Пример #1
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		/// <summary>
		/// 32-bit signed to 8-bit signed conversion.
		/// </summary>
		/// <param name="dst">Destination image</param>
		public void Convert(NPPImage_8sC3 dst)
		{
			status = NPPNativeMethods.NPPi.BitDepthConversion.nppiConvert_32s8s_C3R(_devPtrRoi, _pitch, dst.DevicePointerRoi, dst.Pitch, _sizeRoi);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiConvert_32s8s_C3R", status));
			NPPException.CheckNppStatus(status, this);
		}
Пример #2
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		/// <summary>
		/// CrossCorrValid_NormLevel. Buffer is internally allocated and freed.
		/// </summary>
		/// <param name="tpl">template image.</param>
		/// <param name="dst">Destination image</param>
		public void CrossCorrValid_NormLevel(NPPImage_8sC3 tpl, NPPImage_32fC3 dst)
		{
			int bufferSize = ValidNormLevelGetBufferHostSize();
			CudaDeviceVariable<byte> buffer = new CudaDeviceVariable<byte>(bufferSize);

			status = NPPNativeMethods.NPPi.ImageProximity.nppiCrossCorrValid_NormLevel_8s32f_C3R(_devPtrRoi, _pitch, _sizeRoi, tpl.DevicePointerRoi, tpl.Pitch, tpl.SizeRoi, dst.DevicePointer, dst.Pitch, buffer.DevicePointer);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiCrossCorrValid_NormLevel_8s32f_C3R", status));
			buffer.Dispose();
			NPPException.CheckNppStatus(status, this);
		}
Пример #3
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		/// <summary>
		/// image CrossCorrValid_Norm.
		/// </summary>
		/// <param name="tpl">template image.</param>
		/// <param name="dst">Destination-Image</param>
		public void CrossCorrValid_Norm(NPPImage_8sC3 tpl, NPPImage_32fC3 dst)
		{
			status = NPPNativeMethods.NPPi.ImageProximity.nppiCrossCorrValid_Norm_8s32f_C3R(_devPtrRoi, _pitch, _sizeRoi, tpl.DevicePointerRoi, tpl.Pitch, tpl.SizeRoi, dst.DevicePointerRoi, dst.Pitch);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiCrossCorrValid_Norm_8s32f_C3R", status));
			NPPException.CheckNppStatus(status, this);
		}
Пример #4
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		/// <summary>
		/// An input color twist matrix with floating-point pixel values is applied
		/// within ROI.
		/// </summary>
		/// <param name="dest">Destination image</param>
		/// <param name="twistMatrix">The color twist matrix with floating-point pixel values [3,4].</param>
		public void ColorTwist(NPPImage_8sC3 dest, float[,] twistMatrix)
		{
			status = NPPNativeMethods.NPPi.ColorTwist.nppiColorTwist32f_8s_C3R(_devPtr, _pitch, dest.DevicePointer, dest.Pitch, _sizeRoi, twistMatrix);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiColorTwist32f_8s_C3R", status));
			NPPException.CheckNppStatus(status, this);
		}
Пример #5
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		/// <summary>
		/// CrossCorrSame_NormLevel.
		/// </summary>
		/// <param name="tpl">template image.</param>
		/// <param name="dst">Destination image</param>
		/// <param name="buffer">Allocated device memory with size of at <see cref="SameNormLevelGetBufferHostSize()"/></param>
		public void CrossCorrSame_NormLevel(NPPImage_8sC3 tpl, NPPImage_32fC3 dst, CudaDeviceVariable<byte> buffer)
		{
			int bufferSize = SameNormLevelGetBufferHostSize();
			if (bufferSize > buffer.Size) throw new NPPException("Provided buffer is too small.");

			status = NPPNativeMethods.NPPi.ImageProximity.nppiCrossCorrSame_NormLevel_8s32f_C3R(_devPtrRoi, _pitch, _sizeRoi, tpl.DevicePointerRoi, tpl.Pitch, tpl.SizeRoi, dst.DevicePointer, dst.Pitch, buffer.DevicePointer);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiCrossCorrSame_NormLevel_8s32f_C3R", status));
			NPPException.CheckNppStatus(status, this);
		}
Пример #6
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		/// <summary>
		/// image bit shift by constant (right).
		/// </summary>
		/// <param name="nConstant">Constant</param>
		/// <param name="dest">Destination image</param>
		public void RShiftC(uint[] nConstant, NPPImage_8sC3 dest)
		{
			status = NPPNativeMethods.NPPi.RightShiftConst.nppiRShiftC_8s_C3R(_devPtrRoi, _pitch, nConstant, dest.DevicePointerRoi, dest.Pitch, _sizeRoi);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiRShiftC_8s_C3R", status));
			NPPException.CheckNppStatus(status, this);
		}
Пример #7
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		/// <summary>
		/// Three-channel 8-bit signed image DotProd. Buffer is internally allocated and freed.
		/// </summary>
		/// <param name="src2">2nd source image</param>
		/// <param name="pDp">Pointer to the computed dot product of the two images. (3 * sizeof(double))</param>
		public void DotProduct(NPPImage_8sC3 src2, CudaDeviceVariable<double> pDp)
		{
			int bufferSize = DotProdGetBufferHostSize();
			CudaDeviceVariable<byte> buffer = new CudaDeviceVariable<byte>(bufferSize);

