Class NPPImage_16uC4

Inheritance
System.Object
NPPImageBase
NPPImage_16uC4
Implements
System.IDisposable
Inherited Members
System.Object.Equals(System.Object)
System.Object.Equals(System.Object, System.Object)
System.Object.GetHashCode()
System.Object.GetType()
System.Object.MemberwiseClone()
System.Object.ReferenceEquals(System.Object, System.Object)
System.Object.ToString()
Namespace: ManagedCuda.NPP
Assembly: NPP.dll
Syntax
public class NPPImage_16uC4 : NPPImageBase, IDisposable

Constructors

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NPPImage_16uC4(CUdeviceptr, NppiSize, Int32)

Creates a new NPPImage from allocated device ptr.

Declaration
public NPPImage_16uC4(CUdeviceptr devPtr, NppiSize size, int pitch)
Parameters
Type Name Description
CUdeviceptr devPtr

Already allocated device ptr.
NppiSize size

Image size
System.Int32 pitch

Pitch / Line step
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NPPImage_16uC4(CUdeviceptr, NppiSize, Int32, Boolean)

Creates a new NPPImage from allocated device ptr.

Declaration
public NPPImage_16uC4(CUdeviceptr devPtr, NppiSize size, int pitch, bool isOwner)
Parameters
Type Name Description
CUdeviceptr devPtr

Already allocated device ptr.
NppiSize size

Image size
System.Int32 pitch

Pitch / Line step
System.Boolean isOwner

If TRUE, devPtr is freed when disposing
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NPPImage_16uC4(CUdeviceptr, Int32, Int32, Int32)

Creates a new NPPImage from allocated device ptr. Does not take ownership of decPtr.

Declaration
public NPPImage_16uC4(CUdeviceptr devPtr, int width, int height, int pitch)
Parameters
Type Name Description
CUdeviceptr devPtr

Already allocated device ptr.
System.Int32 width

Image width in pixels
System.Int32 height

Image height in pixels
System.Int32 pitch

Pitch / Line step
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NPPImage_16uC4(CUdeviceptr, Int32, Int32, Int32, Boolean)

Creates a new NPPImage from allocated device ptr.

Declaration
public NPPImage_16uC4(CUdeviceptr devPtr, int width, int height, int pitch, bool isOwner)
Parameters
Type Name Description
CUdeviceptr devPtr

Already allocated device ptr.
System.Int32 width

Image width in pixels
System.Int32 height

Image height in pixels
System.Int32 pitch

Pitch / Line step
System.Boolean isOwner

If TRUE, devPtr is freed when disposing
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NPPImage_16uC4(NPPImageBase)

Creates a new NPPImage from allocated device ptr. Does not take ownership of inner image device pointer.

Declaration
public NPPImage_16uC4(NPPImageBase image)
Parameters
Type Name Description
NPPImageBase image

NPP image
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NPPImage_16uC4(NppiSize)

Allocates new memory on device using NPP-Api.

Declaration
public NPPImage_16uC4(NppiSize size)
Parameters
Type Name Description
NppiSize size

Image size
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NPPImage_16uC4(Int32, Int32)

Allocates new memory on device using NPP-Api.

Declaration
public NPPImage_16uC4(int nWidthPixels, int nHeightPixels)
Parameters
Type Name Description
System.Int32 nWidthPixels

Image width in pixels
System.Int32 nHeightPixels

Image height in pixels

Methods

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Add(NPPImage_16uC4, NPPImage_16uC4, Int32)

Image addition, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Add(NPPImage_16uC4 src2, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Add(NPPImage_16uC4, Int32)

In place image addition, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Add(NPPImage_16uC4 src2, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
System.Int32 nScaleFactor

scaling factor
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Add(UInt16[], NPPImage_16uC4, Int32)

Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Add(ushort[] nConstant, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Values to add
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Add(UInt16[], Int32)

Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.

Declaration
public void Add(ushort[] nConstant, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Values to add
System.Int32 nScaleFactor

scaling factor
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AddA(NPPImage_16uC4, NPPImage_16uC4, Int32)

Image addition, scale by 2^(-nScaleFactor), then clamp to saturated value. Unmodified Alpha.

Declaration
public void AddA(NPPImage_16uC4 src2, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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AddA(NPPImage_16uC4, Int32)

In place image addition, scale by 2^(-nScaleFactor), then clamp to saturated value. Unmodified Alpha.

Declaration
public void AddA(NPPImage_16uC4 src2, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
System.Int32 nScaleFactor

scaling factor
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AddA(UInt16[], NPPImage_16uC4, Int32)

Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unmodified Alpha.

Declaration
public void AddA(ushort[] nConstant, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Values to add
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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AddA(UInt16[], Int32)

Add constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unmodified Alpha.

Declaration
public void AddA(ushort[] nConstant, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Values to add
System.Int32 nScaleFactor

scaling factor
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ADotProdGetBufferHostSize()

Device scratch buffer size (in bytes) for nppiDotProd_16u64f_C4R. Ignoring alpha channel.

Declaration
public int ADotProdGetBufferHostSize()
Returns
Type Description
System.Int32
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ADotProduct(NPPImage_16uC4, CudaDeviceVariable<Double>)

Four-channel 16-bit unsigned image DotProd. Buffer is internally allocated and freed. Ignoring alpha channel.

Declaration
public void ADotProduct(NPPImage_16uC4 src2, CudaDeviceVariable<double> pDp)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pDp

Pointer to the computed dot product of the two images. (3 * sizeof(double))
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ADotProduct(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

Four-channel 16-bit unsigned image DotProd. Ignoring alpha channel.

Declaration
public void ADotProduct(NPPImage_16uC4 src2, CudaDeviceVariable<double> pDp, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pDp

Pointer to the computed dot product of the two images. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at ADotProdGetBufferHostSize()
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AlphaComp(NPPImage_16uC4, NPPImage_16uC4, NppiAlphaOp)

Four 8-bit unsigned char channel image composition using image alpha values (0 - max channel pixel value).

Declaration
public void AlphaComp(NPPImage_16uC4 src2, NPPImage_16uC4 dest, NppiAlphaOp nppAlphaOp)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
NppiAlphaOp nppAlphaOp

alpha compositing operation
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AlphaComp(UInt16, NPPImage_16uC4, UInt16, NPPImage_16uC4, NppiAlphaOp)

Image composition using constant alpha.

Declaration
public void AlphaComp(ushort alpha1, NPPImage_16uC4 src2, ushort alpha2, NPPImage_16uC4 dest, NppiAlphaOp nppAlphaOp)
Parameters
Type Name Description
System.UInt16 alpha1

constant alpha for this image
NPPImage_16uC4 src2

2nd source image
System.UInt16 alpha2

constant alpha for src2
NPPImage_16uC4 dest

Destination image
NppiAlphaOp nppAlphaOp

alpha compositing operation
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AlphaCompA(UInt16, NPPImage_16uC4, UInt16, NPPImage_16uC4, NppiAlphaOp)

Image composition using constant alpha. Not affecting alpha channel.

Declaration
public void AlphaCompA(ushort alpha1, NPPImage_16uC4 src2, ushort alpha2, NPPImage_16uC4 dest, NppiAlphaOp nppAlphaOp)
Parameters
Type Name Description
System.UInt16 alpha1

constant alpha for this image
NPPImage_16uC4 src2

2nd source image
System.UInt16 alpha2

constant alpha for src2
NPPImage_16uC4 dest

Destination image
NppiAlphaOp nppAlphaOp

alpha compositing operation
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AlphaPremul(UInt16)

In place alpha premultiplication using constant alpha.

Declaration
public void AlphaPremul(ushort alpha)
Parameters
Type Name Description
System.UInt16 alpha

alpha
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AlphaPremul(UInt16, NPPImage_16uC4)

Image premultiplication using constant alpha.

Declaration
public void AlphaPremul(ushort alpha, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16 alpha

alpha
NPPImage_16uC4 dest

Destination image
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AlphaPremulA()

Four 8-bit unsigned char channel in place image premultiplication with pixel alpha (0 - max channel pixel value).

Declaration
public void AlphaPremulA()
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AlphaPremulA(NPPImage_16uC4)

Four 8-bit unsigned char channel image premultiplication with pixel alpha (0 - max channel pixel value).

Declaration
public void AlphaPremulA(NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
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AlphaPremulA(UInt16)

In place alpha premultiplication using constant alpha. Not affecting alpha channel.

Declaration
public void AlphaPremulA(ushort alpha)
Parameters
Type Name Description
System.UInt16 alpha

alpha
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AlphaPremulA(UInt16, NPPImage_16uC4)

Image premultiplication using constant alpha. Not affecting alpha channel.

Declaration
public void AlphaPremulA(ushort alpha, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16 alpha

alpha
NPPImage_16uC4 dest

Destination image
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And(NPPImage_16uC4)

In place image logical and.

Declaration
public void And(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
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And(NPPImage_16uC4, NPPImage_16uC4)

Image logical and.

Declaration
public void And(NPPImage_16uC4 src2, NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
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And(UInt16[])

In place image logical and with constant.

Declaration
public void And(ushort[] nConstant)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
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And(UInt16[], NPPImage_16uC4)

Image logical and with constant.

Declaration
public void And(ushort[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
NPPImage_16uC4 dest

Destination image
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AndA(NPPImage_16uC4)

In place image logical and. Unchanged Alpha.

Declaration
public void AndA(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
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AndA(NPPImage_16uC4, NPPImage_16uC4)

Image logical and. Unchanged Alpha.

Declaration
public void AndA(NPPImage_16uC4 src2, NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
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AndA(UInt16[])

In place image logical and with constant. Unchanged Alpha.

Declaration
public void AndA(ushort[] nConstant)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
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AndA(UInt16[], NPPImage_16uC4)

Image logical and with constant. Unchanged Alpha.

Declaration
public void AndA(ushort[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
NPPImage_16uC4 dest

Destination image
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AverageError(NPPImage_16uC4, CudaDeviceVariable<Double>)

image average error. User buffer is internally allocated and freed.

Declaration
public void AverageError(NPPImage_16uC4 src2, CudaDeviceVariable<double> pError)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pError

Pointer to the computed error.
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AverageError(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image average error.

Declaration
public void AverageError(NPPImage_16uC4 src2, CudaDeviceVariable<double> pError, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pError

Pointer to the computed error.
CudaDeviceVariable<System.Byte> buffer

Pointer to the user-allocated scratch buffer required for the AverageError operation.
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AverageErrorGetBufferHostSize()

Device scratch buffer size (in bytes) for AverageError.

Declaration
public int AverageErrorGetBufferHostSize()
Returns
Type Description
System.Int32
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AverageRelativeError(NPPImage_16uC4, CudaDeviceVariable<Double>)

image average relative error. User buffer is internally allocated and freed.

Declaration
public void AverageRelativeError(NPPImage_16uC4 src2, CudaDeviceVariable<double> pError)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pError

Pointer to the computed error.
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AverageRelativeError(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image average relative error.

Declaration
public void AverageRelativeError(NPPImage_16uC4 src2, CudaDeviceVariable<double> pError, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pError

Pointer to the computed error.
CudaDeviceVariable<System.Byte> buffer

Pointer to the user-allocated scratch buffer required for the AverageRelativeError operation.
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AverageRelativeErrorGetBufferHostSize()

Device scratch buffer size (in bytes) for AverageRelativeError.

Declaration
public int AverageRelativeErrorGetBufferHostSize()
Returns
Type Description
System.Int32
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ColorToGray(NPPImage_16uC1, Single[])

Color to Gray conversion.

Declaration
public void ColorToGray(NPPImage_16uC1 dest, float[] aCoeffs)
Parameters
Type Name Description
NPPImage_16uC1 dest

Destination image
System.Single[] aCoeffs

fixed size array of constant floating point conversion coefficient values, one per color channel.
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ColorToGrayA(NPPImage_16uC1, Single[])

Color to Gray conversion, not affecting Alpha.

Declaration
public void ColorToGrayA(NPPImage_16uC1 dest, float[] aCoeffs)
Parameters
Type Name Description
NPPImage_16uC1 dest

Destination image
System.Single[] aCoeffs

fixed size array of constant floating point conversion coefficient values, one per color channel.
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ColorTwistA(NPPImage_16uC4, Single[,])

An input color twist matrix with floating-point pixel values is applied within ROI. Alpha channel is the last channel and is not processed.

Declaration
public void ColorTwistA(NPPImage_16uC4 dest, float[, ] twistMatrix)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Single[,] twistMatrix

The color twist matrix with floating-point pixel values [3,4].
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ColorTwistA(Single[,])

in place color twist, not affecting Alpha.

An input color twist matrix with floating-point coefficient values is applied within ROI.

Declaration
public void ColorTwistA(float[, ] aTwist)
Parameters
Type Name Description
System.Single[,] aTwist

The color twist matrix with floating-point coefficient values. [3,4]
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Compare(NPPImage_16uC1, NPPImage_8uC1, NppCmpOp)

Compare pSrc1's pixels with corresponding pixels in pSrc2.

Declaration
public void Compare(NPPImage_16uC1 src2, NPPImage_8uC1 dest, NppCmpOp eComparisonOperation)
Parameters
Type Name Description
NPPImage_16uC1 src2

2nd source image
NPPImage_8uC1 dest

Destination image
NppCmpOp eComparisonOperation

Specifies the comparison operation to be used in the pixel comparison.
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Compare(UInt16[], NPPImage_8uC1, NppCmpOp)

Compare pSrc's pixels with constant value.

Declaration
public void Compare(ushort[] nConstant, NPPImage_8uC1 dest, NppCmpOp eComparisonOperation)
Parameters
Type Name Description
System.UInt16[] nConstant

constant value
NPPImage_8uC1 dest

Destination image
NppCmpOp eComparisonOperation

Specifies the comparison operation to be used in the pixel comparison.
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CompareA(NPPImage_16uC1, NPPImage_8uC1, NppCmpOp)

Compare pSrc1's pixels with corresponding pixels in pSrc2. Not affecting Alpha.

Declaration
public void CompareA(NPPImage_16uC1 src2, NPPImage_8uC1 dest, NppCmpOp eComparisonOperation)
Parameters
Type Name Description
NPPImage_16uC1 src2

2nd source image
NPPImage_8uC1 dest

Destination image
NppCmpOp eComparisonOperation

Specifies the comparison operation to be used in the pixel comparison.
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CompareA(UInt16[], NPPImage_8uC1, NppCmpOp)

Compare pSrc's pixels with constant value. Not affecting Alpha.

Declaration
public void CompareA(ushort[] nConstant, NPPImage_8uC1 dest, NppCmpOp eComparisonOperation)
Parameters
Type Name Description
System.UInt16[] nConstant

constant value
NPPImage_8uC1 dest

Destination image
NppCmpOp eComparisonOperation

Specifies the comparison operation to be used in the pixel comparison.
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Convert(NPPImage_32fC4)

16-bit unsigned to 32-bit float conversion.

Declaration
public void Convert(NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_32fC4 dst

Destination image
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Convert(NPPImage_32sC4)

16-bit unsigned to 32-bit signed conversion.

Declaration
public void Convert(NPPImage_32sC4 dst)
Parameters
Type Name Description
NPPImage_32sC4 dst

Destination image
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Convert(NPPImage_8uC4)

16-bit unsigned to 8-bit unsigned conversion.

Declaration
public void Convert(NPPImage_8uC4 dst)
Parameters
Type Name Description
NPPImage_8uC4 dst

Destination image
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ConvertA(NPPImage_32fC4)

16-bit unsigned to 32-bit float conversion. Not Affecting alpha channel.

Declaration
public void ConvertA(NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_32fC4 dst

Destination image
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ConvertA(NPPImage_32sC4)

16-bit unsigned to 32-bit signed conversion. Not Affecting alpha channel.

Declaration
public void ConvertA(NPPImage_32sC4 dst)
Parameters
Type Name Description
NPPImage_32sC4 dst

Destination image
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ConvertA(NPPImage_8uC4)

16-bit unsigned to 8-bit unsigned conversion. Not Affecting alpha channel.

Declaration
public void ConvertA(NPPImage_8uC4 dst)
Parameters
Type Name Description
NPPImage_8uC4 dst

Destination image
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Copy(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1)

Three-channel 8-bit unsigned packed to planar image copy.

Declaration
public void Copy(NPPImage_16uC1 dst0, NPPImage_16uC1 dst1, NPPImage_16uC1 dst2, NPPImage_16uC1 dst3)
Parameters
Type Name Description
NPPImage_16uC1 dst0

Destination image channel 0
NPPImage_16uC1 dst1

Destination image channel 1
NPPImage_16uC1 dst2

Destination image channel 2
NPPImage_16uC1 dst3

Destination image channel 3
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Copy(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC4)

Three-channel 8-bit unsigned planar to packed image copy.

Declaration
public static void Copy(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, NPPImage_16uC1 src3, NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image channel 0
NPPImage_16uC1 src1

Source image channel 1
NPPImage_16uC1 src2

Source image channel 2
NPPImage_16uC1 src3

Source image channel 2
NPPImage_16uC4 dest

Destination image
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Copy(NPPImage_16uC1, Int32)

Image copy.

Declaration
public void Copy(NPPImage_16uC1 dst, int channel)
Parameters
Type Name Description
NPPImage_16uC1 dst

Destination image
System.Int32 channel

Channel number. This number is added to the dst pointer
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Copy(NPPImage_16uC4)

Image copy.

Declaration
public void Copy(NPPImage_16uC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination image
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Copy(NPPImage_16uC4, NPPImage_8uC1)

Masked Operation 8-bit unsigned image copy.

Declaration
public void Copy(NPPImage_16uC4 dst, NPPImage_8uC1 mask)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination image
NPPImage_8uC1 mask

Mask image
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Copy(NPPImage_16uC4, Int32, Int32)

Image copy.

Declaration
public void Copy(NPPImage_16uC4 dst, int channelSrc, int channelDst)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination image
System.Int32 channelSrc

Channel number. This number is added to the src pointer
System.Int32 channelDst

Channel number. This number is added to the dst pointer
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Copy(NPPImage_16uC4, Int32, Int32, UInt16[])

Copy image and pad borders with a constant, user-specifiable color.

Declaration
public void Copy(NPPImage_16uC4 dst, int nTopBorderHeight, int nLeftBorderWidth, ushort[] nValue)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination image. The image ROI defines the destination region, i.e. the region that gets filled with data from the source image (inner part) and constant border color (outer part).
System.Int32 nTopBorderHeight

Height (in pixels) of the top border. The height of the border at the bottom of the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
System.Int32 nLeftBorderWidth

Width (in pixels) of the left border. The width of the border at the right side of the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
System.UInt16[] nValue

The pixel value to be set for border pixels.
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CopyA(NPPImage_16uC4)

Image copy. Not affecting Alpha channel.

