scC1 src2, int nScaleFactor)
{
status = NPPNativeMethods.NPPi.Div.nppiDiv_16sc_C1IRSfs(src2.DevicePointerRoi, src2.Pitch, _devPtrRoi, _pitch, _sizeRoi, nScaleFactor);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiDiv_16sc_C1IRSfs", status));
NPPException.CheckNppStatus(status, this);
}
/// <summary>
/// Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.
/// </summary>
/// <param name="nConstant">Value</param>
/// <param name="dest">Destination image</param>
/// <param name="nScaleFactor">scaling factor</param>
public void Mul(Npp16sc nConstant, NPPImage_16scC1 dest, int nScaleFactor)
{
status = NPPNativeMethods.NPPi.MulConst.nppiMulC_16sc_C1RSfs(_devPtrRoi, _pitch, nConstant, dest.DevicePointerRoi, dest.Pitch, _sizeRoi, nScaleFactor);
Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiMulC_16sc_C1RSfs", status));
NPPException.CheckNppStatus(status, this);
}