			status = NPPNativeMethods.NPPi.DotProd.nppiDotProd_8s64f_C3R(_devPtrRoi, _pitch, src2.DevicePointerRoi, src2.Pitch, _sizeRoi, pDp.DevicePointer, buffer.DevicePointer);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiDotProd_8s64f_C3R", status));
			buffer.Dispose();
			NPPException.CheckNppStatus(status, this);
		}
Пример #8
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		/// <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_8sC3 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_8s_C3R(_devPtrRoi, _pitch, src2.DevicePointerRoi, src2.Pitch, _sizeRoi, pError.DevicePointer, buffer.DevicePointer);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiAverageRelativeError_8s_C3R", status));
			NPPException.CheckNppStatus(status, this);
		}
Пример #9
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		/// <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_8sC3 src2, CudaDeviceVariable<double> pError)
		{
			int bufferSize = MaximumRelativeErrorGetBufferHostSize();
			CudaDeviceVariable<byte> buffer = new CudaDeviceVariable<byte>(bufferSize);
			status = NPPNativeMethods.NPPi.MaximumRelativeError.nppiMaximumRelativeError_8s_C3R(_devPtrRoi, _pitch, src2.DevicePointerRoi, src2.Pitch, _sizeRoi, pError.DevicePointer, buffer.DevicePointer);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiMaximumRelativeError_8s_C3R", status));
			buffer.Dispose();
			NPPException.CheckNppStatus(status, this);
		}
Пример #10
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		/// <summary>
		/// convolution filter.
		/// </summary>
		/// <param name="dst">Destination-Image</param>
		/// <param name="pKernel">Pointer to the start address of the kernel coefficient array.<para/>
		/// Coefficients are expected to be stored in reverse order.</param>
		/// <param name="oKernelSize">Width and Height of the rectangular kernel.</param>
		/// <param name="oAnchor">X and Y offsets of the kernel origin frame of reference</param>
		public void Filter(NPPImage_8sC3 dst, CudaDeviceVariable<float> pKernel, NppiSize oKernelSize, NppiPoint oAnchor)
		{
			status = NPPNativeMethods.NPPi.Convolution.nppiFilter32f_8s_C3R(_devPtrRoi, _pitch, dst.DevicePointerRoi, dst.Pitch, _sizeRoi, pKernel.DevicePointer, oKernelSize, oAnchor);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiFilter32f_8s_C3R", status));
			NPPException.CheckNppStatus(status, this);
		}
Пример #11
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		/// <summary>
		/// image NormRel_L2. Buffer is internally allocated and freed.
		/// </summary>
		/// <param name="tpl">template image.</param>
		/// <param name="pNormRel">Pointer to the computed relative error for the infinity norm of two images. (1 * sizeof(double))</param>
		/// <param name="nCOI">channel of interest.</param>
		/// <param name="pMask">Mask image.</param>
		public void NormRel_L2(NPPImage_8sC3 tpl, CudaDeviceVariable<double> pNormRel, int nCOI, NPPImage_8uC1 pMask)
		{
			int bufferSize = NormRelL2MaskedGetBufferHostSize();
			CudaDeviceVariable<byte> buffer = new CudaDeviceVariable<byte>(bufferSize);

			status = NPPNativeMethods.NPPi.NormRel.nppiNormRel_L2_8s_C3CMR(_devPtrRoi, _pitch, tpl.DevicePointerRoi, tpl.Pitch, pMask.DevicePointerRoi, pMask.Pitch, _sizeRoi, nCOI, pNormRel.DevicePointer, buffer.DevicePointer);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiNormRel_L2_8s_C3CMR", status));
			buffer.Dispose();
			NPPException.CheckNppStatus(status, this);
		}
Пример #12
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		/// <summary>
		/// image NormRel_L1.
		/// </summary>
		/// <param name="tpl">template image.</param>
		/// <param name="pNormRel">Pointer to the computed relative error for the infinity norm of two images. (1 * sizeof(double))</param>
		/// <param name="nCOI">channel of interest.</param>
		/// <param name="pMask">Mask image.</param>
		/// <param name="buffer">Allocated device memory with size of at <see cref="NormRelL1MaskedGetBufferHostSize()"/></param>
		public void NormRel_L1(NPPImage_8sC3 tpl, CudaDeviceVariable<double> pNormRel, int nCOI, NPPImage_8uC1 pMask, CudaDeviceVariable<byte> buffer)
		{
			int bufferSize = NormRelL1MaskedGetBufferHostSize();
			if (bufferSize > buffer.Size) throw new NPPException("Provided buffer is too small.");

			status = NPPNativeMethods.NPPi.NormRel.nppiNormRel_L1_8s_C3CMR(_devPtrRoi, _pitch, tpl.DevicePointerRoi, tpl.Pitch, pMask.DevicePointerRoi, pMask.Pitch, _sizeRoi, nCOI, pNormRel.DevicePointer, buffer.DevicePointer);
			Debug.WriteLine(String.Format("{0:G}, {1}: {2}", DateTime.Now, "nppiNormRel_L1_8s_C3CMR", status));
			NPPException.CheckNppStatus(status, this);
		}