Declaration
public void CopyA(NPPImage_16uC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination image
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CopyA(NPPImage_16uC4, NPPImage_8uC1)

Masked Operation 8-bit unsigned image copy. Not affecting Alpha channel.

Declaration
public void CopyA(NPPImage_16uC4 dst, NPPImage_8uC1 mask)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination image
NPPImage_8uC1 mask

Mask image
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CopyConstBorderA(NPPImage_16uC4, Int32, Int32, UInt16[])

Copy image and pad borders with a constant, user-specifiable color. Not affecting Alpha channel.

Declaration
public void CopyConstBorderA(NPPImage_16uC4 dst, int nTopBorderHeight, int nLeftBorderWidth, ushort[] nValue)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination image. The image ROI defines the destination region, i.e. the region that gets filled with data from the source image (inner part) and constant border color (outer part).
System.Int32 nTopBorderHeight

Height (in pixels) of the top border. The height of the border at the bottom of the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
System.Int32 nLeftBorderWidth

Width (in pixels) of the left border. The width of the border at the right side of the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
System.UInt16[] nValue

The pixel value to be set for border pixels.
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CopyReplicateBorder(NPPImage_16uC4, Int32, Int32)

image copy with nearest source image pixel color.

Declaration
public void CopyReplicateBorder(NPPImage_16uC4 dst, int nTopBorderHeight, int nLeftBorderWidth)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Int32 nTopBorderHeight

Height (in pixels) of the top border. The height of the border at the bottom of the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
System.Int32 nLeftBorderWidth

Width (in pixels) of the left border. The width of the border at the right side of the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
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CopyReplicateBorderA(NPPImage_16uC4, Int32, Int32)

image copy with nearest source image pixel color. Not affecting Alpha.

Declaration
public void CopyReplicateBorderA(NPPImage_16uC4 dst, int nTopBorderHeight, int nLeftBorderWidth)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Int32 nTopBorderHeight

Height (in pixels) of the top border. The height of the border at the bottom of the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
System.Int32 nLeftBorderWidth

Width (in pixels) of the left border. The width of the border at the right side of the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
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CopySubpix(NPPImage_16uC4, Single, Single)

linearly interpolated source image subpixel coordinate color copy.

Declaration
public void CopySubpix(NPPImage_16uC4 dst, float nDx, float nDy)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Single nDx

Fractional part of source image X coordinate.
System.Single nDy

Fractional part of source image Y coordinate.
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CopySubpixA(NPPImage_16uC4, Single, Single)

linearly interpolated source image subpixel coordinate color copy. Not affecting Alpha.

Declaration
public void CopySubpixA(NPPImage_16uC4 dst, float nDx, float nDy)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Single nDx

Fractional part of source image X coordinate.
System.Single nDy

Fractional part of source image Y coordinate.
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CopyWrapBorder(NPPImage_16uC4, Int32, Int32)

image copy with the borders wrapped by replication of source image pixel colors.

Declaration
public void CopyWrapBorder(NPPImage_16uC4 dst, int nTopBorderHeight, int nLeftBorderWidth)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Int32 nTopBorderHeight

Height (in pixels) of the top border. The height of the border at the bottom of the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
System.Int32 nLeftBorderWidth

Width (in pixels) of the left border. The width of the border at the right side of the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
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CopyWrapBorderA(NPPImage_16uC4, Int32, Int32)

image copy with the borders wrapped by replication of source image pixel colors. Not affecting Alpha.

Declaration
public void CopyWrapBorderA(NPPImage_16uC4 dst, int nTopBorderHeight, int nLeftBorderWidth)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Int32 nTopBorderHeight

Height (in pixels) of the top border. The height of the border at the bottom of the destination ROI is implicitly defined by the size of the source ROI: nBottomBorderHeight = oDstSizeROI.height - nTopBorderHeight - oSrcSizeROI.height.
System.Int32 nLeftBorderWidth

Width (in pixels) of the left border. The width of the border at the right side of the destination ROI is implicitly defined by the size of the source ROI: nRightBorderWidth = oDstSizeROI.width - nLeftBorderWidth - oSrcSizeROI.width.
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CrossCorrFull_Norm(NPPImage_16uC4, NPPImage_32fC4)

image CrossCorrFull_Norm.

Declaration
public void CrossCorrFull_Norm(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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CrossCorrFull_NormA(NPPImage_16uC4, NPPImage_32fC4)

image CrossCorrFull_Norm. Not affecting Alpha.

Declaration
public void CrossCorrFull_NormA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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CrossCorrFull_NormLevel(NPPImage_16uC4, NPPImage_32fC4)

CrossCorrFull_NormLevel. Buffer is internally allocated and freed.

Declaration
public void CrossCorrFull_NormLevel(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
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CrossCorrFull_NormLevel(NPPImage_16uC4, NPPImage_32fC4, CudaDeviceVariable<Byte>)

CrossCorrFull_NormLevel.

Declaration
public void CrossCorrFull_NormLevel(NPPImage_16uC4 tpl, NPPImage_32fC4 dst, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at FullNormLevelGetBufferHostSize()
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CrossCorrFull_NormLevelA(NPPImage_16uC4, NPPImage_32fC4)

CrossCorrFull_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void CrossCorrFull_NormLevelA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
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CrossCorrFull_NormLevelA(NPPImage_16uC4, NPPImage_32fC4, CudaDeviceVariable<Byte>)

CrossCorrFull_NormLevel. Not affecting Alpha.

Declaration
public void CrossCorrFull_NormLevelA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at FullNormLevelAGetBufferHostSize()
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CrossCorrSame_Norm(NPPImage_16uC4, NPPImage_32fC4)

image CrossCorrSame_Norm.

Declaration
public void CrossCorrSame_Norm(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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CrossCorrSame_NormA(NPPImage_16uC4, NPPImage_32fC4)

image CrossCorrSame_Norm. Not affecting Alpha.

Declaration
public void CrossCorrSame_NormA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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CrossCorrSame_NormLevel(NPPImage_16uC4, NPPImage_32fC4)

CrossCorrSame_NormLevel. Buffer is internally allocated and freed.

Declaration
public void CrossCorrSame_NormLevel(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
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CrossCorrSame_NormLevel(NPPImage_16uC4, NPPImage_32fC4, CudaDeviceVariable<Byte>)

CrossCorrSame_NormLevel.

Declaration
public void CrossCorrSame_NormLevel(NPPImage_16uC4 tpl, NPPImage_32fC4 dst, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at SameNormLevelGetBufferHostSize()
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CrossCorrSame_NormLevelA(NPPImage_16uC4, NPPImage_32fC4)

CrossCorrSame_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void CrossCorrSame_NormLevelA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
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CrossCorrSame_NormLevelA(NPPImage_16uC4, NPPImage_32fC4, CudaDeviceVariable<Byte>)

CrossCorrSame_NormLevel. Not affecting Alpha.

Declaration
public void CrossCorrSame_NormLevelA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at SameNormLevelAGetBufferHostSize()
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CrossCorrValid_Norm(NPPImage_16uC4, NPPImage_32fC4)

image CrossCorrValid_Norm.

Declaration
public void CrossCorrValid_Norm(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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CrossCorrValid_NormA(NPPImage_16uC4, NPPImage_32fC4)

image CrossCorrValid_Norm. Not affecting Alpha.

Declaration
public void CrossCorrValid_NormA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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CrossCorrValid_NormLevel(NPPImage_16uC4, NPPImage_32fC4)

CrossCorrValid_NormLevel. Buffer is internally allocated and freed.

Declaration
public void CrossCorrValid_NormLevel(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
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CrossCorrValid_NormLevel(NPPImage_16uC4, NPPImage_32fC4, CudaDeviceVariable<Byte>)

CrossCorrValid_NormLevel.

Declaration
public void CrossCorrValid_NormLevel(NPPImage_16uC4 tpl, NPPImage_32fC4 dst, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at ValidNormLevelGetBufferHostSize()
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CrossCorrValid_NormLevelA(NPPImage_16uC4, NPPImage_32fC4)

CrossCorrValid_NormLevel. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void CrossCorrValid_NormLevelA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
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CrossCorrValid_NormLevelA(NPPImage_16uC4, NPPImage_32fC4, CudaDeviceVariable<Byte>)

CrossCorrValid_NormLevel. Not affecting Alpha.

Declaration
public void CrossCorrValid_NormLevelA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination image
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at ValidNormLevelAGetBufferHostSize()
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Dilate(NPPImage_16uC4, CudaDeviceVariable<Byte>, NppiSize, NppiPoint)

Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search.

Declaration
public void Dilate(NPPImage_16uC4 dest, CudaDeviceVariable<byte> Mask, NppiSize aMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Byte> Mask

Pointer to the start address of the mask array.
NppiSize aMaskSize

Width and Height mask array.
NppiPoint oAnchor

X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
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Dilate3x3(NPPImage_16uC4)

3x3 dilation.

Declaration
public void Dilate3x3(NPPImage_16uC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
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Dilate3x3A(NPPImage_16uC4)

3x3 dilation, not affecting Alpha.

Declaration
public void Dilate3x3A(NPPImage_16uC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
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Dilate3x3Border(NPPImage_16uC4, NppiBorderType)

3x3 dilation with border control.

Declaration
public void Dilate3x3Border(NPPImage_16uC4 dest, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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Dilate3x3BorderA(NPPImage_16uC4, NppiBorderType)

3x3 dilation with border control, ignoring alpha-channel.

Declaration
public void Dilate3x3BorderA(NPPImage_16uC4 dest, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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DilateA(NPPImage_16uC4, CudaDeviceVariable<Byte>, NppiSize, NppiPoint)

Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search, not affecting Alpha.

Declaration
public void DilateA(NPPImage_16uC4 dest, CudaDeviceVariable<byte> Mask, NppiSize aMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Byte> Mask

Pointer to the start address of the mask array.
NppiSize aMaskSize

Width and Height mask array.
NppiPoint oAnchor

X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
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DilateBorder(NPPImage_16uC4, CudaDeviceVariable<Byte>, NppiSize, NppiPoint, NppiBorderType)

Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search. With border control.

Declaration
public void DilateBorder(NPPImage_16uC4 dest, CudaDeviceVariable<byte> Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Byte> Mask

Pointer to the start address of the mask array.
NppiSize aMaskSize

Width and Height mask array.
NppiPoint oAnchor

X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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DilateBorderA(NPPImage_16uC4, CudaDeviceVariable<Byte>, NppiSize, NppiPoint, NppiBorderType)

Dilation computes the output pixel as the maximum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search. With border control, ignoring alpha-channel.

Declaration
public void DilateBorderA(NPPImage_16uC4 dest, CudaDeviceVariable<byte> Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Byte> Mask

Pointer to the start address of the mask array.
NppiSize aMaskSize

Width and Height mask array.
NppiPoint oAnchor

X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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Div(NPPImage_16uC4, NPPImage_16uC4, NppRoundMode, Int32)

Image division, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Div(NPPImage_16uC4 src2, NPPImage_16uC4 dest, NppRoundMode rndMode, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
NppRoundMode rndMode

Result Rounding mode to be used
System.Int32 nScaleFactor

scaling factor
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Div(NPPImage_16uC4, NPPImage_16uC4, Int32)

Image division, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Div(NPPImage_16uC4 src2, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Div(NPPImage_16uC4, NppRoundMode, Int32)

In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Div(NPPImage_16uC4 src2, NppRoundMode rndMode, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NppRoundMode rndMode

Result Rounding mode to be used
System.Int32 nScaleFactor

scaling factor
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Div(NPPImage_16uC4, Int32)

In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Div(NPPImage_16uC4 src2, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
System.Int32 nScaleFactor

scaling factor
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Div(UInt16[], NPPImage_16uC4, Int32)

Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Div(ushort[] nConstant, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Div(UInt16[], Int32)

Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.

Declaration
public void Div(ushort[] nConstant, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
System.Int32 nScaleFactor

scaling factor
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DivA(NPPImage_16uC4, NPPImage_16uC4, NppRoundMode, Int32)

Image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void DivA(NPPImage_16uC4 src2, NPPImage_16uC4 dest, NppRoundMode rndMode, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
NppRoundMode rndMode

Result Rounding mode to be used
System.Int32 nScaleFactor

scaling factor
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DivA(NPPImage_16uC4, NPPImage_16uC4, Int32)

Image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void DivA(NPPImage_16uC4 src2, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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DivA(NPPImage_16uC4, NppRoundMode, Int32)

In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void DivA(NPPImage_16uC4 src2, NppRoundMode rndMode, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NppRoundMode rndMode

Result Rounding mode to be used
System.Int32 nScaleFactor

scaling factor
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DivA(NPPImage_16uC4, Int32)

In place image division, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void DivA(NPPImage_16uC4 src2, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
System.Int32 nScaleFactor

scaling factor
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DivA(UInt16[], NPPImage_16uC4, Int32)

Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void DivA(ushort[] nConstant, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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DivA(UInt16[], Int32)

Divide constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unchanged Alpha.

Declaration
public void DivA(ushort[] nConstant, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
System.Int32 nScaleFactor

scaling factor
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DotProdGetBufferHostSize()

Device scratch buffer size (in bytes) for nppiDotProd_16u64f_C4R.

Declaration
public int DotProdGetBufferHostSize()
Returns
Type Description
System.Int32
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DotProduct(NPPImage_16uC4, CudaDeviceVariable<Double>)

Four-channel 16-bit unsigned image DotProd. Buffer is internally allocated and freed.

Declaration
public void DotProduct(NPPImage_16uC4 src2, CudaDeviceVariable<double> pDp)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pDp

Pointer to the computed dot product of the two images. (4 * sizeof(double))
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DotProduct(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

Four-channel 16-bit unsigned image DotProd.

Declaration
public void DotProduct(NPPImage_16uC4 src2, CudaDeviceVariable<double> pDp, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pDp

Pointer to the computed dot product of the two images. (4 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at DotProdGetBufferHostSize()
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Erode(NPPImage_16uC4, CudaDeviceVariable<Byte>, NppiSize, NppiPoint)

Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search.

Declaration
public void Erode(NPPImage_16uC4 dest, CudaDeviceVariable<byte> Mask, NppiSize aMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Byte> Mask

Pointer to the start address of the mask array.
NppiSize aMaskSize

Width and Height mask array.
NppiPoint oAnchor

X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
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Erode3x3(NPPImage_16uC4)

3x3 erosion.

Declaration
public void Erode3x3(NPPImage_16uC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
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Erode3x3A(NPPImage_16uC4)

3x3 erosion, not affecting Alpha.

Declaration
public void Erode3x3A(NPPImage_16uC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
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Erode3x3Border(NPPImage_16uC4, NppiBorderType)

3x3 erosion with border control.

Declaration
public void Erode3x3Border(NPPImage_16uC4 dest, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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Erode3x3BorderA(NPPImage_16uC4, NppiBorderType)

3x3 erosion with border control, ignoring alpha-channel.

Declaration
public void Erode3x3BorderA(NPPImage_16uC4 dest, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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ErodeA(NPPImage_16uC4, CudaDeviceVariable<Byte>, NppiSize, NppiPoint)

Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search, not affecting Alpha.

Declaration
public void ErodeA(NPPImage_16uC4 dest, CudaDeviceVariable<byte> Mask, NppiSize aMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Byte> Mask

Pointer to the start address of the mask array.
NppiSize aMaskSize

Width and Height mask array.
NppiPoint oAnchor

X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
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ErodeBorder(NPPImage_16uC4, CudaDeviceVariable<Byte>, NppiSize, NppiPoint, NppiBorderType)

Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search. With border control.

Declaration
public void ErodeBorder(NPPImage_16uC4 dest, CudaDeviceVariable<byte> Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Byte> Mask

Pointer to the start address of the mask array.
NppiSize aMaskSize

Width and Height mask array.
NppiPoint oAnchor

X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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ErodeBorderA(NPPImage_16uC4, CudaDeviceVariable<Byte>, NppiSize, NppiPoint, NppiBorderType)

Erosion computes the output pixel as the minimum pixel value of the pixels under the mask. Pixels who’s corresponding mask values are zero to not participate in the maximum search. With border control, ignoring alpha-channel.

Declaration
public void ErodeBorderA(NPPImage_16uC4 dest, CudaDeviceVariable<byte> Mask, NppiSize aMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Byte> Mask

Pointer to the start address of the mask array.
NppiSize aMaskSize

Width and Height mask array.
NppiPoint oAnchor

X and Y offsets of the mask origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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EvenLevels(Int32, Int32, Int32)

Compute levels with even distribution.

Declaration
public int[] EvenLevels(int nLevels, int nLowerBound, int nUpperBound)
Parameters
Type Name Description
System.Int32 nLevels

The number of levels being computed. nLevels must be at least 2, otherwise an NPP_- HISTO_NUMBER_OF_LEVELS_ERROR error is returned.
System.Int32 nLowerBound

Lower boundary value of the lowest level.
System.Int32 nUpperBound

Upper boundary value of the greatest level.
Returns
Type Description
System.Int32[]

An array of size nLevels which receives the levels being computed.
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Filter(NPPImage_16uC4, CudaDeviceVariable<Int32>, NppiSize, NppiPoint, Int32)

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed.

Before writing the result pixel the sum is scaled back via division by nDivisor.

Declaration
public void Filter(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, NppiSize aKernelSize, NppiPoint oAnchor, int nDivisor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
NppiSize aKernelSize

Width and Height of the rectangular kernel.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
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Filter(NPPImage_16uC4, CudaDeviceVariable<Single>, NppiSize, NppiPoint)

convolution filter.

Declaration
public void Filter(NPPImage_16uC4 dst, CudaDeviceVariable<float> pKernel, NppiSize oKernelSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> pKernel

Pointer to the start address of the kernel coefficient array.

Coefficients are expected to be stored in reverse order.
NppiSize oKernelSize

Width and Height of the rectangular kernel.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference
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FilterA(NPPImage_16uC4, CudaDeviceVariable<Int32>, NppiSize, NppiPoint, Int32)

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed.

Before writing the result pixel the sum is scaled back via division by nDivisor. Not affecting Alpha.

Declaration
public void FilterA(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, NppiSize aKernelSize, NppiPoint oAnchor, int nDivisor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
NppiSize aKernelSize

Width and Height of the rectangular kernel.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
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FilterA(NPPImage_16uC4, CudaDeviceVariable<Single>, NppiSize, NppiPoint)

convolution filter. Not affecting Alpha.

Declaration
public void FilterA(NPPImage_16uC4 dst, CudaDeviceVariable<float> pKernel, NppiSize oKernelSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> pKernel

Pointer to the start address of the kernel coefficient array.

Coefficients are expected to be stored in reverse order.
NppiSize oKernelSize

Width and Height of the rectangular kernel.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference
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FilterBorder(NPPImage_16uC4, CudaDeviceVariable<Int32>, NppiSize, NppiPoint, Int32, NppiBorderType)

Four channel 16-bit unsigned convolution filter with border control.

General purpose 2D convolution filter with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterBorder(NPPImage_16uC4 dest, CudaDeviceVariable<int> pKernel, NppiSize nKernelSize, NppiPoint oAnchor, int nDivisor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> pKernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
NppiSize nKernelSize

Width and Height of the rectangular kernel.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference relative to the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterBorder(NPPImage_16uC4, CudaDeviceVariable<Single>, NppiSize, NppiPoint, NppiBorderType)

Four channel 16-bit unsigned convolution filter with border control.

General purpose 2D convolution filter using floating-point weights with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterBorder(NPPImage_16uC4 dest, CudaDeviceVariable<float> pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Single> pKernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
NppiSize nKernelSize

Width and Height of the rectangular kernel.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference relative to the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterBorderA(NPPImage_16uC4, CudaDeviceVariable<Int32>, NppiSize, NppiPoint, Int32, NppiBorderType)

Four channel 16-bit unsigned convolution filter with border control, ignoring alpha channel.

General purpose 2D convolution filter with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterBorderA(NPPImage_16uC4 dest, CudaDeviceVariable<int> pKernel, NppiSize nKernelSize, NppiPoint oAnchor, int nDivisor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> pKernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
NppiSize nKernelSize

Width and Height of the rectangular kernel.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference relative to the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterBorderA(NPPImage_16uC4, CudaDeviceVariable<Single>, NppiSize, NppiPoint, NppiBorderType)

Four channel 16-bit unsigned convolution filter with border control, ignoring alpha channel.

General purpose 2D convolution filter using floating-point weights with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterBorderA(NPPImage_16uC4 dest, CudaDeviceVariable<float> pKernel, NppiSize nKernelSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Single> pKernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order
NppiSize nKernelSize

Width and Height of the rectangular kernel.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference relative to the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterBox(NPPImage_16uC4, NppiSize, NppiPoint)

Computes the average pixel values of the pixels under a rectangular mask.

Declaration
public void FilterBox(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
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FilterBoxA(NPPImage_16uC4, NppiSize, NppiPoint)

Computes the average pixel values of the pixels under a rectangular mask. Not affecting Alpha.

Declaration
public void FilterBoxA(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
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FilterBoxBorder(NPPImage_16uC4, NppiSize, NppiPoint, NppiBorderType)

Computes the average pixel values of the pixels under a rectangular mask.

Declaration
public void FilterBoxBorder(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterBoxBorderA(NPPImage_16uC4, NppiSize, NppiPoint, NppiBorderType)

Computes the average pixel values of the pixels under a rectangular mask.

Declaration
public void FilterBoxBorderA(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterColumn(NPPImage_16uC4, CudaDeviceVariable<Int32>, Int32, Int32, Int32)

Apply convolution filter with user specified 1D column of weights. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring column pixel values in the source image defined by nKernelDim and nAnchorY, divided by nDivisor.

Declaration
public void FilterColumn(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, int nKernelSize, int nAnchor, int nDivisor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nKernelSize

Length of the linear kernel array.
System.Int32 nAnchor

Y offset of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
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FilterColumn(NPPImage_16uC4, CudaDeviceVariable<Single>, Int32)

1D column convolution.

Declaration
public void FilterColumn(NPPImage_16uC4 dst, CudaDeviceVariable<float> pKernel, int nAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> pKernel

Pointer to the start address of the kernel coefficient array. pKernel.Sizes gives kernel size

Coefficients are expected to be stored in reverse order.
System.Int32 nAnchor

Y offset of the kernel origin frame of reference relative to the source pixel.
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FilterColumnA(NPPImage_16uC4, CudaDeviceVariable<Int32>, Int32, Int32, Int32)

Apply convolution filter with user specified 1D column of weights. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring column pixel values in the source image defined by nKernelDim and nAnchorY, divided by nDivisor. Not affecting Alpha.

Declaration
public void FilterColumnA(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, int nKernelSize, int nAnchor, int nDivisor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nKernelSize

Length of the linear kernel array.
System.Int32 nAnchor

Y offset of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
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FilterColumnA(NPPImage_16uC4, CudaDeviceVariable<Single>, Int32)

1D column convolution. Not affecting Alpha.

Declaration
public void FilterColumnA(NPPImage_16uC4 dst, CudaDeviceVariable<float> pKernel, int nAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> pKernel

Pointer to the start address of the kernel coefficient array. pKernel.Sizes gives kernel size

Coefficients are expected to be stored in reverse order.
System.Int32 nAnchor

Y offset of the kernel origin frame of reference relative to the source pixel.
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FilterColumnBorder(NPPImage_16uC4, CudaDeviceVariable<Int32>, Int32, Int32, NppiBorderType)

General purpose 1D convolution column filter with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterColumnBorder(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, int nAnchor, int nDivisor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterColumnBorder(NPPImage_16uC4, CudaDeviceVariable<Single>, Int32, NppiBorderType)

General purpose 1D convolution column filter with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterColumnBorder(NPPImage_16uC4 dest, CudaDeviceVariable<float> Kernel, int nAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Single> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterColumnBorderA(NPPImage_16uC4, CudaDeviceVariable<Int32>, Int32, Int32, NppiBorderType)

General purpose 1D convolution column filter with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. Before writing the result pixel the sum is scaled back via division by nDivisor. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterColumnBorderA(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, int nAnchor, int nDivisor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterColumnBorderA(NPPImage_16uC4, CudaDeviceVariable<Single>, Int32, NppiBorderType)

General purpose 1D convolution column filter with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterColumnBorderA(NPPImage_16uC4 dest, CudaDeviceVariable<float> Kernel, int nAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Single> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterGauss(NPPImage_16uC4, CudaDeviceVariable<Single>)

Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients

Declaration
public void FilterGauss(NPPImage_16uC4 dst, CudaDeviceVariable<float> Kernel)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> Kernel

Pointer to an array of nFilterTaps kernel coefficients which sum to 1.0F, where nFilterTaps = 2 * ((int)((float)ceil(radius) + 0.5F) ) + 1.
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FilterGauss(NPPImage_16uC4, MaskSize)

Gauss filter.

Declaration
public void FilterGauss(NPPImage_16uC4 dst, MaskSize eMaskSize)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
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FilterGaussA(NPPImage_16uC4, CudaDeviceVariable<Single>)

Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients

Declaration
public void FilterGaussA(NPPImage_16uC4 dst, CudaDeviceVariable<float> Kernel)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> Kernel

Pointer to an array of nFilterTaps kernel coefficients which sum to 1.0F, where nFilterTaps = 2 * ((int)((float)ceil(radius) + 0.5F) ) + 1.
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FilterGaussA(NPPImage_16uC4, MaskSize)

Gauss filter. Not affecting Alpha.

Declaration
public void FilterGaussA(NPPImage_16uC4 dst, MaskSize eMaskSize)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
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FilterGaussBorder(NPPImage_16uC4, CudaDeviceVariable<Single>, NppiBorderType)

Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients

Declaration
public void FilterGaussBorder(NPPImage_16uC4 dst, CudaDeviceVariable<float> Kernel, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> Kernel

Pointer to an array of nFilterTaps kernel coefficients which sum to 1.0F, where nFilterTaps = 2 * ((int)((float)ceil(radius) + 0.5F) ) + 1.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterGaussBorder(NPPImage_16uC4, MaskSize, NppiBorderType)

Filters the image using a Gaussian filter kernel with border control:

1/16 2/16 1/16

2/16 4/16 2/16

1/16 2/16 1/16

or

2/571 7/571 12/571 7/571 2/571

7/571 31/571 52/571 31/571 7/571

12/571 52/571 127/571 52/571 12/571

7/571 31/571 52/571 31/571 7/571

2/571 7/571 12/571 7/571 2/571

Declaration
public void FilterGaussBorder(NPPImage_16uC4 dest, MaskSize eMaskSize, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
MaskSize eMaskSize

Enumeration value specifying the mask size.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterGaussBorderA(NPPImage_16uC4, CudaDeviceVariable<Single>, NppiBorderType)

Filters the image using a separable Gaussian filter kernel with user supplied floating point coefficients

Declaration
public void FilterGaussBorderA(NPPImage_16uC4 dst, CudaDeviceVariable<float> Kernel, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> Kernel

Pointer to an array of nFilterTaps kernel coefficients which sum to 1.0F, where nFilterTaps = 2 * ((int)((float)ceil(radius) + 0.5F) ) + 1.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterGaussBorderA(NPPImage_16uC4, MaskSize, NppiBorderType)

Filters the image using a Gaussian filter kernel with border control, ignoring alpha channel:

1/16 2/16 1/16

2/16 4/16 2/16

1/16 2/16 1/16

or

2/571 7/571 12/571 7/571 2/571

7/571 31/571 52/571 31/571 7/571

12/571 52/571 127/571 52/571 12/571

7/571 31/571 52/571 31/571 7/571

2/571 7/571 12/571 7/571 2/571

Declaration
public void FilterGaussBorderA(NPPImage_16uC4 dest, MaskSize eMaskSize, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
MaskSize eMaskSize

Enumeration value specifying the mask size.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterHighPass(NPPImage_16uC4, MaskSize)

High pass filter.

Declaration
public void FilterHighPass(NPPImage_16uC4 dst, MaskSize eMaskSize)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
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FilterHighPassA(NPPImage_16uC4, MaskSize)

High pass filter. Not affecting Alpha.

Declaration
public void FilterHighPassA(NPPImage_16uC4 dst, MaskSize eMaskSize)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
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FilterHighPassBorder(NPPImage_16uC4, MaskSize, NppiBorderType)

High pass filter.

Declaration
public void FilterHighPassBorder(NPPImage_16uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterHighPassBorderA(NPPImage_16uC4, MaskSize, NppiBorderType)

High pass filter.

Declaration
public void FilterHighPassBorderA(NPPImage_16uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterLowPass(NPPImage_16uC4, MaskSize)

Low pass filter.

Declaration
public void FilterLowPass(NPPImage_16uC4 dst, MaskSize eMaskSize)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
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FilterLowPassA(NPPImage_16uC4, MaskSize)

Low pass filter. Not affecting Alpha.

Declaration
public void FilterLowPassA(NPPImage_16uC4 dst, MaskSize eMaskSize)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
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FilterLowPassBorder(NPPImage_16uC4, MaskSize, NppiBorderType)

Low pass filter.

Declaration
public void FilterLowPassBorder(NPPImage_16uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterLowPassBorderA(NPPImage_16uC4, MaskSize, NppiBorderType)

Low pass filter.

Declaration
public void FilterLowPassBorderA(NPPImage_16uC4 dst, MaskSize eMaskSize, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
MaskSize eMaskSize

Enumeration value specifying the mask size.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterMax(NPPImage_16uC4, NppiSize, NppiPoint)

Result pixel value is the maximum of pixel values under the rectangular mask region.

Declaration
public void FilterMax(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
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FilterMaxA(NPPImage_16uC4, NppiSize, NppiPoint)

Result pixel value is the maximum of pixel values under the rectangular mask region. Not affecting Alpha.

Declaration
public void FilterMaxA(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
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FilterMaxBorder(NPPImage_16uC4, NppiSize, NppiPoint, NppiBorderType)

Result pixel value is the maximum of pixel values under the rectangular mask region.

Declaration
public void FilterMaxBorder(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterMaxBorderA(NPPImage_16uC4, NppiSize, NppiPoint, NppiBorderType)

Result pixel value is the maximum of pixel values under the rectangular mask region.

Declaration
public void FilterMaxBorderA(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterMedian(NPPImage_16uC4, NppiSize, NppiPoint)

Result pixel value is the median of pixel values under the rectangular mask region.

Declaration
public void FilterMedian(NPPImage_16uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Median operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference relative to the source pixel.
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FilterMedian(NPPImage_16uC4, NppiSize, NppiPoint, CudaDeviceVariable<Byte>)

Result pixel value is the median of pixel values under the rectangular mask region.

Declaration
public void FilterMedian(NPPImage_16uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Median operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference relative to the source pixel.
CudaDeviceVariable<System.Byte> buffer

Pointer to the user-allocated scratch buffer required for the Median operation.
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FilterMedianA(NPPImage_16uC4, NppiSize, NppiPoint)

Result pixel value is the median of pixel values under the rectangular mask region, ignoring alpha channel.

Declaration
public void FilterMedianA(NPPImage_16uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Median operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference relative to the source pixel.
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FilterMedianA(NPPImage_16uC4, NppiSize, NppiPoint, CudaDeviceVariable<Byte>)

Result pixel value is the median of pixel values under the rectangular mask region, ignoring alpha channel.

Declaration
public void FilterMedianA(NPPImage_16uC4 dst, NppiSize oMaskSize, NppiPoint oAnchor, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Median operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference relative to the source pixel.
CudaDeviceVariable<System.Byte> buffer

Pointer to the user-allocated scratch buffer required for the Median operation.
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FilterMedianGetBufferHostSize(NppiSize)

Device scratch buffer size (in bytes) for FilterMedian.

Declaration
public int FilterMedianGetBufferHostSize(NppiSize oMaskSize)
Parameters
Type Name Description
NppiSize oMaskSize
Returns
Type Description
System.Int32
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FilterMedianGetBufferHostSizeA(NppiSize)

Device scratch buffer size (in bytes) for FilterMedian, ignoring alpha channel.

Declaration
public int FilterMedianGetBufferHostSizeA(NppiSize oMaskSize)
Parameters
Type Name Description
NppiSize oMaskSize
Returns
Type Description
System.Int32
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FilterMin(NPPImage_16uC4, NppiSize, NppiPoint)

Result pixel value is the minimum of pixel values under the rectangular mask region.

Declaration
public void FilterMin(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
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FilterMinA(NPPImage_16uC4, NppiSize, NppiPoint)

Result pixel value is the minimum of pixel values under the rectangular mask region. Not affecting Alpha.

Declaration
public void FilterMinA(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
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FilterMinBorder(NPPImage_16uC4, NppiSize, NppiPoint, NppiBorderType)

Result pixel value is the minimum of pixel values under the rectangular mask region.

Declaration
public void FilterMinBorder(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterMinBorderA(NPPImage_16uC4, NppiSize, NppiPoint, NppiBorderType)

Result pixel value is the minimum of pixel values under the rectangular mask region.

Declaration
public void FilterMinBorderA(NPPImage_16uC4 dest, NppiSize oMaskSize, NppiPoint oAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiSize oMaskSize

Width and Height of the neighborhood region for the local Avg operation.
NppiPoint oAnchor

X and Y offsets of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterRow(NPPImage_16uC4, CudaDeviceVariable<Int32>, Int32, Int32, Int32)

Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor.

Declaration
public void FilterRow(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, int nKernelSize, int nAnchor, int nDivisor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nKernelSize

Length of the linear kernel array.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
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FilterRow(NPPImage_16uC4, CudaDeviceVariable<Single>, Int32)

1D row convolution.

Declaration
public void FilterRow(NPPImage_16uC4 dst, CudaDeviceVariable<float> pKernel, int nAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> pKernel

Pointer to the start address of the kernel coefficient array. pKernel.Sizes gives kernel size

Coefficients are expected to be stored in reverse order.
System.Int32 nAnchor

X offset of the kernel origin frame of reference relative to the source pixel.
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FilterRowA(NPPImage_16uC4, CudaDeviceVariable<Int32>, Int32, Int32, Int32)

Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor. Not affecting Alpha.

Declaration
public void FilterRowA(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, int nKernelSize, int nAnchor, int nDivisor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nKernelSize

Length of the linear kernel array.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
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FilterRowA(NPPImage_16uC4, CudaDeviceVariable<Single>, Int32)

1D row convolution. Not affecting Alpha.

Declaration
public void FilterRowA(NPPImage_16uC4 dst, CudaDeviceVariable<float> pKernel, int nAnchor)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Single> pKernel

Pointer to the start address of the kernel coefficient array. pKernel.Sizes gives kernel size

Coefficients are expected to be stored in reverse order.
System.Int32 nAnchor

X offset of the kernel origin frame of reference relative to the source pixel.
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FilterRowBorder(NPPImage_16uC4, CudaDeviceVariable<Int32>, Int32, Int32, Int32, NppiBorderType)

Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel with border control. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor.

Declaration
public void FilterRowBorder(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, int nKernelSize, int nAnchor, int nDivisor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nKernelSize

Length of the linear kernel array.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterRowBorder(NPPImage_16uC4, CudaDeviceVariable<Single>, Int32, NppiBorderType)

General purpose 1D convolution row filter with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterRowBorder(NPPImage_16uC4 dest, CudaDeviceVariable<float> Kernel, int nAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Single> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterRowBorderA(NPPImage_16uC4, CudaDeviceVariable<Int32>, Int32, Int32, Int32, NppiBorderType)

Apply general linear Row convolution filter, with rescaling, in a 1D mask region around each source pixel with border control. Result pixel is equal to the sum of the products between the kernel coefficients (pKernel array) and corresponding neighboring row pixel values in the source image defined by iKernelDim and iAnchorX, divided by iDivisor. Not affecting Alpha.

Declaration
public void FilterRowBorderA(NPPImage_16uC4 dest, CudaDeviceVariable<int> Kernel, int nKernelSize, int nAnchor, int nDivisor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nKernelSize

Length of the linear kernel array.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
System.Int32 nDivisor

The factor by which the convolved summation from the Filter operation should be divided. If equal to the sum of coefficients, this will keep the maximum result value within full scale.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterRowBorderA(NPPImage_16uC4, CudaDeviceVariable<Single>, Int32, NppiBorderType)

General purpose 1D convolution row filter with border control.

Pixels under the mask are multiplied by the respective weights in the mask and the results are summed. If any portion of the mask overlaps the source image boundary the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterRowBorderA(NPPImage_16uC4 dest, CudaDeviceVariable<float> Kernel, int nAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Single> Kernel

Pointer to the start address of the kernel coefficient array. Coeffcients are expected to be stored in reverse order.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterSharpen(NPPImage_16uC4)

Sharpen filter.

Declaration
public void FilterSharpen(NPPImage_16uC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
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FilterSharpenA(NPPImage_16uC4)

Sharpen filter. Not affecting Alpha.

Declaration
public void FilterSharpenA(NPPImage_16uC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
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FilterSharpenBorder(NPPImage_16uC4, NppiBorderType)

Sharpen filter.

Declaration
public void FilterSharpenBorder(NPPImage_16uC4 dst, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterSharpenBorderA(NPPImage_16uC4, NppiBorderType)

Sharpen filter.

Declaration
public void FilterSharpenBorderA(NPPImage_16uC4 dst, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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FilterUnsharpBorder(NPPImage_16uC4, Single, Single, Single, Single, NppiBorderType, CudaDeviceVariable<Byte>)

Filters the image using a unsharp-mask sharpening filter kernel with border control.

The algorithm involves the following steps:

Smooth the original image with a Gaussian filter, with the width controlled by the nRadius.

Subtract the smoothed image from the original to create a high-pass filtered image.

Apply any clipping needed on the high-pass image, as controlled by the nThreshold.

Add a certain percentage of the high-pass filtered image to the original image, with the percentage controlled by the nWeight. In pseudocode this algorithm can be written as:

HighPass = Image - Gaussian(Image)

Result = Image + nWeight * HighPass * ( |HighPass| >= nThreshold )

where nWeight is the amount, nThreshold is the threshold, and >= indicates a Boolean operation, 1 if true, or 0 otherwise.

If any portion of the mask overlaps the source image boundary, the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterUnsharpBorder(NPPImage_16uC4 dst, float nRadius, float nSigma, float nWeight, float nThreshold, NppiBorderType eBorderType, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Single nRadius

The radius of the Gaussian filter, in pixles, not counting the center pixel.
System.Single nSigma

The standard deviation of the Gaussian filter, in pixel.
System.Single nWeight

The percentage of the difference between the original and the high pass image that is added back into the original.
System.Single nThreshold

The threshold needed to apply the difference amount.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
CudaDeviceVariable<System.Byte> buffer

Pointer to the user-allocated device scratch buffer required for the unsharp operation.
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FilterUnsharpBorderA(NPPImage_16uC4, Single, Single, Single, Single, NppiBorderType, CudaDeviceVariable<Byte>)

Filters the image using a unsharp-mask sharpening filter kernel with border control.

The algorithm involves the following steps:

Smooth the original image with a Gaussian filter, with the width controlled by the nRadius.

Subtract the smoothed image from the original to create a high-pass filtered image.

Apply any clipping needed on the high-pass image, as controlled by the nThreshold.

Add a certain percentage of the high-pass filtered image to the original image, with the percentage controlled by the nWeight. In pseudocode this algorithm can be written as:

HighPass = Image - Gaussian(Image)

Result = Image + nWeight * HighPass * ( |HighPass| >= nThreshold )

where nWeight is the amount, nThreshold is the threshold, and >= indicates a Boolean operation, 1 if true, or 0 otherwise.

If any portion of the mask overlaps the source image boundary, the requested border type operation is applied to all mask pixels which fall outside of the source image.

Declaration
public void FilterUnsharpBorderA(NPPImage_16uC4 dst, float nRadius, float nSigma, float nWeight, float nThreshold, NppiBorderType eBorderType, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Single nRadius

The radius of the Gaussian filter, in pixles, not counting the center pixel.
System.Single nSigma

The standard deviation of the Gaussian filter, in pixel.
System.Single nWeight

The percentage of the difference between the original and the high pass image that is added back into the original.
System.Single nThreshold

The threshold needed to apply the difference amount.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
CudaDeviceVariable<System.Byte> buffer

Pointer to the user-allocated device scratch buffer required for the unsharp operation.
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FilterUnsharpGetBufferSize(Single, Single)

Scratch-buffer size for unsharp filter.

Declaration
public int FilterUnsharpGetBufferSize(float nRadius, float nSigma)
Parameters
Type Name Description
System.Single nRadius

The radius of the Gaussian filter, in pixles, not counting the center pixel.
System.Single nSigma

The standard deviation of the Gaussian filter, in pixel.
Returns
Type Description
System.Int32
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FilterUnsharpGetBufferSizeA(Single, Single)

Scratch-buffer size for unsharp filter.

Declaration
public int FilterUnsharpGetBufferSizeA(float nRadius, float nSigma)
Parameters
Type Name Description
System.Single nRadius

The radius of the Gaussian filter, in pixles, not counting the center pixel.
System.Single nSigma

The standard deviation of the Gaussian filter, in pixel.
Returns
Type Description
System.Int32
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Finalize()

For dispose

Declaration
protected void Finalize()
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FullNormLevelAGetBufferHostSize()

Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel. Not affecting Alpha.

Declaration
public int FullNormLevelAGetBufferHostSize()
Returns
Type Description
System.Int32
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FullNormLevelGetBufferHostSize()

Device scratch buffer size (in bytes) for CrossCorrFull_NormLevel.

Declaration
public int FullNormLevelGetBufferHostSize()
Returns
Type Description
System.Int32
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GetAffineBound(Double[,])

Calculates bounding box of the affine transform projection of the given source rectangular ROI

Declaration
public double[, ] GetAffineBound(double[, ] coeffs)
Parameters
Type Name Description
System.Double[,] coeffs

Affine transform coefficients [2,3]
Returns
Type Description
System.Double[,]

Destination quadrangle [2,2]
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GetAffineQuad(Double[,])

Calculates affine transform projection of given source rectangular ROI

Declaration
public double[, ] GetAffineQuad(double[, ] coeffs)
Parameters
Type Name Description
System.Double[,] coeffs

Affine transform coefficients [2,3]
Returns
Type Description
System.Double[,]

Destination quadrangle [4,2]
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GetAffineTransform(Double[,])

Calculates affine transform coefficients given source rectangular ROI and its destination quadrangle projection

Declaration
public double[, ] GetAffineTransform(double[, ] quad)
Parameters
Type Name Description
System.Double[,] quad

Destination quadrangle [4,2]
Returns
Type Description
System.Double[,]

Affine transform coefficients [2,3]
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GetPerspectiveBound(Double[,])

Calculates bounding box of the affine transform projection of the given source rectangular ROI

Declaration
public double[, ] GetPerspectiveBound(double[, ] coeffs)
Parameters
Type Name Description
System.Double[,] coeffs

Perspective transform coefficients [3,3]
Returns
Type Description
System.Double[,]

Destination quadrangle [2,2]
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GetPerspectiveQuad(Double[,])

Calculates perspective transform projection of given source rectangular ROI

Declaration
public double[, ] GetPerspectiveQuad(double[, ] coeffs)
Parameters
Type Name Description
System.Double[,] coeffs

Perspective transform coefficients [3,3]
Returns
Type Description
System.Double[,]

Destination quadrangle [4,2]
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GetPerspectiveTransform(Double[,])

Calculates affine transform coefficients given source rectangular ROI and its destination quadrangle projection

Declaration
public double[, ] GetPerspectiveTransform(double[, ] quad)
Parameters
Type Name Description
System.Double[,] quad

Destination quadrangle [4,2]
Returns
Type Description
System.Double[,]

Perspective transform coefficients [3,3]
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GetRotateBound(Double, Double, Double)

Compute bounding-box of rotated image.

Declaration
public double[, ] GetRotateBound(double nAngle, double nShiftX, double nShiftY)
Parameters
Type Name Description
System.Double nAngle

The angle of rotation in degrees.
System.Double nShiftX

Shift along horizontal axis
System.Double nShiftY

Shift along vertical axis
Returns
Type Description
System.Double[,]
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GetRotateQuad(Double, Double, Double)

Compute shape of rotated image.

Declaration
public double[, ] GetRotateQuad(double nAngle, double nShiftX, double nShiftY)
Parameters
Type Name Description
System.Double nAngle

The angle of rotation in degrees.
System.Double nShiftX

Shift along horizontal axis
System.Double nShiftY

Shift along vertical axis
Returns
Type Description
System.Double[,]
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HistogramEven(CudaDeviceVariable<Int32>[], Int32[], Int32[])

Histogram with evenly distributed bins. Buffer is internally allocated and freed.

Declaration
public void HistogramEven(CudaDeviceVariable<int>[] histogram, int[] nLowerLevel, int[] nUpperLevel)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] histogram

Allocated device memory of size nLevels (4 Variables)
System.Int32[] nLowerLevel

Lower boundary of lowest level bin. E.g. 0 for [0..255]. Size = 4
System.Int32[] nUpperLevel

Upper boundary of highest level bin. E.g. 256 for [0..255]. Size = 4
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HistogramEven(CudaDeviceVariable<Int32>[], Int32[], Int32[], CudaDeviceVariable<Byte>)

Histogram with evenly distributed bins. No additional buffer is allocated.

Declaration
public void HistogramEven(CudaDeviceVariable<int>[] histogram, int[] nLowerLevel, int[] nUpperLevel, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] histogram

Allocated device memory of size nLevels (4 Variables)
System.Int32[] nLowerLevel

Lower boundary of lowest level bin. E.g. 0 for [0..255]. Size = 4
System.Int32[] nUpperLevel

Upper boundary of highest level bin. E.g. 256 for [0..255]. Size = 4
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at HistogramEvenGetBufferSize(Int32[])
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HistogramEvenA(CudaDeviceVariable<Int32>[], Int32[], Int32[])

Histogram with evenly distributed bins. Buffer is internally allocated and freed. Alpha channel is ignored during the histograms computations.

Declaration
public void HistogramEvenA(CudaDeviceVariable<int>[] histogram, int[] nLowerLevel, int[] nUpperLevel)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] histogram

Allocated device memory of size nLevels (3 Variables)
System.Int32[] nLowerLevel

Lower boundary of lowest level bin. E.g. 0 for [0..255]. Size = 3
System.Int32[] nUpperLevel

Upper boundary of highest level bin. E.g. 256 for [0..255]. Size = 3
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HistogramEvenA(CudaDeviceVariable<Int32>[], Int32[], Int32[], CudaDeviceVariable<Byte>)

Histogram with evenly distributed bins. No additional buffer is allocated. Alpha channel is ignored during the histograms computations.

Declaration
public void HistogramEvenA(CudaDeviceVariable<int>[] histogram, int[] nLowerLevel, int[] nUpperLevel, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] histogram

Allocated device memory of size nLevels (3 Variables)
System.Int32[] nLowerLevel

Lower boundary of lowest level bin. E.g. 0 for [0..255]. Size = 3
System.Int32[] nUpperLevel

Upper boundary of highest level bin. E.g. 256 for [0..255]. Size = 3
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at HistogramEvenGetBufferSize(Int32[])
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HistogramEvenGetBufferSize(Int32[])

Scratch-buffer size for HistogramEven.

Declaration
public int HistogramEvenGetBufferSize(int[] nLevels)
Parameters
Type Name Description
System.Int32[] nLevels
Returns
Type Description
System.Int32
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HistogramEvenGetBufferSizeA(Int32[])

Scratch-buffer size for HistogramEven. Not affecting Alpha channel.

Declaration
public int HistogramEvenGetBufferSizeA(int[] nLevels)
Parameters
Type Name Description
System.Int32[] nLevels
Returns
Type Description
System.Int32
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HistogramRange(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

Histogram with bins determined by pLevels array. Buffer is internally allocated and freed.

Declaration
public void HistogramRange(CudaDeviceVariable<int>[] histogram, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] histogram

array that receives the computed histogram. The CudaDeviceVariable must be of size nLevels-1. Array size = 4
CudaDeviceVariable<System.Int32>[] pLevels

Array in device memory containing the level sizes of the bins. The CudaDeviceVariable must be of size nLevels. Array size = 4
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HistogramRange(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[], CudaDeviceVariable<Byte>)

Histogram with bins determined by pLevels array. No additional buffer is allocated.

Declaration
public void HistogramRange(CudaDeviceVariable<int>[] histogram, CudaDeviceVariable<int>[] pLevels, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] histogram

array that receives the computed histogram. The CudaDeviceVariable must be of size nLevels-1. Array size = 4
CudaDeviceVariable<System.Int32>[] pLevels

Array in device memory containing the level sizes of the bins. The CudaDeviceVariable must be of size nLevels. Array size = 4
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at HistogramRangeGetBufferSize(Int32[])
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HistogramRangeA(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

Histogram with bins determined by pLevels array. Buffer is internally allocated and freed. Alpha channel is ignored during the histograms computations.

Declaration
public void HistogramRangeA(CudaDeviceVariable<int>[] histogram, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] histogram

array that receives the computed histogram. The CudaDeviceVariable must be of size nLevels-1. Array size = 3
CudaDeviceVariable<System.Int32>[] pLevels

Array in device memory containing the level sizes of the bins. The CudaDeviceVariable must be of size nLevels. Array size = 3
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HistogramRangeA(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[], CudaDeviceVariable<Byte>)

Histogram with bins determined by pLevels array. No additional buffer is allocated. Alpha channel is ignored during the histograms computations.

Declaration
public void HistogramRangeA(CudaDeviceVariable<int>[] histogram, CudaDeviceVariable<int>[] pLevels, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] histogram

array that receives the computed histogram. The CudaDeviceVariable must be of size nLevels-1. Array size = 3
CudaDeviceVariable<System.Int32>[] pLevels

Array in device memory containing the level sizes of the bins. The CudaDeviceVariable must be of size nLevels. Array size = 3
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at HistogramRangeGetBufferSize(Int32[])
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HistogramRangeGetBufferSize(Int32[])

Scratch-buffer size for HistogramRange.

Declaration
public int HistogramRangeGetBufferSize(int[] nLevels)
Parameters
Type Name Description
System.Int32[] nLevels
Returns
Type Description
System.Int32
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HistogramRangeGetBufferSizeA(Int32[])

Scratch-buffer size for HistogramRange. Not affecting Alpha channel.

Declaration
public int HistogramRangeGetBufferSizeA(int[] nLevels)
Parameters
Type Name Description
System.Int32[] nLevels
Returns
Type Description
System.Int32
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LShiftC(UInt32[])

image bit shift by constant (left), inplace.

Declaration
public void LShiftC(uint[] nConstant)
Parameters
Type Name Description
System.UInt32[] nConstant

Constant (Array length = 4)
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LShiftC(UInt32[], NPPImage_16uC4)

image bit shift by constant (left).

Declaration
public void LShiftC(uint[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt32[] nConstant

Constant (Array length = 4)
NPPImage_16uC4 dest

Destination image
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LShiftCA(UInt32[])

image bit shift by constant (left), inplace. Unchanged Alpha.

Declaration
public void LShiftCA(uint[] nConstant)
Parameters
Type Name Description
System.UInt32[] nConstant

Constant (Array length = 4)
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LShiftCA(UInt32[], NPPImage_16uC4)

image bit shift by constant (left). Unchanged Alpha.

Declaration
public void LShiftCA(uint[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt32[] nConstant

Constant (Array length = 4)
NPPImage_16uC4 dest

Destination image
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LUT(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

Inplace look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation.

Declaration
public void LUT(CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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Lut(NPPImage_16uC4, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>)

look-up-table color conversion.

The LUT is derived from a set of user defined mapping points through linear interpolation.

Declaration
public void Lut(NPPImage_16uC4 dest, CudaDeviceVariable<int> values0, CudaDeviceVariable<int> levels0, CudaDeviceVariable<int> values1, CudaDeviceVariable<int> levels1, CudaDeviceVariable<int> values2, CudaDeviceVariable<int> levels2, CudaDeviceVariable<int> values3, CudaDeviceVariable<int> levels3)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> values0

array of user defined OUTPUT values, channel 0
CudaDeviceVariable<System.Int32> levels0

array of user defined INPUT values, channel 0
CudaDeviceVariable<System.Int32> values1

array of user defined OUTPUT values, channel 1
CudaDeviceVariable<System.Int32> levels1

array of user defined INPUT values, channel 1
CudaDeviceVariable<System.Int32> values2

array of user defined OUTPUT values, channel 2
CudaDeviceVariable<System.Int32> levels2

array of user defined INPUT values, channel 2
CudaDeviceVariable<System.Int32> values3

array of user defined OUTPUT values, channel 3
CudaDeviceVariable<System.Int32> levels3

array of user defined INPUT values, channel 3
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LUT(NPPImage_16uC4, CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation.

Declaration
public void LUT(NPPImage_16uC4 dst, CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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LUTA(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

Inplace look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation. Not affecting Alpha.

Declaration
public void LUTA(CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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LutA(NPPImage_16uC4, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>)

look-up-table color conversion.

The LUT is derived from a set of user defined mapping points through linear interpolation. Not affecting alpha channel.

Declaration
public void LutA(NPPImage_16uC4 dest, CudaDeviceVariable<int> values0, CudaDeviceVariable<int> levels0, CudaDeviceVariable<int> values1, CudaDeviceVariable<int> levels1, CudaDeviceVariable<int> values2, CudaDeviceVariable<int> levels2)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
CudaDeviceVariable<System.Int32> values0

array of user defined OUTPUT values, channel 0
CudaDeviceVariable<System.Int32> levels0

array of user defined INPUT values, channel 0
CudaDeviceVariable<System.Int32> values1

array of user defined OUTPUT values, channel 1
CudaDeviceVariable<System.Int32> levels1

array of user defined INPUT values, channel 1
CudaDeviceVariable<System.Int32> values2

array of user defined OUTPUT values, channel 2
CudaDeviceVariable<System.Int32> levels2

array of user defined INPUT values, channel 2
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LUTA(NPPImage_16uC4, CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

look-up-table color conversion. The LUT is derived from a set of user defined mapping points with no interpolation. Not affecting Alpha.

Declaration
public void LUTA(NPPImage_16uC4 dst, CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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LUTCubic(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

Inplace cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation.

Declaration
public void LUTCubic(CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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LUTCubic(NPPImage_16uC4, CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation.

Declaration
public void LUTCubic(NPPImage_16uC4 dst, CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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LUTCubicA(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

Inplace cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation. Not affecting Alpha.

Declaration
public void LUTCubicA(CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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LUTCubicA(NPPImage_16uC4, CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

cubic interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation. Not affecting Alpha.

Declaration
public void LUTCubicA(NPPImage_16uC4 dst, CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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LUTLinear(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

Inplace linear interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation.

Declaration
public void LUTLinear(CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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LUTLinearA(CudaDeviceVariable<Int32>[], CudaDeviceVariable<Int32>[])

Inplace linear interpolated look-up-table color conversion. The LUT is derived from a set of user defined mapping points through cubic interpolation. Not affecting Alpha.

Declaration
public void LUTLinearA(CudaDeviceVariable<int>[] pValues, CudaDeviceVariable<int>[] pLevels)
Parameters
Type Name Description
CudaDeviceVariable<System.Int32>[] pValues

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT values.
CudaDeviceVariable<System.Int32>[] pLevels

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined INPUT values. pLevels.Size gives nLevels.
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LUTPalette(NPPImage_16uC4, CudaDeviceVariable<Byte>[], Int32)

range restricted palette look-up-table color conversion. The LUT is derived from a set of user defined mapping points in a palette and source pixels are then processed using a restricted bit range when looking up palette values.

Declaration
public void LUTPalette(NPPImage_16uC4 dst, CudaDeviceVariable<byte>[] pTable, int nBitSize)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.Byte>[] pTable

Host pointer to an array of 4 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT palette values.
System.Int32 nBitSize

Number of least significant bits (must be > 0 and <= 8) of each source pixel value to use as index into palette table during conversion.
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LUTPaletteA(NPPImage_16uC4, CudaDeviceVariable<UInt16>[], Int32)

range restricted palette look-up-table color conversion. The LUT is derived from a set of user defined mapping points in a palette and source pixels are then processed using a restricted bit range when looking up palette values. Not affecting Alpha.

Declaration
public void LUTPaletteA(NPPImage_16uC4 dst, CudaDeviceVariable<ushort>[] pTable, int nBitSize)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
CudaDeviceVariable<System.UInt16>[] pTable

Host pointer to an array of 3 device memory pointers, one per color CHANNEL, pointing to user defined OUTPUT palette values.
System.Int32 nBitSize

Number of least significant bits (must be > 0 and <= 16) of each source pixel value to use as index into palette table during conversion.
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Max(CudaDeviceVariable<UInt16>)

Image pixel maximum. Buffer is internally allocated and freed.

Declaration
public void Max(CudaDeviceVariable<ushort> max)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 4 * sizeof(ushort)
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Max(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Byte>)

Image pixel maximum. No additional buffer is allocated.

Declaration
public void Max(CudaDeviceVariable<ushort> max, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 4 * sizeof(ushort)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MaxGetBufferHostSize()
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MaxA(CudaDeviceVariable<UInt16>)

Image pixel maximum. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void MaxA(CudaDeviceVariable<ushort> max)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 3 * sizeof(ushort)
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MaxA(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Byte>)

Image pixel maximum. No additional buffer is allocated. Not affecting Alpha.

Declaration
public void MaxA(CudaDeviceVariable<ushort> max, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 3 * sizeof(ushort)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MaxGetBufferHostSizeA()
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MaxError(NPPImage_16uC4, CudaDeviceVariable<Double>)

image maximum error. User buffer is internally allocated and freed.

Declaration
public void MaxError(NPPImage_16uC4 src2, CudaDeviceVariable<double> pError)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pError

Pointer to the computed error.
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MaxError(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image maximum error.

Declaration
public void MaxError(NPPImage_16uC4 src2, CudaDeviceVariable<double> pError, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pError

Pointer to the computed error.
CudaDeviceVariable<System.Byte> buffer

Pointer to the user-allocated scratch buffer required for the MaxError operation.
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MaxErrorGetBufferHostSize()

Device scratch buffer size (in bytes) for MaxError.

Declaration
public int MaxErrorGetBufferHostSize()
Returns
Type Description
System.Int32
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MaxEvery(NPPImage_16uC4)

image MaxEvery

Declaration
public void MaxEvery(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

Source-Image
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MaxEveryA(NPPImage_16uC4)

image MaxEvery Not affecting Alpha.

Declaration
public void MaxEveryA(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

Source-Image
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MaxGetBufferHostSize()

Scratch-buffer size for Max.

Declaration
public int MaxGetBufferHostSize()
Returns
Type Description
System.Int32
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MaxGetBufferHostSizeA()

Scratch-buffer size for Max. Not affecting Alpha.

Declaration
public int MaxGetBufferHostSizeA()
Returns
Type Description
System.Int32
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MaximumRelativeError(NPPImage_16uC4, CudaDeviceVariable<Double>)

image maximum relative error. User buffer is internally allocated and freed.

Declaration
public void MaximumRelativeError(NPPImage_16uC4 src2, CudaDeviceVariable<double> pError)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pError

Pointer to the computed error.
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MaximumRelativeError(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image maximum relative error.

Declaration
public void MaximumRelativeError(NPPImage_16uC4 src2, CudaDeviceVariable<double> pError, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Double> pError

Pointer to the computed error.
CudaDeviceVariable<System.Byte> buffer

Pointer to the user-allocated scratch buffer required for the MaximumRelativeError operation.
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MaximumRelativeErrorGetBufferHostSize()

Device scratch buffer size (in bytes) for MaximumRelativeError.

Declaration
public int MaximumRelativeErrorGetBufferHostSize()
Returns
Type Description
System.Int32
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MaxIndex(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>)

Image pixel maximum. Buffer is internally allocated and freed.

Declaration
public void MaxIndex(CudaDeviceVariable<ushort> max, CudaDeviceVariable<int> indexX, CudaDeviceVariable<int> indexY)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 4 * sizeof(ushort)
CudaDeviceVariable<System.Int32> indexX

Allocated device memory with size of at least 4 * sizeof(int)
CudaDeviceVariable<System.Int32> indexY

Allocated device memory with size of at least 4 * sizeof(int)
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MaxIndex(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Byte>)

Image pixel minimum. No additional buffer is allocated.

Declaration
public void MaxIndex(CudaDeviceVariable<ushort> max, CudaDeviceVariable<int> indexX, CudaDeviceVariable<int> indexY, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 4 * sizeof(ushort)
CudaDeviceVariable<System.Int32> indexX

Allocated device memory with size of at least 4 * sizeof(int)
CudaDeviceVariable<System.Int32> indexY

Allocated device memory with size of at least 4 * sizeof(int)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MaxIndexGetBufferHostSize()
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MaxIndexA(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>)

Image pixel maximum. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void MaxIndexA(CudaDeviceVariable<ushort> max, CudaDeviceVariable<int> indexX, CudaDeviceVariable<int> indexY)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 3 * sizeof(ushort)
CudaDeviceVariable<System.Int32> indexX

Allocated device memory with size of at least 3 * sizeof(int)
CudaDeviceVariable<System.Int32> indexY

Allocated device memory with size of at least 3 * sizeof(int)
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MaxIndexA(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Byte>)

Image pixel minimum. No additional buffer is allocated. Not affecting Alpha.

Declaration
public void MaxIndexA(CudaDeviceVariable<ushort> max, CudaDeviceVariable<int> indexX, CudaDeviceVariable<int> indexY, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 3 * sizeof(ushort)
CudaDeviceVariable<System.Int32> indexX

Allocated device memory with size of at least 3 * sizeof(int)
CudaDeviceVariable<System.Int32> indexY

Allocated device memory with size of at least 3 * sizeof(int)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MaxIndexGetBufferHostSizeA()
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MaxIndexGetBufferHostSize()

Scratch-buffer size for MaxIndex.

Declaration
public int MaxIndexGetBufferHostSize()
Returns
Type Description
System.Int32
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MaxIndexGetBufferHostSizeA()

Scratch-buffer size for MaxIndex. Not affecting Alpha.

Declaration
public int MaxIndexGetBufferHostSizeA()
Returns
Type Description
System.Int32
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Mean(CudaDeviceVariable<Double>)

image mean with 64-bit double precision result. Buffer is internally allocated and freed.

Declaration
public void Mean(CudaDeviceVariable<double> mean)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> mean

Allocated device memory with size of at least 4 * sizeof(double)
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Mean(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image mean with 64-bit double precision result. No additional buffer is allocated.

Declaration
public void Mean(CudaDeviceVariable<double> mean, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> mean

Allocated device memory with size of at least 4 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MeanGetBufferHostSize()
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MeanA(CudaDeviceVariable<Double>)

image mean with 64-bit double precision result. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void MeanA(CudaDeviceVariable<double> mean)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> mean

Allocated device memory with size of at least 3 * sizeof(double)
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MeanA(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image mean with 64-bit double precision result. No additional buffer is allocated. Not affecting Alpha.

Declaration
public void MeanA(CudaDeviceVariable<double> mean, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> mean

Allocated device memory with size of at least 3 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MeanGetBufferHostSize()
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MeanGetBufferHostSize()

Scratch-buffer size for Mean.

Declaration
public int MeanGetBufferHostSize()
Returns
Type Description
System.Int32
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MeanGetBufferHostSizeA()

Scratch-buffer size for Mean. Not affecting Alpha.

Declaration
public int MeanGetBufferHostSizeA()
Returns
Type Description
System.Int32
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Min(CudaDeviceVariable<UInt16>)

Image pixel minimum. Buffer is internally allocated and freed.

Declaration
public void Min(CudaDeviceVariable<ushort> min)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 4 * sizeof(ushort)
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Min(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Byte>)

Image pixel minimum. No additional buffer is allocated.

Declaration
public void Min(CudaDeviceVariable<ushort> min, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 4 * sizeof(ushort)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MinGetBufferHostSize()
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MinA(CudaDeviceVariable<UInt16>)

Image pixel minimum. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void MinA(CudaDeviceVariable<ushort> min)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 3 * sizeof(ushort)
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MinA(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Byte>)

Image pixel minimum. No additional buffer is allocated. Not affecting Alpha.

Declaration
public void MinA(CudaDeviceVariable<ushort> min, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 3 * sizeof(ushort)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MinGetBufferHostSizeA()
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MinEvery(NPPImage_16uC4)

image MinEvery

Declaration
public void MinEvery(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

Source-Image
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MinEveryA(NPPImage_16uC4)

image MinEvery Not affecting Alpha.

Declaration
public void MinEveryA(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

Source-Image
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MinGetBufferHostSize()

Scratch-buffer size for Min.

Declaration
public int MinGetBufferHostSize()
Returns
Type Description
System.Int32
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MinGetBufferHostSizeA()

Scratch-buffer size for Min. Not affecting Alpha.

Declaration
public int MinGetBufferHostSizeA()
Returns
Type Description
System.Int32
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MinIndex(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>)

Image pixel minimum. Buffer is internally allocated and freed.

Declaration
public void MinIndex(CudaDeviceVariable<ushort> min, CudaDeviceVariable<int> indexX, CudaDeviceVariable<int> indexY)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 4 * sizeof(ushort)
CudaDeviceVariable<System.Int32> indexX

Allocated device memory with size of at least 4 * sizeof(int)
CudaDeviceVariable<System.Int32> indexY

Allocated device memory with size of at least 4 * sizeof(int)
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MinIndex(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Byte>)

Image pixel minimum. No additional buffer is allocated.

Declaration
public void MinIndex(CudaDeviceVariable<ushort> min, CudaDeviceVariable<int> indexX, CudaDeviceVariable<int> indexY, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 4 * sizeof(ushort)
CudaDeviceVariable<System.Int32> indexX

Allocated device memory with size of at least 4 * sizeof(int)
CudaDeviceVariable<System.Int32> indexY

Allocated device memory with size of at least 4 * sizeof(int)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MinIndexGetBufferHostSize()
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MinIndexA(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>)

Image pixel minimum. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void MinIndexA(CudaDeviceVariable<ushort> min, CudaDeviceVariable<int> indexX, CudaDeviceVariable<int> indexY)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 3 * sizeof(ushort)
CudaDeviceVariable<System.Int32> indexX

Allocated device memory with size of at least 3 * sizeof(int)
CudaDeviceVariable<System.Int32> indexY

Allocated device memory with size of at least 3 * sizeof(int)
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MinIndexA(CudaDeviceVariable<UInt16>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Int32>, CudaDeviceVariable<Byte>)

Image pixel minimum. No additional buffer is allocated. Not affecting Alpha.

Declaration
public void MinIndexA(CudaDeviceVariable<ushort> min, CudaDeviceVariable<int> indexX, CudaDeviceVariable<int> indexY, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 3 * sizeof(ushort)
CudaDeviceVariable<System.Int32> indexX

Allocated device memory with size of at least 3 * sizeof(int)
CudaDeviceVariable<System.Int32> indexY

Allocated device memory with size of at least 3 * sizeof(int)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MinIndexGetBufferHostSizeA()
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MinIndexGetBufferHostSize()

Scratch-buffer size for MinIndex.

Declaration
public int MinIndexGetBufferHostSize()
Returns
Type Description
System.Int32
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MinIndexGetBufferHostSizeA()

Scratch-buffer size for MinIndex. Not affecting Alpha.

Declaration
public int MinIndexGetBufferHostSizeA()
Returns
Type Description
System.Int32
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MinMax(CudaDeviceVariable<UInt16>, CudaDeviceVariable<UInt16>)

Image pixel minimum and maximum. Buffer is internally allocated and freed.

Declaration
public void MinMax(CudaDeviceVariable<ushort> min, CudaDeviceVariable<ushort> max)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 4 * sizeof(ushort)
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 4 * sizeof(ushort)
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MinMax(CudaDeviceVariable<UInt16>, CudaDeviceVariable<UInt16>, CudaDeviceVariable<Byte>)

Image pixel minimum and maximum. No additional buffer is allocated.

Declaration
public void MinMax(CudaDeviceVariable<ushort> min, CudaDeviceVariable<ushort> max, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 4 * sizeof(ushort)
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 4 * sizeof(ushort)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MinMaxGetBufferHostSize()
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MinMaxA(CudaDeviceVariable<UInt16>, CudaDeviceVariable<UInt16>)

Image pixel minimum and maximum. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void MinMaxA(CudaDeviceVariable<ushort> min, CudaDeviceVariable<ushort> max)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 3 * sizeof(ushort)
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 3 * sizeof(ushort)
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MinMaxA(CudaDeviceVariable<UInt16>, CudaDeviceVariable<UInt16>, CudaDeviceVariable<Byte>)

Image pixel minimum and maximum. No additional buffer is allocated. Not affecting Alpha.

Declaration
public void MinMaxA(CudaDeviceVariable<ushort> min, CudaDeviceVariable<ushort> max, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.UInt16> min

Allocated device memory with size of at least 3 * sizeof(ushort)
CudaDeviceVariable<System.UInt16> max

Allocated device memory with size of at least 3 * sizeof(ushort)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at MinMaxGetBufferHostSizeA()
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MinMaxGetBufferHostSize()

Scratch-buffer size for MinMax.

Declaration
public int MinMaxGetBufferHostSize()
Returns
Type Description
System.Int32
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MinMaxGetBufferHostSizeA()

Scratch-buffer size for MinMax. Not affecting Alpha.

Declaration
public int MinMaxGetBufferHostSizeA()
Returns
Type Description
System.Int32
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Mirror(NppiAxis)

Mirror image inplace.

Declaration
public void Mirror(NppiAxis flip)
Parameters
Type Name Description
NppiAxis flip

Specifies the axis about which the image is to be mirrored.
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Mirror(NPPImage_16uC4, NppiAxis)

Mirror image.

Declaration
public void Mirror(NPPImage_16uC4 dest, NppiAxis flip)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiAxis flip

Specifies the axis about which the image is to be mirrored.
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MirrorA(NppiAxis)

Mirror image inplace. Not affecting Alpha.

Declaration
public void MirrorA(NppiAxis flip)
Parameters
Type Name Description
NppiAxis flip

Specifies the axis about which the image is to be mirrored.
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MirrorA(NPPImage_16uC4, NppiAxis)

Mirror image. Not affecting Alpha.

Declaration
public void MirrorA(NPPImage_16uC4 dest, NppiAxis flip)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
NppiAxis flip

Specifies the axis about which the image is to be mirrored.
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Mul(NPPImage_16uC4)

In place image multiplication and scale by max bit width value

Declaration
public void Mul(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
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Mul(NPPImage_16uC4, NPPImage_16uC4)

Image multiplication and scale by max bit width value.

Declaration
public void Mul(NPPImage_16uC4 src2, NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
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Mul(NPPImage_16uC4, NPPImage_16uC4, Int32)

Image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Mul(NPPImage_16uC4 src2, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Mul(NPPImage_16uC4, Int32)

In place image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Mul(NPPImage_16uC4 src2, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
System.Int32 nScaleFactor

scaling factor
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Mul(UInt16[])

Multiply constant to image and scale by max bit width value

Declaration
public void Mul(ushort[] nConstant)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
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Mul(UInt16[], NPPImage_16uC4)

Multiply constant to image and scale by max bit width value

Declaration
public void Mul(ushort[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
NPPImage_16uC4 dest

Destination image
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Mul(UInt16[], NPPImage_16uC4, Int32)

Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Mul(ushort[] nConstant, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Mul(UInt16[], Int32)

Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.

Declaration
public void Mul(ushort[] nConstant, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
System.Int32 nScaleFactor

scaling factor
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MulA(NPPImage_16uC4)

In place image multiplication and scale by max bit width value. Unchanged Alpha.

Declaration
public void MulA(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
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MulA(NPPImage_16uC4, NPPImage_16uC4)

Image multiplication and scale by max bit width value. Unchanged Alpha.

Declaration
public void MulA(NPPImage_16uC4 src2, NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
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MulA(NPPImage_16uC4, NPPImage_16uC4, Int32)

Image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void MulA(NPPImage_16uC4 src2, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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MulA(NPPImage_16uC4, Int32)

In place image multiplication, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void MulA(NPPImage_16uC4 src2, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
System.Int32 nScaleFactor

scaling factor
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MulA(UInt16[])

Multiply constant to image and scale by max bit width value. Unchanged Alpha.

Declaration
public void MulA(ushort[] nConstant)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
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MulA(UInt16[], NPPImage_16uC4)

Multiply constant to image and scale by max bit width value. Unchanged Alpha.

Declaration
public void MulA(ushort[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
NPPImage_16uC4 dest

Destination image
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MulA(UInt16[], NPPImage_16uC4, Int32)

Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void MulA(ushort[] nConstant, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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MulA(UInt16[], Int32)

Multiply constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unchanged Alpha.

Declaration
public void MulA(ushort[] nConstant, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value
System.Int32 nScaleFactor

scaling factor
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NormDiff_Inf(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormDiff_Inf. Buffer is internally allocated and freed.

Declaration
public void NormDiff_Inf(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed Inf-norm of differences. (3 * sizeof(double))
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NormDiff_Inf(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormDiff_Inf.

Declaration
public void NormDiff_Inf(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed Inf-norm of differences. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormDiffInfGetBufferHostSize()
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NormDiff_InfA(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormDiff_Inf. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void NormDiff_InfA(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed Inf-norm of differences. (3 * sizeof(double))
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NormDiff_InfA(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormDiff_Inf. Not affecting Alpha.

Declaration
public void NormDiff_InfA(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed Inf-norm of differences. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormDiffInfAGetBufferHostSize()
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NormDiff_L1(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormDiff_L1. Buffer is internally allocated and freed.

Declaration
public void NormDiff_L1(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed L1-norm of differences. (3 * sizeof(double))
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NormDiff_L1(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormDiff_L1.

Declaration
public void NormDiff_L1(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed L1-norm of differences. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormDiffL1GetBufferHostSize()
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NormDiff_L1A(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormDiff_L1. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void NormDiff_L1A(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed L1-norm of differences. (3 * sizeof(double))
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NormDiff_L1A(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormDiff_L1. Not affecting Alpha.

Declaration
public void NormDiff_L1A(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed L1-norm of differences. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormDiffL1AGetBufferHostSize()
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NormDiff_L2(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormDiff_L2. Buffer is internally allocated and freed.

Declaration
public void NormDiff_L2(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed L2-norm of differences. (3 * sizeof(double))
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NormDiff_L2(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormDiff_L2.

Declaration
public void NormDiff_L2(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed L2-norm of differences. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormDiffL2GetBufferHostSize()
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NormDiff_L2A(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormDiff_L2. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void NormDiff_L2A(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed L2-norm of differences. (3 * sizeof(double))
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NormDiff_L2A(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormDiff_L2. Not affecting Alpha.

Declaration
public void NormDiff_L2A(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormDiff, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormDiff

Pointer to the computed L2-norm of differences. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormDiffL2AGetBufferHostSize()
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NormDiffInfAGetBufferHostSize()

Device scratch buffer size (in bytes) for NormDiff_Inf. Not affecting Alpha.

Declaration
public int NormDiffInfAGetBufferHostSize()
Returns
Type Description
System.Int32
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NormDiffInfGetBufferHostSize()

Device scratch buffer size (in bytes) for NormDiff_Inf.

Declaration
public int NormDiffInfGetBufferHostSize()
Returns
Type Description
System.Int32
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NormDiffL1AGetBufferHostSize()

Device scratch buffer size (in bytes) for NormDiff_L1. Not affecting Alpha.

Declaration
public int NormDiffL1AGetBufferHostSize()
Returns
Type Description
System.Int32
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NormDiffL1GetBufferHostSize()

Device scratch buffer size (in bytes) for NormDiff_L1.

Declaration
public int NormDiffL1GetBufferHostSize()
Returns
Type Description
System.Int32
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NormDiffL2AGetBufferHostSize()

Device scratch buffer size (in bytes) for NormDiff_L2. Not affecting Alpha.

Declaration
public int NormDiffL2AGetBufferHostSize()
Returns
Type Description
System.Int32
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NormDiffL2GetBufferHostSize()

Device scratch buffer size (in bytes) for NormDiff_L2.

Declaration
public int NormDiffL2GetBufferHostSize()
Returns
Type Description
System.Int32
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NormInf(CudaDeviceVariable<Double>)

image infinity norm. Buffer is internally allocated and freed.

Declaration
public void NormInf(CudaDeviceVariable<double> norm)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 4 * sizeof(double)
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NormInf(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image infinity norm. No additional buffer is allocated.

Declaration
public void NormInf(CudaDeviceVariable<double> norm, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 4 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormInfGetBufferHostSize()
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NormInfA(CudaDeviceVariable<Double>)

image infinity norm. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void NormInfA(CudaDeviceVariable<double> norm)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 3 * sizeof(double)
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NormInfA(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image infinity norm. No additional buffer is allocated. Not affecting Alpha.

Declaration
public void NormInfA(CudaDeviceVariable<double> norm, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 3 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormInfGetBufferHostSize()
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NormInfGetBufferHostSize()

Scratch-buffer size for Norm inf.

Declaration
public int NormInfGetBufferHostSize()
Returns
Type Description
System.Int32
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NormInfGetBufferHostSizeA()

Scratch-buffer size for Norm inf. Not affecting Alpha.

Declaration
public int NormInfGetBufferHostSizeA()
Returns
Type Description
System.Int32
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NormL1(CudaDeviceVariable<Double>)

image L1 norm. Buffer is internally allocated and freed.

Declaration
public void NormL1(CudaDeviceVariable<double> norm)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 4 * sizeof(double)
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NormL1(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image L1 norm. No additional buffer is allocated.

Declaration
public void NormL1(CudaDeviceVariable<double> norm, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 4 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormL1GetBufferHostSize()
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NormL1A(CudaDeviceVariable<Double>)

image L1 norm. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void NormL1A(CudaDeviceVariable<double> norm)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 3 * sizeof(double)
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NormL1A(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image L1 norm. No additional buffer is allocated. Not affecting Alpha.

Declaration
public void NormL1A(CudaDeviceVariable<double> norm, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 3 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormL1GetBufferHostSize()
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NormL1GetBufferHostSize()

Scratch-buffer size for Norm L1.

Declaration
public int NormL1GetBufferHostSize()
Returns
Type Description
System.Int32
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NormL1GetBufferHostSizeA()

Scratch-buffer size for Norm L1. Not affecting Alpha.

Declaration
public int NormL1GetBufferHostSizeA()
Returns
Type Description
System.Int32
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NormL2(CudaDeviceVariable<Double>)

image L2 norm. Buffer is internally allocated and freed.

Declaration
public void NormL2(CudaDeviceVariable<double> norm)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 4 * sizeof(double)
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NormL2(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image L2 norm. No additional buffer is allocated.

Declaration
public void NormL2(CudaDeviceVariable<double> norm, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 4 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormL2GetBufferHostSize()
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NormL2A(CudaDeviceVariable<Double>)

image L2 norm. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void NormL2A(CudaDeviceVariable<double> norm)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 3 * sizeof(double)
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NormL2A(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image L2 norm. No additional buffer is allocated.

Declaration
public void NormL2A(CudaDeviceVariable<double> norm, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> norm

Allocated device memory with size of at least 3 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormL2GetBufferHostSize()
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NormL2GetBufferHostSize()

Scratch-buffer size for Norm L2.

Declaration
public int NormL2GetBufferHostSize()
Returns
Type Description
System.Int32
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NormL2GetBufferHostSizeA()

Scratch-buffer size for Norm L2. Not affecting Alpha.

Declaration
public int NormL2GetBufferHostSizeA()
Returns
Type Description
System.Int32
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NormRel_Inf(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormRel_Inf. Buffer is internally allocated and freed.

Declaration
public void NormRel_Inf(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
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NormRel_Inf(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormRel_Inf.

Declaration
public void NormRel_Inf(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormRelInfGetBufferHostSize()
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NormRel_InfA(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormRel_Inf. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void NormRel_InfA(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
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NormRel_InfA(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormRel_Inf. Not affecting Alpha.

Declaration
public void NormRel_InfA(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormRelInfAGetBufferHostSize()
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NormRel_L1(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormRel_L1. Buffer is internally allocated and freed.

Declaration
public void NormRel_L1(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
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NormRel_L1(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormRel_L1.

Declaration
public void NormRel_L1(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormRelL1GetBufferHostSize()
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NormRel_L1A(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormRel_L1. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void NormRel_L1A(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
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NormRel_L1A(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormRel_L1. Not affecting Alpha.

Declaration
public void NormRel_L1A(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormRelL1AGetBufferHostSize()
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NormRel_L2(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormRel_L2. Buffer is internally allocated and freed.

Declaration
public void NormRel_L2(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
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NormRel_L2(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormRel_L2.

Declaration
public void NormRel_L2(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormRelL2GetBufferHostSize()
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NormRel_L2A(NPPImage_16uC4, CudaDeviceVariable<Double>)

image NormRel_L2. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void NormRel_L2A(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
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NormRel_L2A(NPPImage_16uC4, CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image NormRel_L2. Not affecting Alpha.

Declaration
public void NormRel_L2A(NPPImage_16uC4 tpl, CudaDeviceVariable<double> pNormRel, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
CudaDeviceVariable<System.Double> pNormRel

Pointer to the computed relative error for the infinity norm of two images. (3 * sizeof(double))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at NormRelL2AGetBufferHostSize()
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NormRelInfAGetBufferHostSize()

Device scratch buffer size (in bytes) for NormRel_Inf. Not affecting Alpha.

Declaration
public int NormRelInfAGetBufferHostSize()
Returns
Type Description
System.Int32
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NormRelInfGetBufferHostSize()

Device scratch buffer size (in bytes) for NormRel_Inf.

Declaration
public int NormRelInfGetBufferHostSize()
Returns
Type Description
System.Int32
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NormRelL1AGetBufferHostSize()

Device scratch buffer size (in bytes) for NormRel_L1. Not affecting Alpha.

Declaration
public int NormRelL1AGetBufferHostSize()
Returns
Type Description
System.Int32
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NormRelL1GetBufferHostSize()

Device scratch buffer size (in bytes) for NormRel_L1.

Declaration
public int NormRelL1GetBufferHostSize()
Returns
Type Description
System.Int32
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NormRelL2AGetBufferHostSize()

Device scratch buffer size (in bytes) for NormRel_L2. Not affecting Alpha.

Declaration
public int NormRelL2AGetBufferHostSize()
Returns
Type Description
System.Int32
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NormRelL2GetBufferHostSize()

Device scratch buffer size (in bytes) for NormRel_L2.

Declaration
public int NormRelL2GetBufferHostSize()
Returns
Type Description
System.Int32
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Or(NPPImage_16uC4)

In place image logical Or.

Declaration
public void Or(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
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Or(NPPImage_16uC4, NPPImage_16uC4)

Image logical Or.

Declaration
public void Or(NPPImage_16uC4 src2, NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
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Or(UInt16[])

In place image logical Or with constant.

Declaration
public void Or(ushort[] nConstant)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
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Or(UInt16[], NPPImage_16uC4)

Image logical Or with constant.

Declaration
public void Or(ushort[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
NPPImage_16uC4 dest

Destination image
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OrA(NPPImage_16uC4)

In place image logical Or. Unchanged Alpha.

Declaration
public void OrA(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
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OrA(NPPImage_16uC4, NPPImage_16uC4)

Image logical Or. Unchanged Alpha.

Declaration
public void OrA(NPPImage_16uC4 src2, NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
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OrA(UInt16[])

In place image logical Or with constant. Unchanged Alpha.

Declaration
public void OrA(ushort[] nConstant)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
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OrA(UInt16[], NPPImage_16uC4)

Image logical Or with constant. Unchanged Alpha.

Declaration
public void OrA(ushort[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
NPPImage_16uC4 dest

Destination image
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QualityIndexA(NPPImage_16uC4, CudaDeviceVariable<Single>)

image QualityIndex. Not affecting Alpha.

Declaration
public void QualityIndexA(NPPImage_16uC4 src2, CudaDeviceVariable<float> dst)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Single> dst

Pointer to the quality index. (3 * sizeof(float))
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QualityIndexA(NPPImage_16uC4, CudaDeviceVariable<Single>, CudaDeviceVariable<Byte>)

image QualityIndex. Not affecting Alpha.

Declaration
public void QualityIndexA(NPPImage_16uC4 src2, CudaDeviceVariable<float> dst, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
CudaDeviceVariable<System.Single> dst

Pointer to the quality index. (3 * sizeof(float))
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at QualityIndexAGetBufferHostSize()
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QualityIndexAGetBufferHostSize()

Device scratch buffer size (in bytes) for QualityIndex.

Declaration
public int QualityIndexAGetBufferHostSize()
Returns
Type Description
System.Int32
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Remap(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_32fC1, NPPImage_32fC1, InterpolationMode)

planar image remap.

Declaration
public static void Remap(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, NPPImage_16uC1 src3, NPPImage_16uC1 dest0, NPPImage_16uC1 dest1, NPPImage_16uC1 dest2, NPPImage_16uC1 dest3, NPPImage_32fC1 pXMap, NPPImage_32fC1 pYMap, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image (Channel 0)
NPPImage_16uC1 src1

Source image (Channel 1)
NPPImage_16uC1 src2

Source image (Channel 2)
NPPImage_16uC1 src3

Source image (Channel 3)
NPPImage_16uC1 dest0

Destination image (Channel 0)
NPPImage_16uC1 dest1

Destination image (Channel 1)
NPPImage_16uC1 dest2

Destination image (Channel 2)
NPPImage_16uC1 dest3

Destination image (Channel 3)
NPPImage_32fC1 pXMap

Device memory pointer to 2D image array of X coordinate values to be used when sampling source image.
NPPImage_32fC1 pYMap

Device memory pointer to 2D image array of Y coordinate values to be used when sampling source image.
InterpolationMode eInterpolation

The type of eInterpolation to perform resampling.
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Remap(NPPImage_16uC4, NPPImage_32fC1, NPPImage_32fC1, InterpolationMode)

image remap.

Declaration
public void Remap(NPPImage_16uC4 dst, NPPImage_32fC1 pXMap, NPPImage_32fC1 pYMap, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
NPPImage_32fC1 pXMap

Device memory pointer to 2D image array of X coordinate values to be used when sampling source image.
NPPImage_32fC1 pYMap

Device memory pointer to 2D image array of Y coordinate values to be used when sampling source image.
InterpolationMode eInterpolation

The type of eInterpolation to perform resampling.
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RemapA(NPPImage_16uC4, NPPImage_32fC1, NPPImage_32fC1, InterpolationMode)

image remap. Not affecting Alpha.

Declaration
public void RemapA(NPPImage_16uC4 dst, NPPImage_32fC1 pXMap, NPPImage_32fC1 pYMap, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
NPPImage_32fC1 pXMap

Device memory pointer to 2D image array of X coordinate values to be used when sampling source image.
NPPImage_32fC1 pYMap

Device memory pointer to 2D image array of Y coordinate values to be used when sampling source image.
InterpolationMode eInterpolation

The type of eInterpolation to perform resampling.
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Resize(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, InterpolationMode)

resizes planar images.

Declaration
public static void Resize(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, NPPImage_16uC1 src3, NPPImage_16uC1 dest0, NPPImage_16uC1 dest1, NPPImage_16uC1 dest2, NPPImage_16uC1 dest3, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image (Channel 0)
NPPImage_16uC1 src1

Source image (Channel 1)
NPPImage_16uC1 src2

Source image (Channel 2)
NPPImage_16uC1 src3

Source image (Channel 3)
NPPImage_16uC1 dest0

Destination image (Channel 0)
NPPImage_16uC1 dest1

Destination image (Channel 1)
NPPImage_16uC1 dest2

Destination image (Channel 2)
NPPImage_16uC1 dest3

Destination image (Channel 3)
InterpolationMode eInterpolation

Interpolation mode
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Resize(NPPImage_16uC4, InterpolationMode)

Resizes images.

Declaration
public void Resize(NPPImage_16uC4 dest, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
InterpolationMode eInterpolation

Interpolation mode
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ResizeA(NPPImage_16uC4, InterpolationMode)

Resizes images. Not affecting Alpha.

Declaration
public void ResizeA(NPPImage_16uC4 dest, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
InterpolationMode eInterpolation

Interpolation mode
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ResizeSqrPixel(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, Double, Double, Double, Double, InterpolationMode)

planar image resize.

Declaration
public static void ResizeSqrPixel(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, NPPImage_16uC1 src3, NPPImage_16uC1 dest0, NPPImage_16uC1 dest1, NPPImage_16uC1 dest2, NPPImage_16uC1 dest3, double nXFactor, double nYFactor, double nXShift, double nYShift, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image (Channel 0)
NPPImage_16uC1 src1

Source image (Channel 1)
NPPImage_16uC1 src2

Source image (Channel 2)
NPPImage_16uC1 src3

Source image (Channel 3)
NPPImage_16uC1 dest0

Destination image (Channel 0)
NPPImage_16uC1 dest1

Destination image (Channel 1)
NPPImage_16uC1 dest2

Destination image (Channel 2)
NPPImage_16uC1 dest3

Destination image (Channel 3)
System.Double nXFactor

Factor by which x dimension is changed.
System.Double nYFactor

Factor by which y dimension is changed.
System.Double nXShift

Source pixel shift in x-direction.
System.Double nYShift

Source pixel shift in y-direction.
InterpolationMode eInterpolation

The type of eInterpolation to perform resampling.
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ResizeSqrPixel(NPPImage_16uC4, Double, Double, Double, Double, InterpolationMode)

image resize.

Declaration
public void ResizeSqrPixel(NPPImage_16uC4 dst, double nXFactor, double nYFactor, double nXShift, double nYShift, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Double nXFactor

Factor by which x dimension is changed.
System.Double nYFactor

Factor by which y dimension is changed.
System.Double nXShift

Source pixel shift in x-direction.
System.Double nYShift

Source pixel shift in y-direction.
InterpolationMode eInterpolation

The type of eInterpolation to perform resampling.
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ResizeSqrPixelA(NPPImage_16uC4, Double, Double, Double, Double, InterpolationMode)

image resize. Not affecting Alpha.

Declaration
public void ResizeSqrPixelA(NPPImage_16uC4 dst, double nXFactor, double nYFactor, double nXShift, double nYShift, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dst

Destination-Image
System.Double nXFactor

Factor by which x dimension is changed.
System.Double nYFactor

Factor by which y dimension is changed.
System.Double nXShift

Source pixel shift in x-direction.
System.Double nYShift

Source pixel shift in y-direction.
InterpolationMode eInterpolation

The type of eInterpolation to perform resampling.
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RGBToGrayA(NPPImage_16uC1)

RGB to Gray conversion, not affecting Alpha.

Declaration
public void RGBToGrayA(NPPImage_16uC1 dest)
Parameters
Type Name Description
NPPImage_16uC1 dest

Destination image
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Rotate(NPPImage_16uC4, Double, Double, Double, InterpolationMode)

Rotate images.

Declaration
public void Rotate(NPPImage_16uC4 dest, double nAngle, double nShiftX, double nShiftY, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double nAngle

The angle of rotation in degrees.
System.Double nShiftX

Shift along horizontal axis
System.Double nShiftY

Shift along vertical axis
InterpolationMode eInterpolation

Interpolation mode
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RotateA(NPPImage_16uC4, Double, Double, Double, InterpolationMode)

Rotate images. Not affecting Alpha.

Declaration
public void RotateA(NPPImage_16uC4 dest, double nAngle, double nShiftX, double nShiftY, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double nAngle

The angle of rotation in degrees.
System.Double nShiftX

Shift along horizontal axis
System.Double nShiftY

Shift along vertical axis
InterpolationMode eInterpolation

Interpolation mode
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RShiftC(UInt32[])

image bit shift by constant (right), inplace.

Declaration
public void RShiftC(uint[] nConstant)
Parameters
Type Name Description
System.UInt32[] nConstant

Constant (Array length = 4)
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RShiftC(UInt32[], NPPImage_16uC4)

image bit shift by constant (right).

Declaration
public void RShiftC(uint[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt32[] nConstant

Constant (Array length = 4)
NPPImage_16uC4 dest

Destination image
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RShiftCA(UInt32[])

image bit shift by constant (right), inplace. Unchanged Alpha.

Declaration
public void RShiftCA(uint[] nConstant)
Parameters
Type Name Description
System.UInt32[] nConstant

Constant (Array length = 4)
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RShiftCA(UInt32[], NPPImage_16uC4)

image bit shift by constant (right). Unchanged Alpha.

Declaration
public void RShiftCA(uint[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt32[] nConstant

Constant (Array length = 4)
NPPImage_16uC4 dest

Destination image
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SameNormLevelAGetBufferHostSize()

Device scratch buffer size (in bytes) for CrossCorrSame_NormLevel. Not affecting Alpha.

Declaration
public int SameNormLevelAGetBufferHostSize()
Returns
Type Description
System.Int32
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SameNormLevelGetBufferHostSize()

Device scratch buffer size (in bytes) for CrossCorrSame_NormLevel.

Declaration
public int SameNormLevelGetBufferHostSize()
Returns
Type Description
System.Int32
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Scale(NPPImage_8uC4, NppHintAlgorithm)

image conversion.

Declaration
public void Scale(NPPImage_8uC4 dst, NppHintAlgorithm hint)
Parameters
Type Name Description
NPPImage_8uC4 dst

Destination-Image
NppHintAlgorithm hint

algorithm performance or accuracy selector, currently ignored
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ScaleA(NPPImage_32sC4, NppHintAlgorithm)

image conversion. Not affecting Alpha.

Declaration
public void ScaleA(NPPImage_32sC4 dst, NppHintAlgorithm hint)
Parameters
Type Name Description
NPPImage_32sC4 dst

Destination-Image
NppHintAlgorithm hint

algorithm performance or accuracy selector, currently ignored
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Set(UInt16, Int32)

Set pixel values to nValue.

The 8-bit mask image affects setting of the respective pixels in the destination image.

If the mask value is zero (0) the pixel is not set, if the mask is non-zero, the corresponding destination pixel is set to specified value.

Declaration
public void Set(ushort nValue, int channel)
Parameters
Type Name Description
System.UInt16 nValue

Value to be set
System.Int32 channel

Channel number. This number is added to the dst pointer
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Set(UInt16[])

Set pixel values to nValue.

Declaration
public void Set(ushort[] nValue)
Parameters
Type Name Description
System.UInt16[] nValue

Value to be set (Array size = 4)
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Set(UInt16[], NPPImage_8uC1)

Set pixel values to nValue.

The 8-bit mask image affects setting of the respective pixels in the destination image.

If the mask value is zero (0) the pixel is not set, if the mask is non-zero, the corresponding destination pixel is set to specified value.

Declaration
public void Set(ushort[] nValue, NPPImage_8uC1 mask)
Parameters
Type Name Description
System.UInt16[] nValue

Value to be set (Array size = 4)
NPPImage_8uC1 mask

Mask image
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SetA(UInt16[])

Set pixel values to nValue.

The 8-bit mask image affects setting of the respective pixels in the destination image.

If the mask value is zero (0) the pixel is not set, if the mask is non-zero, the corresponding destination pixel is set to specified value. Not affecting alpha channel.

Declaration
public void SetA(ushort[] nValue)
Parameters
Type Name Description
System.UInt16[] nValue

Value to be set (Array size = 3)
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SetA(UInt16[], NPPImage_8uC1)

Set pixel values to nValue.

The 8-bit mask image affects setting of the respective pixels in the destination image.

If the mask value is zero (0) the pixel is not set, if the mask is non-zero, the corresponding destination pixel is set to specified value. Not affecting alpha channel.

Declaration
public void SetA(ushort[] nValue, NPPImage_8uC1 mask)
Parameters
Type Name Description
System.UInt16[] nValue

Value to be set (Array size = 3)
NPPImage_8uC1 mask

Mask image
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Sqr(NPPImage_16uC4, Int32)

Image squared, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Sqr(NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Sqr(Int32)

Inplace image squared, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Sqr(int nScaleFactor)
Parameters
Type Name Description
System.Int32 nScaleFactor

scaling factor
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SqrA(NPPImage_16uC4, Int32)

Image squared, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void SqrA(NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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SqrA(Int32)

Inplace image squared, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void SqrA(int nScaleFactor)
Parameters
Type Name Description
System.Int32 nScaleFactor

scaling factor
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SqrDistanceFull_Norm(NPPImage_16uC4, NPPImage_32fC4)

image SqrDistanceFull_Norm.

Declaration
public void SqrDistanceFull_Norm(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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SqrDistanceFull_NormA(NPPImage_16uC4, NPPImage_32fC4)

image SqrDistanceFull_Norm. Not affecting Alpha.

Declaration
public void SqrDistanceFull_NormA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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SqrDistanceSame_Norm(NPPImage_16uC4, NPPImage_32fC4)

image SqrDistanceSame_Norm.

Declaration
public void SqrDistanceSame_Norm(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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SqrDistanceSame_NormA(NPPImage_16uC4, NPPImage_32fC4)

image SqrDistanceSame_Norm. Not affecting Alpha.

Declaration
public void SqrDistanceSame_NormA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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SqrDistanceValid_Norm(NPPImage_16uC4, NPPImage_32fC4)

image SqrDistanceValid_Norm.

Declaration
public void SqrDistanceValid_Norm(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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SqrDistanceValid_NormA(NPPImage_16uC4, NPPImage_32fC4)

image SqrDistanceValid_Norm. Not affecting Alpha.

Declaration
public void SqrDistanceValid_NormA(NPPImage_16uC4 tpl, NPPImage_32fC4 dst)
Parameters
Type Name Description
NPPImage_16uC4 tpl

template image.
NPPImage_32fC4 dst

Destination-Image
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Sqrt(NPPImage_16uC4, Int32)

Image square root, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Sqrt(NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Sqrt(Int32)

Inplace image square root, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Sqrt(int nScaleFactor)
Parameters
Type Name Description
System.Int32 nScaleFactor

scaling factor
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SqrtA(NPPImage_16uC4, Int32)

Image square root, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void SqrtA(NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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SqrtA(Int32)

Inplace image square root, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void SqrtA(int nScaleFactor)
Parameters
Type Name Description
System.Int32 nScaleFactor

scaling factor
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Sub(NPPImage_16uC4, NPPImage_16uC4, Int32)

Image subtraction, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Sub(NPPImage_16uC4 src2, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Sub(NPPImage_16uC4, Int32)

In place image subtraction, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Sub(NPPImage_16uC4 src2, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
System.Int32 nScaleFactor

scaling factor
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Sub(UInt16[], NPPImage_16uC4, Int32)

Subtract constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value.

Declaration
public void Sub(ushort[] nConstant, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value to subtract
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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Sub(UInt16[], Int32)

Subtract constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace.

Declaration
public void Sub(ushort[] nConstant, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value to subtract
System.Int32 nScaleFactor

scaling factor
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SubA(NPPImage_16uC4, NPPImage_16uC4, Int32)

Image subtraction, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void SubA(NPPImage_16uC4 src2, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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SubA(NPPImage_16uC4, Int32)

In place image subtraction, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void SubA(NPPImage_16uC4 src2, int nScaleFactor)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
System.Int32 nScaleFactor

scaling factor
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SubA(UInt16[], NPPImage_16uC4, Int32)

Subtract constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Unchanged Alpha.

Declaration
public void SubA(ushort[] nConstant, NPPImage_16uC4 dest, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value to subtract
NPPImage_16uC4 dest

Destination image
System.Int32 nScaleFactor

scaling factor
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SubA(UInt16[], Int32)

Subtract constant to image, scale by 2^(-nScaleFactor), then clamp to saturated value. Inplace. Unchanged Alpha.

Declaration
public void SubA(ushort[] nConstant, int nScaleFactor)
Parameters
Type Name Description
System.UInt16[] nConstant

Value to subtract
System.Int32 nScaleFactor

scaling factor
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Sum(CudaDeviceVariable<Double>)

image sum with 64-bit double precision result. Buffer is internally allocated and freed.

Declaration
public void Sum(CudaDeviceVariable<double> result)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> result

Allocated device memory with size of at least 4 * sizeof(double)
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Sum(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image sum with 64-bit double precision result. No additional buffer is allocated.

Declaration
public void Sum(CudaDeviceVariable<double> result, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> result

Allocated device memory with size of at least 4 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at SumGetBufferHostSize()
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SumA(CudaDeviceVariable<Double>)

image sum with 64-bit double precision result. Buffer is internally allocated and freed. Not affecting Alpha.

Declaration
public void SumA(CudaDeviceVariable<double> result)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> result

Allocated device memory with size of at least 3 * sizeof(double)
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SumA(CudaDeviceVariable<Double>, CudaDeviceVariable<Byte>)

image sum with 64-bit double precision result. No additional buffer is allocated. Not affecting Alpha.

Declaration
public void SumA(CudaDeviceVariable<double> result, CudaDeviceVariable<byte> buffer)
Parameters
Type Name Description
CudaDeviceVariable<System.Double> result

Allocated device memory with size of at least 3 * sizeof(double)
CudaDeviceVariable<System.Byte> buffer

Allocated device memory with size of at SumGetBufferHostSizeA()
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SumGetBufferHostSize()

Scratch-buffer size for nppiSum_16u_C4R.

Declaration
public int SumGetBufferHostSize()
Returns
Type Description
System.Int32
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SumGetBufferHostSizeA()

Scratch-buffer size for nppiSum_16u_C4R. Not affecting Alpha.

Declaration
public int SumGetBufferHostSizeA()
Returns
Type Description
System.Int32
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SumWindowColumn(NPPImage_32fC4, Int32, Int32)

16-bit unsigned 1D (column) sum to 32f. Apply Column Window Summation filter over a 1D mask region around each source pixel for 4-channel 16 bit/pixel input images with 32-bit floating point output.

Result 32-bit floating point pixel is equal to the sum of the corresponding and neighboring column pixel values in a mask region of the source image defined by nMaskSize and nAnchor.

Declaration
public void SumWindowColumn(NPPImage_32fC4 dest, int nMaskSize, int nAnchor)
Parameters
Type Name Description
NPPImage_32fC4 dest

Destination image
System.Int32 nMaskSize

Length of the linear kernel array.
System.Int32 nAnchor

Y offset of the kernel origin frame of reference w.r.t the source pixel.
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SumWindowColumnBorder(NPPImage_32fC4, Int32, Int32, NppiBorderType)

Apply Column Window Summation filter over a 1D mask region around each source pixel for 3-channel 8 bit/pixel input images with 32-bit floating point output.
Result 32-bit floating point pixel is equal to the sum of the corresponding and neighboring column pixel values in a mask region of the source image defined by nMaskSize and nAnchor.

Declaration
public void SumWindowColumnBorder(NPPImage_32fC4 dest, int nMaskSize, int nAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_32fC4 dest

Destination image
System.Int32 nMaskSize

Length of the linear kernel array.
System.Int32 nAnchor

Y offset of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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SumWindowRow(NPPImage_32fC4, Int32, Int32)

16-bit unsigned 1D (row) sum to 32f.

Apply Row Window Summation filter over a 1D mask region around each source pixel for 4-channel 16-bit pixel input images with 32-bit floating point output.
Result 32-bit floating point pixel is equal to the sum of the corresponding and neighboring row pixel values in a mask region of the source image defined by nKernelDim and nAnchorX.

Declaration
public void SumWindowRow(NPPImage_32fC4 dest, int nMaskSize, int nAnchor)
Parameters
Type Name Description
NPPImage_32fC4 dest

Destination image
System.Int32 nMaskSize

Length of the linear kernel array.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
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SumWindowRowBorder(NPPImage_32fC4, Int32, Int32, NppiBorderType)

Apply Row Window Summation filter over a 1D mask region around each source pixel for 3-channel 8-bit pixel input images with 32-bit floating point output.
Result 32-bit floating point pixel is equal to the sum of the corresponding and neighboring row pixel values in a mask region of the source image defined by nKernelDim and nAnchorX.

Declaration
public void SumWindowRowBorder(NPPImage_32fC4 dest, int nMaskSize, int nAnchor, NppiBorderType eBorderType)
Parameters
Type Name Description
NPPImage_32fC4 dest

Destination image
System.Int32 nMaskSize

Length of the linear kernel array.
System.Int32 nAnchor

X offset of the kernel origin frame of reference w.r.t the source pixel.
NppiBorderType eBorderType

The border type operation to be applied at source image border boundaries.
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SwapChannels(NPPImage_16uC3, Int32[])

Swap channels.

Declaration
public void SwapChannels(NPPImage_16uC3 dest, int[] aDstOrder)
Parameters
Type Name Description
NPPImage_16uC3 dest

Destination image
System.Int32[] aDstOrder

Host memory integer array describing how channel values are permutated. The n-th entry of the array contains the number of the channel that is stored in the n-th channel of the output image.

E.g. Given an RGBA image, aDstOrder = [2,1,0] converts this to a 3 channel BGR channel order.
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SwapChannels(NPPImage_16uC4, Int32[])

Swap channels.

Declaration
public void SwapChannels(NPPImage_16uC4 dest, int[] aDstOrder)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Int32[] aDstOrder

Integer array describing how channel values are permutated. The n-th entry of the array contains the number of the channel that is stored in the n-th channel of the output image. E.g. Given an RGBA image, aDstOrder = [3,2,1,0] converts this to ABGR channel order.
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SwapChannels(Int32[])

Swap channels, in-place.

Declaration
public void SwapChannels(int[] aDstOrder)
Parameters
Type Name Description
System.Int32[] aDstOrder

Integer array describing how channel values are permutated. The n-th entry of the array contains the number of the channel that is stored in the n-th channel of the output image. E.g. Given an RGBA image, aDstOrder = [3,2,1,0] converts this to ABGR channel order.
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SwapChannelsA(NPPImage_16uC4, Int32[])

Swap channels. Not affecting Alpha

Declaration
public void SwapChannelsA(NPPImage_16uC4 dest, int[] aDstOrder)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Int32[] aDstOrder

Integer array describing how channel values are permutated. The n-th entry of the array contains the number of the channel that is stored in the n-th channel of the output image. E.g. Given an RGBA image, aDstOrder = [2,1,0] converts this to BGRA channel order. In the AC4R case, the alpha channel is always assumed to be channel 3.
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ThresholdA(NPPImage_16uC4, UInt16[], NppCmpOp)

Image threshold. Not affecting Alpha.

If for a comparison operations OP the predicate (sourcePixel OP nThreshold) is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.

Declaration
public void ThresholdA(NPPImage_16uC4 dest, ushort[] nThreshold, NppCmpOp eComparisonOperation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.UInt16[] nThreshold

The threshold value.
NppCmpOp eComparisonOperation

eComparisonOperation. Only allowed values are Less and Greater
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ThresholdA(NPPImage_16uC4, UInt16[], UInt16[], NppCmpOp)

Image threshold. Not affecting Alpha.

If for a comparison operations OP the predicate (sourcePixel OP nThreshold) is true, the pixel is set to nValue, otherwise it is set to sourcePixel.

Declaration
public void ThresholdA(NPPImage_16uC4 dest, ushort[] nThreshold, ushort[] nValue, NppCmpOp eComparisonOperation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.UInt16[] nThreshold

The threshold value.
System.UInt16[] nValue

The threshold replacement value.
NppCmpOp eComparisonOperation

eComparisonOperation. Only allowed values are Less and Greater
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ThresholdA(UInt16[], NppCmpOp)

In place image threshold. Not affecting Alpha.

If for a comparison operations OP the predicate (sourcePixel OP nThreshold) is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.

Declaration
public void ThresholdA(ushort[] nThreshold, NppCmpOp eComparisonOperation)
Parameters
Type Name Description
System.UInt16[] nThreshold

The threshold value.
NppCmpOp eComparisonOperation

eComparisonOperation. Only allowed values are Less and Greater
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ThresholdA(UInt16[], UInt16[], NppCmpOp)

In place image threshold. Not affecting Alpha.

If for a comparison operations OP the predicate (sourcePixel OP nThreshold) is true, the pixel is set to nValue, otherwise it is set to sourcePixel.

Declaration
public void ThresholdA(ushort[] nThreshold, ushort[] nValue, NppCmpOp eComparisonOperation)
Parameters
Type Name Description
System.UInt16[] nThreshold

The threshold value.
System.UInt16[] nValue

The threshold replacement value.
NppCmpOp eComparisonOperation

eComparisonOperation. Only allowed values are Less and Greater
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ThresholdGTA(NPPImage_16uC4, UInt16[])

Image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is greater than nThreshold is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.

Declaration
public void ThresholdGTA(NPPImage_16uC4 dest, ushort[] nThreshold)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.UInt16[] nThreshold

The threshold value.
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ThresholdGTA(NPPImage_16uC4, UInt16[], UInt16[])

Image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is greater than nThreshold is true, the pixel is set to nValue, otherwise it is set to sourcePixel.

Declaration
public void ThresholdGTA(NPPImage_16uC4 dest, ushort[] nThreshold, ushort[] nValue)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.UInt16[] nThreshold

The threshold value.
System.UInt16[] nValue

The threshold replacement value.
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ThresholdGTA(UInt16[])

In place image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is greater than nThreshold is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.

Declaration
public void ThresholdGTA(ushort[] nThreshold)
Parameters
Type Name Description
System.UInt16[] nThreshold

The threshold value.
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ThresholdGTA(UInt16[], UInt16[])

In place image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is greater than nThreshold is true, the pixel is set to nValue, otherwise it is set to sourcePixel.

Declaration
public void ThresholdGTA(ushort[] nThreshold, ushort[] nValue)
Parameters
Type Name Description
System.UInt16[] nThreshold

The threshold value.
System.UInt16[] nValue

The threshold replacement value.
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ThresholdLTA(NPPImage_16uC4, UInt16[])

Image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is less than nThreshold is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.

Declaration
public void ThresholdLTA(NPPImage_16uC4 dest, ushort[] nThreshold)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.UInt16[] nThreshold

The threshold value.
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ThresholdLTA(NPPImage_16uC4, UInt16[], UInt16[])

Image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is less than nThreshold is true, the pixel is set to nValue, otherwise it is set to sourcePixel.

Declaration
public void ThresholdLTA(NPPImage_16uC4 dest, ushort[] nThreshold, ushort[] nValue)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.UInt16[] nThreshold

The threshold value.
System.UInt16[] nValue

The threshold replacement value.
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ThresholdLTA(UInt16[])

In place image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is less than nThreshold is true, the pixel is set to nThreshold, otherwise it is set to sourcePixel.

Declaration
public void ThresholdLTA(ushort[] nThreshold)
Parameters
Type Name Description
System.UInt16[] nThreshold

The threshold value.
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ThresholdLTA(UInt16[], UInt16[])

In place image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is less than nThreshold is true, the pixel is set to nValue, otherwise it is set to sourcePixel.

Declaration
public void ThresholdLTA(ushort[] nThreshold, ushort[] nValue)
Parameters
Type Name Description
System.UInt16[] nThreshold

The threshold value.
System.UInt16[] nValue

The threshold replacement value.
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ThresholdLTGTA(NPPImage_16uC4, UInt16[], UInt16[], UInt16[], UInt16[])

Image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is less than nThresholdLT is true, the pixel is set to nValueLT, else if sourcePixel is greater than nThresholdGT the pixel is set to nValueGT, otherwise it is set to sourcePixel.

Declaration
public void ThresholdLTGTA(NPPImage_16uC4 dest, ushort[] nThresholdLT, ushort[] nValueLT, ushort[] nThresholdGT, ushort[] nValueGT)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.UInt16[] nThresholdLT

The thresholdLT value.
System.UInt16[] nValueLT

The thresholdLT replacement value.
System.UInt16[] nThresholdGT

The thresholdGT value.
System.UInt16[] nValueGT

The thresholdGT replacement value.
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ThresholdLTGTA(UInt16[], UInt16[], UInt16[], UInt16[])

In place image threshold. Not affecting Alpha.

If for a comparison operations sourcePixel is less than nThresholdLT is true, the pixel is set to nValueLT, else if sourcePixel is greater than nThresholdGT the pixel is set to nValueGT, otherwise it is set to sourcePixel.

Declaration
public void ThresholdLTGTA(ushort[] nThresholdLT, ushort[] nValueLT, ushort[] nThresholdGT, ushort[] nValueGT)
Parameters
Type Name Description
System.UInt16[] nThresholdLT

The thresholdLT value.
System.UInt16[] nValueLT

The thresholdLT replacement value.
System.UInt16[] nThresholdGT

The thresholdGT value.
System.UInt16[] nValueGT

The thresholdGT replacement value.
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ToCudaPitchedDeviceVariable()

Converts a NPPImage to a CudaPitchedDeviceVariable

Declaration
public CudaPitchedDeviceVariable<ushort4> ToCudaPitchedDeviceVariable()
Returns
Type Description
CudaPitchedDeviceVariable<ushort4>
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Transpose(NPPImage_16uC4)

image transpose

Declaration
public void Transpose(NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
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ValidNormLevelAGetBufferHostSize()

Device scratch buffer size (in bytes) for CrossCorrValid_NormLevel. Not affecting Alpha.

Declaration
public int ValidNormLevelAGetBufferHostSize()
Returns
Type Description
System.Int32
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ValidNormLevelGetBufferHostSize()

Device scratch buffer size (in bytes) for CrossCorrValid_NormLevel.

Declaration
public int ValidNormLevelGetBufferHostSize()
Returns
Type Description
System.Int32
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WarpAffine(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, Double[,], InterpolationMode)

Affine transform of an image.

This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. The function operates on source and destination regions of interest. The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = C_00 * x + C_01 * y + C_02

Y_new = C_10 * x + C_11 * y + C_12

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but does not perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one.

In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public static void WarpAffine(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, NPPImage_16uC1 dest0, NPPImage_16uC1 dest1, NPPImage_16uC1 dest2, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image (Channel 0)
NPPImage_16uC1 src1

Source image (Channel 1)
NPPImage_16uC1 src2

Source image (Channel 2)
NPPImage_16uC1 dest0

Destination image (Channel 0)
NPPImage_16uC1 dest1

Destination image (Channel 1)
NPPImage_16uC1 dest2

Destination image (Channel 2)
System.Double[,] coeffs

Affine transform coefficients [2,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpAffine(NPPImage_16uC4, Double[,], InterpolationMode)

Affine transform of an image.

This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. The function operates on source and destination regions of interest. The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = C_00 * x + C_01 * y + C_02

Y_new = C_10 * x + C_11 * y + C_12

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but does not perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one.

In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpAffine(NPPImage_16uC4 dest, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double[,] coeffs

Affine transform coefficients [2,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpAffineA(NPPImage_16uC4, Double[,], InterpolationMode)

Affine transform of an image. Not affecting Alpha channel.

This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. The function operates on source and destination regions of interest. The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = C_00 * x + C_01 * y + C_02

Y_new = C_10 * x + C_11 * y + C_12

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but does not perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one.

In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpAffineA(NPPImage_16uC4 dest, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double[,] coeffs

Affine transform coefficients [2,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpAffineBack(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, Double[,], InterpolationMode)

Inverse affine transform of an image.

This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpAffineBack. The function operates on source and destination regions of interest.

The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = C_00 * x + C_01 * y + C_02

Y_new = C_10 * x + C_11 * y + C_12

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public static void WarpAffineBack(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, NPPImage_16uC1 dest0, NPPImage_16uC1 dest1, NPPImage_16uC1 dest2, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image (Channel 0)
NPPImage_16uC1 src1

Source image (Channel 1)
NPPImage_16uC1 src2

Source image (Channel 2)
NPPImage_16uC1 dest0

Destination image (Channel 0)
NPPImage_16uC1 dest1

Destination image (Channel 1)
NPPImage_16uC1 dest2

Destination image (Channel 2)
System.Double[,] coeffs

Affine transform coefficients [2,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpAffineBack(NPPImage_16uC4, Double[,], InterpolationMode)

Inverse affine transform of an image.

This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpAffineBack. The function operates on source and destination regions of interest.

The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = C_00 * x + C_01 * y + C_02

Y_new = C_10 * x + C_11 * y + C_12

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpAffineBack(NPPImage_16uC4 dest, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double[,] coeffs

Affine transform coefficients [2,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpAffineBackA(NPPImage_16uC4, Double[,], InterpolationMode)

Inverse affine transform of an image. Not affecting Alpha channel.

This function operates using given transform coefficients that can be obtained by using nppiGetAffineTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpAffineBack. The function operates on source and destination regions of interest.

The affine warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = C_00 * x + C_01 * y + C_02

Y_new = C_10 * x + C_11 * y + C_12

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetAffineQuad and nppiGetAffineBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpAffineBackA(NPPImage_16uC4 dest, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double[,] coeffs

Affine transform coefficients [2,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpAffineQuad(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, Double[,], NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, Double[,], InterpolationMode)

Affine transform of an image.

This function performs affine warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpAffineQuad uses the same formulas for pixel mapping as in nppiWarpAffine function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified eInterpolation method and written to the destination ROI.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public static void WarpAffineQuad(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, double[, ] srcQuad, NPPImage_16uC1 dest0, NPPImage_16uC1 dest1, NPPImage_16uC1 dest2, double[, ] dstQuad, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image (Channel 0)
NPPImage_16uC1 src1

Source image (Channel 1)
NPPImage_16uC1 src2

Source image (Channel 2)
System.Double[,] srcQuad

Source quadrangle [4,2]
NPPImage_16uC1 dest0

Destination image (Channel 0)
NPPImage_16uC1 dest1

Destination image (Channel 1)
NPPImage_16uC1 dest2

Destination image (Channel 2)
System.Double[,] dstQuad

Destination quadrangle [4,2]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpAffineQuad(Double[,], NPPImage_16uC4, Double[,], InterpolationMode)

Affine transform of an image.

This function performs affine warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpAffineQuad uses the same formulas for pixel mapping as in nppiWarpAffine function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified eInterpolation method and written to the destination ROI.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpAffineQuad(double[, ] srcQuad, NPPImage_16uC4 dest, double[, ] dstQuad, InterpolationMode eInterpolation)
Parameters
Type Name Description
System.Double[,] srcQuad

Source quadrangle [4,2]
NPPImage_16uC4 dest

Destination image
System.Double[,] dstQuad

Destination quadrangle [4,2]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpAffineQuadA(Double[,], NPPImage_16uC4, Double[,], InterpolationMode)

Affine transform of an image. Not affecting Alpha channel.

This function performs affine warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpAffineQuad uses the same formulas for pixel mapping as in nppiWarpAffine function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified eInterpolation method and written to the destination ROI.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpAffineQuadA(double[, ] srcQuad, NPPImage_16uC4 dest, double[, ] dstQuad, InterpolationMode eInterpolation)
Parameters
Type Name Description
System.Double[,] srcQuad

Source quadrangle [4,2]
NPPImage_16uC4 dest

Destination image
System.Double[,] dstQuad

Destination quadrangle [4,2]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpPerspective(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, Double[,], InterpolationMode)

Perspective transform of an image.

This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22)

Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22)

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public static void WarpPerspective(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, NPPImage_16uC1 dest0, NPPImage_16uC1 dest1, NPPImage_16uC1 dest2, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image (Channel 0)
NPPImage_16uC1 src1

Source image (Channel 1)
NPPImage_16uC1 src2

Source image (Channel 2)
NPPImage_16uC1 dest0

Destination image (Channel 0)
NPPImage_16uC1 dest1

Destination image (Channel 1)
NPPImage_16uC1 dest2

Destination image (Channel 2)
System.Double[,] coeffs

Perspective transform coefficients [3,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpPerspective(NPPImage_16uC4, Double[,], InterpolationMode)

Perspective transform of an image.

This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22)

Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22)

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpPerspective(NPPImage_16uC4 dest, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double[,] coeffs

Perspective transform coefficients [3,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
| Improve this Doc View Source

WarpPerspectiveA(NPPImage_16uC4, Double[,], InterpolationMode)

Perspective transform of an image. Not affecting Alpha channel.

This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22)

Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22)

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpPerspectiveA(NPPImage_16uC4 dest, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double[,] coeffs

Perspective transform coefficients [3,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpPerspectiveBack(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, Double[,], InterpolationMode)

Inverse perspective transform of an image.

This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpPerspectiveBack. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22)

Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22)

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public static void WarpPerspectiveBack(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, NPPImage_16uC1 dest0, NPPImage_16uC1 dest1, NPPImage_16uC1 dest2, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image (Channel 0)
NPPImage_16uC1 src1

Source image (Channel 1)
NPPImage_16uC1 src2

Source image (Channel 2)
NPPImage_16uC1 dest0

Destination image (Channel 0)
NPPImage_16uC1 dest1

Destination image (Channel 1)
NPPImage_16uC1 dest2

Destination image (Channel 2)
System.Double[,] coeffs

Perspective transform coefficients [3,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpPerspectiveBack(NPPImage_16uC4, Double[,], InterpolationMode)

Inverse perspective transform of an image.

This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpPerspectiveBack. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22)

Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22)

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpPerspectiveBack(NPPImage_16uC4 dest, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double[,] coeffs

Perspective transform coefficients [3,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpPerspectiveBackA(NPPImage_16uC4, Double[,], InterpolationMode)

Inverse perspective transform of an image. Not affecting Alpha channel.

This function operates using given transform coefficients that can be obtained by using nppiGetPerspectiveTransform function or set explicitly. Thus there is no need to invert coefficients in your application before calling WarpPerspectiveBack. The function operates on source and destination regions of interest. The perspective warp function transforms the source image pixel coordinates (x,y) according to the following formulas:

X_new = (C_00 * x + C_01 * y + C_02) / (C_20 * x + C_21 * y + C_22)

Y_new = (C_10 * x + C_11 * y + C_12) / (C_20 * x + C_21 * y + C_22)

The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI. The functions nppiGetPerspectiveQuad and nppiGetPerspectiveBound can help with destination ROI specification.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpPerspectiveBackA(NPPImage_16uC4 dest, double[, ] coeffs, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC4 dest

Destination image
System.Double[,] coeffs

Perspective transform coefficients [3,3]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpPerspectiveQuad(NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, Double[,], NPPImage_16uC1, NPPImage_16uC1, NPPImage_16uC1, Double[,], InterpolationMode)

Perspective transform of an image.

This function performs perspective warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpPerspectiveQuad uses the same formulas for pixel mapping as in nppiWarpPerspective function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public static void WarpPerspectiveQuad(NPPImage_16uC1 src0, NPPImage_16uC1 src1, NPPImage_16uC1 src2, double[, ] srcQuad, NPPImage_16uC1 dest0, NPPImage_16uC1 dest1, NPPImage_16uC1 dest2, double[, ] destQuad, InterpolationMode eInterpolation)
Parameters
Type Name Description
NPPImage_16uC1 src0

Source image (Channel 0)
NPPImage_16uC1 src1

Source image (Channel 1)
NPPImage_16uC1 src2

Source image (Channel 2)
System.Double[,] srcQuad

Source quadrangle [4,2]
NPPImage_16uC1 dest0

Destination image (Channel 0)
NPPImage_16uC1 dest1

Destination image (Channel 1)
NPPImage_16uC1 dest2

Destination image (Channel 2)
System.Double[,] destQuad

Destination quadrangle [4,2]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpPerspectiveQuad(Double[,], NPPImage_16uC4, Double[,], InterpolationMode)

Perspective transform of an image.

This function performs perspective warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpPerspectiveQuad uses the same formulas for pixel mapping as in nppiWarpPerspective function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpPerspectiveQuad(double[, ] srcQuad, NPPImage_16uC4 dest, double[, ] destQuad, InterpolationMode eInterpolation)
Parameters
Type Name Description
System.Double[,] srcQuad

Source quadrangle [4,2]
NPPImage_16uC4 dest

Destination image
System.Double[,] destQuad

Destination quadrangle [4,2]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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WarpPerspectiveQuadA(Double[,], NPPImage_16uC4, Double[,], InterpolationMode)

Perspective transform of an image. Not affecting Alpha channel.

This function performs perspective warping of a the specified quadrangle in the source image to the specified quadrangle in the destination image. The function nppiWarpPerspectiveQuad uses the same formulas for pixel mapping as in nppiWarpPerspective function. The transform coefficients are computed internally. The transformed part of the source image is resampled using the specified interpolation method and written to the destination ROI.

NPPI specific recommendation:

The function operates using 2 types of kernels: fast and accurate. The fast method is about 4 times faster than its accurate variant, but doesn't perform memory access checks and requires the destination ROI to be 64 bytes aligned. Hence any destination ROI is chunked into 3 vertical stripes: the first and the third are processed by accurate kernels and the central one is processed by the fast one. In order to get the maximum available speed of execution, the projection of destination ROI onto image addresses must be 64 bytes aligned. This is always true if the values 

(int)((void *)(pDst + dstRoi.x))
and 

(int)((void *)(pDst + dstRoi.x + dstRoi.width))

are multiples of 64. Another rule of thumb is to specify destination ROI in such way that left and right sides of the projected image are separated from the ROI by at least 63 bytes from each side. However, this requires the whole ROI to be part of allocated memory. In case when the conditions above are not satisfied, the function may decrease in speed slightly and will return NPP_MISALIGNED_DST_ROI_WARNING warning.

Declaration
public void WarpPerspectiveQuadA(double[, ] srcQuad, NPPImage_16uC4 dest, double[, ] destQuad, InterpolationMode eInterpolation)
Parameters
Type Name Description
System.Double[,] srcQuad

Source quadrangle [4,2]
NPPImage_16uC4 dest

Destination image
System.Double[,] destQuad

Destination quadrangle [4,2]
InterpolationMode eInterpolation

Interpolation mode: can be NearestNeighbor, Linear or Cubic
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Xor(NPPImage_16uC4)

In place image logical Xor.

Declaration
public void Xor(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
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Xor(NPPImage_16uC4, NPPImage_16uC4)

Image logical Xor.

Declaration
public void Xor(NPPImage_16uC4 src2, NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
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Xor(UInt16[])

In place image logical Xor with constant.

Declaration
public void Xor(ushort[] nConstant)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
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Xor(UInt16[], NPPImage_16uC4)

Image logical Xor with constant.

Declaration
public void Xor(ushort[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
NPPImage_16uC4 dest

Destination image
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XorA(NPPImage_16uC4)

In place image logical Xor. Unchanged Alpha.

Declaration
public void XorA(NPPImage_16uC4 src2)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
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XorA(NPPImage_16uC4, NPPImage_16uC4)

Image logical Xor. Unchanged Alpha.

Declaration
public void XorA(NPPImage_16uC4 src2, NPPImage_16uC4 dest)
Parameters
Type Name Description
NPPImage_16uC4 src2

2nd source image
NPPImage_16uC4 dest

Destination image
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XorA(UInt16[])

In place image logical Xor with constant. Unchanged Alpha.

Declaration
public void XorA(ushort[] nConstant)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
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XorA(UInt16[], NPPImage_16uC4)

Image logical Xor with constant. Unchanged Alpha.

Declaration
public void XorA(ushort[] nConstant, NPPImage_16uC4 dest)
Parameters
Type Name Description
System.UInt16[] nConstant

Value (Array length = 4)
NPPImage_16uC4 dest

Destination image

Operators

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Implicit(CudaPitchedDeviceVariable<ushort4> to NPPImage_16uC4)

Converts a CudaPitchedDeviceVariable to a NPPImage

Declaration
public static implicit operator NPPImage_16uC4(CudaPitchedDeviceVariable<ushort4> img)
Parameters
Type Name Description
CudaPitchedDeviceVariable<ushort4> img

CudaPitchedDeviceVariable
Returns
Type Description
NPPImage_16uC4

NPPImage with the same device pointer and size of CudaPitchedDeviceVariable with ROI set to full image
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Implicit(NPPImage_16uC4 to CudaPitchedDeviceVariable<ushort4>)

Converts a NPPImage to a CudaPitchedDeviceVariable

Declaration
public static implicit operator CudaPitchedDeviceVariable<ushort4>(NPPImage_16uC4 img)
Parameters
Type Name Description
NPPImage_16uC4 img

NPPImage
Returns
Type Description
CudaPitchedDeviceVariable<ushort4>

CudaPitchedDeviceVariable with the same device pointer and size of NPPImage without ROI information

Implements

System.IDisposable